Microchip TC1185 Handleiding

Microchip Niet gecategoriseerd TC1185

Lees hieronder de 📖 handleiding in het Nederlandse voor Microchip TC1185 (76 pagina's) in de categorie Niet gecategoriseerd. Deze handleiding was nuttig voor 19 personen en werd door 2 gebruikers gemiddeld met 4.5 sterren beoordeeld

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Analog and Interface Product Selector Guide
Thermal Management • Motor Driver • Power Management
Interface and Networking Peripherals • Linear and Mixed Signal
CO and Smoke Detector ICs
Analog and Interface
www.microchip.com/analog
www.microchip.com/analog
2
Table of Contents
Thermal Management
Temperature Sensors 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Logic Output Temperature Sensors 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Voltage Output Temperature Sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Serial Output Temperature Sensors 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Serial Output Temperature Sensors with Multichannel Temperature Sensors 5 . .
Sensor Conditioning ICs 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Open-Loop Fan Controllers and Fan Fault Detectors 6 . . . . . . . . . . . . . . . . . . . . . . .
Closed-Loop Fan Controllers with SMBus/I
2C Interface 6 . . . . . . . . . . . . . . . . . . . . .
Motor Drivers
Stepper Motors, DC Motors and 3-Phase BLDC Motors 7 . . . . . . . . . . . . . . . . . . . .
Position Sensors
Inductive Sensors 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Management
Voltage References 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Single Output Linear Regulators 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Multiple Output Linear Regulators 15 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Linear Regulators–LDO Controller and SIM Card 17 . . . . . . . . . . . . . . . . . . . . . . . . .
DDR Termination Regulators 17 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
High-Voltage Linear Regulators 17 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Single Output Switching Regulators (Buck) 17 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Single Output Switching Regulators (Boost) 19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Multiple Output Switching Regulators 20 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Combination Switching Regulators 21 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Inductorless Oine Switching Regulators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
PWM Controllers 21 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Hybrid PWM Controllers 23 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Modules 24 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Charge Pump DC-to-DC Converters 24 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Inverting or Doubling Charge Pumps 24 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Regulated Charge Pumps 24 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CPU/System Supervisors 25 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power MOSFET Drivers 27 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Low-Side Power MOSFET Drivers 28 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
High-Side Power MOSFET Drivers 30 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Synchronous Power MOSFET Drivers 30 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Battery Chargers 31 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Hot Swap Controllers 32 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Switches 32 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
USB Port Power Controllers 32 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Current Limit USB Protection Switches 33 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Load Switches 34 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Reverse Power Feed 35 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Display and LED Drivers
Electroluminescent Backlight Drivers 36 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
16-Segment Drivers 36 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oine Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Single Lamp Drivers 36 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Dual Lamp Drivers 36 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
LED Drivers 36 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Automotive 36 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
General Purpose 36 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Backlight 37 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Linear 38 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Linear Regulators 38 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Display 38 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sequential Linear 38 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Camera Flash 38 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
High-Voltage Interface
Driver Arrays 39 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sink 39 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Source 39 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Source-Sink 40 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ampliers and MEMS Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
MOSFETS - Interface 40 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Depletion-Mode N-Channel 40 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Enhancement Mode N-Channel 40 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Enhancement Mode P-Channel 41 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
N-Channel (Enhancement Mode MOSFET Arrays) 42 . . . . . . . . . . . . . . . . . . . . .
Complimentary (Enhancement Mode MOSFET Arrays) 42 . . . . . . . . . . . . . . . . .
Applications Specic. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
Liquid Lens Driver 43 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Complimentary MOSFET Level Translator and Driver 43 . . . . . . . . . . . . . . . . . . .
High-Side Current Monitor 43 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fault Protection 43 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Relay Driver and Controller 43 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Linear
Op Amps 43 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Zero-Drift Operational Ampliers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
Dierential Ampliers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
Programmable Gain Ampliers (PGA) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
Selectable Gain Ampliers (SGA) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
Instrumentation Ampliers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
Comparators 50 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Current Sense Ampliers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
Mixed Signal
Successive Approximation Register (SAR) A/D Converters 50 . . . . . . . . . . . . . . . . . .
Delta-Sigma A/D Converters 50 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pipelined A/D Converters 52 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Energy Metering and Power Monitoring ICs 53 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Energy Measurement AFEs 53 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DC Power Monitors 54 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Dual-Slope A/D Converters 54 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Binary and BCD A/D Converters 54 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Display A/D Converters 54 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Digital Potentiometers 55 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Frequency-to-Voltage/Voltage-to-Frequency Converters 56 . . . . . . . . . . . . . . . . . . . .
D/A Converters 56 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interface and Networking
CAN Products 58 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
LIN Products 58 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Line Circuits 59 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Line Drivers 61 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ethernet Products. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62
Ethernet Controllers 62 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ethernet Bridges 62 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ethernet Transceivers 62 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EtherCat® Controllers 62 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ethernet Switches 63 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Serial Peripherals 63 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wi-Fi® Modules 63 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wi-Fi RF Front-End Products 64 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bluetooth® Modules 65 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IEEE 802.15.4 zigbee
® RF Transceiver Products 66 . . . . . . . . . . . . . . . . . . . . . . . . . .
Sub-GHz Transceivers/Modules 66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sub-GHz Transmitters 66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sub-GHz Receivers 66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MCU Transmitters 66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
USB Bridge Devices 66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
USB Products 66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
USB Hub Controllers 66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
USB-C™ Power and Charging 67 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
USB Transceivers/Switches 67 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
USB Flash Media Controllers 67 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
USB Security 67 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Real-Time Clock/Calendar (RTCC) 67 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CO and Smoke Detector ICs
Photoelectric Smoke Detector ICs 68 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ionization Smoke Detector ICs 68 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ionization Smoke Detector Front Ends 68 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CO Detectors 68 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Piezoelectric Horn Drivers 69 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ultrasound
High-Voltage Analog Multiplexers 69 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ultrasound MOSFET Drivers 70 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ultrasound TR Switches 70 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Arbitrary Wafeform Generators 70 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ultrasound Transmitters 70 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PoE Controllers 71 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Total System Solutions
Total System Solutions 72 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Analog and Interface Product Selector Guide 3
Analog and Interface Solutions
Are You Looking for Complete Analog and Interface Design Solutions?
Microchip’s integrated analog technology, peripherals and features are engineered to meet today’s demanding design require-
ments. Our broad spectrum of analog products addresses thermal management, power management, battery management,
mixed-signal, linear, interface and safety and security solutions. Combined with Microchip’s Intelligent Analog microcontrollers, our
extensive analog portfolio can be used in thousands of high-performance design applications in the automotive, communications
(wireless), consumer, computing and industrial control markets.
Our broad portfolio of standalone analog
and interface devices oers highly inte-
grated solutions that combine various
analog functions in space-saving packages
and support a variety of bus interfaces.
Many of these devices support functionality
that enhances the analog features currently
available on PIC® MCUs.
Want a Business Partner,
Not Just a Vendor?
Successful companies recognize the value
of a strategic supplier relationship to help
them deliver innovative products to market
quickly. They trust their suppliers to furnish
quality components for current design
opportunities as well as technology road
maps and innovative solutions to stay ahead of tomorrow’s design trends. Microchip provides low-risk product development,
lower total system cost and faster time to market to more than 80,000 of these successful companies worldwide. Headquartered
in Chandler, Arizona, Microchip oers outstanding technical support along with dependable delivery and quality.
Are Quality and Delivery a Concern?
Microchip’s quality systems are certied according to the International Organization for Standards/Technical Specication (ISO/
TS)-16949:2002 requirements. This demonstrates that our quality systems meet the most stringent industry quality-management
system standards, resulting in high-quality semiconductor products. Direct control over manufacturing resources allows shortened
design and production cycles. By owning the wafer fabrication facilities and the majority of the test and assembly operations, and by
employing proprietary statistical process control techniques, Microchip has been able to achieve and maintain high production yields.
Need Additional Support and Resources?
Microchip is committed to supporting its customers by helping design engineers develop products faster and more eciently. You
can access three main service areas at www.microchip.com. The Design Support area provides a fast way to get questions an-
swered. The Sample and Buy area oers evaluation samples of any Microchip device. microchipDIRECT provides 24-hour pricing,
ordering, inventory and credit for convenient purchasing of all Microchip devices and development tools. This site also features on-
line programming capabilities. Finally, the Training area oers opportunities to expand your knowledge with Microchip’s online web
seminars and hands-on courses at our worldwide Technical Training Centers. Our seminars and training classes are designed to t
your schedule and oer an overview of many product, development tool and application topics. Visit www.microchip.com/training
for class content and schedules.
Have you ever encountered a technical dilemma at a critical point in your design development and your supplier was not available
to answer your questions? Microchip’s 24/7 global technical support line oers you technical support resources any time help
is needed. Because some technical problems require hands-on assistance in order to be resolved quickly, Microchip has also
developed a global team of eld applications engineers and eld sales engineers who provide local assistance.
Microchip’s Standalone Analog and Interface Portfolio
Linear Mixed SignalPower Management
Amplifiers
Comparators
Interface
CAN, CAN FD, LIN
HV Interface
USB and I/O Expanders
Ethernet
Wireless
Real-Time Clock/Calendar
DC/DC Converters
PWM Controllers
Battery Chargers
Power Modules
Power MOSFET Drivers
Power MOSFETs
Motor Drivers
System Supervisors
Voltage Detectors
Power Switches
Hot Swap
Power Controllers
DDR and
SCSI rminatorsTe
Display/LED Drivers
A/D Converters
Clock and mingTi
Oscillators
Clock Generators
Clock and Data Distribution
Ultrasound
Ultrasound Products
CO and Smoke
Detector ICs
Smoke Detector ICs
Piezoelectric Horn Drivers
Thermal Management
Temperature Sensors
Fan Control and
Management
Current/DC Power
Measurement ICs
Power Monitoring
and Metering
DACs and Digital
Potentiometers
Voltage References
www.microchip.com/analog
4
THERMAL MANAGEMENT
THERMAL MANAGEMENT: Multichannel Temperature Sensors
Part #
Typical
Accuracy
(°C)
Maximum
Accuracy
@ 25°C (°C)
Maximum
Temperature
Range (°C)
V Range cc
(V)
Maximum
Supply
Current (µA)
Features
Logic Output Temperature Sensors
TC6501 ±0.5 ±3 40−55 to +125 +2.7 to +5.5 Cross to MAX6501, open-drain
TC6502 −55 to +125 +2.7 to +5.5 Cross to MAX6502, push-pull±0.5 ±3 40
TC6503 ±0.5 ±3 40−55 to +125 +2.7 to +5.5 Cross to MAX6503, open-drain
TC6504 ±0.5 ±3 40−55 to +125 +2.7 to +5.5 Cross to MAX6504, push-pull
TC620 −40 to +125 +4.5 to +18 Two resistor-programmable trip points±1 ±3 400
TC621 Note 1 Note 1 −40 to +85 +4.5 to +18 Requires external thermistor, resistor-programmable trip points400
TC622 −40 to +125 +4.5 to +18 Dual output, TO-220 for heat sink mounting, resistor-programmable trip points±1 ±5 600
TC623 −40 to +125 +2.7 to +4.5 250 Two resistor-programmable trip points±1 ±3
TC624 −40 to +125 +2.7 to +4.5 Dual output, resistor-programmable trip points±1 ±5 300
MCP9501 −40 to +125 +2.7 to +5.5 Active-High, Push-Pull Output, Rising Temperature Switch±1 ±4 40
MCP9502 −40 to +125 +2.7 to +5.5 Active-Low, Open Drain Output, Rising Temperature Switch±1 ±4 40
MCP9503 −40 to +125 +2.7 to +5.5 Active-High, Push-Pull Output, Falling Temperature Switch±1 ±4 40
MCP9504 −40 to +125 +2.7 to +5.5 Active-Low, Open Drain Output, Falling Temperature Switch±1 ±4 40
MCP9509 NS −40 to +125 +2.7 to +5.5 Resistor-programmable temperature switch±0.5 50
MCP9510 NS −40 to +125 +2.7 to +5.5 80 Resistor-programmable temperature switch±0.5
Voltage Output Temperature Sensors
MCP9700 −40 to +125 +2.3 to +5.5 12 Linear Active Thermistor±1 ±4 ®
IC, Temperature slope: 10 mV/°C
MCP9701 −40 to +125 +3.1 to +5.5 12±1 ±4 Linear Active Thermistor IC, Temperature slope: 19.53 mV/°C, cross to MAX6612
MCP9700A ±2 −40 to +125 +2.3 to +5.5 12 Linear Active Thermistor IC, Temperature slope: 10 mV/°C±1
MCP9701A ±2 −40 to +125 +3.1 to +5.5 12±1 Linear Active Thermistor IC, Temperature slope: 19.53 mV/°C, cross to MAX6612
TC1046 ±0.5 60±2 −40 to +125 +2.7 to +4.4 High precision temperature-to-voltage converter, 6.25 mV/°C
TC1047 ±2 −40 to +125 +2.7 to +4.4 High precision temperature-to-voltage converter, 10 mV/°C±0.5 60
TC1047A ±2 −40 to +125 +2.5 to +5.5 High precision temperature-to-voltage converter, 10 mV/°C±0.5 60
Serial Output Temperature Sensors
MCP9800 −55 to +125 +2.7 to +5.5±0.5 ±1 400 SMBus/I²C compatible interface, 0.0625°C to 0.5°C adj. resolution, Power-saving one-shot temperature
measurement
MCP9801 −55 to +125 +2.7 to +5.5±0.5 ±1 400 SMBus/I²C compatible interface, 0.0625°C to 0.5°C adj. resolution, Power-saving one-shot temperature
measurement, multi-drop capability
MCP9802 −55 to +125 +2.7 to +5.5±0.5 ±1 400 SMBus/I²C compatible interface with time out, 0.0625°C to 0.5°C adj. resolution,
Power-saving one-shot temperature measurement
MCP9803 −55 to +125 +2.7 to +5.5±0.5 ±1 400 SMBus/I²C compatible interface with time out, 0.0625°C to 0.5°C adj. resolution,
Power-saving one-shot temperature measurement, Multi-drop capability
MCP9804 ±0.25 −40 to +125 +2.7 to +5.5±1 400
User programmable temperature limits with alert output, 1°C temp. accuracy from −40°C to +125°C
MCP9805 ±0.5 ±1(2) −20 to +125 +3.0 to +3.6 400 JEDEC-compatible register set, SMBus/I²C compatible interface, Programmable, Shut-down modes and
EVENT output
MCP9808 ±0.25 −40 to +125 +2.7 to +5.5 0.5°C temperature accuracy from −10°C to +100°C±0.5 400
MCP9843 ±0.5 ±1(2) −20 to +125 +3.0 to +3.6 Compliant to JEDEC TSE3000B3 specication500
MCP98243 −40 to +125 +3.0 to +3.6 Serial output temperature sensor with integrated EEPROM (TSE2002B3)±1 ±3 500
MCP98244 −40 to +125 +1.7 to +3.6 Serial output temperature sensor compliant to TSE2004a±0.5 ±3 500
MCP9844 −40 to +125 +1.7 to +3.6 Serial output temperature sensor with integrated EEPROM (TSE2004a)±0.5 ±3 500
TC77 −55 to +125 +2.7 to +5.5 SPI-compatible interface, 0.0625°C temperature resolution±0.5 ±1 400
TC72 −55 to +125 +2.65 to +5.5±0.5 ±1 400
SPI-compatible interface, Power-saving one-shot temperature measurement, 0.25°C temperature resolution
TC74 ±2 −40 to +125 +2.7 to +5.5 SMBus/I±0.5 350 ²C-compatible interface, 1°C temperature resolution
TCN75A ±2 −40 to +125 +2.7 to +5.5±0.5 500 SMBus/I²C-compatible interface, power-saving one-shot temperature measurement, multi-drop capability,
0.0625°C to 0.5°C adjustable temperature resolution
AT30TS74 ±2 −55 to +125 +1.7 to +5.5 125±1 SMBus/I²C compatible interface, 0.0625°C to 0.5°C adj. resolution, power-saving one-shot temperature
measurement
AT30TS75A −55 to +125 +1.7 to +5.5 125±0.5 ±1 SMBus/I²C compatible interface, 0.0625°C to 0.5°C adj. resolution, power-saving one-shot temperature
measurement
AT30TS750A −55 to +125 +1.7 to +5.5 125±0.5 ±1
SMBus/I²C compatible interface, nonvoltatile registers to retain user-congured or pre-dened power-up defaults
AT30TSE752A 55 to +125 +1.7 to +5.5 125±0.5 ±1 SMBus/I
²C compatible interface, nonvoltatile registers to retain user-congured or pre-dened power-up
defaults, integrated 2 KB serial EEPROM
Note 1: These devices use an external temperature sensor. Accuracy of the total solution is a function of the accuracy of the external sensor.
2: Maximum accuracy measured at 85°C.
Analog and Interface Product Selector Guide 5
THERMAL MANAGEMENT: Multichannel Temperature Sensors
Part #
Typical
Accuracy
(°C)
Maximum
Accuracy
@ 25°C (°C)
Maximum
Temperature
Range (°C)
Vcc Range
(V)
Maximum
Supply
Current (µA)
Features
Serial Output Temperature Sensors (Continued)
AT30TSE754A 55 to +125 +1.7 to +5.5 125±0.5 ±1 SMBus/I²C compatible interface, nonvoltatile registers to retain user-congured or pre-dened power-
integrated 4 KB serial EEPROM
AT30TSE758A 55 to +125 +1.7 to +5.5 125±0.5 ±1 SMBus/I²C compatible interface, nonvoltatile registers to retain user-congured or pre-dened power-
integrated 8 KB serial EEPROM
AT30TSE002B 40 to +125 +2.7 to +3.6 JEDEC (JC42.4) SO-DIMM SPD + TS compliant, SMBus/I±1 ±3 500 ²C compatible interface, integrated 2 KB se
AT30TSE004A 40 to +125 +1.7 to +3.6±0.5 ±3 500 JEDEC JC42.4 (TSE2004av) DIMM SPD + TS compliant, SMBus/I²C compatible interface, integrated 4
THERMAL MANAGEMENT PRODUCTS: Multichannel Temperature Sensors
Part #
# of Remote
Temp.
Sensors
Typ.
Accuracy
(°C)
Maximum
Accuracy
@ 25°C (°C)
Maximum
Temp. Range
(°C)
Ambient
Temp.
Sensor
Alert/
THERM
Hardware
Shutdown
Vcc
Range
(V)
Typ.Supply
Current
(µA)
Description and Additional Features
Serial Output Temperature Sensors with Multichannel Temperature Sensors
MIC184 ±2.0 −55 to +125 2.7–5.5 Local/Remote Thermal Supervisor1 ±1.0 1 1 340
MIC280 ±2.0 −55 to +125 230 Precision IttyBitty1 ±1.0 1 1 – 3.0–3.6 ®
Thermal Supervisor
MIC281 −55 to +125 230 Low-Cost IttyBitty Thermal Sensor1 ±1.0 ±3.0 0 1 – 3.0–3.6
MIC284 ±2.0 −55 to +125 2 2.7–5.5 Two-Zone Thermal Supervisor with CRIT Output1 ±1.0 1 350
MIC384 2 ±2.0 −55 to +125 2.7–5.5 Three-Zone Thermal Supervisor±1.0 1 1 350
MCP9902 ±0.25 −40 to +125 2 Lower Temperature Dual Temperature Sensor1 ±1.0 1 3.0–3.6 450
MCP9903 2 ±0.25 −40 to +125 2 Lower Temperature Triple Temperature Sensor±1.0 1 3.0–3.6 450
MCP9904 ±0.25 −40 to +125 2 Lower Temperature Quad Temperature Sensor3 ±1.0 1 3.0–3.6 450
EMC1046 ±0.25 −40 to +125 395 Sextuple SMBus/I5 ±1.0 1 – 3.0–3.6 ²C Sensor with REC, Beta Compensation and Hotte
EMC1047 ±0.25 −40 to +125 395 Septuple SMBus/I6 ±1.0 1 – 3.0–3.6 ²C Sensor with REC, Beta Compensation and Hotte
EMC1072 ±0.25 −40 to +125 2 Dual SMBus/I1 ±1.0 1 3.0–3.6 430 ²C Sensor with Selectable Address
EMC1073 2 ±0.25 −40 to +125 2 Triple SMBus/I±1.0 1 3.0–3.6 430 ²C Sensor with Selectable Address
EMC1074 ±0.25 −40 to +125 2 Quad SMBus/I3 ±1.0 1 3.0–3.6 430 ²C Sensor with Selectable Address
EMC1812 ±0.25 −40 to +125 2 1.62–3.6 251 ±1.0 1 – Dual Channel 1.8V Temperature Sensor with Rate of Change, Resista
Correction, Beta Comp
EMC1813 2 ±0.25 −40 to +125 2 1.62–3.6 25±1.0 1 – Triple Channel 1.8V Temperature Sensor with Rate of Change, Resist
Correction, Beta Comp
EMC1814 ±0.25 −40 to +125 2 1.62–3.6 253 ±1.0 1 – Quad Channel 1.8V Temperature Sensor with Rate of Change, Resist
Correction, Beta Comp
EMC1815 ±0.25 −40 to +125 2 1.62–3.6 254 ±1.0 1 – Five Channel 1.8V Temperature Sensor with Rate of Change, Resista
Beta Comp
EMC1833 2 ±0.25 −40 to +125 2 1.62–3.6 25±1.0 1 – Triple Channel 1.8V Temperature Sensor with Rate of Change, Resist
Correction, Beta Comp
EMC1412 ±0.25 −40 to +125 2 Dual SMBus/I1 ±1.0 1 3.0–3.6 430 ²C Sensor with REC, Beta Compensation and Selectabl
EMC1413 2 ±0.25 −40 to +125 2 Triple SMBus/I±1.0 1 3.0–3.6 430 ²C Sensor with REC, Beta Compensation and Selectab
EMC1414 ±0.25 −40 to +125 2 Quad SMBus/I3 ±1.0 1 3.0–3.6 430 ²C Sensor with REC, Beta Compensation and Selectab
EMC1422 ±0.25 −40 to +1251 ±1.0 1 1 1 3.0–3.6 430 Dual SMBus/I²C Sensor with REC, Beta Compensation and Resistor-S
Thermal Shutdown
EMC1423 2 ±0.25 −40 to +125±1.0 1 1 1 3.0–3.6 430 Triple SMBus/I²C Sensor with REC, Beta Compensation and Resistor
Thermal Shutdown
EMC1424 ±0.25 −40 to +1253 ±1.0 1 1 1 3.0–3.6 430 Quad SMBus/I²C Sensor with REC, Beta Compensation and Resistor
Thermal Shutdown
EMC1428 7 ±0.25 −40 to +125±1.0 1 1 1 3.0–3.6 450 Octal SMBus/I
²C Sensor REC, Beta Compensation and Resistor-Setta
Thermal Shutdown and Hottest of Thermal Zones
EMC1438 7 ±0.25 −40 to +125±1.0 1 1 1 3.0–3.6 450 Octal SMBus/I
²C Sensor REC, Beta Compensation and Resistor-Setta
Thermal Shutdown and Hottest of Thermal Zones
EMC1822 1 ±0.25 ±1.0 1 1 1 1.62–3.6 25−40 to +125 Dual Channel 1.8V Temperature Sensor with Rate of Change, Res
Correction, Beta Comp
EMC1823 2 ±0.25 ±1.0 1 1 1 1.62–3.6 25−40 to +125 Triple Channel 1.8V Temperature Sensor with Rate of Change, Re
Correction, Beta Comp
EMC1824 3 ±0.25 ±1.0 1 1 1 1.62–3.6 25−40 to +125 Quad Channel 1.8V Temperature Sensor with Rate of Change, Re
Correction, Beta Comp
EMC1825 4 ±0.25 ±1.0 1 1 1 1.62–3.6 25−40 to +125 Five Channel 1.8V Temperature Sensor with Rate of Change, Res
Correction, Beta Comp
EMC1843 2 ±0.25 ±1.0 1 1 1 1.62–3.6 25−40 to +125 Triple Channel 1.8V Temperature Sensor with Rate of Change, Re
Correction, Beta Comp
Note 1: These devices use an external temperature sensor. Accuracy of the total solution is a function of the accuracy of the external sensor. Maximum accuracy measured at 85°C. TCN75 idle current is 250 mA. 2: 3:
reduces supply current to < 1 mA.
www.microchip.com/analog
6
THERMAL MANAGEMENT: Sensor Conditioning ICs
Product Description Typical Tc
Accuracy (°C)
Typical Th
Accuracy (°C)
Temperat
Range (°
MCP9600 ±1.5°C thermocouple to degrees C converter. Supports thermocouple types K, J, T, N, S, E, B and R. –40 to +11 1
MCP96L00 ±4°C thermocouple to degrees C converter. Supports thermocouple types K, J, T, N, S, E, B and R. –40 to +11 4
MCP96RL00 ±6°C thermocouple to degrees C converter. Supports thermocouple types K, J, T, N, S, E, B and R. –40 to +11 6
MCP9601 ±1.5C Thermocouple to I²C converter. This device has Opens/Shorts pin detection.
This device supports K, J, T, N, S, E, B and R type thermocouples. ±1.0 ±1.5 –40 to +1
MCP96L01 ±4.0C Thermocouple to I²C converter. This device has Opens/Shorts pin detection.
This device supports K, J, T, N, S, E, B and R type thermocouples. ±1.0 ±4.0 –40 to +1
MCP96RL01 ±6.0C Thermocouple to I²C converter. This device has Opens/Shorts pin detection.
This device supports K, J, T, N, S, E, B and R type thermocouples. ±1.0 ±6.0 –40 to +1
THERMAL MANAGEMENT: Open-Loop Fan Controllers and Fan Fault Detectors
Part # Description
# of
Temp.
Monitors
Typical
Accuracy
(°C)
Maximum
Accuracy
@ 25°C (°C)
Maximum
Temperature
Range (°C)
Vcc Range
(V)
Maximum
Supply
Current (µA)
Features
EMC2101 Single SMBus I²C Fan
Manager 2 −40 to +125 +3.0 to +3.6 1,000±0.5 ±1 Fan Controller with high-frequency PWM driver, programmab
speed table and alert
TC642 Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 1,000 FanSense™ Fan Monitor, Minimum fan speed control1
TC642B Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 FanSense Fan Monitor, Minimum fan speed control, Fan auto1 400
TC646 1Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 1,000 FanSense Fan Monitor, Auto-shutdown
TC646B Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 FanSense Fan Monitor, Auto-shutdown, Fan auto-restart1 400
TC647 Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 1,000 FanSense Fan Monitor, Minimum fan speed control1
TC647B Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 FanSense Fan Monitor, Minimum fan speed control, Fan auto1 400
TC648 Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 1,000 Overtemperature alert, Auto-shutdown1
TC648B Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 Overtemperature alert, Auto-shutdown, Fan auto-restart1 400
TC649 Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 1,000 FanSense Fan Monitor, Auto-shutdown1
TC649B Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 FanSense Fan Monitor, Auto-shutdown, Fan auto-restart1 400
TC650 1 ±1 ±3Fan Manager −40 to +125 +2.8 to +5.5 90 Overtemperature alert
TC651 1 ±1 ±3Fan Manager −40 to +125 +2.8 to +5.5 90 Overtemperature alert, Auto-shutdown
TC652 Fan Manager −40 to +125 +2.8 to +5.5 90 FanSense Fan Monitor, Overtemperature alert1 ±1 ±3
TC653 1 ±1 ±3Fan Manager −40 to +125 +2.8 to +5.5 90 FanSense Fan Monitor, Overtemperature alert, Auto-shutdow
TC654 1Dual SMBus Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 320 FanSense Fan Monitor, RPM data
TC655 1Dual SMBus Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 320 FanSense Fan Monitor, RPM data, Overtemperature alert
TC664 1Single SMBus Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 320 FanSense Fan Monitor, RPM data
TC665 1Single SMBus Fan Manager Note 1 Note 1 −40 to +85 +3.0 to +5.5 320 FanSense Fan Monitor, RPM data, Overtemperature alert
TC670 Predictive Fan Fault Detector N/A N/A −40 to +85 +3.0 to +5.5 FanSense Fan Monitor, Programmable threshold1 150
Note 1: These devices use an external temperature sensor. Accuracy of the total solution is a function of the accuracy of the external sensor.
THERMAL MANAGEMENT: Closed-Loop Fan Controllers with SMBus/I
²C Interface
Part # # of Fan
Drivers
PWM/
Linear
Control
# of Remote
Temp.
Monitors
Ambient
Temp.
Sensor
Typical
Accuracy
(°C)
Maximum
Accuracy
@ 25°C (°C)
Maximum
Temperature
Range (°C)
Vcc Range
(V)
SMBus
Alert
System
Shutdown
Voltage
Monitors Desc
EMC2112 Linear ±0.25 0 to +85 +3.3 and +5 No RPM-Based Fan Controller with1 3 1 ±1.0 Yes Yes
EMC2103-1 PWM −40 to +125 +3.0 to +3.6 No RPM-Based Fan Controller with1 1 1 ±0.5 ±1.0 Yes Yes
EMC2103-2 PWM −40 to +125 +3.0 to +3.6 No RPM-Based Fan Controller with1 3 1 ±0.5 ±1.0 Yes Yes
EMC2103-4 PWM −40 to +125 +3.0 to +3.6 No1 3 1 ±0.5 ±1.0 Yes Yes RPM-Based Fan Controller with
and EEPROM loadable
EMC2104 2 PWM ±0.25 −40 to +85 +3.0 to +3.64 1 ±1.0 Yes Yes Yes Dual RPM-Based PWM Fan Con
Shutdown
EMC2105 Linear ±0.25 −40 to +85 +3.3 and +5.01 4 1 ±1.0 Yes Yes Yes RPM-Based High-Side Fan Con
Shutdown
Analog and Interface Product Selector Guide 7
THERMAL MANAGEMENT: Closed-Loop Fan Controllers with SMBus/I
²C Interface
EMC2106 2 PWM &
Linear 4 1 ±1.0±0.25 −40 to +85 +3.3 and +5.0 Yes Yes Yes RPM-Based High Side Fan Con
Shutdown
EMC2113 PWM −40 to +125 +3.0 to +3.6 No1 3 1 ±0.5 ±1.0 Yes Yes
Single RPM-Based Fan Controller
and Hardware Thermal Shutdown
EMC2301 PWM N/A N/A N/A N/A −40 to +125 +3.0 to +3.6 No N/A Single RPM-Based PWM Fan S1Yes
EMC2302 2 PWM N/A N/A N/A N/A −40 to +125 +3.0 to +3.6 No N/A Dual RPM-Based PWM Fan SpeYes
EMC2303 PWM N/A N/A N/A N/A −40 to +125 +3.0 to +3.6 No N/A Triple RPM-Based PWM Fan Sp3Yes
EMC2305 PWM N/A N/A N/A N/A −40 to +125 +3.0 to +3.6 No N/A Penta RPM-Based PWM Fan S5Yes
MOTOR DRIVERS
MOTOR DRIVERS: Stepper Motors, DC Motors and 3-Phase BLDC Motors
Part # Motor
Type
Input
Voltage
Range (V)
Internal/
External
FETs
Output
Current
(mA)
Control Scheme
Motor
Speed
Output
Protections
Temperature
Operating
Range (°C)
Featur
ATA6826C DC Motor 7 to 40 Internal SPI N/A1000 Short Circuit, Overtemperature,
Power Supply Fail −40 to +125 3 half bridge outputs, No shoo
quiescent current <2 µA
ATA6831C DC Motor 7 to 40 Internal SPI N/A1000 Short Circuit, Overtemperature,
Power Supply Fail −40 to +125 3 half bridge outputs, No shoo
quiescent current <2 µA, PWM
ATA6832C DC Motor 7 to 40 Internal SPI N/A1000 Short Circuit, Overtemperature,
Power Supply Fail −40 to +150 3 half bridge outputs, No shoo
quiescent current <2 µA, PWM
ATA6836C DC Motor 7 to 40 Internal 650 SPI N/A Short Circuit, Overtemperature,
Power Supply Fail −40 to +125 6 half bridge outputs, No sho
quiescent current <2 µA
ATA6838C DC Motor 7 to 40 Internal 950 SPI N/A Short Circuit, Overtemperature,
Power Supply Fail −40 to +125 6 half bridge outputs, No shoo
quiescent current <2 µA
ATA6823C DC Motor 7 to 20 External PWM, DIR N/A100
Short Circuit, Overtemperature, Over/
Under Voltage,
Chargepump Fail
−40 to +125
Dead time adjust, Charge pum
battery reverse protection NMO
Watchdog, LIN TRX, Sleep mo
ATA6824C DC Motor 7 to 20 External PWM, DIR N/A100
Short Circuit, Overtemperature, Over/
Under Voltage,
Chargepump Fail
−40 to +150
Dead time adjust, Charge pum
battery reverse protection NMO
Window Watchdog, HV interfa
ATA6843 3-Phase Brushless
Motor 5.5 to 32 External Direct PWM N/A100
Short Circuit, Overtemperature, Over/
Under Voltage,
Chargepump Fail
−40 to +125
Charge pump supply for extern
protection NMOS, Dead time a
Window Watchdog, LIN TRX,
ATA6844 3-Phase Brushless
Motor 5.5 to 32 External Direct PWM N/A100
Short Circuit, Overtemperature, Over/
Under Voltage,
Chargepump Fail
−40 to +150
Charge pump supply for extern
protection NMOS, Dead time a
Window Watchdog, LIN TRX,
MCP8063 3-Phase Brushless
Motor 2.0 to 14.0 Internal 750 Sensorless Sinusoidal Frequency
Generator
Overtemperature, Motor Lock-up,
Overcurrent, Overvoltage −40 to +125
3-Phase BLDC 180° Sinusoida
Driver, Overcurrent Limitation,
Frequency at 23 kHz
MTS62C19A
One Bipolar
Stepper Motor or
Two DC Motors
10.0 to
40.0 Internal 750
Direct PWM Input,
Current Limit Control,
Microstepping
No Overtemperature,
Under Voltage −40 to +105 Dual Full-Bridge Motor Driver f
compatible with Allegro 6219
MTS2916A
One Bipolar
Stepper Motor or
Two DC Motors
10.0 to
40.0 Internal 750
Direct PWM Input,
Current Limit Control,
Microstepping
No Overtemperature,
Under Voltage −40 to +105 Dual Full-Bridge Motor Driver f
compatible with Allegro 2916
MTD6501C 3-Phase Brushless
Motor 2.0 to 14.0 Internal 800 Sensorless Sinusoidal Frequency
Generator
Overtemperature, Motor Lock-up,
Overcurrent, Overvoltage −30 to +95
3-Phase BLDC 180 Sinusoida°
Motor Driver, Overcurrent limit
Frequency at 20 kHz
MTD6501D 3-Phase Brushless
Motor 2.0 to 14.0 Internal Sensorless Sinusoidal500 Frequency
Generator
Overtemperature, Motor Lock-up,
Overcurrent, Overvoltage −30 to +95
3-Phase BLDC 180 Sinusoida°
Driver, Boost Mode, Overcurre
Switching Frequency at 20 kH
MTD6501G 3-Phase Brushless
Motor 2.0 to 14.0 Internal 800 Sensorless Sinusoidal Frequency
Generator
Overtemperature, Motor Lock-up,
Overcurrent, Overvoltage −30 to +95
3-Phase BLDC 180 Sinusoida°
Motor Driver, Overcurrent limit
Frequency at 23 kHz
MTD6502B 3-Phase Brushless
Motor 2.0 to 5.5 Internal 750 Sensorless Sinusoidal Frequency
Generator
Overtemperature, Motor Lock-up,
Overcurrent, Overvoltage −40 to +125
3-Phase BLDC Sinusoidal Sen
Driver, Direction control, Overc
Switching Frequency at 30 kH
MTD6508 3-Phase Brushless
Motor 2.0 to 5.5 Internal 750 Sensorless Sinusoidal Frequency
Generator
Overcurrent, Overvoltage,
Overtemperature, Motor Lock-up −40 to +125
180° Sinusoidal Sensorless Dr
Programmable BEMF Coecie
Switching Frequency at 30 kH
RPM and Slew Rate, Selectab
Phase Target Regulation
www.microchip.com/analog
8
MOTOR DRIVERS: Stepper Motors, DC Motors and 3-Phase BLDC Motors
Part # Motor
Type
Input
Voltage
Range (V)
Internal/
External
FETs
Output
Current
(mA)
Control Scheme
Motor
Speed
Output
Protections
Temperature
Operating
Range (°C)
Featur
MTD6505 3-Phase Brushless
Motor 2.0 to 5.5 Internal 750 Sensorless Sinusoidal Frequency
Generator
Overcurrent, Overvoltage,
Overtemperature, Motor Lock-up −40 to +125
180° Sinusoidal Sensorless Dr
Programmable BEMF Coecie
Switching Frequency at 30 kH
POSITION SENSORS
POSITION SENSORS: Inductive Sensors
Part # Calibration
Segments
Sensor
Oset
Adjust
Origin
Adjust
(bits)
Output Interface
Output
Resolution
(bits)
Redundant
IC support
# of
ADCs
ADC Sampling
Rate
(samples/sec)
ADC for external
sensor (bits) MCU Temperature
Range (°C)
LX3301A 12 Analog, PWM 12 2 2000 N/A6Yes Yes 32-bit,
8 MHz -40 to +125 AEC-Q100 Grade 1
in
LX3302A 8 12Yes Analog, PWM, SENT,
PSI5, Sin/Cos 12 2000Yes 3 10 32-bit,
8 MHz -40 to +150 AEC-Q100 Grade 0
temperature sen
POWER MANAGEMENT
POWER MANAGEMENT: Voltage References
Part # V Max in
(V)
Output Voltage
(V)
Max. Load
Current (mA)
Initial Accuracy
(max.%)
Temperature
Coecient (ppm/°C) Maximum Supply
Current (µA @ 25°C)
MCP1501 1.024, 1.250, 1.8, 2.048, 2.5, 3.0, 3.3, 4.096 20 ±0.08 8-pin 2 × 2 5.5 50 350
MCP1525 2.5 ±2 3-pin TO-925.5 ±1 50 100
MCP1541 4.096 ±2 3-pin TO-925.5 ±1 50 100
LM4040C 2.5, 4.096, 5.0 65–85 3-pin SOT-215 15 ±0.5 100
LM4040D 2.5, 4.096, 5.0 65–85 3-pin SOT-215 15 ±1 150
LM4041C 1.225, Adj. (1.24–10V) 12 70 3-pin SOT-215 ±0.5 100
LM4041D 1.225, Adj. (1.24–10V) 12 70 3-pin SOT-215 ±1 150
MIC40403 Adjustable 70 8-pin SOT-110 15 ±1
POWER MANAGEMENT: Single Output Linear Regulators
Part # Output
Current (mA)
V Min in
(V)
V Max in
(V) Vout (V) Voltage Drop
Typical (mV)
Iq Typical
(μA)
Output
Accuracy (%)
PSRR 1 kHz
(dB) Features
MCP1811 1.8 1.2, 1.8, 2.8, 3.0, 3.3 250 nA ±2 Ultra-Low Iq150 5.5 400 50
MCP1812 1.8 1.2, 1.8, 2.8, 3.0, 3.3 250 nA ±2 Ultra-Low Iq300 5.5 400 50
MIC5231 12 2.75, 3.0, 3.3, 5.0 650 nA ±210 3.5 150 50 High Input Voltage, Small Packag
MIC5232 2.7 7 1.2, 2.5, 2.8, 3.3 1.8 uA ±2 7V input10 100 55
MAQ5280 25 120 Adj. 31 μA ±2 80 Ultra-High Input Voltage, Load D4.5 1100
MIC5280 25 120 Adj. 31 μA ±2 804.5 1100 High Input Voltage, Load Dump,
Protection
MIC5281 25 120 3.3, 5.0, Adj. 2000 6 μA 90 High Input Voltage, Load Dump6 ±3
MAQ5281 25 120 3.3, 5.0, Adj. 2000 6 μA 906 ±3 High Input Voltage, Load Dump
MAQ5282 120 3.3, 5.0, Adj. 2000 6 μA 90 High Input Voltage, High PSRR50 6 ±3
MIC5282 120 3.3, 5.0, Adj. 2000 6 μA 90 High Input Voltage, Load Dump50 6 ±3
TC1014 50 6 ±0.5 642.7 1.8, 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 3.6, 4.0, 5.0 85 50 μA Ultra Low Dropout
TC1054 50 6 ±0.5 642.7 1.8, 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 3.6, 4.0, 5.0 85 50 μA Ultra Low Dropout
TC1070 2.7 1.23–5.5 85 50 μA Ultra Low Dropout50 6 ±0.5 64
TC1072 2.7 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 3.6, 4.0, 5.0 85 50 μA Ultra Low Dropout50 6 ±0.5 64
TC1223 2.7 2.5, 2.7, 2.8, 3.0, 3.3, 3.6, 4.0, 5.0 85 50 μA Ultra Low Dropout50 6 ±0.5 64
TC2014 2.7 1.8, 2.7, 2.8, 3.0, 3.3 50 μA Ultra Low Dropout50 6 45 ±0.4 55
TC2054 2.7 1.8, 2.7, 2.8, 3.0, 3.3 55 μA Ultra Low Dropout50 6 45 ±0.4 50
Analog and Interface Product Selector Guide 9
POWER MANAGEMENT: Single Output Linear Regulators
Part # Output
Current (mA)
V Min in
(V)
V Max in
(V) Vout (V) Voltage Drop
Typical (mV)
Iq Typical
(μA) Output
Accuracy (%)
PSRR 1 kHz
(dB) Features
MCP1790 70 3.0, 3.3, 5.0 700 70 μA ±0.2 906 30 High Input
MCP1791 70 3.0, 3.3, 5.0 700 70 μA ±0.2 90 High Input6 30
MIC5203 80 2.5 2.6, 2.8, 3.0, 3.3, 3.6, 3.8, 4.0, 4.5, 5.0 180 μA High Input Voltage, Small Packa16 300 ±3 60
MIC5213 80 2.5 2.5, 2.6, 2.7, 2.8, 3.0, 3.3, 3.6, 5.0 280 180 μA High Input Voltage, Small Packa16 ±3 60
TC1016 6 150 ±0.580 2.7 1.8, 2.7, 2.8, 3.0 53 μA 58 Low Droput
LP2951 2 4.8, 5.0, Adj. 380 100 μA 70 High Input Voltage, High PSRR100 30 ±0.5
MIC5200 2.5 26 3.0, 3.3, 4.8, 5.0 230 130 μA 70 Low Dropout100 ±1
MIC5233 2.3 1.8, 2.5, 3.0, 3.3, 5.0, Adj. 270 18 μA100 36 ±1 50 High Input Voltage, Reverse Batte
Protection
MCP1792 100 4.5 55 3.3, 5.0 250 25 2 70 AEC-Q100 Qualied and PPAP
Automotive Grade 0
MCP1793 100 4.5 55 3.3, 5.0 250 25 2 70 AEC-Q100 Qualied and PPAP
Automotive Grade 0
MCP1799 80 4.5 45 3.3, 5.0 300 50 2 70 AEC-Q100 Qualied and PPAP
Automotive Grade 0
MIC5253 2.7100 5.5 1.5, 1.8, 1.85, 2.5, 2.6, 2.7, 2.8, 2.9, 3.0,
3.1, 3.2, 3.3 165 ±0.575 μA 70 Low Dropout
MIC5270 −2 −16 (−)3.0, (−)4.1, (−)5.0, Adj. 35 μA ±2 Negative LDO100 500 50
MIC5271 −3.3 −16 (−)3.0, (−)4.1, (−)5.0, Adj. 25 μA ±2 Negative LDO100 500 50
TC1015 100 6 ±0.5 642.7 1.8, 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 3.6, 4.0, 5.0 180 50 μA Low Droput
TC1055 100 6 ±0.5 642.7 1.8, 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 3.6, 4.0, 5.0 180 50 μA Low Droput
TC1071 2.7 1.23–5.5 180 50 μA Low Droput100 6 ±0.5 64
TC1073 2.7 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 3.6, 4.0, 5.0 180 50 μA Low Droput100 6 ±0.5 64
TC1224 2.7 2.5, 2.7, 2.8, 3.0, 3.3, 3.6, 4.0, 5.0 180 50 μA Low Droput100 6 ±0.5 64
TC2015 2.7 1.8, 2.7, 2.8, 3.0, 3.3 90 55 μA Low Droput100 6 ±0.4 55
TC2055 2.7 1.8, 2.7, 2.8, 3.0, 3.3 90 55 μA Low Droput100 6 ±0.4 50
TC59 −10 −8 380 3 μA Negative LDO100 ±0.5 50
TC1188 120 2.7 1.8, 2.8, 2.84, 3.15 50 μA 80 High PSRR6 130 ±0.5
TC1189 120 2.7 1.8, 2.8, 2.84, 3.15 50 μA 80 High PSRR6 130 ±0.5
MCP1810 2.5 1.2, 1.8, 2.5, 3.0, 3.3, 4.2 380 0.02 μA 25 Ultra Low I150 5.5 ±1 q
MAQ5283 120 3.3, 5.0, Adj. 1800 8 μA 75 High Input Voltage, High PSRR150 6 ±3
MIC2951 2 3.3, 5.0 320 120 μA 67 Load Dump, Reverse Battery Pro150 30 ±1
MIC5205 2.5150 16 2.5, 2.7, 2.8, 2.85, 2.9, 3.0, 3.1, 3.2, 3.3,
3.6, 3.8, 4.0, 5.0, Adj. 165 ±180 μA 75 High Input Voltage, Small Packag
MIC5206 2.5 2.5, 2.7, 3.0, 3.2, 3.3, 3.6, 3.8, 4.0, 5.0, Adj. 1.3mA 75 High Input Voltage, Small Packa150 16 165 ±1
MIC5225 2.3 1.5, 1.8, 2.5, 2.7, 3.0, 3.3, 5.0, Adj. 29 μA150 16 310 ±0.5 35 High Input Voltage, Small Packag
Current Protection
MIC5234 2.3 Adj. 320 20 μA150 30 ±1 High Input Voltage, Load Dump,
and Current Protection
MIC5235 2.3 24 1.5, 1.8, 2.5, 2.7, 3.0, 3.3, 5.0, Adj. 18 μA150 310 ±1 35 High Input Voltage, Reverse Batte
Protection
MIC5236 2.3 2.5, 3.0, 3.3, 5.0, Adj. 20 μA150 30 300 ±1 55 High Input Voltage, Load Dump,
and Current Protection
MIC5238 1.0, 1.1, 1.3 23 μA Low Dropout150 1.5 6 310 ±5 50
MIC5247 2.7 1.5, 1.6, 1.8, 1.85, 2.0, 2.1, 2.2, 2.4 85 μA Low Dropout150 6 150 ±1 60
MIC5248 2.7 1.2 100 μA Low Dropout150 6 ±3 60
MIC5252 2.7 1.8, 2.5, 2.8, 2.85, 3.0, 4.75 90 μA Low Dropout150 6 135 ±1 60
MIC5255 2.7150 6 2.5, 2.6, 2.7, 2.75, 2.8, 2.85, 2.9, 3.0, 3.1,
3.2, 3.3, 3.5 135 ±1 6090 μA Low Dropout
www.microchip.com/analog
10
POWER MANAGEMENT: Single Output Linear Regulators
Part # Output
Current (mA)
V Min in
(V)
V Max in
(V) Vout (V) Voltage Drop
Typical (mV)
Iq Typical
(μA)
Output
Accuracy (%)
PSRR 1 kHz
(dB) Features
MIC5256 2.7150 6 1.5, 1.8, 2.5, 2.6, 2.7, 2.8, 2.85, 2.9, 3.0,
3.1, 3.3 135 ±1 6090 μA Low Dropout
MIC5258 2.7 1.2 85 μA Low Dropout150 6 ±3 –
MIC5265 2.7150 5.5 1.5, 1.8, 1.85, 2.5, 2.6, 2.7, 2.8, 2.85, 2.9,
3.0, 3.1, 3.2, 3.3 210 75 μA ±2 Low Dropout64
MIC5268 2.7 1.2 110 μA Low Dropout150 6 ±3 –
MIC5283 120 3.3, 5.0, Adj. 1800 8 μA 75 High Input Voltage, Load Dump150 6 ±3
MIC5295 2.3 24 3.0, 3.3, 5.0, Adj. 18 μA Reverse Battery and Current Pro150 310 ±1 50
MIC5301 2.3150 5.5 1.3, 1.5, 1.8, 2.1, 2.5, 2.6, 2.8, 2.85, 2.9,
3.0, 3.3, 4.6, Adj. 40 85 μA ±2 75 Ultra Low Dropout
MIC5302 2.3150 5.5 1.3, 1.5, 1.8, 2.1, 2.5, 2.6, 2.8, 2.85, 2.9,
3.0, 3.3, 4.6 50 6585 μA ±2 Ultra Low Dropout
MIC5304 2.3 3.15/1.85, 3.15/1.875, 3.2/1.8 85 24 μA Ultra Low Dropout150 5.5 ±0.5 65
MIC5305 2.25150 5.5 1.5, 1.8, 2.0, 2.5, 2.6, 2.7, 2.8, 2.85, 2.9,
3.0, 3.3, 4.6, 4.75, Adj. 60 ±190 μA 85 Ultra Low Dropout
MIC5306 2.25 1.8, 2.5, 2.6 16 μA 62 Ultra Low Dropout150 5.5 45 ±1
MIC5308 1.2, 1.5, 1.8, Adj. 23 μA ±2 90 Ultra Low Dropout, Ultra High PS150 1.6 5.5 45
MIC5317 2.5 1.0, 1.2, 1.5, 1.8, 2.5, 2.8, 3.0, 3.3 32 μA ±2 80 High PSRR150 6 155
MIC5365 2.5150 5.5 1.5, 1.8, 2.0, 2.5, 2.6, 2.7, 2.8, 2.85, 2.9,
3.0, 3.3 155 32 μA ±2 80 High PSRR
MIC5366 2.5150 5.5 1.5, 1.8, 2.0, 2.5, 2.6, 2.7, 2.8, 2.85, 2.9,
3.0, 3.3 155 32 μA ±2 80 High PSRR
MIC5376 2.5 2.8 120 29 μA ±2 Low Dropout150 5.5 60
MIC5377 2.5 Adj. 120 29 μA ±2 Low Dropout150 5.5 60
MIC5378 2.5 Adj. 120 29 μA ±2 Low Dropout150 5.5 60
MCP1711 670 0.6 μA Ultra Low I , Capless150 1.4 6 1.1–5.0 ±1 q
MCP1754 1.8–5.0 56 μA 72 High Performance150 3.6 16 300 ±0.4
MCP1754S 1.8–5.0 56 μA ±0.2 72 High Performance150 3.6 16 300
MCP1804 2 28 1.8–18 50 μA ±2 High Input150 300 50
TC1017 2.7 1.8, 2.6, 2.7, 2.8, 2.85, 2.9, 3.0, 3.3, 4.0 285 53 μA 58 Low Dropout150 6 ±0.5
TC1185 2.7 1.8, 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 3.6, 4.0, 5.0 270 50 μA Low Dropout150 6 ±0.5 64
TC1186 2.7 1.8, 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 3.6, 4.0, 5.0 270 50 μA Low Dropout150 6 ±0.5 64
TC1187 2.7 1.23–5.5 270 50 μA Low Dropout150 6 ±0.5 64
TC2185 2.7 1.8, 2.7, 2.8, 3.0, 3.3 55 μA High Accuracy150 6 140 ±0.4 55
TC2186 2.7 1.8, 2.7, 2.8, 3.0, 3.3 55 μA High Accuracy150 6 140 ±0.4 50
MIC5207 180 2.5 16 1.8, 2.5, 2.8, 2.9, 3.0, 3.1, 3.2, 3.3, 4.0,
5.0, Adj. 165 ±380 μA 75 High Input Voltage, Small Packag
MIC5201 200 2.5 26 3.0, 3.3, 4.8, 5.0, Adj. 270 130 μA ±2 75 Low Dropout
MIC5367 200 2.5 1.2, 1.5, 3.3 180 29 μA ±2 Low Dropout5.5 65
MIC5368 200 2.5 1.2, 1.5, 3.3 180 29 μA Low Dropout5.5 ±1 65
MIC94300 200 1.8 Input Follower 170 138 μA RippleBlocker3.6 – 0
MIC94310 200 1.8 3.6 1.2, 1.5, 1.8, 1.85, 2.5, 2.7, 2.8, 2.85, 3.0,
3.3 40 ±1170 μA 85 RippleBlocker
MIC2954 250 2 5.0, Adj. 375 140 μA Load Dump30 ±1 –
Analog and Interface Product Selector Guide 11
POWER MANAGEMENT: Single Output Linear Regulators
Part # Output
Current (mA)
V Min in
(V)
V Max in
(V) Vout (V) Voltage Drop
Typical (mV)
Iq Typical
(μA)
Output
Accuracy (%)
PSRR 1 kHz
(dB) Features
MCP1700 250 2.3 1.8, 2.5, 3.0, 3.3, 5.0 1.6 μA Low I6 300 ±0.4 44 q
MCP1702 250 2.7 13.2 1.2, 1.5, 1.8, 2.5, 2.8, 3.0, 3.3, 4.0, 5.0 625 2 μA Low I±0.4 44 q
MCP1703A 250 2.7 1.2–5.5 625 2 μA High Input, Low I16 ±0.4 35 q
MAQ5300 2.3 1.5, 1.8, 2.5, 2.8, 2.85, 3.0, 3.3 85 μA ±2 Low Dropout300 5.5 100 65
MIC5249 2.7 1.5, 1.8, 2.5, 2.8, 2.85, 3.0, 3.3 85 μA High PSRR300 6 340 ±1 65
MIC5259 2.7 1.5, 1.8, 2.1, 2.5, 2.8, 2.85, 3.0, 3.3 105 μA 70 Low Dropout300 6 300 ±0.5
MIC5303 2.3 1.5, 1.8, 2.1, 2.5, 2.6, 2.8, 2.85, 2.9, 3.0, 3.3 85 μA ±2 Ultra Low Dropout300 5.5 100 65
MIC5307 2.4 1.5, 1.8, 2.8, 3.0 120 20 μA 62 Low Dropout300 5.5 ±1
MIC5309 1.7 1.2, 1.5, 1.8, Adj. 23 μA ±2 90 Ultra High PSRR300 5.5 100
MIC5318 2.3 1.5, 1.8, 2.5, 2.8, 3.3, Adj. 85 μA ±2 75 High PSRR300 6 110
MIC5323 2.65 1.8, 2.8, 3.3, Adj. 120 90 μA ±2 80 High PSRR300 5.5
MIC5327 2.3 1.8, 2.8 180 24 μA High PSRR300 5.5 ±0.5 60
MIC5337 2.3 1.8, 2.8 180 24 μA High PSRR300 5.5 ±0.5 65
MIC5353 2.6 1.8, 2.5, 2.6, 2.8, 3.0, 3.3, Adj. 90 μA ±2 Low Dropout300 6 160 60
MIC5363 2.5 1.2, 2.1, 2.8, 3.3 225 38 μA ±2 80 High PSRR300 5.5
MIC5364 2.5 1.2, 2.1, 2.8, 3.3 225 38 μA ±2 80 High PSRR300 5.5
MIC5501 2.5 1.2, 1.8, 2.8, 3.0, 3.3 38 μA ±2 Low Dropout300 5.5 160 60
MIC5502 2.5 1.2, 1.8, 2.8, 3.0, 3.3 38 μA ±2 Low Dropout300 5.5 160 60
MIC5503 2.5 1.2, 1.8, 2.8, 3.0, 3.3 38 μA ±2 Low Dropout300 5.5 160 60
MIC5504 2.5 1.2, 1.8, 2.8, 3.0, 3.1, 3.3 38 μA ±2 Low Dropout300 5.5 160 60
MIC5512 2.5 1.2, 1.8, 2.8, 3.3 38 μA ±2 Low Dropout300 5.5 160 65
MIC5514 2.5 1.2, 1.8, 2.8, 3.0, 3.3 38 μA ±2 Low Dropout300 5.5 160 65
MCP1755 1.8–5.5 68 μA ±0.85 80 High Input, Low Dropout300 3.6 16 300
MCP1755S 1.8–5.5 68 μA ±0.85 80 Low Dropout300 3.6 16 300
MCP1824 2.1 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 200 120 μA High Accuracy300 6 ±0.4 55
MCP1824S 2.1 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 200 120 μA High Accuracy300 6 ±0.4 55
TC1107 2.7 2.5, 2.7, 2.8, 3.0, 3.3, 5.0 240 50 μA Low Dropout300 6 ±0.5 60
TC1108 2.7 2.5, 2.7, 2.8, 3.0, 3.3, 5.0 240 50 μA Low Dropout300 6 ±0.5 60
TC1173 2.7 3.3, 5.0, 2.5, 2.7, 2.8, 3.0 240 50 μA Low Dropout300 6 ±0.5 60
TC1174 2.7 1.23–5.5 270 50 μA Low Dropout300 6 ±0.5 60
TC1269 2.7 2.5, 2.8, 3.0, 3.3, 5.0 240 50 μA Low Dropout300 6 ±0.5 50
TC1300 300 6 ±0.5 602.7 2.5, 2.7, 2.8, 2.85, 3.0, 3.3 210 80 μA Low Dropout
MIC29201 2 26 3.3, 4.8, 5.0, 12 140 μA 70 Load Dump, Reverse Battery Pro400 400 ±1
MIC29202 2 26 Adj. 140 μA 70 Load Dump, Reverse Battery Pro400 400 ±1
MIC29204 2 26 5.0, Adj. 140 μA 70 Load Dump, Reverse Battery Pro400 400 ±1
MIC2920A 2 26 3.3, 4.8, 5.0, 12 140 μA 70 Load Dump, Reverse Battery Pro400 400 ±1
MIC5325 1.7 1.2, 1.5, 1.8, 3.3, 3.6 35 μA ±2 Low Noise400 5.5 110 65
MIC47050 1.2, 1.8, Adj. 6 μA Ultra Low Dropout500 1 3.6 44 ±0.5 50
MIC47053 Adj. 6 μA ±2 Ultra Low Dropout500 1 3.6 44 55
MIC5209 2.5 1.8, 2.5, 3.0, 3.3, 3.6, 4.2, 5.0, Adj. 8 mA 75 High Input Voltage, Small Packa500 16 350 ±1
MIC5216 2.5 12 2.5, 3.3, 3.6, 5.0 8 mA 75 High Input Voltage, Small Packag500 300 ±1
MIC5219 2.5 12500 2.5, 2.6, 2.7, 2.8, 2.85, 2.9, 3.0, 3.1, 3.3,
3.6, 5.0, Adj. 350 ±112 mA 75 High Input Voltage, Small Packag
www.microchip.com/analog
12
POWER MANAGEMENT: Single Output Linear Regulators
Part # Output
Current (mA)
V Min in
(V)
V Max in
(V) Vout (V) Voltage Drop
Typical (mV)
Iq Typical
(μA)
Output
Accuracy (%)
PSRR 1 kHz
(dB) Features
MIC5237 2.5 2.5, 3.3, 5.0 8 mA 75 High Input Voltage, Reverse Batt500 16 300 ±3
MIC5239 2.3 1.5, 1.8, 2.5, 3.0, 3.3, 5.0, Adj. 23 μA Reverse Battery and Current Pro500 30 350 ±1 50
MIC5319 2.5500 5.5 1.375, 1.8, 1.85, 2.5, 2.6, 2.7, 2.8, 2.85, 2.9,
3.0, 3.3, 5.0, Adj. 200 90 μA 70 High PSRR±1
MIC5524 2.5 1.2, 1.8, 2.8, 3.0, 3.3 260 38 μA ±2 Low Noise500 5.5 65
MIC5528 2.5 260 38 μA ±2 70 Low Dropout500 5.5 3.3
MIC94305 1.8 Input Follower 170 150 μA RippleBlocker500 3.6 – 0
MIC94325 1.8 Adj. 170 μA 85 RippleBlocker500 3.6 100 ±1
MIC94345 1.8 1.2, 1.5, 1.8, 2.8, 3.3 170 μA 85 RippleBlocker500 3.6 100 ±1
MIC94355 1.8 1.2, 1.5, 1.8, 2.8, 3.3 170 μA 85 RippleBlocker500 3.6 100 ±1
MCP1725 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 210 120 μA Low Dropout500 6 ±0.5 60
MCP1825 2.1 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 210 120 μA Low Dropout500 6 ±0.5 60
MCP1825S 2.1 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 120 μA Low Dropout500 6 300 ±0.5 60
TC1262 2.7 2.5, 2.8, 3.0, 3.3, 5.0 80 μA Low Dropout500 6 350 ±0.5 64
TC1263 2.7 2.5, 2.8, 3.0, 3.3, 5.0 80 μA Low Dropout500 6 350 ±0.5 64
MIC29371 750 26 3.3, 5.0, 12 370 160 μA Load Dump, Reverse Current Pro4.3 ±1 –
MIC29372 750 26 Adj. 370 160 μA Load Dump, Reverse Current Pro4.3 ±1 –
MIC2937A 750 26 3.3, 5.0, 12 370 160 μA Load Dump, Reverse Current Pro4.3 ±1 –
MIC3775 750 2.25 1.5, 1.65, 1.8, 2.5, 3.0, 3.3, Adj. 280 6.5 mA Reverse Current Protection6 ±1 60
MIC3975 750 2.25 1.65, 1.8, 2.5, 3.0, 3.3, 5.0, Adj. 7.5 mA Reverse Current Protection16 300 ±1 55
TC1264 800 2.7 1.8, 2.5, 3.0, 3.3 80 μA Low Dropout6 450 ±0.5 64
TC1265 800 2.7 1.8, 2.5, 3.0, 3.3 80 μA Low Dropout6 450 ±0.5 64
TC2117 800 2.7 1.8, 2.5, 3.0, 3.3 80 μA Low Dropout6 600 ±0.5 55
MIC37100 2.25 1.5, 1.65, 1.8, 2.5, 3.3 280 400 μA Reverse Battery and Current Pro1000 6 ±1 50
MIC37101 2.25 1.5, 1.65, 1.8, 2.1, 2.5, 3.3 280 400 μA Reverse Battery and Current Pro1000 6 ±1 50
MIC37102 2.25 Adj 280 400 μA Reverse Battery and Current Pro1000 6 ±1 50
MIC39100 2.25 1.8, 2.5, 3.3, 5.0 6.5 mA Reverse Battery and Current Pro1000 16 410 ±1 55
MIC39101 2.25 1.8, 2.5, 3.3, 5.0 6.5 mA Reverse Battery and Current Pro1000 16 410 ±1 55
MIC39102 2.25 Adj. 6.5 mA Reverse Battery and Current Pro1000 16 410 ±1 55
MIC47100 0.8, 1.0, 1.2, Adj. 80 350 μA 80 Ultra Low Dropout1000 1 3.6 ±0.5
MIC69101 1.8 215 11 mA ±2 Low Dropout1000 1.65 5.5 55
MIC69103 Adj. 215 11 mA ±2 Low Dropout1000 1.65 5.5 55
MCP1726 2.3 0.8, 1.2, 1.8, 2.5, 3.3, 5.0 130 μA Low Dropout1000 6 500 ±0.5 54
MCP1826 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 225 120 μA Low Dropout1000 6 ±0.5 60
MCP1826S 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 225 120 μA Low Dropout1000 6 ±0.5 60
MIC2940A 1250 2 26 3.3, 5.0, 12 35 mA Load Dump, Reverse Current Pro400 ±1 –
MIC2941A 1250 2 26 Adj. 35 mA Load Dump, Reverse Current Pro400 ±1 –
MIC29150 2.25 26 3.3, 5.0, 12 22 mA Load Dump, Reverse Current Pro1500 350 ±1 –
MIC29151 2.25 26 3.3, 5.0, 12 22 mA Load Dump, Reverse Current Pro1500 350 ±1 –
Analog and Interface Product Selector Guide 13
POWER MANAGEMENT: Single Output Linear Regulators
Part # Output
Current (mA)
V Min in
(V)
V Max in
(V) Vout (V) Voltage Drop
Typical (mV)
Iq Typical
(μA)
Output
Accuracy (%)
PSRR 1 kHz
(dB) Features
MIC29152 2.25 26 Adj. 22 mA Load Dump, Reverse Current Pro1500 350 ±1 –
MIC37139 2.25 1.8, 2.5 17 mA Reverse Battery and Current Pro1500 6 500 ±1 50
MIC37150 2.25 1.5, 1.65, 1.8, 2.5, 3.3 325 17 mA Reverse Battery and Current Pro1500 6 ±1 45
MIC37151 2.25 1.5, 1.65, 1.8, 2.5, 3.3 325 17 mA Reverse Battery and Current Pro1500 6 ±1 45
MIC37152 2.25 Adj. 325 17 mA Reverse Battery and Current Pro1500 6 ±1 45
MIC37153 2.25 Adj. 325 17 mA Reverse Battery and Current Pro1500 6 ±1 45
MIC39150 2.25 1.65, 1.8, 2.5 375 17 mA Reverse Battery and Current Pro1500 16 ±1 53
MIC39151 2.25 1.65, 1.8, 2.5 375 17 mA Reverse Battery and Current Pro1500 16 ±1 53
MIC39152 2.25 Adj. 375 17 mA Reverse Battery and Current Pro1500 16 ±1 53
MIC47150 Adj. 280 15 mA Low Dropout1500 1.4 6.5 ±1 55
MIC49150 0.9, 1.2, 1.5, 1.8, Adj. 280 15 mA 57 Low Dropout1500 1.4 6.5 ±1
MIC59150 3.8 Adj. 12.5 mA Ultra Low Dropout1500 1 100 ±1 60
MIC61150 1.0, Adj. 75 7.6 mA Ultra Low Dropout, Soft Start1500 1.1 3.6 ±1 50
MCP1727 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 120 μA Low Dropout1500 6 330 ±0.5 60
MCP1827 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 120 μA Low Dropout1500 6 330 ±0.5 60
MCP1827S 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 120 μA Low Dropout1500 6 330 ±0.5 60
MIC49200 2000 1.0, 1.8, Adj. 15 mA 83 Low Dropout1.4 6.5 400 ±1
MIC68200 2000 1.2, 1.5, 1.8, 2.5, 3.3, Adj 42 mA Low Dropout, Soft Start1.65 5.5 300 ±1 60
MIC37252 2500 Adj. 40 mA ±2 Reverse Current Protection3 6 550 50
MIC2937A 750 26 3.3, 5.0, 12 370 160 μA Load Dump, Reverse Current Pro4.3 ±1 –
MIC3775 750 2.25 1.5, 1.65, 1.8, 2.5, 3.0, 3.3, Adj. 280 6.5 mA Reverse Current Protection6 ±1 60
MIC3975 750 2.25 1.65, 1.8, 2.5, 3.0, 3.3, 5.0, Adj. 7.5 mA Reverse Current Protection16 300 ±1 55
TC1264 800 2.7 1.8, 2.5, 3.0, 3.3 80 μA Low Dropout6 450 ±0.5 64
TC1265 800 2.7 1.8, 2.5, 3.0, 3.3 80 μA Low Dropout6 450 ±0.5 64
TC2117 800 2.7 1.8, 2.5, 3.0, 3.3 80 μA Low Dropout6 600 ±0.5 55
MIC37100 2.25 1.5, 1.65, 1.8, 2.5, 3.3 280 400 μA Reverse Battery and Current Pro1000 6 ±1 50
MIC37101 2.25 1.5, 1.65, 1.8, 2.1, 2.5, 3.3 280 400 μA Reverse Battery and Current Pro1000 6 ±1 50
MIC37102 2.25 Adj 280 400 μA Reverse Battery and Current Pro1000 6 ±1 50
MIC39100 2.25 1.8, 2.5, 3.3, 5.0 6.5 mA Reverse Battery and Current Pro1000 16 410 ±1 55
MIC39101 2.25 1.8, 2.5, 3.3, 5.0 6.5 mA Reverse Battery and Current Pro1000 16 410 ±1 55
MIC39102 2.25 Adj. 6.5 mA Reverse Battery and Current Pro1000 16 410 ±1 55
MIC47100 0.8, 1.0, 1.2, Adj. 80 350 μA 80 Ultra Low Dropout1000 1 3.6 ±0.5
MIC69101 1.8 215 11 mA ±2 Low Dropout1000 1.65 5.5 55
MIC69103 Adj. 215 11 mA ±2 Low Dropout1000 1.65 5.5 55
MCP1726 2.3 0.8, 1.2, 1.8, 2.5, 3.3, 5.0 130 μA Low Dropout1000 6 500 ±0.5 54
MCP1826 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 225 120 μA Low Dropout1000 6 ±0.5 60
MCP1826S 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 225 120 μA Low Dropout1000 6 ±0.5 60
MIC2940A 1250 2 26 3.3, 5.0, 12 35 mA Load Dump, Reverse Current Pro400 ±1 –
MIC2941A 1250 2 26 Adj. 35 mA Load Dump, Reverse Current Pro400 ±1 –
www.microchip.com/analog
14
POWER MANAGEMENT: Single Output Linear Regulators
Part # Output
Current (mA)
V Min in
(V)
V Max in
(V) Vout (V) Voltage Drop
Typical (mV)
Iq Typical
(μA)
Output
Accuracy (%)
PSRR 1 kHz
(dB) Features
MIC29150 2.25 26 3.3, 5.0, 12 22 mA Load Dump, Reverse Current Pro1500 350 ±1 –
MIC29151 2.25 26 3.3, 5.0, 12 22 mA Load Dump, Reverse Current Pro1500 350 ±1 –
MIC29152 2.25 26 Adj. 22 mA Load Dump, Reverse Current Pro1500 350 ±1 –
MIC37139 2.25 1.8, 2.5 17 mA Reverse Battery and Current Pro1500 6 500 ±1 50
MIC37150 2.25 1.5, 1.65, 1.8, 2.5, 3.3 325 17 mA Reverse Battery and Current Pro1500 6 ±1 45
MIC37151 2.25 1.5, 1.65, 1.8, 2.5, 3.3 325 17 mA Reverse Battery and Current Pro1500 6 ±1 45
MIC37152 2.25 Adj. 325 17 mA Reverse Battery and Current Pro1500 6 ±1 45
MIC37153 2.25 Adj. 325 17 mA Reverse Battery and Current Pro1500 6 ±1 45
MIC39150 2.25 1.65, 1.8, 2.5 375 17 mA Reverse Battery and Current Pro1500 16 ±1 53
MIC39151 2.25 1.65, 1.8, 2.5 375 17 mA Reverse Battery and Current Pro1500 16 ±1 53
MIC39152 2.25 Adj. 375 17 mA Reverse Battery and Current Pro1500 16 ±1 53
MIC47150 Adj. 280 15 mA Low Dropout1500 1.4 6.5 ±1 55
MIC49150 0.9, 1.2, 1.5, 1.8, Adj. 280 15 mA 57 Low Dropout1500 1.4 6.5 ±1
MIC59150 3.8 Adj. 12.5 mA Ultra Low Dropout1500 1 100 ±1 60
MIC61150 1.0, Adj. 75 7.6 mA Ultra Low Dropout, Soft Start1500 1.1 3.6 ±1 50
MCP1727 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 120 μA Low Dropout1500 6 330 ±0.5 60
MCP1827 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 120 μA Low Dropout1500 6 330 ±0.5 60
MCP1827S 2.3 0.8, 1.2, 1.8, 2.5, 3.0, 3.3, 5.0 120 μA Low Dropout1500 6 330 ±0.5 60
MIC49200 2000 1.0, 1.8, Adj. 15 mA 83 Low Dropout1.4 6.5 400 ±1
MIC68200 2000 1.2, 1.5, 1.8, 2.5, 3.3, Adj 42 mA Low Dropout, Soft Start1.65 5.5 300 ±1 60
MIC37252 2500 Adj. 40 mA ±2 Reverse Current Protection3 6 550 50
MIC29300 2.25 26 3.3, 5.0, 12 370 37 mA Load Dump, Reverse Current Pro3000 ±1 –
MIC29301 2.25 26 3.3, 5.0, 12 370 37 mA Load Dump, Reverse Current Pro3000 ±1 –
MIC29302 2.25 26 Adj. 370 37 mA Load Dump, Reverse Current Pro3000 ±1 –
MIC29302A Adj. 60 mA Reverse Battery and Current Pro3000 3 16 450 ±1
MIC29302H 2.25 26 Adj. 370 37 mA Load Dump, Reverse Current Pro3000 ±1 –
MIC29303 2.25 26 Adj. 370 37 mA Load Dump, Reverse Current Pro3000 ±1 –
MIC29310 2.3 3.3, 5.0 60 mA Load Dump, Reverse Current Pro3000 16 600 ±1 –
MIC29312 2.3 Adj. 60 mA Load Dump, Reverse Current Pro3000 16 600 ±1 –
MIC35302 2.25 Adj. 370 20 mA Reverse Battery and Current Pro3000 6 ±1 50
MIC37300 2.25 1.5, 1.65, 1.8, 2.5, 3.3 27 mA Reverse Current Protection3000 6 300 ±1 50
MIC37301 2.25 1.5, 1.8, 2.5, 3.3 27 mA Reverse Current Protection3000 6 300 ±1 50
MIC37302 2.25 Adj. 27 mA Reverse Current Protection3000 6 300 ±1 50
MIC37303 2.25 Adj. 27 mA Reverse Current Protection3000 6 300 ±1 50
MIC39300 2.25 1.8, 2.5 385 45 mA Reverse Battery and Current Pro3000 16 ±1 –
MIC39301 2.25 1.8, 2.5 385 45 mA Reverse Battery and Current Pro3000 16 ±1 –
MIC39302 2.25 Adj. 385 45 mA Reverse Battery and Current Prot3000 16 ±1 –
MIC47300 Adj. 230 25 mA Low Dropout3000 1.4 6.5 ±1
MIC49300 0.9, 1.2, 1.5, 1.8, Adj. 280 25 mA Low Dropout3000 1.4 6.5 ±1
MIC59300 3.8 1.2V, Adj. 205 30 mA Low Dropout3000 1 ±1 65
MIC61300 1.0, Adj. 7.6 mA Low Dropout, Soft Start3000 1.1 3.6 150 ±1 55
Analog and Interface Product Selector Guide 15
POWER MANAGEMENT: Single Output Linear Regulators
Part # Output
Current (mA)
V Min in
(V)
V Max in
(V) Vout (V) Voltage Drop
Typical (mV)
Iq Typical
(μA)
Output
Accuracy (%)
PSRR 1 kHz
(dB) Features
MIC69301 1.2 275 32 mA ±2 Low Dropout3000 1.65 5.5 55
MIC69302 Adj. 275 32 mA ±2 Low Dropout3000 1.65 5.5 55
MIC69303 Adj. 275 32 mA ±2 High Current3000 1.65 5.5 55
MIC68400 1.8, Adj. 90 mA ±2 Low Dropout, Soft Start4000 1.65 5.5 360 50
MIC68401 Adj. 90 mA ±2 Low Dropout, Soft Start4000 1.65 5.5 360 50
MIC29500 2.25 26 3.3, 5.0, 12 370 70 mA Load Dump, Reverse Current Pro5000 ±1 –
MIC29501 2.25 26 3.3, 5.0, 12 370 70 mA Load Dump, Reverse Current Pro5000 ±1 –
MIC29502 2.25 26 Adj. 370 70 mA Load Dump, Reverse Current Pro5000 ±1 –
MIC29503 2.25 26 Adj. 370 70 mA Load Dump, Reverse Current Pro5000 ±1 –
MIC29510 2.3 3.3, 5.0 700 100 mA Load Dump, Reverse Current Pro5000 16 ±1 –
MIC29512 2.3 Adj. 700 100 mA Load Dump, Reverse Current Pro5000 16 ±1 –
MIC37501 2.3 1.5, 1.65, 1.8, 2.5, 3.3 57 mA Reverse Current Protection5000 6 330 ±1 –
MIC37502 2.3 Adj. 57 mA Reverse Current Protection5000 6 330 ±1 –
MIC39500 2.25 1.8, 2.5 70 mA Reverse Battery and Current Pro5000 16 400 ±1 30
MIC39501 2.25 1.8, 2.5 70 mA Reverse Battery and Current Pro5000 16 400 ±1 30
MIC49500 0.9, 1.2, Adj. 290 55 mA 75 Low Dropout5000 1.4 6 ±1
MIC69502 Adj. 250 54 mA 52 High Current5000 1.65 5.5 ±1
MIC29712 7500 2.3 Adj. 700 250 mA ±2 High Current16 –
MIC29751 7500 2.5 26 3.3, 5.0 425 120 mA Load Dump, Reverse Current Pro±1 –
MIC29752 7500 2.5 26 Adj. 425 120 mA Load Dump, Reverse Current Pro±1 –
POWER MANAGEMENT: Multiple Output Linear Regulators
Part # Product Type I #1 I #2 I #3 I #4 V Min. (V) V Max. (V) Vout out out out in in out (V) Voltage Drop
Typ. (mV)
IGND Typ.
(μA)
PSRR
(dB
MIC2210 Dual LDOs 150 mA 300 mA 2.25 Please Refer to Datasheet 120/140 48/60 μA– – 5.5 6
MIC2211 Dual LDOs 150 mA 300 mA 2.25 Please Refer to Datasheet 120/140 48/60 μA– – 5.5 6
MIC2212 Dual LDOs 150 mA 300 mA 2.25 5.5 Please Refer to Datasheet 120/140 48/60 μA 60
MIC2213 Dual LDOs 150 mA 300 mA 2.25 Please Refer to Datasheet 120/140 48/60 μA– – 5.5 6
MIC2214 Dual LDOs 150 mA 300 mA 2.25 Please Refer to Datasheet 120/140 48/60 μA– – 5.5 6
MIC2215 Multi-Channel LDOs 250 mA 250 mA 250 mA 2.25 Please Refer to Datasheet 110 μA 7– 5.5 100
MIC2219 Dual LDOs 150 mA 300 mA 2.25 Please Refer to Datasheet 120 48 μA– – 5.5 6
MIC5202 Dual LDOs 100 mA 100 mA 2.5 26 Please Refer to Datasheet 225 170 μA 7– –
MIC5208 Dual LDOs 50 mA 50 mA 2.5 Please Refer to Datasheet 250 180 μA– – 16
MIC5210 Dual LDOs 150 mA 150 mA 2.5 Please Refer to Datasheet 80 μA 7– – 16 165
MIC5211 Dual LDOs 80 mA 80 mA 2.5 Please Refer to Datasheet 250 90 μA– – 16 6
MIC5212 Dual LDOs 500 mA 500 mA Please Refer to Datasheet 1.5mA 7– – 4 16 350
MIC5264 Dual LDOs 150 mA 150 mA 2.7 Please Refer to Datasheet 210 75 μA– – 5.5 6
MIC5310 Dual LDOs 150 mA 150 mA 2.3 Please Refer to Datasheet 85 μA 7– – 5.5 35
MIC5311 Dual LDOs 300 mA 300 mA 2.5 Please Refer to Datasheet 120 28 μA– – 5.5 6
MIC5312 Dual LDOs 300 mA 300 mA 2.5 Please Refer to Datasheet 120 28 μA– – 5.5 6
MIC5315 Dual LDOs 300 mA 300 mA 1.7 Please Refer to Datasheet 85 30 μA– – 5.5 6
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16
POWER MANAGEMENT: Multiple Output Linear Regulators
Part # Product Type I #1 I #2 I #3 I #4 V Min. (V) V Max. (V) Vout out out out in in out (V) Voltage Drop
Typ. (mV)
IGND Typ.
(μA)
PSRR
(dB
MIC5316 Dual LDOs 300 mA 300 mA 1.7 Please Refer to Datasheet 85 30 μA– – 5.5 6
MIC5320 Dual LDOs 150 mA 150 mA 2.3 Please Refer to Datasheet 85 μA– – 5.5 35 6
MIC5321 Dual LDOs 150 mA 150 mA 2.3 Please Refer to Datasheet 85 μA 7– – 5.5 35
MIC5322 Dual LDOs 150 mA 150 mA 2.3 Please Refer to Datasheet 150 μA 7– – 5.5 35
MIC5330 Dual LDOs 300 mA 300 mA 2.3 Please Refer to Datasheet 75 85 μA 7– – 5.5
MIC5331 Dual LDOs 300 mA 300 mA 2.3 Please Refer to Datasheet 120 40 μA– – 5.5 6
MIC5332 Dual LDOs 300 mA 300 mA 2.3 Please Refer to Datasheet 120 40 μA– – 5.5 6
MIC5333 Dual LDOs 300 mA 300 mA 2.3 Please Refer to Datasheet 120 40 μA– – 5.5 6
MIC5335 Dual LDOs 300 mA 300 mA 2.3 Please Refer to Datasheet 75 90 μA– – 5.5 6
MIC5338 Dual LDOs 300 mA 300 mA 2.5 Please Refer to Datasheet 220 38 μA– – 5.5 5
MIC5339 Dual LDOs 300 mA 300 mA 2.5 Please Refer to Datasheet 220 38 μA– – 5.5 5
MIC5350 Dual LDOs 300 mA 500 mA 2.6 Please Refer to Datasheet 75/125 95 μA– – 5.5 5
MIC5355 Dual LDOs 500mA 500 mA 2.5 Please Refer to Datasheet 38 μA– – 5.5 350 5
MIC5356 Dual LDOs 500mA 500 mA 2.5 Please Refer to Datasheet 38 μA– – 5.5 350 5
MIC5357 Dual LDOs 500mA 500 mA 2.6 Please Refer to Datasheet 95 μA 7– – 5.5 130
MIC5370 Dual LDOs 150mA 150 mA 2.3 Please Refer to Datasheet 32 μA– – 5.5 155 6
MIC5371 Dual LDOs 150mA 150 mA 2.5 Please Refer to Datasheet 32 μA– – 5.5 155 6
MIC5373 Multi-Channel LDOs 200mA 200 mA 200 mA 1.7 Please Refer to Datasheet 170 32 μA– 5.5 5
MIC5374 Multi-Channel LDOs 200 mA 200 mA 200 mA 1 mA 1.7 Please Refer to Datasheet 170 42 μA5.5 5
MIC5380 Dual LDOs 150 mA 150 mA 2.5 Please Refer to Datasheet 32 μA– – 5.5 155 6
MIC5381 Dual LDOs 150 mA 150 mA 2.5 Please Refer to Datasheet 32 μA– – 5.5 155 6
MIC5383 Multi-Channel LDOs 200 mA 200 mA 200 mA 1.7 Please Refer to Datasheet 170 32 μA– 5.5 5
MIC5384 Multi-Channel LDOs 200 mA 200 mA 200 mA 1 mA 1.7 Please Refer to Datasheet 170 42 μA5.5 5
MIC5385 Multi-Channel LDOs 150 mA 150 mA 150 mA 2.5 Please Refer to Datasheet 180 32 μA 7– 5.5
MIC5387 Multi-Channel LDOs 150 mA 150 mA 150 mA 2.5 Please Refer to Datasheet 180 32 μA 7– 5.5
MIC5388 Dual LDOs 200 mA 200 mA 2.5 Please Refer to Datasheet 175 32 μA 7– – 5.5
MIC5389 Dual LDOs 200 mA 200 mA 2.5 Please Refer to Datasheet 175 32 μA 7– – 5.5
MIC5392 Dual LDOs 150 mA 150 mA 2.5 Please Refer to Datasheet 57 μA– – 5.5 155 6
MIC5393 Dual LDOs 150 mA 150 mA 2.5 Please Refer to Datasheet 57 μA– – 5.5 155 6
MIC5396 Dual LDOs 300 mA 300 mA 2.5 Please Refer to Datasheet 37 μA– – 5.5 160 6
MIC5397 Dual LDOs 300 mA 300 mA 2.5 Please Refer to Datasheet 37 μA– – 5.5 160 6
MIC5398 Dual LDOs 300 mA 300 mA 2.5 Please Refer to Datasheet 37 μA– – 5.5 160 6
MIC5399 Dual LDOs 300 mA 300 mA 2.5 Please Refer to Datasheet 37 μA– – 5.5 160 6
MIC68220 Dual LDOs 2.0A 2.0A Please Refer to Datasheet 15 mA – 1.65 5.5 300 4
TC1307 Multi-Channel LDOs 150 mA 150 mA 150 mA 150 mA 2.7 Please Refer to Datasheet 200 220 μA6 6
TC1301A Dual LDOs 300 mA 150 mA 2.7 Please Refer to Datasheet 103 μA 5– – 6 104
TC1301B Dual LDOs 300 mA 150 mA 2.7 Please Refer to Datasheet 114 μA 5– – 6 104
TC1302A Dual LDOs 300 mA 150 mA 2.7 Please Refer to Datasheet 103 μA 5– – 6 104
TC1302B Dual LDOs 300 mA 150 mA 2.7 Please Refer to Datasheet 114 μA 5– – 6 104
Analog and Interface Product Selector Guide 17
POWER MANAGEMENT: Linear Regulators – LDO Controller and SIM Card
Part # Product Type V Min. (V) V Max. (V) Vin in out (V) IGND Typ. (μA) Vref (V) Ven (V) Internal Charge
Pump
Extern
MOS
MIC5156 LDO Controllers 3.3, 5.0, Adj. 2.7 1.235 2.43 36 Y
MIC5157 LDO Controllers 3.3, 5.0, 12 1.235 2.43 36 4.5 Yes Y
MIC5158 LDO Controllers 5.0, Adj. 1.235 2.43 36 4.5 Yes Y
MIC5159 LDO Controllers 1.8, 3.0, Adj. 1.235 1.21.65 5.5 10 Y
MIC5190 LDO Controllers 0.9 Adj. down to 0.5V 0.85.5 15 0.5 Y
MIC5191 LDO Controllers Adj. down to 1.0V 0.81 5.5 15 1 Y
MIC4555 SIM Card Lvl Shifter with 50 mA LDO 2.7 1.8, 3.3 41/795.5 – –
POWER MANAGEMENT: DDR Termination Regulators
Part # I V Min. (V) V Max. (V) Vout in in out (V) PWR Good VTT
Accuracy
External
Transistor
Sync Buck Frequency Features
MIC5162 ±7A 1/2 of V ±5 mV1.35 6in ü– –
MIC5163 ±7A 0.75 1/2 of V ±5 mV6in ü Low Voltage
MIC5164 ±7A 1/2 of V1.35 6 in ü±5 mV ü– –
MIC5165 ±7A 0.75 1/2 of V6in ü±5 mV ü Low Voltage
MIC5166 ±3A 1/2 of V0.9 3.6 in ü±25 mV DDR 1, 2, 3, 4 – –
MIC5167 ±6A 2.6 Adj. down to 0.35V5.5 ü±12 mV ü1 MHz Integrated Sync Buck
POWER MANAGEMENT: High-Voltage Linear Regulators
Part # Input to Output Voltage
Dierential (Min.) Input to Output Voltage
Dierential (Max.) Output Voltage (V) Max Output Current
(mA)
Typical Line
Regulation (%/V)
Typical Load
Regulation (%/mA)
LR8 12 3-Lead TO-252, 3-Lead450 0.003 0.151.2–440 10
LR12 12 1.2–88 3-Lead TO-252, 8-Lead100 50 0.003 0.06
LR645 8-Lead SOIC, 3-Lead T15 450 10 3 0.0001 0.50
LR745 25 20 2 3-Lead TO-92, 3-Lead S450 0.0001 0.50
POWER MANAGEMENT: Single Output Switching Regulators (Buck)
Part #
Input
Voltage
Range (V)
Output
Voltage (V)
Operating Junction
Temperature
Range (°C)
Switching
Frequency (kHz) Output Current (mA) Features
MIC28517 4.5V- 70V -40 to 125 270 to 800 8000 CCM0.6V 32to
MIC28516 4.5V- 70V -40 to 125 270 to 800 8000 DCM0.6V 32to
LX7167A 3.0 to 5.5 −10 to +85 2400 Skip-mode, UVLO, OV, Power Good0.6 3.3to 3000
LX7176 3.0 to 5.5 0 to +85 PWM, 100% Duty Cycle, UVLO, OV, Power Good0.6 3.3to 1650 3000
LX7176A 3.0 to 5.5 0 to +85 PFM/PWM, 100% Duty Cycle, UVLO, OV, Power Good0.6 3.3to 1650 4000
LX7180A 3.0 to 5.5 0 to +85 I0.6 3.3to 1650 4000 ²
C Programmable, Power Save Mode, Power Good
LX7165/7178 3.0 to 5.5 0 to +85 1875 I0.6 3.3to 5000 ²
C Programmable, Power Save Mode, Power Good
LX7219/7220 2.7 to 5.5 −40 to +85 1200 I0.6 3.3to 6000 ²
C Programmable, Power Save Mode, Power Good
MCP1601 2.7 to 5.5 0.9V to V −40 to +85 750 UVLO, Auto-switching, LDOin 500
MCP1602 2.7 to 5.5 0.8 to 4.5 −40 to +85 2000 PFM, PWM auto-switching, UVLO, soft start, power good indicator500
MCP1603 2.7 to 5.5 0.8 to 4.0 −40 to +85 2000 Overtemperature and overcurrent protection500
MCP1612 2.7 to 5.5 0.8 to 5.5 −40 to +85 Overall eciency > 94%, Soft start, overtemperature and overcurrent protection1400 1000
MIC2245 2.7 to 5.5 Adj. 40 to +125 4,000 500 LDO Standby Mode and Low Q current
MIC23030 2.7 to 5.5
1.0, 1.2,
1.5, 1.8,
Adj.
−40 to +125 8,000 400 HyperLight Load
® mode
www.microchip.com/analog
18
POWER MANAGEMENT: Single Output Switching Regulators (Buck)
Part #
Input
Voltage
Range (V)
Output
Voltage (V)
Operating Junction
Temperature
Range (°C)
Switching
Frequency (kHz) Output Current (mA) Features
MIC23031 2.7 to 5.5
1.0, 1.2,
1.5, 1.8,
Adj.
−40 to +125 4,000 400 HyperLight Load mode
MIC23050 2.7 to 5.5 1.0, 1.2,
1.8, 3.3 −40 to +125 4,000 600 HyperLight Load mode
MIC23051 2.7 to 5.5
1–1.2,
1–1.8,
1.15–1.4,
0.95–1.25
−40 to +125 4,000 600 HyperLight Load mode, voltage scaling
MIC23150 2.7 to 5.5
1.0, 1.2,
1.35, 1.8,
3.3
−40 to +125 4,000 2,000 HyperLight Load mode
MIC23153 2.7 to 5.5 1.8, Adj. 40 to +125 4,000 2,000 Power Good, HypperLight Load mode
MIC23155 2.7 to 5.5 1.8, Adj. 40 to +125 3,000 2,000 Power Good, HypperLight Load mode
MIC23303 2.7 to 5.5 Adj. −40 to +125 4,000 3,000 Power Good, HypperLight Load mode
MIC23201 2.7 to 5.5 Adj. −40 to +125 2,000 2,000 Power Good
MIC2202 2.3 to 5.5 Adj. −40 to +125 1,600–2,500 600
MIC2204 2.3 to 5.5 Adj. −40 to +125 2,000 600
MIC2267 3 to 5.5 Adj. −40 to +125 400–1,500 2,000 Power Good
MIC2207 2.7 to 5.5 Adj. −40 to +125 2,000 3,000 Power Good
MIC2208 2.7 to 5.5 Adj. −40 to +125 1,000 3,000 Power Good
MIC22200 2.6 to 5.5 Adj. −40 to +125 800–1,200 3,000 Power Good
MIC22400 2.6 to 5.5 Adj. −40 to +125 300–4,000 4,000 Power Good
MIC22601 2.6 to 5.5 Adj. −40 to +125 4,000 6,000 Power Good
MIC22602 2.6 to 5.5 Adj. −40 to +125 1,000 6,000 Power Good
MIC22700 2.6 to 5.5 Adj. −40 to +125 1,000 7,000 Power Good
MIC22950 2.6 to 5.5 Adj. −40 to +125 400–2,000 10,000 Power Good
MCP16311 4.4 to 30.0 2.0 to 24.0 −40 to +125 PFM/PWM operation, enable function500 1000
MCP16312 4.4 to 30.0 2.0 to 24.0 −40 to +125 PWM operation, enable function500 1000
MCP16301 4.0 to 30 2.0 to 15 −40 to +85 Integrated N-channel, UVLO, Soft start, overtemperature protection500 600
MIC24045 4.5 to 19 0.64 to
5.25 −40 to +125 310–1200 I5000 ²C Programmable, 4.5V–19V Input, 5A Step-Down Converter
TC105 2.2 to 10 3.0, 3.3,
5.0 −40 to +85 Low power shutdown mode300 1000
MIC24046 4.5 to 19 0.7 to 3.3 40 to +125 400–790 Pin-Programmable, 4.5V–19V Input, 5A Step-Down Converter5000
MIC24051 4.5 to 19 Adj. −40 to +125 Power Good, Soft Start, Architecture Regulation Scheme600 6000
MIC24052 4.5 to 19 Adj. −40 to +125 Power Good, Soft Start, HyperLight Load mode600 6000
MIC24053 4.5 to 19 Adj. −40 to +125 9000 Power Good, Soft Start, Architecture Regulation Scheme600
MIC24054 4.5 to 19 Adj. −40 to +125 9000 Power Good, Soft Start, HyperLight Load mode600
MIC24055 4.5 to 19 Adj. −40 to +125 12000 Power Good, Soft Start, Architecture Regulation Scheme600
MIC24056 4.5 to 19 Adj. −40 to +125 12000 Power Good, Soft Start, HyperLight Load mode600
MIC26601 4.5 to 28 Adj. −40 to +125 Power Good, Soft Start, Hyper Speed Control600 6000 ®architecture
MIC26603 4.5 to 28 Adj. −40 to +125 Power Good, Soft Start, HyperLight Load mode600 6000
MIC26603Z 4.5 to 28 Adj. −40 to +125 Power Good, Soft Start, HyperLight Load mode600 6000
MIC26901 4.5 to 28 Adj. −40 to +125 9000 Power Good, Soft Start, Hyper Speed Control architecture600
MIC26903 4.5 to 28 Adj. −40 to +125 9000 Power Good, Soft Start, HyperLight Load mode600
MIC26950 4.5 to 26 Adj. −40 to +125 12000300 Soft Start, Architecture Regulation Scheme: Hyper Speed Control architecture,
Thermal Shutdown
MIC27600 4.5 to 36 Adj. −40 to +125 7000300 Soft Start, Architecture Regulation Scheme: Hyper Speed Control architecture
Thermal Shutdown
MIC4680 4 to 34 3.3, 5.0,
Adj. −40 to +125 200 1,300
MIC4681 4 to 30 Adj. −40 to +125 2,000 400
MIC4682 4 to 34 Adj. −40 to +125 200 2,000
MIC4684 4 to 30 Adj. −40 to +125 200 2,000
MIC4685 4 to 30 Adj. −40 to +125 200 3,000
MCP16331 4.4 to 50 2.0 to
24.0 40 to +125 Integrated N-channel, UVLO, Soft start, Overtemperature Protection500 1000
MIC28510 4.5 to 75 Adj. −40 to +125 100–500 4000 Soft Start, Architecture Regulation Scheme: Hyper Speed Control architecture
Thermal Shutdown
Analog and Interface Product Selector Guide 19
POWER MANAGEMENT: Single Output Switching Regulators (Buck)
Part #
Input
Voltage
Range (V)
Output
Voltage (V)
Operating Junction
Temperature
Range (°C)
Switching
Frequency (kHz) Output Current (mA) Features
MIC28511-1 4.6 to 60 Adj. −40 to +125 200–680 Power Good, Soft Start, HyperLight Load3000 ® mode
MIC28511-2 4.6 to 60 Adj. −40 to +125 200–680 Power Good, Soft Start, Hyper Speed Control architecture3000
MIC28514 4.5 to 75 0.6 to 32 40 to +125 270–800 5000 Adj. Soft Start, Power Good, Internal Compensation, Enable, Pre-bias Start
Up
MIC28515 4.5 to 75 0.6 to 32 40 to +125 270–800 5000 Selectable Operating Mode, Power Good, Internal Compensation, Enable,
Pre-Bias Start Up
MIC28512-1 4.6 to 70 Adj. −40 to +125 200–680 2000 Power Good, Soft Start, HyperLight Load mode
MIC28512-2 4.6 to 70 Adj. −40 to +125 200–680 2000 Power Good, Soft Start, Hyper Speed Control architecture
MIC28513-1 4.6 to 45 Adj. −40 to +125 200–680 Power Good, Soft Start, Hyper Speed Control architecture4000
MIC28513-2 4.6 to 45 Adj. −40 to +125 200–680 Power Good, Soft Start, Hyper Speed Control architecture4000
MIC4930 2.7 to 5.5 Adj. −40 to +125 Power Good, Safe Start, Thermal Shutdown and Current Limit3300 3000
MIC4950 2.7 to 5.5 Adj. −40 to +125 Power Good, Safe Start, Thermal Shutdown and Current Limit3300 5000
MIC23350 2.4 to 5.5 0.6 to 3.3 3000−40 to +125 600−3000 Pin selectable Vout, 100% Duty Cycle, Safe Startup, UVLO, TSD, OCP
Power Good
MIC23356 2.4 to 5.5 0.6 to
3.84 −40 to +125 600−3000 3000 I²C programmable, 100% Duty Cycle, Safe Startup, UVLO, TSD, OCP,
Power Good
MIC23650 2.4 to 5.5 0.6 to 3.3 −40 to +125 1000−1400 6000 (pulsed) Pin selectable Vout, 100% Duty Cycle, Safe Startup, UVLO, TSD, OCP
Power Good
MIC23656 2.4 to 5.5 0.6 to
3.84 −40 to +125 1000−1400 6000 (pulsed) I²C programmable, 100% Duty Cycle, Safe Startup, UVLO, TSD, OCP,
Power Good
POWER MANAGEMENT: Single Output Switching Regulators (Boost)
Part # Input Voltage
Range (V)
Output
Voltage (V)
Operating
Junction
Temperature
Range (°C)
Switching
Frequency (kHz) Output Switch Current (mA) Features
MCP16411 0.8-5.25 -40 to +1251.8-5.25 PFM/PWM 500
kHz
Dependent on V , Vin out
1000 mA typ switching current
Low Iq Boost Converter, In-Out Bypass, Low Battery Output, PG and Overtemp.
Discharge
MCP16412 0.8-5.25 -40 to +125 PWM 500 kHz1.8-5.25 Dependent on V , Vin out
1000 mA typ switching current
Low Iq Boost Converter, In-Out Bypass, Low Battery Output, PG and Overtemp.
Discharge
MCP16413 0.8-5.25 -40 to +1251.8-5.25 PFM/PWM 500
kHz
Dependent on V , Vin out
1000 mA typ switching current
Low Iq Boost Converter, In-Out Bypass, Low Battery Output, PG and Overtemp.
Bypass
MCP16414 0.8-5.25 -40 to +125 PWM 500 kHz1.8-5.25 Dependent on V , Vin out
1000 mA typ switching current
Low Iq Boost Converter, In-Out Bypass, Low Battery Output, PG and Overtemp.
Bypass
MCP16415 0.8-5.25 -40 to +1251.8-5.25 PFM/PWM 500
kHz
Dependent on V , Vin out
1000 mA typ switching current Low Iq Boost Converter, In-Out Bypass, Low Battery Output and PG. Shutdown s
MCP16416 0.8-5.25 -40 to +125 PWM 500 kHz1.8-5.25 Dependent on V , Vin out
1000 mA typ switching current Low Iq Boost Converter, In-Out Bypass, Low Battery Output and PG. Shutdown s
MCP16417 0.8-5.25 -40 to +1251.8-5.25 PFM/PWM 500
kHz
Dependent on V , Vin out
1000 mA typ switching current Low Iq Boost Converter, In-Out Bypass, Low Battery Output and PG. Shutdown s
MCP16418 0.8-5.25 -40 to +125 PWM 500 kHz1.8-5.25 Dependent on V , Vin out
1000 mA typ switching current Low Iq Boost Converter, In-Out Bypass, Low Battery Output and PG. Shutdown s
MCP1623/4 0.65 to 5.5 2.0 to 5.5 −40 to +85 425 Integrated synchronous boost regulator, 0.65V start-up voltage, soft start, tr500
MCP1642B/D 0.65 to 5.5 1.8 to 5.5 −40 to +85 18001000 Integrated synchronous boost regulator, 0.65V start-up voltage, soft start, en
true load disconnect or input-to-output bypass option
MCP16251/2 0.82 to 5.5 1.8 to 5.5 −40 to +85 True load disconnect shutdown (MCP16251)/Input to output bypass shutdow500 650
MCP1640/B/
C/D 0.65 to 5.5 2.0 to 5.5 −40 to +85 800500 Integrated synchronous boost regulator, 0.65V start-up voltage, Soft start, Tr
input-to-output bypass option
MCP1643 0.5 to 5.5 0.6 to 5.0 −40 to +85 True load disconnect, Shutdown1000 1600
MCP1665 2.7 to 5 Up to 32 −40 to +85 Pin selectable PWM or PFM/PWM mode500 3600
MCP1663/4 2.4 to 5.5 Up to 32 −40 to +85 1800500
High-eciency (up to 92%), xed-frequency, non-synchronous, 300 mV feedbac
(MCP1664)
MCP1661/2 2.4 to 5.5 Up to 32 −40 to +85 Non-synchronous, Soft start, Enable, 300 mV feedback for LED driving (MCP500 1300
MIC2141 2.2 to 14 Up to 22 −40 to +85 Micropower bost converter with control signal input to proportionally adjust o330 1000
www.microchip.com/analog
20
POWER MANAGEMENT: Single Output Switching Regulators (Boost)
Part # Input Voltage
Range (V)
Output
Voltage (V)
Operating
Junction
Temperature
Range (°C)
Switching
Frequency (kHz) Output Switch Current (mA) Features
MIC2619 2.8 to 6.5 Up to 35 −40 to +125 1200 1.2 MHz PWM boost converter with OVP350
MIC2290 2.5 to 10 Up to 34 −40 to +125 1200 750 2 mm × 2 mm PWM boost regulator with internal Schottky diode
MIC2605/06 4.5 to 20 Up to 40 40 to +125 1200/2000 0.5A, 1.2 MHz/2 MHz wide input range boost with integrated switch and Sch500
MIC2145 2.4 to 16 Up to 16 −40 to +85 900 High-eciency 2.5W boost converter450
MIC2570/1 1.3 to 15 Up to 36 −40 to +85 20 Two-cell/single-cell switching regulator1100
MIC2288 2.5 to 10 Up to 34 −40 to +125 1200 1200 1A 1.2 MHz PWM boost converter in Thin SOT-23 and 2 mm × 2 mm MLF
MIC3172 3 to 40 Up to 65 −40 to +85 1250 100 kHz 1.25A switching regulators with enable pin100
MIC2295/96 2.5 to 10 Up to 34 40 to +125 1200/600 1200 High power density 1.2A boost regulator
MIC2601/02 4.5 to 20 Up to 40 40 to +125 1200/2000 1200 1.2A, 1.2 MHz/2 MHz wide input range integrated switch boost regulator
MIC2250/51 2.5 to 5.5 Up to 32/27 −40 to +125 Variable 900 High-eciency low EMI boost regulator with frequency dithering
MIC2172 3 to 40 Up to 65 −40 to +85 1250 100 kHz 1.25A switching regulator with frequency sync100
MIC2253 2.5 to 10 Up to 30 −40 to +125 3.5A 1 MHz high-eciency boost regulator with OVP and softstart1000 3500
MIC2171 3 to 40 Up to 65 −40 to +85 2500 100 kHz 2.5A switching regulator100
MIC2875/76 2.5 to 6 Up to 6 40 to +125 2000 4800 4.8A ISW, synchronous boost regulator with bi-directional load disconnect
MIC2877 2.5 to 5.5 V to 5.5V −40 to +125 2000 6.5A ISW, synchronous boost regulator with bidirectional load disconnectin 6500
POWER MANAGEMENT: Multiple Output Switching Regulators
Part # Description Input Voltage
Range (V)
Number
of
Outputs
Output Voltage (V)
Operating
Temperature
Range (°C)
Control
Scheme
Switching
Frequency
(kHz)
Output Current (mA)
MCP16501
Cost and Size Optimized PMIC
for SAMA5DX/SAM9X6/SAMA7G
Series MPUs
2.7 to 5.5 4
Buck1: 1.2 to 3.7V
Buck2-3: 0.6 to
1.85V
LDO: 0.9V to 3.7V
−40 to +125
PWM,
PFM,
Hyst
2000 Buck1-3: 1A/Channel
LDO: 300 mA
100% Max
Low Quiesc
Sequencing
Managem
MCP16502
High Performance PMIC for
SAMA5DX/SAM9X6/SAMA7G
Series MPUs
2.7 to 5.5 6
Buck1: 1.2 to 3.7V
Buck2-4: 0.6 to
1.85V
LDO: 1.2V to 3.7V
−40 to +125
PWM,
PFM,
Hyst
2000 Buck1-4: 1A/Channel
LDO1-2: 300 mA/channel
I²C, DVS,
Ecienc
Integrate
Mode Oper
P
MIC4742 2 MHz Dual 2A Integrated Switch Buck
Regulator 2.9 to 5.5 2 DC/DC: 0.6 to 5.5 −40 to +125 PWM
Mode 2000 DC to DC: 2,000/2,000 mA AEC-Q1
MIC4744 4 MHz Dual 2A Integrated Switch Buck
Regulator 2.9 to 5.5 2 DC/DC: 0.6 to 5.5 −40 to +125 PWM
Mode 4000 DC to DC: 2,000/2,000 mA
MIC4782 1.8M Hz Dual 2A Integrated Switch 3 to 6 2 DC/DC: 0.6 to 6 −40 to +125 PWM
Mode 1800 DC to DC: 2,000/2,000 mA
MIC2238 2.5 MHz Dual Phase PWM Buck
Regulator 2.5 to 5.5 2 DC/DC: 0.8 to 3.3 −40 to +125 PWM
Mode 2500 DC to DC: 800/800 mA Automatic sw
operation
MIC23250 4 MHz Dual Synchronous Buck
Regulator 2.7 to 5.5 2 −40 to +125DC/DC: 0.8 to 3.3 PWM
Mode 4000 DC to DC: 400/400 mA With HyperLig
MIC23254 4 MHz Dual 400 mA Synchronous
Buck Regulator 2.5 to 5.5 2 1.0/1.8 40 to +125 PWM
Mode 4000 DC to DC: 400/400 mA With Low Inpu
mode
MIC23450 3 MHz, PWM, 2A Triple Buck
Regulator 2.7 to 5.5 DC/DC: 1.0 to 3.3 −40 to +1253PWM
Mode 3000 DC to DC:
2,000/2,000/2,000 mA With HyperLig
MIC24420 2.5A Dual Output PWM Synchronous
Buck Regulator 4.5 to 15 2 DC/DC: 0.7 to 10.5 −40 to +125 PWM
Mode 1000 DC to DC: 2,500/2,500 mA Power Good a
operation
MIC24421 2.5A Dual Output PWM Synchronous
Buck Regulator 4.5 to 15 2 DC/DC: 0.7 to 10.5 −40 to +125 PWM
Mode 500 DC to DC: 2,500/2,500 mA Power Good a
operation
MIC25400 2A Dual Output PWM Synchronous
Buck Regulator 4.5 to 13.2 2 DC/DC: 0.7 to 9.4 −40 to +125 PWM
Mode 1000 DC to DC: 2,000/2,000 mA 180° out of ph
Analog and Interface Product Selector Guide 21
POWER MANAGEMENT: Multiple Output Switching Regulators
Part # Description Input Voltage
Range (V)
Number
of
Outputs
Output Voltage (V)
Operating
Temperature
Range (°C)
Control
Scheme
Switching
Frequency
(kHz)
Output Current (mA)
MIC23158 3 MHz PWM Dual 2A Buck Regulator
with Output Auto Discharge + B15 2.7 to 5.5 2 DC/DC: 1 to 3.3 −40 to +125 PWM
Mode 3000 DC to DC: 2,000/2,000 mA HyperLight Lo
Output Auto-D
MIC23159 3 MHz PWM Dual 2A Buck Regulator 2.7 to 5.5 2 DC/DC: 1 to 3.3 −40 to +125 PWM
Mode 3000 DC to DC: 2,000/2,000 mA HyperLight Lo
MIC23451 3 MHz, 2A Triple Synchronous Buck
Regulator 2.7 to 5.5 DC/DC: 1 to 3.3 −40 to +1253PWM
Mode 3000 DC to DC:
2,000/2,000/2,000 mA HyperLight Lo
MIC2230 Dual Synchronous Step-Down DC/DC
Regulator 2.5 to 5.5 2 −40 to +125DC/DC: 0.8 to 3.3 PWM
Mode 2500 DC to DC: 800/800 mA Power Good a
MIC23060 4 MHz DC/DC Regulator and LDO
Regulator 2.7 to 5.5 2
DC/DC Boost: 1.8
to 3.3
DC/DC Buck: 1 to
Boost Vout
−40 to +125 PWM
Mode 4000 DC to DC Buck: 600 mA,
LDO: 300 mA Flexible seque
MIC2225 2 MHz DC/DC Converter with LDO 2.7 to 5.5 2 DC/DC: 1.0 to 4.5
LDO: 0.8 to 3.3 −40 to +125 PWM
Mode 2000 DC to DC Buck: 600 mA,
LDO: 300 mA Independent e
MIC23099 Step-Up/Step-Down Regulators with
Battery Monitoring 0.85 to 1.6 2 DC/DC: 1.7 to 2.5
LDO: 0.8 to 2.5 −40 to +125 PWM
Mode
100 Boost,
1000 Buck
DC to DC Buck: 30mA,
DC/DC Boost 200 mA AA/AAA Batte
MIC2800
2 MHz DC/DC Converter with Two
Linear Regulators. POR/Power Good
pin and LOWQ Mode
2.7 to 5.5 3DC/DC: 1.8 to 3.3
LDOs: 0.8 to 3.6 40 to +125 PWM
Mode 2000 DC to DC Buck: 600 mA,
LDO: 300/300 mA POR/Power G
MIC2810
2 MHz DC/DC Regulator with Two
Linear Regulators. LDO1 has a
separate V pin and can either post-in
regulate the DC/DC converter or be
connect directly to the main input
supply. POR/Power Good Pin.
2.7 to 5.5 3DC/DC: 1.8 to 3.3
LDOs: 0.8 to 3.6 40 to +125 PWM
Mode 2000 DC to DC Buck: 600 mA,
LDO: 300/300 mA
LDO1 has a s
post-regulate
MIC2811 2 MHz 600 mA DC/DC Regulators with
Triple 300 mA LDOs 2.7 to 5.5 4LDO1/2 : 0.8 to 3.6
LDO3 : 1.0 to 3.9 40 to +125 PWM
Mode 2000 DC to DC Buck: 600 mA,
LDO: 300/300/300 mA LDO1 and LD
MIC2821 2 MHz 600 mA DC/DC Regulators with
Triple 300 mA LDOs 2.7 to 5.5 4LDO1/2 : 0.8 to 3.6
LDO3 : 1.0 to 3.9 40 to +125 PWM
Mode 2000 DC to DC Buck: 600 mA,
LDO: 300/300/300 mA Independent e
MIC2826
Quad Output PMIC with HyperLight
Load Mode DC/DC, Three LDOs and
I
²C Control
2.7 to 5.5 4DC/DC : 0.8 to 1.8
LDOs : 0.8 to 3.3 −40 to +125 PWM
Mode 4000 DC to DC Buck: 500 mA,
LDO: 150/150/150 mA
I²C Control an
LDOs
MIC2827
Triple Output PMIC with HyperLight
Load Mode DC-DC, Two LDOs and
I²C Control
2.7 to 5.5 3DC/DC : 0.8 to 1.8
LDOs : 0.8 to 3.3 −40 to +125 PWM
Mode 4000 DC to DC Buck: 500 mA,
LDO: 150/150 mA
I²C Control an
LDOs
MIC7400 Congurable Five-Channel Buck
Regulator Plus One-Boost 2.4 to 5.5 6
Bucks: 0.8 to 3.3
(Congurable)
Boost: 7.0 to 14.0
(Congurable)
−40 to +125 PWM
Mode
2000 Boost,
1300 Bucks
DC to DC Bucks: 3,000 mA,
DC/DC Boost 200 mA
Highly integra
buck regulato
power good in
MIC7401
Congurable Five-Channel Buck
Regulator Plus One-Boost with
HyperLight Load mode, I ²C Control,
and Enable
2.4 to 5.5 6
Bucks : 0.8 to 3.3
(Congurable)
Boost : 7.0 to 14.0
(Congurable)
−40 to +125 PWM
Mode
2000 Boost,
1300 Bucks
DC to DC Bucks: 3,000 mA,
DC/DC Boost 200 mA
Highly integrat
regulators, one
good indicator
POWER MANAGEMENT: Combination Switching Regulators
Part # Description Input Voltage
Range (V) Output Voltage (V) Operating Temp.
Range (°C)
Control
Scheme
Switching
Frequency (kHz)
Typical Active
Current (mA) Output Current (mA)
TC1303 Synchronous Buck Regulator, LDO
with Power Good 2.7 to 5.5 DC/DC: 0.8 to 4.5
LDO: 1.5 to 3.3 40 to +85 PFM/PWM 2000 65/600 DC/DC: 500 mA LDO:
300 mA
PFM/P
Power
TC1304 Synchronous Buck Regulator, LDO 2.7 to 5.5 DC/DC: 0.8 to 4.5
LDO: 1.5 to 3.3 40 to +85 PFM/PWM 2000 65/600 DC/DC: 500 mA LDO:
300 mA
PFM/P
Power
TC1313 Synchronous Buck Regulator, LDO 2.7 to 5.5 DC/DC: 0.8 to 4.5
LDO: 1.5 to 3.3 40 to +85 PFM/PWM 2000 65/600 DC/DC: 500 mA LDO:
300 mA PFM/P
www.microchip.com/analog
22
POWER MANAGEMENT: Inductorless Oine Switching Regulators
Part # V (Vin ac) Adjustable Vout (V) Fixed Vout out (V) I Max. (mA) Load Regulatio
SR086 80–285 9.0–50 0.0253.3 100
SR087 80–285 9.0–50 0.0175 100
SR10 80–285 6.0–28 6.0, 12, 24 60 –
POWER MANAGEMENT: PWM Controllers
Part # Supported
Topologies
Supported
Outputs
Input Voltage
Range (V)
Output
Voltage (V)
Operating Frequency
(Hz)
Operating Temp.
Range (°C) Features
MIC2101 Sync. Buck 4.5 to 38 0.8 to 24 200k to 600k −40 to +1251HyperLight Load® mode, External Clock Sync, Power Good, Soft S
Internal Compensation and Voltage Bias
MIC2102 Sync. Buck 4.5 to 38 0.8 to 24 200k to 600k −40 to +125 Power Good, Soft Start, Internal Compensation and Voltage Bias1
MIC2103 Sync. Buck 4.5 to 75 0.8 to 24 200k to 600k −40 to +1251HyperLight Load mode, External Clock sync, Power Good, Soft St
Internal Compensation and Voltage Bias
MIC2104 Sync. Buck 4.5 to 75 0.8 to 24 200k to 600k −40 to +125 Power Good, Soft Start, Internal Compensation and Voltage Bias1
MIC2111B Sync. Buck 3.3 to 5.5 0.6 to 3.64 200k to 2M 40 to +1251Power Good, Soft Start, Internal Voltage Bias, Enable Pin, Current
Limit/Short Circuit Protection
MIC2124 Sync. Buck 3.0 to 18 0.8 to 12 300k −40 to +125 Soft Start, Internal Voltage Bias1
MIC2130 Sync. Buck 8.0 to 40 0.7 to 24 150k or 400k −40 to +125 Power Good, Soft Start, Internal Voltage Bias1
MIC2131 Sync. Buck 8.0 to 40 0.7 to 24 150k or 400k −40 to +125 Power Good, Soft Start, Internal Voltage Bias1
MIC2150 Sync. Buck 2 4.5 to 14.5 0.7 to 5.5 500k −40 to +125 Power Good, Soft Start, Internal Voltage Bias
MIC2151 Sync. Buck 2 4.5 to 14.5 0.7 to 5.5 300k −40 to +125 Power Good, Soft Start, Internal Voltage Bias
MIC2155 Sync. Buck 4.5 to 14.5 0.7 to 3.6 500k −40 to +125 External Clock Sync, Power Good, Soft Start1
MIC2164 Sync. Buck 3.0 to 28 0.8 to 5.5 300k, 600k, 1M −40 to +125 Soft Start, Internal Compensation and Voltage Bias1
MIC2164C Sync. Buck 3.0 to 28 0.8 to 5.5 270k −40 to +125 Soft Start, Internal Compensation and Voltage Bias1
MIC2165 Sync. Buck 4.5 to 28 0.8 to 5.5 600k −40 to +1251Hyper Speed Control®
architecture, Power Good, Soft Start, Intern
Voltage Bias
MIC2166 Sync. Buck 4.5 to 28 0.8 to 5.5 600k −40 to +125 Power Good, Soft Start, Internal Compensation and Voltage Bias1
MIC2168 Sync. Buck 3.0 to 14.5 0.8 to 5.5 1.0M −40 to +125 Soft Start, Internal Compensation and Voltage Bias1
MIC2169 Sync. Buck 3.0 to 14.5 0.8 to 5.5 500k −40 to +125 Soft Start, Internal Voltage Bias1
MIC2169A Sync. Buck 3.0 to 14.5 0.8 to 5.5 500k 40 to +125 Soft Start, Internal Voltage Bias1
MIC2169B Sync. Buck 3.0 to 14.5 0.8 to 5.5 500k −40 to +125 Soft Start, Internal Voltage Bias1
MIC2176 Sync. Buck 4.5 to 75 0.8 to 24 100k, 200k, or 300k 40 to +125 Soft Start, Internal Compensation and Voltage Bias1
MIC2182 Sync. Buck 4.5 to 32 1.25 to 6.0 300k −40 to +85 Skip Mode, External Clock Sync, Soft Start, Internal Voltage Bias1
MIC2183 Sync. Buck 2.9 to 14 1.3 to 12 200k/400k −40 to +125 External Clock Sync, Soft Start, Internal Voltage Bias1
MIC2128 Sync. Buck 4.5 to 75 0.6 to 30 200k to 800k −40 to +1251Programmable soft-start/frequency/current-limit, Internal compens
and voltage bias
MIC2127A Sync. Buck 4.5 to 75 0.6 to 30 200k to 800k −40 to +1251Light load operation, Programmable frequency,Current Limit, Swit
over LDO
MIC2184 Async. Buck 2.9 to 14 1.3 to 12 200k/400k −40 to +125 External Clock Sync, Soft Start, Internal Voltage Bias1
MIC2185 Boost, SEPIC, C
´uk 2.9 to 14 3.3 to 5.5 200k/400k −40 to +85 Skip Mode, External Clock Sync, Soft Start, Internal Voltage Bias1
MIC2186 Boost, SEPIC,
Flyback 12.9 to 14 3.3 to 5.5 100/200/400k −40 to +85 Skip Mode, External Clock Sync, Soft Start, Internal Voltage Bias
MIC2193 Sync. Buck 2.9 to 14 3.3 to 5.5 400k 40 to +125 Internal Voltage Bias, UVLO1
MIC2194 Async. Buck 2.9 to 14 3.3 to 5.5 400k −40 to +125 Internal voltage Bias, UVLO, Current Limit/Short Circuit Protection1
MIC2196 Boost, SEPIC 2.9 to 14 3.3 to 5.5 400k −40 to +125 Internal voltage Bias, UVLO, Current Limit/Short Circuit Protection1
MIC2198 Sync. Buck 4.5 to 32 0.8 to 6.0 500k 40 to +125 Internal voltage Bias, UVLO, Current Limit/Short Circuit Protection1
MIC2199 Buck 4.5 to 32 0.8 to 6.0 300k −40 to +125 Internal voltage Bias, UVLO, Current Limit/Short Circuit Protection1
MIC3808 Push-Pull, Half
Bridge, Full Bridge 1 –8.3 to 15 Adj. to 1M −40 to +85 Soft Start, Internal Voltage Bias, UVLO, Current Limit/Short Circuit
Protection
MIC3809 Push-Pull, Half
Bridge, Full Bridge 1 –4.1 to 15 Adj. to 1M −40 to +85 Soft Start, Internal Voltage Bias, UVLO, Current Limit/Short Circuit
Protection
Analog and Interface Product Selector Guide 23
POWER MANAGEMENT: PWM Controllers
Part # Supported
Topologies
Supported
Outputs
Input Voltage
Range (V)
Output
Voltage (V)
Operating Frequency
(Hz)
Operating Temp.
Range (°C) Features
MIC3838 Push-Pull, Half
Bridge, Full Bridge 1 –8.3 to 15 Adj. to 1M −40 to +85 Soft Start, Internal Voltage Bias, UVLO, Current Limit/Short Circuit
Protection
MIC3839 Push-Pull, Half
Bridge, Full Bridge 1 –4.1 to 15 Adj. to 1M −40 to +85 Soft Start, Internal Voltage Bias, UVLO, Current Limit/Short Circuit
Protection
MIC38C42 Forward, Flyback 15.5 to 20 Adj. to 500k −40 to +85 Forward,Flyback Supported Topologies1 –
MIC38C43 Forward, Flyback 9.0 to 20 Adj. to 500k −40 to +85 Forward,Flyback Supported Topologies1 –
MIC38C44 Forward, Flyback 15.5 to 20 Adj. to 500k −40 to +85 Forward,Flyback Supported Topologies1 –
MIC38C45 Forward, Flyback 9.0 to 20 Adj. to 500k −40 to +85 Forward,Flyback Supported Topologies1 –
MIC38HC42 Forward, Flyback 15.5 to 20 Adj. to 500k 40 to +85 Forward,Flyback Supported Topologies1 –
MIC38C43 Forward, Flyback 9.0 to 20 Adj. to 500k −40 to +85 Forward,Flyback Supported Topologies1 –
MIC38C44 Forward, Flyback 15.5 to 20 Adj. to 500k −40 to +85 Forward,Flyback Supported Topologies1 –
MIC38C45 Forward, Flyback 9.0 to 20 Adj. to 500k −40 to +85 Forward,Flyback Supported Topologies1 –
MIC38HC42 Forward, Flyback 15.5 to 20 Adj. to 500k 40 to +85 Forward,Flyback Supported Topologies1 –
MIC38HC44 Forward, Flyback 15.5 to 20 Adj. to 500k 40 to +85 Forward,Flyback Supported Topologies1 –
MIC38HC45 Forward, Flyback 9.0 to 20 Adj. to 500k 40 to +85 Forward,Flyback Supported Topologies1 –
MIC9130 Forward, Flyback 9.0 to 180 Adj. to 1.5M −40 to +125 Forward,Flyback Supported Topologies, External Clock Sync1 –
MIC9131 Forward, Flyback 9.0 to 180 Adj. to 1M −40 to +125 Forward,Flyback Supported Topologies, External Clock Sync1 –
MCP1630 Flyback, Boost,
SEPIC, C
´uk 1 –3.0 to 5.5 Sync. to 1M −40 to +125 External Clock Sync, Current Limit/Short Circuit Protection
MCP1630V Flyback, Boost,
SEPIC, C
´uk 1 –3.0 to 5.5 Sync. to 1M −40 to +125 External Clock Sync, Current Limit/Short Circuit Protection
MCP1631 Flyback, Boost,
SEPIC, C
´uk 1 –3.0 to 5.5 Sync. to 2M −40 to +125 External Clock Sync, Current Limit/Short Circuit Protection
MCP1631V Flyback, Boost,
SEPIC, C
´uk 1 –3.0 to 5.5 Sync. to 2M −40 to +125 External Clock Sync, Current Limit/Short Circuit Protection
MCP1631HV Flyback, Boost,
SEPIC, C
´uk 1 –3.5 to 16 Sync. to 2M −40 to +125 External Clock Sync, Current Limit/Short Circuit Protection
MCP1631VHV Flyback, Boost,
SEPIC, C
´uk 1 –3.5 to 16 Sync. to 2M −40 to +125 External Clock Sync, Current Limit/Short Circuit Protection
MCP1632 Flyback, Boost,
SEPIC, C
´uk 1 –3.0 to 6 300k/600k −40 to +125 Soft Start, Internal Voltage Bias, UVLO, Current Limit/Short Circuit
Protection
MCP1633 Flyback, Boost,
SEPIC, C
´uk 1 3 to 5.5 - Sync to 2.2M High Speed Current Mode, Easy to Interface with MCU –40 to +125
MCP19035 Sync. Buck 4.5 to 30 300k/600k 40 to +1251 – Power Good, Soft Start, Internal Voltage Bias, UVLO, Current Lim
Short Circuit Protection
MCP1633 Flyback, Boost,
SEPIC, Cuk 13 to 5.5 - Sync to 2.2M -40 to +125 High Speed Current Mode, Easy to Interface with MCU
POWER MANAGEMENT: Hybrid PWM Controllers – Digitally Enhanced Power Analog
Part # Input Voltage
Range (V)
Output Voltage
(V)
Topologies
Supported Channels Program Memory
Size (kWords)
RAM
(bytes) GPIO Product features integrated MCU, LDO, MOSFET drivers, 10-b
congurable operation and:
MCP19110 4.5 to 32 0.5 to 90% * V Sync. Buck 256 Congurable and dynamically changeable internal analog compensatioin 1 4 11
MCP19111 4.5 to 32 0.5 to 90% * V Sync. Buck 256in 1 4 14 Congurable and dynamically changeable internal analog compensation
interface
MCP19114 4.5 to 42 Dependent on
topology
Boost, Flyback,
SEPIC, C
´uk 1 4 256 8 Excellent regulation for constant current applications
MCP19115 4.5 to 42 Dependent on
topology
Boost, Flyback,
SEPIC, C
´uk 1 4 256 12 Excellent regulation for constant current applications and a debug interf
www.microchip.com/analog
24
POWER MANAGEMENT: Hybrid PWM Controllers – Digitally Enhanced Power Analog
Part # Input Voltage
Range (V)
Output Voltage
(V)
Topologies
Supported Channels Program Memory
Size (kWords)
RAM
(bytes) GPIO Product features integrated MCU, LDO, MOSFET drivers, 10-b
congurable operation and:
MCP19116 4.5 to 42 Dependent on
topology
Boost, Flyback,
SEPIC, C
´uk 1 3368 8 Improved current regulation accuracy, additional code space (compared
MCP19115)
MCP19117 4.5 to 42 Dependent on
topology
Boost, Flyback,
SEPIC, C
´uk 1 3368 12 Improved current regulation accuracy, additional code space (compared
MCP19115) and a debug interface
MCP19118 4.5 to 40 0.5 to 90% * V Sync. Buck 256 Congurable and dynamically changeable internal analog compensatioin 1 4 11
MCP19119 4.5 to 40 0.5 to 90% * V Sync. Buck 256in 1 4 14 Congurable and dynamically changeable internal analog compensation
interface
MCP19122 4.5 to 40 to Sync. Buck 256 120.3 16 1 4 Emulated average current mode control, programmable gain feedback a
improved regulation accuracy and current measurement accuracy (Com
MCP19123 4.5 to 40 to Sync. Buck 2560.3 16 1 4 16
Emulated average current mode control, programmable gain feedback a
operation, improved regulation accuracy and current measurement accu
MCP19110/1/8/9) and a debug interface
MCP19124 4.5 to 42 Dependent on
topology
Boost, Flyback,
SEPIC, C
´uk 1 4 256 8 Dual independent voltage and current control loops allow seamless tran
to constant current regulation
MCP19125 4.5 to 42 Dependent on
topology
Boost, Flyback,
SEPIC, C
´uk 1 4 256 12 Dual independent voltage and current control loops allow seamless tran
to constant current regulation and a debug interface
MCP19214 4.5 to 42 Dependent on
topology
Boost, Flyback,
SEPIC, C
´uk 2 8 8 Dual channels, which can be congured to control two outputs, or one 336
MCP19215 4.5 to 42 Dependent on
topology
Boost, Flyback,
SEPIC, C
´uk 2 8 12336 Dual channels, which can be congured to control two outputs, or one
debug interface
POWER MANAGEMENT: Power Modules
Part # Input Voltage
Range (V) Output Voltage (V) Operating Temp.
Range (°C)
Control
Scheme
Switching
Frequency (kHz)
Vout Max.
(V)
Output
Current (A) Features
MIC28304-1 4.5 to 70 Adj. −40 to +125 COT 24 HyperLight Load600 3 ®
Mode, Power Good, Soft Start
MIC28304-2 4.5 to 70 Adj. −40 to +125 COT 24 Hyper Speed Control600 3 ®
Architecture, Power Good, S
MIC45205-1 4.5 to 26 Adj. −40 to +125 COT 200–600 HyperLight Load Mode, Power Good, Soft Start5.5 6
MIC45205-2 4.5 to 26 Adj. −40 to +125 COT 200–600 Hyper Speed Control Architecture, Power Good, So5.5 6
MIC45208-1 4.5 to 26 Adj. −40 to +125 COT 200–600 HyperLight Load Mode, Power Good, Soft Start5.5 10
MIC45208-2 4.5 to 26 Adj. −40 to +125 COT 200–600 Hyper Speed Control Architecture, Power Good, So5.5 10
MIC45212-1 4.5 to 26 Adj. −40 to +125 COT 200–600 HyperLight Load Mode, Power Good, Soft Start5.5 14
MIC45212-2 4.5 to 26 Adj. −40 to +125 COT 200–600 Hyper Speed Control Architecture, Power Good, So5.5 14
MIC33030 2.7 to 5.5 1.2, 1.8, Adj. −40 to +125 PWM 8,000 HyperLight Load Mode3.6 0.4
MIC33050 2.7 to 5.5 1.0, 1.2, 1.8, 3.3, Adj. 40 to +125 PWM 4,000 HyperLight Load Mode3.3 0.6
MIC33153 2.7 to 5.5 1.2, Adj. −40 to +125 PWM 4,000 1.2 HyperLight Load Mode, Power Good, Soft Start3.6
MIC3385 2.7 to 5.5 1.5, Adj. −40 to +125 PWM 8,000 LowQ5.5 0.6
MIC33M650 2.4 to 5.5 Pin Selectable −40 to +125 COT 1000–2500 3.84 HyperLight Load, Meet CISPR 32 class B specicat6
MIC33M656 2.4 to 5.5 I
²C Congurable −40 to +125 COT 1000–2500 3.84 HyperLight Load, Meet CISPR 32 class B specicat6
MIC28303-1 4.5 to 50 Adj. −40 to +125 COT 24 HyperLight Load Mode, Power Good, Soft Start600 3
MIC28303-2 4.5 to 50 Adj. −40 to +125 COT 24 Hyper Speed Control Architecture, Power Good, So600 3
MIC45116-1 4.5 to 20 Adj. −40 to +125 COT 17 HyperLight Load Mode, Power Good, Soft Start600 6
MIC45116-2 4.5 to 20 Adj. −40 to +125 COT 17 Hyper Speed Control Architecture, Power Good, So600 6
MIC45404 4.5 to 19 Selectable 40 to +125 Fixed 400–790 Power Good, Soft Start3.3 5
MIC33M356 2.4 to 5.5 3.3 COT 2300 3.84 3−40 to +125 HyperLight Load, I²C, Meet CISPR 32 class B
specications
MIC33M350 2.4 to 5.5 3.3 COT 1200 3.3 3−40 to +125 HyperLight Load, Meet CISPR 32 class B speci
MIC38300 3.0 to 5.5 Adjustable,
Down to 1.0V 40 to +125 Switcher
Plus LDO
Adjustable by Low
Pass Filter(LPF) pin
Up to
5.0V 3HELDO™ High Eciency Regulator, Ultra Fast T
Low Output Noise
MIC38150 3.0 to 5.5 Adjustable,
Down to 1.0V 40 to +125 Switcher
Plus LDO
Adjustable by LPF
pin
Up to
5.0V 1.5 HELDO High Eciency Regulator, Ultra Fast Tra
Low Output Noise
Analog and Interface Product Selector Guide 25
POWER MANAGEMENT: Charge Pump DC-to-DC Converters
Part # Conguration Input Voltage
Range (V)
Output
Voltage (V)
Typical Output
Current (mA)
Switching
Frequency
(kHz)
Supply Current (Is,
oating output µA,
25°C)
Output Resistance
(Ω, at typical output
current, 25°C)
Power
Conversion
Eciency (%) Feature
Inverting or Doubling Charge Pumps
TC682 Inverted doubling 2.4 to 5.5 −2*V 12 185 92% at 2.5 mAin 10 140 –
TC1240A Doubling 2.5 to 5 2*V 20 80 12 94% at 5 mA Shutdownin 550
TC7660S Inverting or doubling 1.5 to 12 −V or 2* V 20 10 or 45 80 98% at 1 mA Boost pin increases switin in 60
TC7660H Inverting or doubling 1.5 to 10 −V or 2* V 20 120 85% at 10 mA High-voltage oscillatorin in 1000 55
TC7662B Inverting or doubling 1.5 to 15 −V or 2* V 20 10 or 35 80 96% at 1 mA Boost pin increases switin in 65
TC7662A Inverting or doubling 3 to 18 −V or 2* V 12 190 97% at 7.5 mA No low-voltage terminal in in 40 50
TC962 Inverting or doubling 3 to 18 −V or 2* V 80 12 or 24 190 97% at 7.5 mA Boost pin increases switin in 35
Regulated Charge Pumps
MCP1256 Regulated 1.8 to 3.6 2300 N/A 85% at 50 mA3.3 100 650 Soft start, shutdown, pow
and sleep mode
MCP1257 Regulated 1.8 to 3.6 2300 N/A 85% at 50 mA3.3 100 650 Soft start, shutdown, low
signal, and sleep mode
MCP1258 Regulated 1.8 to 3.6 2300 N/A 85% at 50 mA3.3 100 650 Soft start, shutdown, pow
and bypass mode
MCP1259 Regulated 1.8 to 3.6 2300 N/A 85% at 50 mA3.3 100 650 Soft start, shutdown, low
signal, and bypass mode
MCP1252 Regulated 2.0 to 5.5 3.3, 5.0, or
adjustable 150 650 60 N/A 81% at 10 mA Shutdown, power good,
adjustable version
MCP1253 Regulated 2.0 to 5.5 3.3, 5.0, or
adjustable 150 1000 60 N/A 81% at 10 mA Shutdown, power good,
adjustable version
POWER MANAGEMENT: CPU/System Supervisors
Part # Type Watchdog
Timer
Manual
Reset
Power
Fail
Operating
Temp. Range
(°C)
V cc
Range (V) Nominal Reset Voltage (V) Reset Type Output
Typical Reset
Pulse Width
(ms)
MCP100 Supervisor −40 to +85 2.7, 3, 3.15, 4.5, 4.6, 4.75, 4.85 Active Low Push-Pull – – 1.0–5.5 350
MCP101 Supervisor −40 to +85 2.7, 3, 3.15, 4.5, 4.6, 4.75, 4.85 Active High Push-Pull – – 1.0–5.5 350
MCP102 Supervisor −40 to +125 1.0–5.5 1.95 (I-Temp), 2.4, 2.7, 3, 3.15, 4.5,
4.75 Active Low Push-Pull 120
MCP103 Supervisor −40 to +125 1.0–5.5 1.95 (I-Temp), 2.4, 2.7, 3, 3.15, 4.5,
4.75 Active Low Push-Pull 120
MCP120 Supervisor −40 to +85 2.7, 3, 3.15, 4.5, 4.6, 4.75, 4.85 Active Low Open-Drain – – 1.0–5.5 350
MCP121 Supervisor −40 to +125 1.0–5.5 1.95 (I-Temp), 2.4, 2.7, 3, 3.15, 4.5,
4.75 Active Low Open-Drain 120
MCP130 Supervisor −40 to +85 2.7, 3, 3.15, 4.5, 4.6, 4.75, 4.85 Active Low Open-Drain – – 1.0–5.5 350
MCP131 Supervisor −40 to +125 1.0–5.5 1.95 (I-Temp), 2.4, 2.7, 3, 3.15, 4.5,
4.75 Active Low Open-Drain 120
MCP1316 Supervisor ü ü – 1.0–5.5−40 to +125 2.9, 4.6,
(2.0-2.4V=I-Temp, 2.4-4.7=Ext) Active Low Push-Pull 200
MCP1316M Supervisor ü ü – 1.0–5.5−40 to +125 2.9, 4.6,
(2.0-2.4V=I-Temp, 2.4-4.7=Ext)
Active Low
Open-Drain 200
MCP1317 Supervisor ü ü – 1.0–5.5−40 to +125 2.9, 4.6,
(2.0-2.4V=I-Temp, 2.4-4.7=Ext) Active High Push-Pull 200
MCP1318 Supervisor ü– – 1.0–5.5−40 to +125 2.9, 4.6,
(2.0-2.4V=I-Temp, 2.4-4.7=Ext)
Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 200
MCP1318M Supervisor ü– – 1.0–5.5−40 to +125 2.9, 4.6,
(2.0-2.4V=I-Temp, 2.4-4.7=Ext)
Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 200
www.microchip.com/analog
26
POWER MANAGEMENT: CPU/System Supervisors
Part # Type Watchdog
Timer
Manual
Reset
Power
Fail
Operating
Temp. Range
(°C)
V cc
Range (V) Nominal Reset Voltage (V) Reset Type Output
Typical Reset
Pulse Width
(ms)
MCP1319 Supervisor ü– 1.0–5.5−40 to +125 2.9, 4.6,
(2.0-2.4V=I-Temp, 2.4-4.7=Ext)
Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 200
MCP1319M Supervisor ü– 1.0–5.5−40 to +125 2.9, 4.6,
(2.0-2.4V=I-Temp, 2.4-4.7=Ext)
Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 200
MCP1320 Supervisor ü ü – 1.0–5.5−40 to +125 2.9, 4.6, (2.0–2.4V=I-Temp,
2.4–4.7=Ext) Active Low Open-Drain 200
MCP1321 Supervisor ü– – 1.0–5.5−40 to +125 2.9, 4.6, (2.0–2.4V=I-Temp,
2.4–4.7=Ext)
Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 200
MCP1322 Supervisor ü– 1.0–5.5−40 to +125 2.9, 4.6, (2.0–2.4V=I-Temp,
2.4–4.7=Ext)
Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 200
MCP809 Supervisor −40 to +85 2.7, 3.0, 3.15, 4.5, 4.6, 4.75, 4.85 Active Low Push-Pull – – 1.0–5.5 350
MCP810 Supervisor −40 to +85 2.7, 3.0, 3.15, 4.5, 4.6, 4.75, 4.85 Active High Push-Pull – – 1.0–5.5 350
TC1232 Supervisor ü ü – 4.5–5.5−40 to +85 4.5, 4.75 Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 610
TC1270A Supervisor ü– 1.0–5.5−40 to +125 2.7, 3, 3.15, 4.5, 4.75 Active Low Push-Pull 280
TC1270AN Supervisor ü– 1.0–5.5−40 to +125 2.7, 3, 3.15, 4.5, 4.75 Active Low Open-Drain 280
TC1271A Supervisor ü– 1.0–5.5−40 to +125 2.7, 3, 3.15, 4.5, 4.75 Active High Push-Pull 280
TC1272A Supervisor −40 to +125 1.0–5.5 4.50, 4.25, 3.89, 3.00, 2.85, 2.55,
2.25 Active Low Push-Pull 140
TC32M Supervisor ü– – 4.5–5.5 500−40 to +85 4.25 Active Low Open-Drain
TCM809 Supervisor −40 to +125 1.0–5.5 4.50, 4.25, 3.89, 3.00, 2.85, 2.55,
2.25 Active Low Push-Pull 140
TCM810 Supervisor −40 to +125 1.0–5.5 4.50, 4.25, 3.89, 3.00, 2.85, 2.55,
2.25 Active High Push-Pull 140
MIC705 Supervisor ü ü ü −40 to +85 Active Low Push-Pull1.5–5.5 4.65 140
MIC706 Supervisor ü ü ü −40 to +85 Active Low Push-Pull1.5–5.5 4.4 140
MIC707 Supervisor ü−40 to +85 1.5–5.5 4.65 Active Low/High
or High/Low Push-Pull 140
MIC708 Supervisor ü−40 to +85 1.5–5.5 4.4 Active Low/High
or High/Low Push-Pull 140
MIC803 Supervisor −40 to +125 1.0–5.5 2.63, 2.93, 3.00, 3.08, 4.00, 4.10,
4.38, 4.63 Active Low Open-Drain
20/140/1100
MIC809 Supervisor 40 to +85 2.63, 2.93, 3.08, 4.00, 4.38, 4.63 Active Low Push-Pull – – 1.4–5.5 140
MIC809-5 Supervisor ü– 1.4–5.5 30−40 to +125 2.93 Active Low Push-Pull
MIC810 Supervisor 40 to +85 2.63, 2.93, 3.08, 4.00, 4.38, 4.63 – – 1.4–5.5 Active Low/High
or High/Low Push-Pull 140
MIC811 Supervisor ü– 1.4–5.5 140−40 to +85 2.63, 2.93, 3.08, 4.00, 4.38, 4.63 Active Low Push-Pull
MIC812 Supervisor ü– 1.4–5.5−40 to +85 2.63, 2.93, 3.08, 4.00, 4.38, 4.63 Active Low/High
or High/Low Push-Pull 140
MIC1810 Supervisor −40 to +85 4.12, 4.37, 4.62 Active Low Push-Pull – – 1.5–5.5 100
MIC1815 Supervisor −40 to +85 2.55, 2.88 Active Low Push-Pull – – 1.5–5.5 100
MIC1232 Supervisor ü– – 4.5–5.5−40 to +85 4.37, 4.62 Active Low/High
or High/Low Push-Pull 250
MIC1832 Supervisor ü ü – 1.4–5.5−40 to +85 2.55, 2.88 Active Low/High
or High/Low Push-Pull 250
MIC2755 Supervisor ü– 1.5–5.5−40 to +85 1.24 Active Low Open-Drain 700
MIC2775 Supervisor ü– 1.5–5.5−40 to +85 1.69, 2.25, 2.34, 2.53, 2.67, 2.81,
2.93, 3.09, 4.43, 4.68
Active Low/High
or High/Low Push-Pull 140
MIC2776N Supervisor ü 1.5–5.5 0.3 140−40 to +85 Active Low Open-Drain
MIC2776H Supervisor ü 1.5–5.5 0.3 140−40 to +85 Active High Push-Pull
MIC2776L Supervisor ü 1.5–5.5 0.3 140−40 to +85 Active Low Push-Pull
MIC2778 Supervisor −40 to +85 1.24 with adjustable hysteresis Active Low Open-Drain – – 1.5–5.5 140
MIC2779H Supervisor −40 to +85 1.24 with adjustable hysteresis Active High Push-Pull – – 1.5–5.5 140
Analog and Interface Product Selector Guide 27
POWER MANAGEMENT: CPU/System Supervisors
Part # Type Watchdog
Timer
Manual
Reset
Power
Fail
Operating
Temp. Range
(°C)
V cc
Range (V) Nominal Reset Voltage (V) Reset Type Output
Typical Reset
Pulse Width
(ms)
MIC2779L Supervisor −40 to +85 1.24 with adjustable hysteresis Active Low Push-Pull – – 1.5–5.5 140
MIC2785 Supervisor ü– 1.5–5.5−40 to +85 1.62 Active Low Push-Pull 0.025
MIC6315 Supervisor ü– 1.4–5.5−40 to +85 2.63, 2.93, 3.00, 3.08, 4.00, 4.10,
4.38, 4.63 Active Low Open-Drain 20/140/1100
MIC8114 Supervisor ü– 1.0–5.5−40 to +85 3.08 Active Low Push-Pull 790
MIC8115 Supervisor ü– 1.0–5.5 1100−40 to +85 3.08 Active Low Push-Pull
MIC826 Supervisor ü ü – 1.0–5.5−40 to +125 1.665, 2.188, 2.315, 2.625, 2.925,
3.075, 4.375, 4.625
Active Low/High
or High/Low Push-Pull 140
MIC706P/
R/S/T Supervisor ü ü ü −40 to +85 2.63, 2.93, 3.08 Active Low Push-Pull1.5–5.5 140
MIC708P/
R/S/T Supervisor ü−40 to +85 2.63, 2.93, 3.081.5–5.5 Active Low/High
or High/Low Push-Pull 140
TC51 Detector −40 to +85 0.7–10 2.94, 2.65, 2.16 (1.6-6V) Active Low Open-Drain – – 50
TC54 Detector −40 to +85 0.7–10 – – 4.21, 4.12, 2.94, 2.84, 2.65, 2.06,
1.37 (1.4-6V) Active Low CMOS Push-Pull or
Open drain 0
MCP111 Detector −40 to +125 1.0–5.5 1.87(Itemp), 2.29, 2.59, 2.86, 2.87,
3.03, 4.31, 4.56 Active Low Open-Drain 0
MCP112 Detector −40 to +125 1.0–5.5 1.87(Itemp), 2.29, 2.59, 2.86, 2.87,
3.03, 4.31, 4.56 Active Low Push-Pull 0
TC52 Detector −40 to +85 4.41, 2.65 (1.5-5V) Active Low Open-Drain – – 1.5–10 0
TC53 Detector −40 to +85 2.84, 2.65, 2.16 (1.6-6V, 7V) Active Low – – 1.5–10 CMOS Push-Pull or
Open drain 0
MIC2772 Dual ü– 1.0–5.5−40 to +85 2.93, 3.08, 4.38, 4.63 Active Low Open-Drain 20/140/1100
MIC2774N Dual ü– 1.5–5.5−40 to +85 1.69, 2.25, 2.34, 2.53, 2.67, 2.81,
2.93, 3.09, 4.43, 4.68 Active Low Open-Drain 140
MIC2774H Dual ü– 1.5–5.5−40 to +85 1.69, 2.25, 2.34, 2.53, 2.67, 2.81,
2.93, 3.09, 4.43, 4.68 Active High Push-Pull 140
MIC2774L Dual ü– 1.5–5.5−40 to +85 1.69, 2.25, 2.34, 2.53, 2.67, 2.81,
2.93, 3.09, 4.43, 4.68 Active Low Push-Pull 140
MIC2777 Dual −40 to +85 1.5–5.5 1.69, 2.25, 2.34, 2.53, 2.67,2.81,
2.93, 3.09, 4.43, 4.68
Active Low/High
or High/Low Push-Pull 140
MIC2782 Push
Button – – 1.5–5.5Dual −40 to +85 Custom options Active Low Open-Drain
500/1000/2000
MIC2790 Push
Button ü 1.5–5.5 0.4−40 to +125 Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 1.05
MIC2791 Push
Button ü 1.5–5.5 0.4−40 to +125 Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 1.05
MIC2793 Push
Button ü 1.5–5.5 0.4−40 to +125 Active Low/High
or High/Low
Dual Output Open-
Drain and/or Push-Pull 1.05
POWER MANAGEMENT: Power MOSFET Drivers
Part # Drivers Conguration Peak Output
Current
(source/sink, A)
Maximum
Supply
Voltage (V)
Output
Resistance
(source/sink, Ω)
Propagation
Delay
(Td1/Td2, ns)
Rise/Fall
Time
(Tr
/Tf, ns)
Capacitive Load
Drive Features
Low-Side Power MOSFET Drivers
MCP1401 Single Inverting 0.5/0.5 18 12/10 35/35 19/15 470 pF in 19 ns Small footprint 5-pin SO
MCP1402 Single Non-inverting 0.5/0.5 18 12/10 35/35 19/15 470 pF in 19 ns Small footprint 5-pin SO
MCP14A0051 Single Inverting 0.5/0.5 18 12.5/7.5 33/24 40/28 1000 pF in 40 ns Enable pin, small footprint 6-pin SO
MCP14A0052 Single Non-inverting 0.5/0.5 18 12.5/7.5 33/24 40/28 1000 pF in 40 ns Enable pin, small footprint 6-pin SO
TC1410N 16Single Non-inverting 0.5/0.5 16/16 30/30 25/25 500 pF in 25 ns 8-pin SO
TC1411N 16Single Non-inverting 1.0/1.0 8/8 30/30 25/25 1000 pF in 25 ns 8-pin SO
www.microchip.com/analog
28
POWER MANAGEMENT: Power MOSFET Drivers
Part # Drivers Conguration
Peak Output
Current
(source/sink, A)
Maximum
Supply
Voltage (V)
Output
Resistance
(source/sink, Ω)
Propagation
Delay
(Td1/Td2, ns)
Rise/Fall
Time
(Tr
/Tf, ns)
Capacitive Load
Drive Features
Low-Side Power MOSFET Drivers
MIC4416 Single Non-Inverting 1.2/1.2 18 3.5/3.5 33/23 14/16 1000 pF in 16 ns SOT-143
MIC4417 Single Inverting 1.2/1.2 18 3.5/3.5 33/23 14/16 1000 pF in 16 ns SOT-143
TC1426 Dual Inverting 1.2/1.2 12/8 36/43 23/17 1000 pF in 38 ns 8-pin SOI16
TC1427 Dual Non-inverting 1.2/1.2 12/8 36/43 23/17 1000 pF in 38 ns 8-pin SOI16
TC1428 Dual Complimentary 1.2/1.2 12/8 36/43 23/17 1000 pF in 38 ns 8-pin SOI16
MIC4467 Quad Inverting 1.2/1.2 18 5/5 30/45 14/13 1000 pF in 25 ns Latch-up Protected; Input
to –5V 16-pin WS
MIC4468 Quad Non-inverting 1.2/1.2 18 5/5 30/45 14/13 1000 pF in 25 ns Latch-up Protected; Input
to –5V 16-pin WS
MIC4469 Quad Complimentary 1.2/1.2 18 5/5 30/45 14/13 1000 pF in 25 ns Latch-up Protected; Input to
–5V. SMD 16-pin WS
TC4467 Quad Inverting 1.2/1.2 18 10/10 40/40 15/15 470 pF in 15 ns 16-pin SO
TC4468 Quad Non-inverting 1.2/1.2 18 10/10 40/40 15/15 470 pF in 15 ns 16-pin SO
TC4469 Quad Complimentary 1.2/1.2 18 10/10 40/40 15/15 470 pF in 15 ns 16-pin SO
MCP14A0151 Single Inverting 1.5/1.5 18 4.5/3 33/24 11/10 1000 pF in 11.5 ns Low Input Threshold and
Enable Pin 6-pin SOT
MCP14A0152 Single Non-inverting 1.5/1.5 18 4.5/3 33/24 11/10 1000 pF in 11.5 ns Low Input Threshold and
Enable Pin 6-pin SOT
MCP1415 Single Inverting 1.5/1.5 18 6/4 44/47 18/21 470 pF in 13 ns Small footprint 5-pin SO
MCP1416 Single Non-inverting 1.5/1.5 18 6/4 44/47 18/21 470 pF in 13 ns Small footprint 5-pin SO
MIC4414 Single Non-inverting 1.5/1.5 18 3.5/3.5 44/47 18/21 1000 pF in 12 ns Very small footprint 1.2 × 1.2
MIC4415 Single Inverting 1.5/1.5 18 3.5/3.5 29/30 12/12 1000 pF in 12 ns Very small footprint 1.2 × 1.2
TC4626 Single Inverting 1.5/1.5 10/8 29/30 33/27 1000 pF in 40 ns 16-pin SO6Boosted drive voltage
TC4627 Single Non-inverting 1.5/1.5 10/8 35/45 33/27 1000 pF in 40 ns 16-pin SO6Boosted drive voltage
TC4404 Single Inverting 1.5/1.5 18 7/7 15/32 25/25 1000 pF in 30 ns Open - drain 8-pin SOI
TC4405 Single Non-inverting 1.5/1.5 18 7/7 15/32 25/25 1000 pF in 30 ns Open - drain 8-pin SOI
MCP14A0153 Dual Inverting 1.5/1.5 18 4.5/3 25/24 11/10 1000 pF in 11.5 ns Low Input Threshold and
Enable Pin 8-pin SOI
MCP14A0154 Dual Non-inverting 1.5/1.5 18 4.5/3 25/24 11/10 1000 pF in 11.5 ns Low Input Threshold and
Enable Pin 8-pin SOI
MCP14A0155 Dual Complimentary 1.5/1.5 18 4.5/3 25/24 11/10 1000 pF in 11.5 ns Low Input Threshold and
Enable Pin 8-pin SOI
TC4426A Dual Inverting 1.5/1.5 18 7/7 30/30 25/25 1000 pF in 25 ns 8-pin SO
TC4427A Dual Non-inverting 1.5/1.5 18 7/7 30/30 25/25 1000 pF in 25 ns 8-pin SO
TC4428A Dual Complimentary 1.5/1.5 18 7/7 30/30 25/25 1000 pF in 25 ns 8-pin SO
MIC4426 Dual Inverting 1.5/1.5 18 6/6 17/23 18/15 1000 pF in 18 ns 8-pin SO
MIC4427 Dual Non-inverting 1.5/1.5 18 6/6 17/23 18/15 1000 pF in 18 ns 8-pin SO
MIC4428 Dual Complimentary 1.5/1.5 18 6/6 17/23 18/15 1000 pF in 18 ns 8-pin SO
MIC4126 Dual Inverting 1.5/1.5 20 6/6 37/40 13/15 1000 pF in 15 ns 8-pin eSO
MIC4127 Dual Non-inverting 1.5/1.5 20 6/6 37/40 13/15 1000 pF in 15 ns 8-pin eSO
MIC4128 Dual Complimentary 1.5/1.5 20 6/6 37/40 13/15 1000 pF in 15 ns 8-pin eSO
MCP14E6 Dual Inverting 2.0/2.0 18 5/5 45/45 12/15 1000 pF in 15 ns Enable pin 8-pin SO
MCP14E7 Dual Non-inverting 2.0/2.0 18 5/5 45/45 12/15 1000 pF in 15 ns Enable pin 8-pin SO
MCP14E8 Dual Complimentary 2.0/2.0 18 5/5 45/45 12/15 1000 pF in 15 ns Enable pin 8-pin SO
TC1412 Single Inverting 2.0/2.0 4/4 35/35 18/18 1000 pF in 18 ns 8-pin SOI16
TC1412N Single Non-Inverting 2.0/2.0 4/4 35/35 18/18 1000 pF in 18 ns 8-pin SOI16
Analog and Interface Product Selector Guide 29
POWER MANAGEMENT: Power MOSFET Drivers
Part # Drivers Conguration Peak Output
Current
(source/sink, A)
Maximum
Supply
Voltage (V)
Output
Resistance
(source/sink, Ω)
Propagation
Delay
(Td1/Td2, ns)
Rise/Fall
Time
(Tr
/T f, ns)
Capacitive Load
Drive Features
Low-Side Power MOSFET Drivers
MIC4478 Dual Non-Inverting 2.5/2.5 32 6/3 160/70 120/45 1,000pF in 45 ns 8-pin SOIC
MIC4479 Dual Inverting 2.5/2.5 32 6/3 160/70 120/45 1,000pF in 45 ns 8-pin SOIC
MIC4480 Dual Complimentary 2.5/2.5 32 6/3 160/70 120/45 1,000pF in 45 ns 8-pin SOIC
TC4423A Dual Inverting 3.0/3.0 18 2.2/2.8 40/41 12/12 1800 pF in 12 ns 8-pin SOIC, 16
TC4424A Dual Non-Inverting 3.0/3.0 18 2.2/2.8 40/41 12/12 1800 pF in 12 ns 8-pin SOIC, 16
TC4425A Dual Complimentary 3.0/3.0 18 2.2/2.8 40/41 12/12 1800 pF in 12 ns 8-pin SOIC, 16-
MCP14E9 Dual Inverting 3.0/3.0 18 4/4 45/45 14/17 1800 pF in 17 ns Enable pin 8-pin SOIC, 8-p
MCP14E10 Dual Non-Inverting 3.0/3.0 18 4/4 45/45 14/17 1800 pF in 17 ns Enable pin 8-pin SOIC, 8-p
MCP14E11 Dual Complimentary 3.0/3.0 18 4/4 45/45 14/17 1800 pF in 17 ns Enable Pin 8-pin SOIC, 8-pi
MCP14A0301 Single Interverting 3.0/3.0 18 2.2/1.5 15/18 13/12 1,800 pF in 13 ns Low Input Threshold,
Enable Pin 8-pin MSO
MCP14A0302 Single Non-Inverting 3.0/3.0 18 2.2/1.5 15/18 13/12 1,800 pF in 13 ns Low Input Threshold
and Enable Pin 8-pin MSO
TC1413N 16Single Non-Inverting 3.0/3.0 2.7/2.7 35/35 20/20 1800 pF in 20 ns 8-pin SOIC, 8-
MIC4123 Dual Inverting 3.0/3.0 20 5/5 44/59 11/11 1,800 pF in 11 ns 8-pin eSOIC, 4
MIC4124 Dual Non-Inverting 3.0/3.0 20 5/5 44/59 11/11 1,800 pF in 11 ns 8-pin eSOIC, 4
MIC4125 Dual Complimentary 3.0/3.0 20 5/5 44/59 11/11 1,800 pF in 11 ns 8-pin eSOIC, 4
MIC4423 Dual Inverting 3.0/3.0 18 5/5 33/38 23/25 1,800 pF in 23ns 8-pin SOIC, 16
MIC4424 Dual Non-Inverting 3.0/3.0 18 5/5 33/38 23/25 1,800 pF in 23ns 8-pin SOIC, 16
MIC4425 Dual Complimentary 3.0/3.0 18 5/5 33/38 23/25 1,800 pF in 23ns 8-pin SOIC, 16
MIC4223 Dual Inverting 4.0/4.0 18 30/16 25/35 15/15 2000 pF in 15 ns Enable pin 8-pin SOIC, 8-p
MIC4224 Dual Non-Inverting 4.0/4.0 18 30/16 25/35 15/15 2000 pF in 15 ns Enable pin 8-pin SOIC, 8-p
MIC4225 Dual Complimentary 4.0/4.0 18 30/16 25/35 15/15 2000 pF in 15 ns Enable pin 8-pin SOIC, 8-p
MCP14E3 Dual Inverting 4.0/4.0 18 2.5/2.5 46/50 15/18 2200 pF in 15 ns Enable pin 8-pin SOIC, 8-p
MCP14E4 Dual Non-Inverting 4.0/4.0 18 2.5/2.5 46/50 15/18 2200 pF in 15 ns Enable pin 8-pin SOIC, 8-p
MCP14E5 Dual Complimentary 4.0/4.0 18 2.5/2.5 46/50 15/18 2200 pF in 15 ns Enable pin 8-pin SOIC, 8-pi
MCP1403 Dual Inverting 4.5/4.5 18 2.2/2.8 40/40 15/18 2200 pF in 15 ns 8-pin SOIC, 16
MCP1404 Dual Non-Inverting 4.5/4.5 18 2.2/2.8 40/40 15/18 2200 pF in 15 ns 8-pin SOIC, 16-
MCP1405 Dual Complimentary 4.5/4.5 18 2.2/2.8 40/40 15/18 2200 pF in 15 ns 8-pin SOIC, 16-
MCP14A0451 Single Inverting 4.5/4.5 18 1.6/1.2 16/19 9/9 2200 pF in 9.5 ns Low Input Threshold,
Enable 8-pin SOIC
MCP14A0452 Single Non-Inverting 4.5/4.5 18 1.6/1.2 16/19 9/9 2200 pF in 9.5 ns Low Input Threshold,
Enable 8-pin SOIC
MIC4120 Single Non-Inverting 6.0/6.0 20 5/5 45/50 12/13 2200 pF in 12 ns 8-pin eSOIC, 3
MIC4129 Single Inverting 6.0/6.0 20 5/5 45/50 12/13 2200 pF in 12 ns 8-pin eSOIC, 3
MCP14A1201 Single Inverting 12/12 18 1.5/1.2 28/28 25/25 15,000 pF in 25 ns Low Input Theshold and
Enable 8-Lead MS
MCP14A1202 Single Non-Inverting 12/12 18 1.5/1.2 28/28 25/25 15,000 pF in 25 ns Low Input Theshold and
Enable 8-Lead MS
MIC4420 Single Non-Inverting 6.0/6.0 18 2.8/2.5 18/48 12/13 2200 pF in 12 ns 8-pin SOIC
CerDIP
MIC4429 Single Inverting 6.0/6.0 18 2.8/2.5 18/48 12/13 2200 pF in 12 ns 8-pin SOIC, 8-p
MIC44F18 Single Non-Inverting 6.0/6.0 2/2 15/13 10/10 1000 pF In 10 ns Enable pin 8-pin eMSOP, 213
MIC44F19 Single Inverting 6.0/6.0 2/2 15/13 10/10 1000 pF In 10 ns Enable pin 8-pin eMSOP, 213
MIC44F20 Single Inverting 6.0/6.0 2/2 15/13 10/10 1000 pF In 10 ns Enable pin 8-pin eMSOP, 213
www.microchip.com/analog
30
POWER MANAGEMENT: Power MOSFET Drivers
Part # Drivers Conguration Peak Output
Current
(source/sink, A)
Maximum
Supply
Voltage (V)
Output
Resistance
(source/sink, Ω)
Propagation
Delay
(Td1/Td2, ns)
Rise/Fall
Time
(Tr
/T f, ns)
Capacitive Load
Drive Features
Low-Side Power MOSFET Drivers
MCP1406 Single Inverting 6.0/6.0 18 2.1/1.5 40/40 20/20 2500 pF in 20 ns 8-pin SO
MCP1407 Single Non-Inverting 6.0/6.0 18 2.1/1.5 40/40 20/20 2500 pF in 20 ns 8-pin SO
MCP14A0601 Single Inverting 6.0/6.0 18 2.0/2.3 29/29 15/15 2500 pF in 10 ns Low Logic Input, Enable 8-pin SO
MCP14A0602 Single Non-Inverting 6.0/6.0 18 2.0/2.3 29/29 15/15 2500 pF in 10 ns Low Logic Input, Enable 8-pin SO
TC4421A Single Inverting 9.0/9.0 18 1.25/0.8 38/42 28/26 4700 pF in 15 ns 8-pin SO
TC4422A Single Non-Inverting 9.0/9.0 18 1.25/0.8 38/42 28/26 4700 pF in 15 ns 8-pin SO
MIC4421A Single Inverting 9.0/9.0 18 0.8/0.6 15/35 20/24 10,000 pF in 24 ns 8-pin PD
MIC4422A Single Non-Inverting 9.0/9.0 18 0.8/0.6 15/35 20/24 10,000 pF in 24 ns 8-pin PD
MIC4451 Single Inverting 12.0/12.0 18 0.8/0.6 25/40 20/24 10,000 pF in 24 ns 8-pin PD
MIC4452 Single Non-Inverting 12.0/12.0 18 0.8/0.6 25/40 20/24 10,000 pF in 24 ns 8-pin PD
TC4451 Single Inverting 12.0/12.0 18 1.0/0.9 44/44 30/32 10,000 pF in 21 ns 8-pin SO
TC4452 Single Non-Inverting 12.0/12.0 18 1.0/0.9 44/44 30/32 10,000 pF in 21 ns 8-pin SO
POWER MANAGEMENT: Power MOSFET Drivers (Continued)
Part # Drivers Conguration
Peak Output
Current
(source/sink, A)
Maximum
Supply
Voltage (V)
Output
Resistance
(source/sink, Ω)
Propagation
Delay
(Td1/Td2, ns)
Rise/Fall Time
(T
r/Tf, ns)
Capacitive Load
Drive Features
High-Side Power MOSFET Drivers
TC4431 30High-Side Single Inverting 3.0/1.5 7/7 62/78 25/33 1000 pF in 25 ns 30V, high-side driver
TC4432 High-Side Single Non-inverting 3.0/1.5 7/7 62/78 25/33 1000 pF in 25 ns 30V, high-side driver30
TC4403 Floating Load
Driver Non-inverting 1.5/1.5 18 2.8/3.5 33/38 28/32 1800 pF in 25 ns Floating load driver
MIC5011 High-Side or
Low Side Single Non-Inverting 950 μA* 32 N/A N/A 25 μs/4 μs 1000 pF in 60 µs Less than 1 µA in Standb
Mode
MIC5013 High-Side or
Low Side Single Non-Inverting 225 μA* 32 N/A N/A 60 μs/4 μs 1000 pF in 60 µs With over-current
shutdown and a fault ag
MIC5014 High-Side or
Low Side Single Non-Inverting 800 μA* N/A N/A 90 μs/6 μs 1000 pF in 90 µs30
Withstands 60V transient
and Reverse battery
protected to –20V
MIC5015 High-Side or
Low Side Single Inverting 800 μA* N/A N/A 90 μs/6 μs 1000 pF in 90 µs30
Withstands 60V transient
and Reverse battery
protected to –20V
MIC5018 High-Side or
Low Side Single Non-Inverting 10 μA* 9 N/A N/A 750 μs/10 μs 3,000 pF in 2.1 ms Small Package
MIC5019 High-Side or
Low Side Single Non-Inverting 10 μA* 9 N/A N/A 440 μs/5.56 μs 3,000 pF in 1.34 ms Ultra Small 1.2 × 1.2 mm
DFN
MIC5021 High-Side or
Low Side Single Non-Inverting 5600 μA* N/A 500/800 400 ns/400 ns 2,000 pF in 550 ns 36
100 kHz operation
guaranteed over full
temperature and operatin
voltage range
MIC5060 High-Side or
Low Side Single Non-Inverting 800 μA* N/A N/A 90 μs/6 μs 1,000 pF in 90 µs30
Withstands 60V transient
and Reverse battery
protected to –20V
Analog and Interface Product Selector Guide 31
POWER MANAGEMENT: Power MOSFET Drivers (Continued)
Part # Drivers Conguration Peak Output
Current
(source/sink, A)
Maximum
Supply Voltage
(V)
Output
Resistance
(source/sink, Ω)
Propagation
Delay
(Td1 /Td2, ns)
Rise/Fall Time
(Tr/Tf, ns)
Capacitive Load
Drive
Synchronous Power MOSFET Drivers
MCP14628 Half Bridge Driver Dual Inputs 2.0/3.5 5.5
(36V Boot Pin)
1/1
(0.5 on low side) 15/22 10/10 3300 pF in 10 ns Continuous or
operation
MCP14700 Half Bridge Driver Dual Inputs 2.0/3.5 5.5
(36V Boot Pin)
1/1
(0.5 on low side) 15/22 10/10 3300 pF in 10 ns Allows external d
MIC4100 Half Bridge Driver Dual Inputs 2.0/2.0 16 (100V Boot
Pin) 3.0/3.0 27/27 10/10 1000 pF in 10 ns
MIC4101 Half Bridge Driver Dual Inputs 2.0/2.0 16 (100V Boot
Pin) 3.0/3.0 31/31 10/10 1000 pF in 10 ns
MIC4102 Half Bridge Driver Single PWM 3.0/2.0 16 (100V Boot
Pin) 2.5/1.5 60/70 10/6 1000 pF in 10 ns Adaptive Dead
Through Circu
MIC4103 Half Bridge Driver Dual Inputs 3.0/2.0 16 (100V Boot
Pin) 2.5/1.25 24/24 10/6 1000 pF in 10 ns
MIC4104 Half Bridge Driver Dual Inputs 3.0/2.0 16 (100V Boot
Pin) 2.5/1.25 24/24 10/6 1000 pF in 10 ns
MIC4600 Half Bridge Driver Dual Inputs,
Single PWM 28V 15/13.5 3000 pF in 15 ns Internal 5V LDO
MIC4604 Half Bridge Driver Dual Inputs 1.0/1.0 16V (85V Boot
Pin) 33/34 20/20 1000 pF in 20 ns Small 2.5 × 2.5 m
MIC4605 Half Bridge Driver Dual Inputs,
Single PWM 1.0/1.0 16V (85V Boot
Pin) 35/35 20/20 1000 pF in 20 ns Adaptive Dead
Through Circu
MIC4606 Full Bridge Driver Dual Inputs,
Single PWM 1.0/1.0 16V (85V Boot
Pin) 35/35 20/20 1000 pF in 20 ns Adaptive Dead
Through Circu
*Charge pump current
POWER MANAGEMENT: Battery Chargers
Part # Mode Cell Type # of
Cells
Vcc
Range (V) Cell Voltage (V)
Maximum
Charging
Current (mA)
Max. Voltage
Regulation
(%)
Int/Ext
FET Features
MCP73113 Linear Li-ion/Li-Polymer 4 to 16 4.1, 4.2, 4.35, 4.4 Int 6.5V Overvoltage Protection1 1100 ±0.5
MCP73114 Linear Li-ion/Li-Polymer 4 to 16 4.1, 4.2, 4.35, 4.4 Int 5.8V Overvoltage Protection1 1100 ±0.5
MCP73123 Linear LiFePO4 4 to 16 Int 6.5V Overvoltage Protection, LiFePO4 charging1 3.6 1100 ±0.5
MCP73213 Linear Li-ion/Li-Polymer 2 4 to 16 8.2, 8.4, 8.7, 8.8 Int 13V Overvoltage Protection1100 ±0.6
MCP73223 Linear LiFePO4 2 4 to 16 7.2 Int 13V Overvoltage Protection, LiFePO4 charging1100 ±0.6
MCP73826 Linear Li-Ion/Li-Polymer 4.5 to 5.5 4.1, 4.2 N/A Ext Small size, charge current set by external FET1 ±1.0
MCP73827 Linear Li-Ion/Li-Polymer 4.5 to 5.5 4.1, 4.2 N/A Ext Mode indicator, Charge current monitor, Charge current se1 ±1.0
MCP73828 Linear Li-Ion/Li Polymer 4.5 to 5.5 4.1, 4.2 N/A Ext Temperature monitor, Charge current set by external FET1 ±1.0
MCP73841 Linear Li-Ion/Li-Polymer 4.5 to 12 4.1, 4.2 N/A Ext1 ±0.5 Safety charge timers, Temperature monitor, Charge current se
MCP73841 Linear Li-Ion/Li-Polymer 4.5 to 12 4.1, 4.2 N/A Ext1 ±0.5 Safety charge timers, Temperature monitor, Charge curre
external FET
MCP73842 Linear Li-Ion/Li-Polymer 2 8.7 to 12 8.2, 8.4 N/A Ext±0.5 Safety charge timers, Temperature monitor, Charge curre
external FET
MCP73843 Linear Li-Ion/Li-Polymer 4.5 to 12 4.1, 4.2 N/A Ext Safety charge timers, Charge current set by external FET1 ±0.5
MCP73844 Linear Li-Ion/Li-Polymer 2 8.7 to 12 8.2, 8.4 N/A Ext Safety charge timers, Charge current set by external FET±0.5
MCP73811 Linear Li-Ion/Li-Polymer 3.7 to 6.0 4.2 Int Selectable charge current (100 mA, 500 mA), Charge enab1 500 ±1.0
MCP73812 Linear Li-Ion/Li Polymer 1 500 ±1.03.7 to 6.0 4.2 Int Programmable charge current (100 mA, 500 mA), Charg
MCP73830/L Linear Li-Ion/Li-Polymer 1 3.75 to 6.0 4.2 1000/200 ±0.75 Int Soft-start, Charge enable pin
www.microchip.com/analog
32
POWER MANAGEMENT: Battery Chargers
Part # Mode Cell Type # of
Cells
Vcc
Range (V) Cell Voltage (V)
Maximum
Charging
Current (mA)
Max. Voltage
Regulation
(%)
Int/Ext
FET Features
MCP73831 Linear Li-Ion/Li-Polymer 1 5003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int UVLO, Thermal regulation, Programmable charge cu
MCP73832 Linear Li-Ion/Li-Polymer 1 5003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int UVLO, Thermal regulation, Programmable charge cu
Open-drain STAT pin
MCP73853 Linear Li-Ion/Li-Polymer 1 500 ±0.54.5 to 5.5 4.1, 4.2 Int USB control, Safety charge timers, Temperature mon
MCP73855 Linear Li-Ion/Li-Polymer 1 500 ±0.54.5 to 5.5 4.1, 4.2 Int USB control, Safety charge timers, Thermal regulatio
MCP73833 Linear Li-Ion/Li-Polymer 1 10003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int UVLO, Thermal regulation, Thermistor input, LDO Te
outputs, Safety timer, Power good output
MCP73834 Linear Li-Ion/Li-Polymer 1 10003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int UVLO, Thermal regulation, Thermistor input, LDO Te
outputs, Safety timer, Timer enable input
MCP73837 Linear Li-Ion/Li-Polymer 1 10003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int Dual input (USB, DC input from adapter) auto-switch
regulation, Thermistor input, Power good output
MCP73838 Linear Li-Ion/Li Polymer 1 10003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int Dual input (USB, DC input from adapter) auto-switch
regulation, Timer enable input
MCP73843 Linear Li-Ion/Li-Polymer 4.5 to 12 4.1, 4.2 N/A Ext Safety charge timers, Charge current set by external 1 ±0.5
MCP73844 Linear Li-Ion/Li-Polymer 2 8.7 to 12 8.2, 8.4 N/A Ext Safety charge timers, Charge current set by external ±0.5
MCP73811 Linear Li-Ion/Li-Polymer 3.7 to 6.0 4.2 Int Selectable charge current (100 mA, 500 mA), Charge1 500 ±1.0
MCP73812 Linear Li-Ion/Li Polymer 1 500 ±1.03.7 to 6.0 4.2 Int Programmable charge current (100 mA, 500 mA), Ch
MCP73830/L Linear Li-Ion/Li-Polymer 13.75 to 6.0 4.2 1000/200 ±0.75 Int Soft-start, Charge enable pin
MCP73831 Linear Li-Ion/Li-Polymer 1 5003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int UVLO, Thermal regulation, Programmable charge cu
MCP73832 Linear Li-Ion/Li-Polymer 1 5003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int UVLO, Thermal regulation, Programmable charge cu
Open-drain STAT pin
MCP73853 Linear Li-Ion/Li-Polymer 1 500 ±0.54.5 to 5.5 4.1, 4.2 Int USB control, Safety charge timers, Temperature mon
MCP73855 Linear Li-Ion/Li-Polymer 1 500 ±0.54.5 to 5.5 4.1, 4.2 Int USB control, Safety charge timers, Thermal regulatio
MCP73833 Linear Li-Ion/Li-Polymer 1 10003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int UVLO, Thermal regulation, Thermistor input, LDO Te
outputs, Safety timer, Power good output
MCP73834 Linear Li-Ion/Li-Polymer 1 10003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int UVLO, Thermal regulation, Thermistor input, LDO Te
outputs, Safety timer, Timer enable input
MCP73837 Linear Li-Ion/Li-Polymer 1 10003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int Dual input (USB, DC input from adapter) auto-switch
regulation, Thermistor input, Power good output
MCP73838 Linear Li-Ion/Li Polymer 1 10003.7 to 6.0 4.2, 4.35, 4.4, 4.5 ±0.75 Int Dual input (USB, DC input from adapter) auto-switch
regulation, Timer enable input
MCP73871 Linear Li-Ion/Li-Polymer 13.75 to 6.0 4.1, 4.2, 4.35, 4.4
1500 (A/C
Adapter)
500 (USB)
±0.5 Int Simultaneous charging of load and battery, Load-de
programmable charge currents
POWER MANAGEMENT: Hot Swap Controllers & E-Fuse
Part # Number of
Outputs
Input Voltage Range
(V) Latch O Auto Retry OVLO UVLO Number of Power
Good Description
MIC2085 +2.3 to +16.51ü– –Adjustable Adjustable Pin-Pin equivalent to LTC1642
MIC2582 +2.3 to +13.21ü– – Adjustable Pin-Pin equivalent to LTC1422, dual-level fault detection
MIC2583 +2.3 to +13.21ü Adjustable 1 Active High Dual level fault detection, CL discharge capability
MIC2583R +2.3 to +13.21 üAdjustable 1 Active High Dual level fault detection, CL discharge capability
MIC2584 2 Ch 1: +2.3 to +13.2
Ch 2: +1.0 to +13.2 üAdjustable Adjustable 2 Active High Output voltage tracking with dual-level fault tracking
MIC2587 +10 to +801ü Adjustable 1 Active High/Low Pin-pin equivalent to LTC1641-1
MIC2587R +10 to +801 üAdjustable 1 Active High/Low Pin-pin equivalent to LTC1641-2
Analog and Interface Product Selector Guide 33
POWER MANAGEMENT: Hot Swap Controllers & E-Fuse
Part # Number of
Outputs
Input Voltage Range
(V) Latch O Auto Retry OVLO UVLO Number of Power
Good Description
MIC2588 −19 to −801 ü Adjustable Adjustable 1 Active High/Low Pin-pin equivalent to LTC1640, LT1640A, LT4250
MIC2594 −19 to −801 ü Adjustable Adjustable 1 Active High/Low MIC2588 with programmable UVLO hysteresis
MIC2595 −19 to −801 ü Adjustable Adjustable 3 Active High/Low Staggered power good provides load sequencing, programmab
MIC2595R −19 to −801 üAdjustable Adjustable 3 Active High/Low Staggered power good provides load sequencing, programmab
LX8237 2 4.3 to 13.2 ü - Fixed - Dual E-Fuse for 12V and 5V, Dual Power Regulators, I²C Co
Monitoring, power disable support
POWER MANAGEMENT: Power Switches
Part # Description USB Port Power
Switch (55 mΩ)
High-Speed
USB 2.0 Switch
Battery Charger
Emulation Prole
8 Resistor Set
Current Limits
Charging
Indicator
Output
Attach
Detection
Output
Current
Measurement
Pow
Alloca
USB Port Power Controllers
UCS1001-1 USB Port Power Controller with
Charger Emulation 1 1 9 Up to 2.4A ü– –
UCS1001-2 USB Port Power Controller with
Charger Emulation 1 1 9 Up to 2.4A ü– –
UCS1001-3 USB Port Power Controller with
Charger Emulation 1 1 9 Up to 2.4A ü– –
UCS1001-4 USB Port Power Controller with
Charger Emulation 1 1 9 Up to 2.4A ü– –
UCS1002-1 Programmable USB Port Power
Controller with Charger Emulation 1 1 9 + 1
programmable Up to 2.4A üü ü
UCS1002-2 Programmable USB Port Power
Controller with Charger Emulation 1 1 9 + 1
programmable Up to 2.4A üü ü
UCS1003-1 Programmable USB Port Power
Controller with Charger Emulation 1 1 9 + 1
programmable Up to 3A ü ü ü
UCS1003-2 Programmable USB Port Power
Controller with Charger Emulation 1 1 9 Up to 3A ü– –
UCS1003-3 Programmable USB Port Power
Controller with Charger Emulation 1 1 9 Up to 3A ü– –
UCS81003 Programmable USB Port Power
Controller Automotive 1 1 9 + 1
programmable Up to 3A ü ü ü
POWER MANAGEMENT: Power Switches (Continued)
Current Limit USB Protection Switches
Part # Channels V Range (V)in Fixed Current Limit
(Min.)
Adj. Current
Limit (Max.)
R ds on( )
(mΩ)
Current
Limited/
Latched
Reverse
Blocking Enable Logic ULVO Thermal
Protection
Fault
Flag
UCS2114 Dual 2.9–5.5 3.0A 3.4A 18 ü ü Active Low, Active High ü ü ü
UCS2113 Dual 2.9–5.5 3.0A 3.4A 40 ü ü Active Low, Active High ü ü ü
UCS2112 Dual 2.9–5.5 3.0A 3.4A 40 ü ü Active Low, Active High ü ü ü
MIC2003/13 Single 2.5–5.5 500 mA, 800 mA, 1.2A 70 ü ü ü
MIC2004/14 Single 2.5–5.5 500 mA, 800 mA, 1.2A 70 ü Active High ü ü
MIC2005/15 Single 2.5–5.5 500 mA, 800 mA, 1.2A 70 ü Active High ü ü ü
MIC2005A Single 2.5–5.5 500 mA 170 ü Active Low, Active High ü ü ü
MIC2009A Single 2.5–5.5 900 mA 170 ü Active Low, Active High ü ü
MIC2005L Single 2.5–5.5 500 mA, 800 mA, 1.2A 70 ü Active Low ü ü ü
MIC2007/17 Single 2.5–5.5 2.0A 100 ü Active High ü ü
MIC2008/18 Single 2.5–5.5 2.0A 70 ü Active High ü ü
MIC2009/19 Single 2.5–5.5 2.0A 70 ü Active High ü ü ü
MIC2025-1 Single 2.7–5.5 500 mA 140 ü ü Active High ü ü ü
MIC2025-2 Single 2.7–5.5 500 mA 140 ü ü Active Low ü ü ü
www.microchip.com/analog
34
POWER MANAGEMENT: Power Switches (Continued)
Current Limit USB Protection Switches
Part # Channels V Range (V)in Fixed Current Limit
(Min.)
Adj. Current
Limit (Max.)
R ds on( )
(mΩ)
Current
Limited/
Latched
Reverse
Blocking Enable Logic ULVO Thermal
Protection
Fault
Flag
MIC2026-1 Dual 2.7–5.5 500 mA 90ü ü Active High ü ü ü
MIC2026-2 Dual 2.7–5.5 500 mA 90ü ü Active Low ü ü ü
MIC2026A-1 Dual 2.7–5.5 500 mA 100 ü ü Active High ü ü ü
MIC2026A-2 Dual 2.7–5.5 500 mA 100 ü ü Active Low ü ü ü
MIC2027-1 Quad 2.7–5.5 500 mA 150 ü ü Active High ü ü ü
MIC2027-2 Quad 2.7–5.5 500 mA 150 ü ü Active Low ü ü ü
MIC2033 Single 2.5–5.5 475 mA, 517 mA, 760
mA, 950 mA, 1.14A 125 üActive Low, Active High ü ü ü
MIC2039 Single 2.5–5.5 2.5A 75üActive Low, Active High ü ü ü
MIC2040-1 Single 0.8–5.5 1.5A 75ü ü Active High ü ü ü
MIC2040-2 Single 0.8–5.5 1.5A 75ü ü Active Low ü ü ü
MIC2041-1 Single 0.8–5.5 1.5A 75 LatchedüActive High ü ü ü
MIC2041-2 Single 0.8–5.5 1.5A 75 LatchedüActive Low ü ü ü
MIC2042-1 Single 0.8–5.5 3.0A 60 ü ü Active High ü ü ü
MIC2042-2 Single 0.8–5.5 3.0A 60 ü ü Active Low ü ü ü
MIC2043-1 Single 0.8–5.5 3.0A Latched 60 üActive High ü ü ü
MIC2043-2 Single 0.8–5.5 3.0A Latched 60 üActive Low ü ü ü
MIC2044-1 Single 0.8–5.5 6.0A 30 ü ü Active High ü ü ü
MIC2044-2 Single 0.8–5.5 6.0A 30 ü ü Active Low ü ü ü
*Reduced Height Package
POWER MANAGEMENT: Load Switches
Part # Channels V Range (V) Max. Switch Current R Enable Logic Input Pull-Up Resistor Reverse Bloin ds on( ) (mΩ) Soft Start (μs) Load Discharge (Ω)
MIC94030 Single 2.7–13.5 750 Active Low1.0 – –
MIC94040 Single 1.7–5.5 28 Active High3.0 – –
MIC94041 Single 1.7–5.5 28 250 Active High3.0 – –
MIC94042 Single 1.7–5.5 28 Active High3.0 100 –
MIC94043 Single 1.7–5.5 28 250 Active High3.0 – –
MIC94044 Single 1.7–5.5 28 900 Active High3.0 – –
MIC94045 Single 1.7–5.5 28 900 200 Active High3.0 – –
MIC94050 Single 1.8–5.5 1.8 125 Active Low– –
MIC94051 Single 1.8–5.5 1.8 125 Active Low– – ü
MIC94052 Single 1.8–5.5 2.0 70 Active Low– –
MIC94053 Single 1.8–5.5 2.0 70 Active Low– – ü
MIC94060 Single 1.7–5.5 2.0 77 Active High– –
MIC94061 Single 1.7–5.5 2.0 77 200 Active High – –
MIC94062 Single 1.7–5.5 2.0 77 800 Active High – –
MIC94063 Single 1.7–5.5 2.0 77 800 200 Active High – –
MIC94064 Single 1.7–5.5 2.0 77 Active High115 –
Analog and Interface Product Selector Guide 35
POWER MANAGEMENT: Load Switches
Part # Channels V Range (V) Max. Switch Current R Enable Logic Input Pull-Up Resistor Reverse Bloin ds on( ) (mΩ) Soft Start (μs) Load Discharge (Ω)
MIC94065 Single 1.7–5.5 2.0 77 200 Active High115 –
MIC94070 Single 1.7–5.5 1.2 120 Active High– –
MIC94071 Single 1.7–5.5 1.2 120 200 Active High– –
MIC94072 Single 1.7–5.5 1.2 120 800 Active High– –
MIC94073 Single 1.7–5.5 1.2 120 800 200 Active High
MIC94080 Single 1.7–5.5 2.0 67 Active High– –
MIC94081 Single 1.7–5.5 2.0 67 250 Active High– –
MIC94082 Single 1.7–5.5 2.0 67 800 Active High– –
MIC94083 Single 1.7–5.5 2.0 67 800 250 Active High
MIC94084 Single 1.7–5.5 2.0 67 120 Active High– –
MIC94085 Single 1.7–5.5 2.0 67 120 250 Active High
MIC94090 Single 1.7–5.5 1.2 Active High130 –
MIC94091 Single 1.7–5.5 1.2 250 Active High130 –
MIC94092 Single 1.7–5.5 1.2 790 Active High130 –
MIC94093 Single 1.7–5.5 1.2 790 250 Active High130 –
MIC94094 Single 1.7–5.5 1.2 120 Active High130 –
MIC94095 Single 1.7–5.5 1.2 120 250 Active High130 –
MIC94161 Single 1.7–5.5 2700 Active High3.0 15.5
MIC94162 Single 1.7–5.5 200 Active High3.0 15.5 60
MIC94163 Single 1.7–5.5 Active High3.0 15.5 60
MIC94164 Single 1.7–5.5 2700 200 Active High3.0 15.5
MIC94165 Single 1.7–5.5 2700 Active High3.0 15.5
MIC95410 Single 7.0 2300 Active High0.5–5.5 6.6 1100
MIC94066 Dual 1.7–5.5 2 85 Active High– –
MIC94067 Dual 1.7–5.5 2 85 200 Active High– –
MIC94068 Dual 1.7–5.5 2 85 800 Active High– –
MIC94069 Dual 1.7–5.5 2 85 800 200 Active High
*Reduced Height Package
POWER MANAGEMENT: Reverse Power Feed
Part # Application FETs Interface Operating Temperature Ports
PD81000 PSE for CPE N/A I²C 1-40 to +85
PD81101 PSE for CPE I²C 1Internal 0.2Ω -40 to +85
PD82000 PD for DPU N/A I²C 4 to 16-40 to +85
www.microchip.com/analog
36
DISPLAY AND LED DRIVERS
DISPLAY AND LED DRIVERS: Electroluminescent Backlight Drivers
Part # Type Input Voltage
Low (V)
Input Voltage
High (V)
Nominal Output
Voltage (V)
Max. Switch
Resistance (Ω) Output Regulation Max. Lamp Size per Device
16-Segment Drivers
HV509 16-Segment Drivers 2 ±50 to ±2005.5 – – 6.5
HV528 16-Segment Drivers 1.7 ±50 to ±2005.5 – – 6.5
Oine Drivers
HV809 Oine Driver 200 ±50 to ±20050 – – 100
Single Lamp Drivers
HV816 Single Lamp Driver 2.7 ±180 425.5 Yes
HV823 Single Lamp Driver 2 9.5 ±90 236Yes
HV825 Single Lamp Driver No1 1.6 ±56 15 3
HV830 Single Lamp Driver 2 9.5 25±100 4 Yes
HV833 Single Lamp Driver 1.8 ±90 126.5 4 Yes
HV850 Single Inductorless Lamp Driver 4.2 ±703 Yes 1.5
HV852 Single Inductorless Lamp Driver 2.4 ±805 Yes 1.5
HV853 Single Inductorless Lamp Driver 3.2 ±805 Yes 1.5
HV857 Single Lamp Driver 1.8 ±955 6 Yes 5
HV857L Single Lamp Driver 1.8 ±955 6 Yes 5
HV859 Single Lamp Driver 1.8 5 ±105 6 Yes 5
HV860 Single Lamp Driver 2.5 4.5 ±110 6 Yes 5
MIC4826 Single Lamp Driver 1.8 ±80 75.5 Yes 3
MIC4827 Single Lamp Driver 1.8 ±90 75.5 Yes 3
MIC4830 Single Lamp Driver 1.8 ±90 75.5 Yes 4
MIC4832 Single Lamp Driver 1.8 75.5 ±110 Yes 3
Dual Lamp Drivers
HV861 Dual Lamp Drivers 2.5 ±90 74.5 Yes 5
MIC4833 Dual Lamp Drivers 2.3 5.8 12±110 Yes 4
DISPLAY AND LED DRIVERS: LED Drivers
Part # Application Topology Input Voltage (V) Ouput Current Dimming
Automotive (AEC-Q100 Certied) LED Drivers
AT9917 Auto Boost, Sepic External FET PWM/Linear 24- pin T5.3–40
AT9919 Auto Buck External FET PWM 8-pin DFN4.5–40
AT9932 Auto Boost-Buck (C
´uk) External FET PWM/Linear 24-pin TS5.3–40
AT9933 Auto Boost-Buck (C
´uk) 9.0–75 External FET PWM 8-pin SOI
MAQ3203 Auto Buck 4.5-42 External FET PWM 8-pin SO
General Purpose LED Drivers
Part # Topology Input Voltage (V) Dimming I Typ. (mA) Switching Frequency (Hz) Switching MOSFET Dithered ILED Accuracy V (V)q fb
HV9801A Buck 4-Level Switch 100K External FET N/A 0.215–450 1.0
HV9803B Buck 7–13.2 PWM/Linear 100K External FET ±2% 0.21.5 –
HV9805 2-Stage 102–265 2.5 370K 0.7A FET N/A 1.2– –
HV98100 Buck-Boost 9.5–17.5 0.2 320K External FET ±5% 0.2– –
HV98101 Buck-Boost 9.5–17.5 0.2 320K External FET ±5% 0.2– –
HV9861A Buck PWM/Linear 100K External FET ±3% 0.215–450 1.5
HV9910B Buck 8–450 PWM/Linear 100K External FET ±5% 0.21.0 –
HV96001 Current
Mode Boost 8-60 Extra Wide Range
PWM and Analog 3.4 200 kHz External 0.4
External
Analog and Interface Product Selector Guide 37
DISPLAY AND LED DRIVERS: LED Drivers (Continued)
Part # Topology Input Voltage (V) Dimming I Typ. (mA) Switching Frequency (Hz) Switching MOSFET Dithered ILED Accuracy Vq
General Purpose LED Drivers (Continued)
HV9910C Buck PWM/Linear 100K External FET ±5% 015–450 1.0
HV9918 Buck PWM 2M 0.7A FET ±5% 04.5–40 1.5
HV9919B Buck PWM 2M External FET ±5% 04.5–40 1.5
HV9921 Buck 20–400 0.2 100K 20 mA N/A– –
HV9922 Buck 20–400 0.2 100K 50 mA N/A– –
HV9923 Buck 20–400 0.2 100K 30 mA N/A– –
HV9925 Buck 20–400 PWM 100K 20–50 mA N/A 00.3 –
HV9930 C
´uk 8–200 PWM Variable External FET N/A 01.0 –
HV9931 Buck 8–450 PWM 100K External FET N/A1.0 –
MIC3201 Buck 6–20 PWM 1.2 Hyst to 1.0M 1A FET ±5%
MIC3202 Buck 6–37 PWM 1.2 Hyst to 1.0M 1A FET ü±5%
MIC3202-1 Buck 6–37 PWM 1.2 Hyst to 1.0M 1A FET ±5%
MIC3203 Buck 4.5–42 PWM Hyst to 1.5M External FET1.0 ü±5%
MIC3203-1 Buck 4.5–42 PWM Hyst to 1.5M External FET ±5%1.0 –
MIC3205 Buck PWM Hyst to 1M External FET ±5%4.5–40 1.3
MIC3230 Boost PWM 3.2 100K–1.0M External FET ±3% 06–45 –
MIC3231 Boost PWM 3.2 100K–1.0M External FET6–45 ü±3% 0
MIC3232 Boost PWM 3.2 400K External FET ±3% 06–45 –
Backlight LED Drivers
Part # Topology Input Voltage (V) Dimming I Typ. (mA) Output Current Int. Diode V (V) Frequencyq fb
HV9803 Buck 7–13.2 PWM/Linear External FET N/A 0.8 100K1.5
HV9911 Boost, SEPIC, Buck-Boost 9–250 PWM /Linear N/A External FET N/A 100K0.45
HV9912 Boost, SEPIC, Buck-Boost 9–100 PWM /Linear N/A External FET N/A 100K0.45
HV9961 Buck 8–450 PWM/Linear External FET N/A 0.27 100K3.5
HV9963 Boost, SEPIC, Buck-Boost 8–40 PWM/Linear N/A External FET N/A N/A 100K
HV9967B Buck 8–60 PWM/Linear N/A 1A FET N/A 0.24 100K
HV9980 Buck PWM/Linear 0.07A FET N/A N/A 500K100–160 3.0
HV9985 Boost, SEPIC, Buck PWM/Linear External FET N/A N/A 500K10–40 1.5
MIC2282 Boost 0.9–15 N/A 0.12 1A BJT N/A 0.22 20K
MIC2287 Boost 2.5–10 PWM/Analog 2.5 2A BJT N/A 0.095 1.2M
MIC2287C Boost 2.5–10 PWM/Analog 2.5 2A BJT N/A 0.095 1.2M
MIC2289 Boost 2.5–10 PWM/Analog 2.5 2A BJT 0.095 1.2MYes
MIC2289C Boost 2.5–10 PWM/Analog 2.5 2A BJT 0.095 1.2MYes
MIC2291 Boost 2.5–10 PWM/Analog 2.8 2A BJT N/A 0.095 1.2M
MIC2292 Boost 2.5–10 PWM/Analog 2.5 2A BJT 0.095 1.6MYes
MIC2292C Boost 2.5–10 PWM/Analog 2.5 2A BJT 0.095 1.6MYes
MIC2293 Boost 2.5–10 PWM/Analog 2.5 2A BJT 0.095 2.0MYes
MIC2293C Boost 2.5–10 PWM/Analog 2.5 2A BJT 0.095 2.0MYes
MIC2297 Boost 2.5–10 PWM/Analog 3A BJT N/A 0.2 600K4
MIC2298 Boost 2.5–10 PWM/Analog 6A BJT N/A 0.2 1.0M15
MIC2299 Boost 2.5–10 PWM/Analog 8A BJT N/A 0.2 2.0M15
MIC3223 Boost 4.5–20 PWM 2.1 10A FET N/A 0.2 1.0M
MIC3263 Boost PWM 2A BJT N/A 2.36 400K–1.8M6–40 6.5
MIC3287 Boost 2.8–6.5 PWM/Analog 2.1 1A BJT N/A 0.25 1.2M
MIC3289 Boost 2.5–6.5 1-Wire 2A BJT 0.25 1.2M1.4 Yes
www.microchip.com/analog
38
DISPLAY AND LED DRIVERS: LED Drivers (Continued)
Part # Input Voltage (V) # of White LEDs Dimming I Typ. (mA) V Dropout LED @ 20 mA ILED Matching Ext. LDOs V IQLDOq dropout
Linear LED Drivers
MIC2841A 4 @ 20 mA PWM (200 Hz–500 kHz) 40 mV ±1.5%3–5.5 1.4 – –
MIC2842A 4 @ 20 mA 1-Wire, 48-Steps 40 mV ±1.5%3–5.5 1.4 – – –
MIC2843A 6 @ 20 mA PWM (200 Hz–500 kHz) 40 mV ±1.5%3–5.5 1.4 – – –
MIC2844A 6 @ 20 mA 1-Wire, 48-Steps 40 mV ±1.5%3–5.5 1.4 – – –
MIC2846A 6 @ 20 mA 1-Wire, 48-Steps 40 mV ±1.5% 23–5.5 1.4 150 35
MIC2860-2D 2 @ 30.2 mA 1-Wire, 32-Steps 0.7 52 mV ±0.5%3–5.5 – – –
MIC2860-2P 2 @ 30.2 mA PWM down to 250Hz 0.7 52 mV ±0.5%3–5.5 – –
MIC4811 6 @ 50 mA PWM (200 Hz–500 kHz) 1.7 100 mV @ 50 mA ±1.0%3–5.5 – –
MIC4812 6 @ 100 mA PWM (200 Hz–500 kHz) 3.2 190 mV @ 100 mA ±1.0%3–5.5 – – –
MIC4801 1 @ 600 mA PWM (200 Hz–500 kHz) 2.2 130 mV @ 400 mA N/A3–5.5 – – –
MIC4802 1 @ 800 mA PWM (200 Hz–500 kHz) 280 mV @ 800 mA N/A3–5.5 4.1 – – –
Linear Regulators
Part # Input Voltage (V) Output Voltage (V) Output Current (mA) Dimming Parallelable Packages
CL2 5.0–90 5.0–90 20 External FET 3-pin TO-252, 3-pin TO-92, 3-pin SYes
CL25 5.0–90 5.0–90 25 External FET 3-pin TO-92, 3-pin SOT-89Yes
CL220 5.0–220 5.0–220 20 External FET 3-pin TO-252, 3-pin TO-220Yes
CL320 6.5–90 4.0–90 20 PWM 8-bit SOIC with Heat SlugYes
CL325 6.5–90 4.0–90 25 PWM 8-bit SOIC with Heat SlugYes
CL330 6.5–90 4.0–90 PWM 8-bit SOIC with Heat Slug30 Yes
CL520 4.75–90 1.0–90 20 3-pin TO-252, 3-pin TO-92Yes
CL525 4.75–90 1.0–90 25 3-pin TO-252, 3-pin TO-92Yes
CL6 6.5–90 4.0–90 No 3-pin TO-252, 3-pin TO-220100 Yes
CL7 6.5–90 4.0–90 PWM 8-pin SOIC with Heat Slug100 Yes
Display LED Drivers
Part # Input Voltage (V) Sink Current (mA) Segments LEDs Description
MIC5400 4.75–5.5 N/A 2 banks of 8 Driving Large LED Array30
MM5450 4.75–11 N/A 7-Segment LED Driver15 34
MM5451 4.75–11 N/A 7-Segment LED D15 35
Sequential Linear LED Drivers
Part # V (V) Vin out (V) Output Current (mA) Dimming Parallelable Features
CL8800 90–275 70–350 External Dimmer 6-Stage115 Yes
CL8801 90–275 70–350 200 External Dimmer 4-StageYes
CL88020 90–135 70–190 External Dimmer 4-Tap115 Yes
CL88030 90 320 N/A External 4-Tap, ALR, OTP, I FET DependentYes out
CL88031 90 320 N/A External 6-Tap, ALR, OTP, I FET DependentYes out
Camera Flash LED Drivers
Part # Input Voltage (V) # of LED Channels Max. LED Current (mA) Standby Current (mA) Switch Frequency (MHz) Current Accuracy (%)Peak Eciency (%)
MIC2870 2.7–5 2 0.90 2 941500 ±10
MIC2871 2.7–5.5 1200 0.23 2 941 ±5
MIC2873 2.7–5.5 1200 0.17 2 92 ±81
MIC2874 2.7–5.5 1200 0.17 92 ±81 4
Analog and Interface Product Selector Guide 39
HIGH-VOLTAGE INTERFACE
HIGH-VOLTAGE INTERFACE: Driver Arrays
Part # Output
Channels
Vout Operating
(V) Transient
Vout Operating
(V) Sustained
Input
Structure Description
Sink
HV5122 32 250 225 Serial Serial to parallel converter with output enable and strobe
HV5222 32 250 225 Serial Serial to parallel converter with output enable and strobe
HV5522 32 230 220 Serial Serial to parallel converter with latches, polarity, and blanking
HV5523 32 230 220 Serial Serial to parallel converter with latches, polarity, and blanking
HV5530 32 Serial Serial to parallel converter with latches, polarity, and blanking 315 300
HV5622 32 230 220 Serial Serial to parallel converter with latches, polarity, and blanking
HV5623 32 250 220 Serial Serial to parallel converter with latches, polarity, and blanking
HV5630 32 Serial Serial to parallel converter with latches, polarity, and blanking 315 300
MIC5800 Parallel 4.4 MHz (min.) Data at 5V, Higher at 12V; TTL/CMOS/PMOS Logic; Integrated clamp diodes; CLR/Strobe/Enable Out4 50 50
MIC5801 8 Parallel 4.4 MHz (min.) Data at 5V, Higher at 12V; TTL/CMOS/PMOS Logic; Integrated clamp diodes; CLR/Strobe/Enable Out50 50
MIC5821 8 Serial Similar to MIC5801, Adds thermal Shutdown, UVLO, OCP50 35
MIC5822 8 80 Serial 8-bit SRs (Cascadable), Operable with split supply (to −20V), 3.3 MHz (min.) Data at 5V, TTL/CMOS/PMOS/NMOS Logi50
MIC5841 8 Serial 8-bit SRs (Cascadable), Operable with split supply (to −20V), 3.3 MHz (min.) Data at 5V, Higher at 12V, TTL/CMOS/PMO50 35
MIC5842 8 80 Serial50 8-bit SRs (Cascadable), Operable with split supply (to −20V), 3.3 MHz (min.) Data at 5V, Higher at 12V, Low Power Logic
Down Res's
MIC58P01 8 80 80 Parallel
8-bit SRs (Cascadable), Operable w/Split Supply (to −20V), 3.3 MHz (min.) Data at 5V, Higher at 12V, Low Power Logic: TTL
MIC58P42 8 80 Serial Similar to MIC5842, adds thermal shutdown, UVLO, OCP50
MIC59P50 8 80 80 Parallel Similar to MIC58P01, with added error ag output
MIC59P60 8 80 Serial Similar to MIC58P42, with added error ag output50
Source
HV57009 95 85 Serial Current controlled driver with latches and blanking, two 32-bit shift registers 64
MIC2981/82 8 Parallel 8-Ch. driver with parallel I/Os; TTL/CMOS/PMOS Logic; Integrated clamp diodes; V <12V50 35 in
MIC5891 8 Serial50 35 8-bit SRs (Cascadable), Operable with split supply (to −20V), 5 MHz (min.) Data at 5V, Integrated clamp diodes; TTL/CMO
Source-Sink
HV3418 200 180 Serial Serial to parallel converter with latches, polarity, and blanking 64
HV507 320 Serial Serial to parallel converter with latches, polarity, and blanking 64 300
HV508 2 Parallel H-Bridge output with two output voltage level selections and polarity; Specially targeted as LCD shutter driver60 45
HV513 8 275 250 Serial Serial to parallel converter with latches, polarity, and blanking HI-Z and short circuit detect
HV518 32 90 80 Serial Serial to parallel converter with latches, enable, and strobe; Specially targeted as vacuum-uorescent display drive
HV5308 32 90 80 Serial Serial to parallel converter with latches, and output enable
HV5408 32 90 80 Serial Serial to parallel converter with latches, and output enable
HV574 80 90 80 Serial Serial to parallel converter with latches, polarity, and blanking
HV57708 90 80 Serial Polarity, and blanking with four 16-bit shift registers 64
HV57908 90 80 Serial Latches, blanking, polarity, and single shift register 64
HV5812 20 90 80 Serial Serial to parallel converter with latches, blanking and strobe
HV582 96 85 80 Serial 96-Channel, with high-voltage CMOS Outputs, 80V
HV583 128 90 80 Serial 128-Channel, with high-voltage CMOS Outputs, 80V
HV66 32 70 Serial Serial to parallel converter with latches, polarity and blanking60
HV6810 90 80 Serial Serial to parallel converter with data latches and channel polarity select10
HV7022 250 230 Serial Serial to parallel converter with direction, enable, and polary select; particularly useful for ACTFEL displays34
HV7224 260 240 Serial Serial to parallel converter with latches, and output enable 40
HV7620 32 225 200 Serial Serial to parallel converter with latches, channel polarity select, and blanking
HV9308 32 90 80 Serial Serial to parallel converter latches and output enable, CW directional shift
HV9408 32 90 80 Serial Serial to parallel converter latches and output enable; CCW directional shift
HV9808 32 90 80 Serial Serial to parallel converter latches, polarity, and output enable; CCW directional shift
www.microchip.com/analog
40
HIGH-VOLTAGE INTERFACE: Ampliers and MEMS Drivers
Part # Output Channels Closed Loop Gain (V/V)Slew Rate (V/μs) Feedback Resistance (MΩ) Source Current (Max. μA) Sink Current (Max. μA) Output Capac
HV254 32 123 50 300 300 1
HV256 32 2 72 12 715 715 3
HV257 32 2 72 12 500 500 3
HV264 9 66.74 5.3 3000 3000
HV265 0.02 82 4.9 24 3000 300
HV56022 2 0.2 75 1.9 96000 167000 N
HV56020 2 0.2 75 1.9 96000 167000 N
HIGH-VOLTAGE INTERFACE: MOSFETs – Interface
Part # BV Min. (V) R V Min. (V) V Max. (V)dsx ds on( ) Max. (Ω) gs off( ) gs off( )
Depletion-Mode N-Channel
LND01 9 −0.8 −3 5-pin S1.4
DN1509 90 −1.8 −3.5 3-pin S6
DN2625 250 −1.5 −2.1 8-pin V3.5
DN3525 250 −1.5 −3.5 3-pin S6
DN2530 12 −1 −3.5 3-pin T300
DN3535 −1.5 −3.5 3-pin S350 10
DN2535 25 −1.5 −3.5 3-pin T350
DN3135 −1.5 −3.5 3-pin S350 35
DN2540 25 −1.5 −3.5 3-pin T400
DN3545 20 −1.5 −3.5 3-pin T450
DN3145 −1.5 −3.5 3-pin S450 60
DN2450 −1.5 −3.5 3-pin D500 10
LND150 −1 −3 3-pin T500 1000
LND250 −1 −3 3-pin S500 1000
DN3765 8 −1.5 −3.5 3-pin D650
DN2470 700 42 −1.5 −3.5 3-pin D
Enhancement-Mode N-Channel
Part # BV Min. (V) R C Max. (pF) V Max. (V)dss ds on( ) Max. (Ω) iss gs th( )
TN2501 18 2.5 3-pin S110 1.0
TN0702 20 200 3-pin T1.3 1.0
VN0300 1.2 190 2.5 3-pin T30
TN0604 40 1.60.8 190 3-pin T
TN2504 125 3-pin S40 1.0 1.6
TN0104 40 1.62.0 70 3-pin T
VN0104 2.4 3-pin T40 3.0 65
VN3205 2.4 3-pin T50 0.3 300
TN0606 60 1.5 150 2.0 3-pin T
TN2106 2.5 2.0 3-pin T60 50
2N6660 2.0 3-pin T60 3.0 50
TN0106 60 3.0 60 2.0 3-pin T
VN0106 2.4 3-pin T60 3.0 65
VN0606 2.0 3-pin T60 3.0 50
VN2106 2.4 3-pin T60 4.0 50
2N7000 3-pin T60 5.0 60 3.0
2N7002 7.5 2.5 3-pin S60 50
2N7008 7.5 2.5 3-pin T60 50
VN2222L 7.5 2.5 3-pin T60 60
Analog and Interface Product Selector Guide 41
HIGH-VOLTAGE INTERFACE: MOSFETs – Interface (Continued)
Part # BV Min. (V) R C Max. (pF) V Max. (V)dss ds on( ) Max. (Ω) iss gs th( )
Enhancement-Mode N-Channel (Continued)
VN0808 80 2.0 3-pin T4.0 50
VN0109 90 2.4 3-pin T3.0 65
2N6661 90 2.0 3-pin T4.0 50
VN2210 2.4 3-pin T100 0.4 500
TN0610 100 1.5 150 2.0 3-pin T
TN2510 125 2.0 3-pin S100 1.5
TN0110 100 3.0 60 2.0 3-pin T
VN2110 2.4 3-pin S100 4.0 50
VN1206 120 125 2.0 3-pin T6.0
TN0620 200 3-pin T6.0 150 1.6
VN2224 240 3-pin T1.3 350 3.0
TN2524 240 125 2.0 3-pin S6.0
VN2406 240 125 2.0 3-pin T6.0
VN2410 240 125 2.0 3-pin T10.0
TN2124 240 2.0 3-pin S15.0 50
TN2425 250 200 2.0 3-pin S3.5
TN5325 250 7.0 2.0 3-pin T110
TN2130 25.0 2.4 3-pin S300 50
TN2435 200 0.8 (min) 3-pin S350 6.0
TN5335 350 15.0 110 2.0 3-pin S
TN2640 225 2.0 3-pin D400 5.0
TN2540 12.0 125 2.0 3-pin T400
VN4012 12.0 1.8 3-pin T400 110
VN2450 3-pin T500 13.0 150 4.0
VN0550 3-pin T500 60.0 55 4.0
VN2460 20.0 3-pin T600 150 4.0
Enhancement-Mode P-Channel
LP0701 16.5 250 −1.0 3-pin T1.5
TP2502 −20 2.0 125 −2.4 3-pin S
VP3203 −30 3.5 3-pin T0.6 300
TP0604 −40 2.0 −2.4 3-pin T150
TP2104 −40 −2.0 3-pin T6.0 60
VP0104 −40 8.0 −3.5 3-pin T60
VP2206 −60 0.9 −3.5 3-pin T450
VP0106 −60 8.0 −3.5 3-pin T60
VP2106 −60 12.0 3.5 3-pin T60
VP0808 −80 4.5 3-pin T5.0 150
VP0109 −90 8.0 −3.5 3-pin T60
TP2510 −100 125 −2.4 3-pin S3.5
VP2110 −100 12.0 −3.5 3-pin S60
TP0620 −200 12.0 −2.4 3-pin T150
TP2520 −200 12.0 125 −2.0 3-pin S
TP2522 −220 12.0 125 −2.4 3-pin S
TP5322 −220 12.0 −2.4 3-pin S110
TP2424 −240 8.0 200 −2.4 3-pin S
TP2435 −350 200 −2.4 3-pin S15.0
www.microchip.com/analog
42
HIGH-VOLTAGE INTERFACE: MOSFETs – Interface (Continued)
Part # BV Min. (V) R C Typ. (pF) V Max. (V)dss ds on( ) Max. (Ω) iss gs th( )
Enhancement-Mode P-Channel (Continued)
TP2635 −350 −2.0 3-pin T15.0 300
TP2535 −350 25.0 125 −2.4 3-pin T
TP5335 −350 −2.4 3-pin S30.0 110
TP2640 −400 −2.0 3-pin T15.0 300
TP2540 −400 25.0 125 −2.4 3-pin T
VP2450 −500 190 −3.5 3-pin T30.0
VP0550 −500 125.0 70 −4.5 3-pin T
N-Channel (Enhancement-Mode MOSFET Arrays)
TD9944 240 2 8-pin S6 65
TN2501 18 2.5 3-pin S110 1.0
TN0702 20 200 3-pin T1.3 1.0
VN0300 1.2 190 2.5 3-pin T30
TN0604 40 1.60.8 190 3-pin T
TN2504 125 3-pin S40 1.0 1.6
TN0104 40 1.62.0 70 3-pin T
VN0104 2.4 3-pin T40 3.0 65
VN3205 2.4 3-pin T50 0.3 300
TN0606 60 1.5 150 2.0 3-pin T
TN2106 2.5 2.0 3-pin T60 50
2N6660 2.0 3-pin T60 3.0 50
TN0106 60 3.0 60 2.0 3-pin T
VN0106 2.4 3-pin T60 3.0 65
VN0606 2.0 3-pin T60 3.0 50
VN2106 2.4 3-pin T60 4.0 50
2N7000 3-pin T60 5.0 60 3.0
2N7002 7.5 2.5 3-pin S60 50
2N7008 7.5 2.5 3-pin T60 50
VN2222L 7.5 2.5 3-pin T60 60
VN0808 80 2.0 3-pin T4.0 50
VN0109 90 2.4 3-pin T3.0 65
2N6661 90 2.0 3-pin T4.0 50
VN2210 2.4 3-pin T100 0.4 500
Complimentary (Enhancement-Mode MOSFET Arrays)
Part # BV N-Channel (V) BV P-Channel (V) R R V Max. (V) Detailsdss dss ds on( ) N-Channel Max. (Ω) ds on( ) P-Channel Max. (Ω) gs th( )
TC1550 500 60.0 4.0−500 125.0 N- and P-Channel P
TC2320 200 −200 7.0 12.0 2.0 N- and P-Channel P
TC6215 −150 7.0 2.0 N- and P-Channel P150 4.0
TC6320 200 −200 7.0 8.0 2.0 N- and P-Channel P
TC6321 200 −200 7.0 8.0 2.0 N- and P-Channel P
TC7920 200 −200 7.0 8.0 2.0 2 N- and P-Channel
TC8020 200 −200 8.0 9.5 6 N- and P-Channel 3.0
TC8220 200 −200 2.0 2 N- and P-Channel 5.3 6.5
Analog and Interface Product Selector Guide 43
HIGH-VOLTAGE INTERFACE: Application Specic
Part # DC/DC Input Voltage
Min. (V) Input Voltage Max. (V) Output Voltage Min.
(Vrms)
Output Voltage Max.
(Vrms)Load Min. (pF)
Liquid Lens Driver
HV892 Internal Charge Pump 2.65 5.5 10 60 100
Complimentary MOSFET Level Translator and Driver
Part # # of Channels Input Voltage Low (V) Input Voltage High (V) Output Voltage Low (V) Output Voltage High (V) Input to Output Isolat
(V)
HT0440 2 3.15 5.5 6 10 ±400
HT0740 8.51 3.15 5.5 4.5 ±400
High-Side Current Monitor
Part # V (V) Gain V Max. (mV)in Rise and Fall Time (μs) sense Quiescent Current Max.
HV7800 8.0–450 Fixed, 1 0.7–2.0 500 50
HV7801 8.0–450 Fixed, 5 0.7–2.0 500 50
HV7802 8.0–450 Adjustable 0.7–1.4 500 50
Fault Protection
Part # Voltage (V) # of Channels VRon (Ω) off (V)
FP0100 100 1 4.5 4.5
Relay Driver and Controller
Part # V Min. in
(V)
V Max. in
(V)
I Max. in
(mA)
Oscillator
Frequency Min.
(kHz)
Oscillator
Frequency
Max. (kHz)
Oscillator
Frequency f sync
Min. (kHz)
Max Output
Duty Cycle (%)
Typical Current
Sense Pull-In (V)
Typical Current
Sense Hold
External Adjustable
Regulator Output
Voltage (V)
Ext
Re
HV9901 2 20 99.5 0.883 Adjustable 2.0–5.510 450 140 150
LINEAR
LINEAR: Op Amps
Part # # Per
Package GBWP
I q
Typical
(µA)
Vos Max
(mV)
Typical Input
Bias Current
(pA)
Input Voltage
Noise Density
(nV/rtHz)
Operating
Voltage (V)
Temperature
Range (°C) Features
MCP6441 9 kHz 1901 0.45 4.5 1 (1) 1.8 to 6.0 40 to +125 Rail-to-Rail Input/Output 5-pin S
MCP6442 2 9 kHz 1900.45 4.5 1 (1) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6444 9 kHz 1904 0.45 4.5 1 (1) 1.8 to 6.0 40 to +125 Rail-to-Rail Input/Output 14-pin
MCP6031 10 kHz 0.91 0.15 1 165
(1) 1.8 to 5.5 40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6032 2 10 kHz 0.9 0.15 1 165
(1) 1.8 to 5.5 40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6033 10 kHz 0.91 0.15 1 165
(1) 1.8 to 5.5 40 to +125 Rail-to-Rail Input/Output, Chip select 8-pin S
MCP6034 10 kHz 0.94 0.15 1 165
(1) 1.8 to 5.5 40 to +125 Rail-to-Rail Input/Output 14-pin
MCP6041 14 kHz 1701 0.6 3 1 (1) 1.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin P
MCP6042 2 14 kHz 1700.6 3 1 (1) 1.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin P
MCP6043 14 kHz 1701 0.6 3 1 (1) 1.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output, Chip select 8-pin P
MCP6044 14 kHz 1704 0.6 3 1 (1) 1.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pin
MIC7111 25 kHz 20 7 1.8 to 11 −40 to +85 Rail-to-Rail Input/Output 5-pin S1 1 110
Legend: S = Standard Pinout; R = Reverse Pinout; U = Alternative Pinout
Note 1: Values are typical at 1 kHz Values are typical at 10 kHz2:
www.microchip.com/analog
44
LINEAR: Op Amps (Continued)
Part # # Per
Package GBWP
I q
Typical
(µA)
Vos
Max
(mV)
Typical Input
Bias Current
(pA)
Input Voltage
Noise Density
(nV/rtHz)
Operating
Voltage (V)
Temperature
Range (°C) Features
MCP6421 90 kHz 951 4.4 1 1 (1) 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection 5-pin S
MCP6422 2 90 kHz 954.4 1 1 (1) 1.8 to 5.5 40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection 8-pin S
MCP6424 90 kHz 954 4.4 1 1 (1) 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection 14-pin
MCP6141 100 kHz 1701 0.6 3 1 (1) 1.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output, G >10 stable 5-pin S
MCP6142 2 100 kHz 1700.6 3 1 (1) 1.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output, G >10 stable 8-pin P
MCP6143 100 kHz 1701 0.6 3 1 (1) 1.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output, G >10 stable, Chip select 8-pin P
MCP6144 100 kHz 1704 0.6 3 1 (1) 1.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output, G >10 stable 14-pin
MCP606 155 kHz 19 0.25 381 1 (1) 2.5 to 6.0 −40 to +85 Rail-to-Rail Output 8-pin P
MCP607 2 155 kHz 19 0.25 381(1) 2.5 to 6.0 −40 to +85 Rail-to-Rail Output 8-pin P
MCP608 155 kHz 19 0.25 381 1 (1) 2.5 to 6.0 −40 to +85 Rail-to-Rail Output, Chip select 8-pin P
MCP609 155 kHz 19 0.25 384 1 (1) 2.5 to 6.0 −40 to +85 Rail-to-Rail Output 14-pin
MCP616 190 kHz 19 321 0.15 15000 (1) 2.3 to 5.5 −40 to +85 Rail-to-Rail Output, PNP input 8-pin P
MCP617 2 190 kHz 19 320.15 15000 (1) 2.3 to 5.5 −40 to +85 Rail-to-Rail Output, PNP input 8-pin P
MCP618 190 kHz 19 321 0.15 15000 (1) 2.3 to 5.5 −40 to +85 Rail-to-Rail Output, Chip select, PNP input 8-pin P
MCP619 190 kHz 19 324 0.15 15000 (1) 2.3 to 5.5 −40 to +85 Rail-to-Rail Output, PNP input 14-pin
MCP6231 300 kHz 20 521 5 1 (1) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin P
5-pin S
MCP6232 2 300 kHz 20 5 521(1) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin P
MCP6234 300 kHz 20 524 5 1 (1) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pin
MCP6051 385 kHz1 30 0.15 1 34(2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6052 2 385 kHz 30 0.15 1 34(2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6054 385 kHz4 30 0.15 1 34(2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pin
MIC861 400 kHz 20 2.43 to 5.25 40 to +85 Rail-to-Rail Output 5-pin S1 4.6 10
MIC863 2 450 kHz 4.2 2.0 to 5.25 −40 to +85 Rail-to-Rail Output 8-pin 6.0 10
LMC7101 500 kHz 37 2.7 to 12 −40 to +85 Rail-to-Rail Input/Output 5-pin S1 500 6 1
MIC7300 500 kHz 9 37 2.2 to 10 −40 to +85 Rail-to-Rail Input/Output, High Output Drive 5-pin 1 1000 0.5
MCP6241 550 kHz1 50 5 1 45(1) 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output 8-pin P
5-pin S
MCP6242 2 550 kHz 50 5 1 45(1) 1.8 to 5.5 40 to +125 Rail-to-Rail Input/Output 8-pin P
MCP6244 550 kHz4 50 5 1 45(1) 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output 14-pin
MCP6061 730 kHz 251 60 0.15 1 (2) 1.8 to 6.0 40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6062 2 730 kHz 2560 0.15 1 (2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6064 730 kHz 254 60 0.15 1 (2) 1.8 to 6.0 40 to +125 Rail-to-Rail Input/Output 14-pin
MIC7122 2 750 kHz 800 9 37 2.2 to 15 −40 to +85 Rail-to-Rail Input/Output 8-pin 1
MCP6001 1 MHz 281 100 4.5 1 (1) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 5-pin S
MCP6002 2 1 MHz 28100 4.5 1 (1) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin P
MCP6004 1 MHz 284 100 4.5 1 (1) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pin
MCP6007 2 1 MHz 70 1.6 1 25(1) 1.8 to 5.5 8-pin S–40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection
MCP6009 4 1 MHz 70 1.6 1 25(1) 1.8 to 5.5 14-pin–40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection
MCP6401 1 MHz 281 45 4.5 1 (1) 1.8 to 6.0 40 to +125 Rail-to-Rail Input/Output 5-pin S
MCP6402 2 1 MHz 2845 4.5 1 (1) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6404 1 MHz 284 45 4.5 1 (1) 1.8 to 6.0 40 to +125 Rail-to-Rail Input/Output 14-pin
MCP6411 1 MHz 47 381 1 1 (1) 1.7 to 5.5 −40 to +125 Rail-to-Rail Input/Output,
Enhanced EMI Rejection 5-pin S
MCP6L01 1 MHz 85 2 241 5 (2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 5-pin S
MCP6L02 2 1 MHz 85 2 245(2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin S
MCP6L04 1 MHz 85 2 244 5 (2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pin
Legend: S = Standard Pinout; R = Reverse Pinout; U = Alternative Pinout Values are typical at 1 kHz Values are typical at 10 kHzNote 1: 2:
Analog and Interface Product Selector Guide 45
LINEAR: Op Amps (Continued)
Part # # per
Package GBWP I Typical q
(µA)
Vos Max
(mV)
Typical Input
Bias Current
(pA)
Input Voltage
Noise Density
(nV/rtHz)
Operating
Voltage (V)
Temperature
Range (°C) Features
MCP6071 1.2 MHz 191 110 0.15 1 (2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6072 2 1.2 MHz 19110 0.15 1 (2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6074 1.2 MHz 194 110 0.15 1 (2) 1.8 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pi
MCP6H01 1.2 MHz1 135 3.5 10 35(1) Single Supply: 3.5 to 16
Dual Supply: ±1.75 to ±8 −40 to +125 Rail-to-Rail Output 8-pin
5-pin
MCP6H02 2 1.2 MHz 135 3.5 10 35(1) Single Supply: 3.5 to 16
Dual Supply: ±1.75 to ±8 −40 to +125 Rail-to-Rail Output 8-pin
MCP6H04 1.2 MHz4 135 3.5 10 35(1) Single Supply: 3.5 to 16
Dual Supply: ±1.75 to ±8 −40 to +125 Rail-to-Rail Output 14-pi
MCP6271 2 MHz 170 201 3 1 (1) 2.0 to 6.0 40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6272 2 2 MHz 170 203 1 (1) 2.0 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6273 2 MHz 170 201 3 1 (1) 2.0 to 6.0 −40 to +125 Rail-to-Rail Input/Output, Chip select 8-pin
MCP6274 2 MHz 170 204 3 1 (1) 2.0 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pi
MCP6275 2 2 MHz 3 20150 1 (1) 2.0 to 6.0 40 to +125 Rail-to-Rail Input/Output,
Dual connected, Chip select 8-pin
MCP6471 2 MHz 271 100 1.5 1 (1) 2.0 to 5.5 40 to +125 Rail-to-Rail Input/Output 5-pin
MCP6472 2 2 MHz 27100 1.5 1 (1) 2.0 to 5.5 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6474 2 MHz 274 100 1.5 1 (1) 2.0 to 5.5 40 to +125 Rail-to-Rail Input/Output 14-pi
MCP6L71 2 MHz 191 150 4 1 (2) 2.0 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6L72 2 2 MHz 19150 4 1 (2) 2.0 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6L74 2 MHz 194 150 4 1 (2) 2.0 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pi
MIC6211 2.5 MHz 1200 7 4.0 to 32 40 to +85 5-pin1 50000 –
MCP6H71 2.7 MHz 480 281 4 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 8-pin
MCP6H72 2 2.7 MHz 480 284 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 8-pin
MCP6H74 2.7 MHz 480 284 4 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 14-pi
MCP601 2.8 MHz 230 2 291 1 (1) 2.7 to 6.0 −40 to +125 Rail-to-Rail Output 8-pin
MCP602 2 2.8 MHz 230 2 291(1) 2.7 to 6.0 −40 to +125 Rail-to-Rail Output 8-pin
MCP603 2.8 MHz 230 2 291 1 (1) 2.7 to 6.0 −40 to +125 Rail-to-Rail Output, Chip select 8-pin
MCP604 2.8 MHz 230 2 294 1 (1) 2.7 to 6.0 −40 to +125 Rail-to-Rail Output 14-pi
MCP6L1 2.8 MHz 200 211 3 1 (2) 2.7 to 6.0 −40 to +125 Rail-to-Rail Output 8-pin
MCP6L2 2 2.8 MHz 200 213 1 (2) 2.7 to 6.0 −40 to +125 Rail-to-Rail Output 8-pin
MCP6L4 2.8 MHz 200 214 3 1 (2) 2.7 to 6.0 −40 to +125 Rail-to-Rail Output 14-pi
MCP6477 2 3 MHz 140 1.6 1 17(1) 1.8 to 5.5 –40 to +125 Rail-to-Rail Input/Output, Enhanced
EMI Rejection 8-pin
MCP6479 4 3 MHz 140 1.6 1 17(1) 1.8 to 5.5 –40 to +125 Rail-to-Rail Input/Output, Enhanced
EMI Rejection 14-pi
MIC862 2 3.0 MHz - 2.0 to 5.25 −40 to +85 Rail-to-Rail Output 8-pin31 6 10
MCP6286 3.5 MHz1 540 1.5 1 5.4
(2) 2.2 to 5.5 −40 to +125 Rail-to-Rail Output, Low noise 5-pin
MIC860 4.0 MHz 20 20 - 2.43 to 5.25 −40 to +85 Rail-to-Rail Output 5-pin1 33
MCP6481 4 MHz 240 231 1.5 1 (1) 2.2 to 5.5 −40 to +125 Rail-to-Rail Input/Output 5-pin
MCP6482 2 4 MHz 240 231.5 1 (1) 2.2 to 5.5 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6484 4 MHz 240 234 1.5 1 (1) 2.2 to 5.5 −40 to +125 Rail-to-Rail Input/Output 14-pi
MCP6281 5 MHz1 445 3 1 16(1) 2.2 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6282 2 5 MHz 445 3 1 16(1) 2.2 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6283 5 MHz1 445 3 1 16(1) 2.2 to 6.0 −40 to +125 Rail-to-Rail Input/Output, Chip select 8-pin
MCP6284 5 MHz4 445 3 1 16(1) 2.2 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-pi
Legend: S = Standard Pinout; R = Reverse Pinout; U = Alternative Pinout Values are typical at 1 kHz Values are typical at 10 kHzNote 1: 2:
www.microchip.com/analog
46
LINEAR: Op Amps (Continued)
Part # # per
Package GBWP I Typical q
(µA)
Vos Max
(mV)
Typical Input
Bias Current
(pA)
Input Voltage
Noise Density
(nV/rtHz)
Operating
Voltage (V)
Temperature
Range (°C) Features
MCP6285 2 5 MHz 400 3 1 16
(1) 2.2 to 6.0 −40 to +125 Rail-to-Rail Input/Output, Dual
connected, Chip select 8-pin
MCP6H81 5.5 MHz 700 231 4 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 8-pin
MCP6H82 2 5.5 MHz 700 234 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 8-pin
MCP6H84 5.5 MHz 700 234 4 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 14-p
MCP6491 7.5 MHz 191 530 1.5 1 (1) 2.4 to 5.5 −40 to +125 Rail-to-Rail Input/Output 5-pin
MCP6492 2 7.5 MHz 19530 1.5 1 (1) 2.4 to 5.5 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6494 7.5 MHz 194 530 1.5 1 (1) 2.4 to 5.5 −40 to +125 Rail-to-Rail Input/Output 14-p
MCP6021 10 MHz 8.71 1000 0.5 1 (2) 2.5 to 5.5 −40 to +125 Rail-to-Rail Input/Output, 1/2 V Vcc ref 8-pin
5-pin
MCP6022 2 10 MHz 8.71000 0.5 1 (2) 2.5 to 5.5 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6023 10 MHz 8.71 1000 0.5 1 (2) 2.5 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Chip select,
1/2 V Vcc ref 8-pin
MCP6024 10 MHz 8.74 1000 0.5 1 (2) 2.5 to 5.5 −40 to +125 Rail-to-Rail Input/Output 14-p
MCP6291 10 MHz 8.71 1000 3 1 (2) 2.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6292 2 10 MHz 8.71000 3 1 (2) 2.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6293 10 MHz 8.71 1000 3 1 (2) 2.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output, Chip select 8-pin
MCP6294 10 MHz 8.74 1000 3 1 (2) 2.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-p
MCP6295 2 10 MHz 8.71100 3 1 (2) 2.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output, Dual
connected, Chip select 8-pin
MCP6H91 10 MHz 2000 231 4 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 8-pin
MCP6H92 2 10 MHz 2000 234 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 8-pin
MCP6H94 10 MHz 2000 234 4 10 (1) Single Supply: 3.5 to 12
Dual Supply: ±1.75 to ±6 −40 to +125 Rail-to-Rail Output 14-p
MCP6L91 10 MHz 850 9.41 4 1 (2) 2.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6L92 2 10 MHz 850 9.44 1 (2) 2.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 8-pin
MCP6L94 10 MHz 850 9.44 4 1 (2) 2.4 to 6.0 −40 to +125 Rail-to-Rail Input/Output 14-p
MCP621 20 MHz 2500 0.21 5 13
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip select,
mCal Technology 8-pin
MCP621S 20 MHz 2500 0.21 5 13
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, mCal Technology 5-pin
MCP622 2 20 MHz 2500 0.2 5 13
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, mCal Technology 8-pin
MCP623 20 MHz 2500 0.21 5 13
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip select,
mCal Technology 6-pin
MCP624 20 MHz 2500 0.24 5 13
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, mCal Technology 14-p
MCP625 2 20 MHz 2500 0.2 5 13
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip selects,
mCal Technology 10-pi
MCP629 20 MHz 2500 0.24 5 13
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output,Chip selects,
mCal Technology 16-pi
MCP631 24 MHz 2500 81 4 10
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output 8-pin
MCP632 2 24 MHz 2500 8 4 10
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output 8-pin
MCP633 24 MHz 2500 81 4 10
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip select 8-pin
MCP634 24 MHz 2500 84 4 10
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output 14-p
MCP635 2 24 MHz 2500 8 4 10
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip selects 10-p
MCP639 24 MHz 2500 84 4 10
(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip selects 16-p
Legend: S = Standard Pinout; R = Reverse Pinout; U = Alternative Pinout
Note 1: Values are typical at 1 kHz Values are typical at 10 kHz Values are typical at 1 MHz2: 3:
Analog and Interface Product Selector Guide 47
LINEAR: Op Amps (Continued)
Part # # per
Package GBWP I Typical q
(µA)
Vos Max
(mV)
Typical Input
Bias Current
(pA)
Input Voltage
Noise Density
(nV/rtHz)
Operating
Voltage (V)
Temperature
Range (°C) Features
MCP651 50 MHz 0.2 7.51 6000 6 (3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip select,
mCal Technology 8-pin
MCP651S 50 MHz 0.2 7.51 6000 6 (3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, mCal Technology 5-pin
MCP652 2 50 MHz 0.2 7.56000 6 (3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, mCal Technology 8-pin
MCP653 50 MHz 0.2 7.51 6000 6 (3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip select,
mCal Technology 6-pin
MCP654 50 MHz 0.2 7.54 6000 6 (3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, mCal Technology 14-p
MCP655 2 50 MHz 0.2 7.56000 6 (3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip selects,
mCal Technology 10-pi
MCP659 50 MHz 0.2 7.54 6000 6 (3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip selects,
mCal Technology 16-pi
MCP660 60 MHz 8 6.8(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output 14-p3 6000 6
MCP661 60 MHz 8 6.8(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output 8-pin1 6000 6
MCP662 2 60 MHz 8 6.8(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output 8-pin6000 6
MCP663 60 MHz 8 6.8(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip select 8-pin1 6000 6
MCP664 60 MHz 8 6.8(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output 14-p4 6000 6
MCP665 2 60 MHz 8 6.8(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip selects 10-p6000 6
MCP669 60 MHz 8 6.8(3) 2.5 to 5.5 −40 to +125 Rail-to-Rail Output, Chip selects 16-p4 6000 6
MIC920 80 MHz 260000 5.0 to 18 40 to +85 High Output Drive, High Slew Rate 5-pin1 550 5 10
Legend: S = Standard Pinout; R = Reverse Pinout; U = Alternative Pinout
Note 1: Values are typical at 1 kHz Values are typical at 10 kHz Values are typical at 1 MHz2: 3:
LINEAR: Zero-Drift Operational Ampliers
Part # # per
Package GBWP I Max q
(mA)
Vos Max
(µV)
Vos Drift Max
(µV/°C)
Operating
Voltage (V)
Temperature
Range (°C) Features
MCP6V11 80 kHz 8 1.6 to 5.5 −40 to +125 Rail-to-Rail Input/Output1 0.011 0.05
MCP6V12 2 80 kHz 8 1.6 to 5.5 −40 to +125 Rail-to-Rail Input/Output0.011 0.05
MCP6V14 80 kHz 8 1.6 to 5.5 −40 to +125 Rail-to-Rail Input/Output4 0.011 0.05
MCP6V16 80 kHz 25 1.6 to 5.5 −40 to +125 Rail-to-Rail Input/Output1 0.011 0.15
MCP6V17 2 80 kHz 25 1.6 to 5.5 −40 to +125 Rail-to-Rail Input/Output0.011 0.15
MCP6V19 80 kHz 25 1.6 to 5.5 −40 to +125 Rail-to-Rail Input/Output4 0.011 0.15
MCP6V31 300 kHz 8 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output1 0.034 0.05
MCP6V32 2 300 kHz 8 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output0.034 0.05
MCP6V34 300 kHz 8 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output4 0.034 0.05
MCP6V36 300 kHz 25 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output1 0.034 0.15
MCP6V37 2 300 kHz 25 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output0.034 0.15
MCP6V39 300 kHz 25 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output4 0.034 0.15
TC7652 0.4 MHz 5 to 16 0 to +70 Single and Split Supply, Low Noise1 3 5 0.05
MCP6V61 1 MHz 8 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection1 0.13 0.015
MCP6V62 2 1 MHz 8 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection0.13 0.015
MCP6V64 1 MHz 8 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection4 0.13 0.015
MCP6V66 1 MHz 25 1.8 to 5.5 -40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection1 0.13 0.15
MCP6V67 2 1 MHz 25 1.8 to 5.5 -40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection0.13 0.15
MCP6V69 1 MHz 25 1.8 to 5.5 -40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection4 0.13 0.15
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48
LINEAR: Zero-Drift Operational Ampliers
Part # # per
Package GBWP I Max q
(mA)
Vos Max
(µV)
Vos Drift Max
(µV/°C)
Operating
Voltage (V)
Temperature
Range (°C) Features
MCP6V01 1.3 MHz 2 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output 1 0.4 0.05
MCP6V02 2 1.3 MHz 2 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output 0.4 0.05
MCP6V03 1.3 MHz 2 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Chip select1 0.4 0.05
MCP6V06 1.3 MHz 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output 1 0.4 3 0.05
MCP6V07 2 1.3 MHz 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output0.4 3 0.05
MCP6V08 1.3 MHz 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Chip select1 0.4 3 0.05
TC913A/B 2 1.5 MHz 0.15/0.30 7 to 16 0 to +70 Single and Split Supply1.1 15
TC7650 2 MHz 4.5 to 16 0 to +70 Single and Split Supply1 3.5 5 0.05
MCP6V26 2 MHz 0.8 2 2.3 to 5.5 −40 to +125 Rail-to-Rail Input/Output 1 0.05
MCP6V27 2 2 MHz 0.8 2 2.3 to 5.5 −40 to +125 Rail-to-Rail Input/Output0.05
MCP6V28 2 MHz 0.8 2 2.3 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Chip select1 0.05
MCP6V51 2 MHz 0.59 0.038 4.5 to 45 −40 to +125 Rail-to-Rail Output, Enhanced EMI Rejection1 15
MCP6V71 2 MHz 0.26 8 2.0 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection1 0.015
MCP6V72 2 2 MHz 0.26 8 2.0 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection0.015
MCP6V74 2 MHz 0.26 8 2.0 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection4 0.015
MCP6V76 2 MHz 0.26 25 2.0 to 5.5 -40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection1 0.15
MCP6V77 2 2 MHz 0.26 25 2.0 to 5.5 -40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection0.15
MCP6V79 2 MHz 0.26 25 2.0 to 5.5 -40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection4 0.15
MCP6V81 5 MHz 0.77 9 0.02 2.2 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection1
MCP6V82 2 5 MHz 0.77 9 0.059 2.2 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection
MCP6V84 5 MHz 0.77 9 0.059 2.2 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection4
MCP6V86 1 5 MHz 0.77 25 0.15 2.2 to 5.5 Rail-to-Rail Input/Output, Enhanced EMI Rejection–40 to +125
MCP6V87 2 5 MHz 0.77 25 0.15 2.2 to 5.5 Rail-to-Rail Input/Output, Enhanced EMI Rejection–40 to +125
MCP6V89 4 5 MHz 0.77 25 0.15 2.2 to 5.5 Rail-to-Rail Input/Output, Enhanced EMI Rejection–40 to +125
MCP6V91 10 MHz 9 0.017 2.4 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection1 1.6
MCP6V92 2 10 MHz 9 2.4 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection1.6 0.04
MCP6V94 10 MHz 9 2.4 to 5.5 −40 to +125 Rail-to-Rail Input/Output, Enhanced EMI Rejection4 1.6 0.04
Analog and Interface Product Selector Guide 49
LINEAR: Dierential Ampliers
Part # # per
Package GBWP Slew Rate (V/µs) Iq Typical (mA) Vos Max (µV) Input Voltage Noise
Density (nV/rtHz)
Operating
Voltage (V)
Temperature
Range (°C)
MCP6D11 90 MHz 25 2.5 to 5.5 –40 to +1251 1.4 150 5 Low noise
po
LINEAR: Programmable Gain Ampliers (PGA)
Part # Channels 3dB BW (MHz) I Typ. (mA) Vq os (µV) Operating Voltage (V) Temperature Range (°C) Features
MCP6S21 2 to 12 275 2.5 to 5.5 −40 to +85 SPI, Eight Gain steps, Software shutdown1 1.1
MCP6S22 2 2 to 12 275 2.5 to 5.5 −40 to +85 SPI, Eight Gain steps, Software shutdown1.1
MCP6S26 2 to 12 275 2.5 to 5.5 −40 to +85 SPI, Eight Gain steps, Software shutdown6 1.1
MCP6S28 8 2 to 12 275 2.5 to 5.5 −40 to +85 SPI, Eight Gain steps, Software shutdown1.1
MCP6S91 1 to 18 2.5 to 5.5 −40 to +125 SPI, Eight Gain steps, Software shutdown, V1 1.0 4000 ref
MCP6S92 2 1 to 18 2.5 to 5.5 −40 to +125 SPI, Eight Gain steps, Software shutdown1.0 4000
MCP6S93 2 1 to 18 2.5 to 5.5 −40 to +125 SPI, Eight Gain steps, Software shutdown, V , SO1.0 4000 ref
LINEAR: Selectable Gain Ampliers (SGA)
Part # Channels 3dB BW (kHz) I (µA) Vq os (mV) Operating Voltage (V) Temperature Range (°C) Gain Steps (V/V) Features
MCP6G01 900 1.8 to 5.5 40 to +125 1, 10, 50 Tri-State control pin1 110 4.5
MCP6G02 2 900 1.8 to 5.5 −40 to +125 1, 10, 50 Tri-State control pin110 4.5
MCP6G03 900 1.8 to 5.5 40 to +125 1, 10, 50 Tri-State control pin, chip select1 110 4.5
MCP6G04 900 1.8 to 5.5 40 to +125 1, 10, 50 Tri-State control pin4 110 4.5
LINEAR: Instrumentation Ampliers
Part # # Per Package Bandwidth (kHz) I Max (mA) Max Vq os (µV) Vos Drift Max (µV/°C) Operating Voltage (V) Temperature Range (°C) Features
MCP6N11 2.7 1.8 to 5.5 −40 to +125 Rail-to-Rail Input/Output, mCal Te1 500 1.1 350
MCP6N16 17 1.8 to 5.5 40 to +1251 500 1.6 0.06 Rail-to-Rail Input/Output, Enable P
Enhanced EMI Rejection
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50
LINEAR: Comparators
Part # # Per
Package
Vref
(V)
Typical Propagation
Delay (µs)
I Typical q
(µA)
Vos Max
(mV)
Operating
Voltage (V)
Temperature
Range (°C) Features
MCP6541 1.6 to 5.5 −40 to +125 Push-Pull, Rail-to-Rail Input/Output1 4 1 5
MCP6542 2 1.6 to 5.5 −40 to +125 Push-Pull, Rail-to-Rail Input/Output 4 1 5
MCP6543 1.6 to 5.5 −40 to +125 Push-Pull, Rail-to-Rail Input/Output, Chip select1 4 1 5
MCP6544 1.6 to 5.5 −40 to +125 Push-Pull, Rail-to-Rail Input/Output4 4 1 5
MCP6546 1.6 to 5.5 −40 to +125 Open-drain, 9V, Rail-to-Rail Input/Output1 4 1 5
MCP6547 2 1.6 to 5.5 −40 to +125 Open-drain, 9V, Rail-to-Rail Input/Output 4 1 5
MCP6548 1.6 to 5.5 −40 to +125 Open-drain, 9V, Rail-to-Rail Input/Output, Chip select1 4 1 5
MCP6549 1.6 to 5.5 −40 to +125 Open-drain, 9V, Rail-to-Rail Input/Output4 4 1 5
MCP65R41 1.21/2.4 2.5 1.8 to 5.5 −40 to +125 Push-Pull, Rail-to-Rail Input/Output, V1 4 10 ref
MCP65R46 1.21/2.4 2.5 1.8 to 5.5 −40 to +125 Open Drain, Rail-to-Rail Input/Output, V1 4 10 ref
MCP6561 0.047 1.8 to 5.5 −40 to +125 Push-Pull, Rail-to-Rail Input/Output1 100 10
MCP6562 2 0.047 1.8 to 5.5 −40 to +125 Push-Pull, Rail-to-Rail Input/Output 100 10
MCP6564 0.047 1.8 to 5.5 −40 to +125 Push-Pull, Rail-to-Rail Input/Output4 100 10
MCP6566 0.047 1.8 to 5.5 −40 to +125 Open-Drain, Rail-to-Rail Input/Output1 100 10
MCP6567 2 0.047 1.8 to 5.5 −40 to +125 Open-Drain, Rail-to-Rail Input/Output 100 10
MCP6569 0.047 1.8 to 5.5 −40 to +125 Open-Drain, Rail-to-Rail Input/Output4 100 10
MIC6270 2.0 to 36 −40 to +85 Open Collector Output, High-Voltage1 0.6 300 5
MIC7211 2.2 to 5.0 −40 to +85 Rail-to-Rail Input, Push-Pull Output1 4 5 10
MIC7221 2.2 to 5.0 −40 to +85 Rail-to-Rail Input, Open-Drain Output1 4 5 10
MIC833 1.25 1.5 to 5.5 −40 to +85 Windowed Comparator with Adjustable Hystersis1 5 1 –
MIC841 1.25 12 1.5 to 5.5 −40 to +851 1.5 – Windowed Comparator with Adjustable Hystersis, Pus
Pull and Open-Drain Output Options
MIC842 1.25 12 1.5 to 5.5 −40 to +851 1.5 – Windowed Comparator with Hystersis, Push-Pull and
Open-Drain Output Options
Legend: S = Standard Pinout; R = Reverse Pinout; U = Alternative Pinout
LINEAR: Current Sense Ampliers
Part # # per
Package
Input Common-
Mode Range (V) Vos Max (uV) Vos Drift Max (nV/°C) Max Gain
Error (%) Bandwidth (kHz) Iq Max
(mA)
Operating
Voltage (V)
Temperature
Range (°C)
MCP6C02 3 to 65116 (G=20), 14 (G=50),
12 (G=100)
85 (G=20), 70 (G=50),
65 (G=100) 1.6 500 (G=20), 500 (G=50),
350 (G=100) 0.75 2 to 5.5 40 to +125 Bidirec
E
MCP6C04 3 to 52130 (G=20), 27 (G=50),
24 (G=100)
180 (G=20), 140 (G=50),
130 (G=100) 1.6 500 (G=20), 500 (G=50),
350 (G=100) 0.84 2 to 5.5 –40 to +125 Bidirec
E
MIXED SIGNAL
MIXED SIGNAL: SUCCESSIVE APPROXIMATION REGISTER (SAR) A/D CONVERTERS
Part # Resolution
(bits)
Maximum Sampling Rate
(ksamples/sec)
# of Input
Channels Input Type Interface Input Voltage
Range (V)
Max. Supply
Current (µA) Max. INL Temperature
Range (°C)
MCP3021 22 Single-ended I10 1 ²C2.7 to 5.5 250 ±1 LSB −40 to +125 5-p
MCP3001 200 Single-ended SPI 2.7 to 5.5 ±1 LSB −40 to +85 8-p10 1 500
MCP3002 200 2 Single-ended SPI 2.7 to 5.5 ±1 LSB −40 to +85 8-p10 650
MCP3004 200 Single-ended SPI 2.7 to 5.5 ±1 LSB −40 to +85 14-10 4 550
MCP3008 200 8 Single-ended SPI 2.7 to 5.5 ±1 LSB −40 to +85 16-10 550
MCP3221 12 22 Single-ended I1²C2.7 to 5.5 250 ±2 LSB −40 to +125 5-p
MCP3201 12 Single-ended SPI 2.7 to 5.5 ±1 LSB −40 to +85 8-p100 1 400
Analog and Interface Product Selector Guide 51
MIXED SIGNAL: SUCCESSIVE APPROXIMATION REGISTER (SAR) A/D CONVERTERS
Part # Resolution
(bits)
Maximum Sampling Rate
(ksamples/sec)
# of Input
Channels Input Type Interface Input Voltage
Range (V)
Max. Supply
Current (µA) Max. INL Temperature
Range (°C)
MCP3202 12 2 Single-ended SPI 2.7 to 5.5 ±1 LSB −40 to +85 8-p100 550
MCP3204 12 Single-ended SPI 2.7 to 5.5 ±1 LSB −40 to +85 14-100 4 400
MCP3208 12 8 Single-ended SPI 2.7 to 5.5 ±1 LSB −40 to +85 16-100 400
MCP3301 Dierential SPI 2.7 to 5.5 ±1 LSB −40 to +85 8-p13 100 1 450
MCP3302 2 Dierential SPI 2.7 to 5.5 ±1 LSB −40 to +85 14-13 100 450
MCP3304 Dierential SPI 2.7 to 5.5 ±1 LSB −40 to +85 16-13 100 4 450
MCP33141-05 12 500 1 Single-Ended SPI 0V to 5.1V 900 10-−40 to +125
MCP33141-10 12 1 Msps 1 Single-Ended SPI 0V to 5.1V 900 10-−40 to +125
MCP33141D-05 12 500 1 SPI ±5.1V 900 10-Dierential −40 to +125
MCP33141D-10 12 1 Msps 1 SPI ±5.1V 900 10-Dierential −40 to +125
MCP33151-05 14 500 1 Single-Ended SPI 0V to 5.1V 900 ±1.5 10-−40 to +125
MCP33151-10 14 1 Msps 1 Single-Ended SPI 0V to 5.1V 900 ±1.5 10-−40 to +125
MCP33151D-05 14 500 1 SPI ±5.1V 900 ±1.5 10-Dierential −40 to +125
MCP33151D-10 14 1 Msps 1 SPI ±5.1V 900 ±1.5 10-Dierential −40 to +125
MCP33111-05 12 500 1 Single-Ended SPI 0V to 5.1V 2400 10-−40 to +125
MCP33111-10 12 1 Msps 1 Single-Ended SPI 0V to 5.1V 2400 10-−40 to +125
MCP33111D-05 12 500 1 SPI ±5.1V 2400 10-Dierential 40 to +125
MCP33111D-10 12 1 Msps 1 SPI ±5.1V 2400 10-Dierential 40 to +125
MCP33121-05 14 500 1 Single-Ended SPI 0V to 5.1V 2400 ±1.5 10-−40 to +125
MCP33121-10 14 1 Msps 1 Single-Ended SPI 0V to 5.1V 2400 ±1.5 10-−40 to +125
MCP33121D-05 14 500 1 SPI ±5.1V 2400 ±1.5 10-Dierential 40 to +125
MCP33121D-10 14 1 Msps 1 SPI ±5.1V 2400 ±1.5 10-Dierential −40 to +125
MCP33131-05 16 500 1 Single-Ended SPI 0V to 5.1V 2400 ±6 10-−40 to +125
MCP33131-10 16 1 Msps 1 Single-Ended SPI 0V to 5.1V 2400 ±6 10-−40 to +125
MCP33131D-05 16 500 1 SPI ±5.1V 2400 ±6 10-Dierential −40 to +125
MCP33131D-10 16 1 Msps 1 SPI ±5.1V 2400 ±6 10-Dierential −40 to +125
MIXED SIGNAL: Delta-Sigma A/D Converters
Part # Resolution
(bits)
Maximum Sampling
Rate (samples/sec)
# of Input
Channels Interface Supply Voltage
Range (V)
Typical Supply
Current (µA)
Typical INL
(ppm)
Temperature
Range (°C) Features
MCP3421 18 to 12 4 to 240 1 Di I
²C 155 102.7 to 5.5 −40 to +125 PGA, Vref
MCP3422 18 to 12 4 to 240 2 Di I
²C 145 102.7 to 5.5 −40 to +125 PGA, Vref
MCP3423 18 to 12 4 to 240 2 Di I
²C 145 102.7 to 5.5 −40 to +125 PGA, V , Selectable Iref ²C addressing
MCP3424 18 to 12 4 to 240 4 Di I
²C 145 102.7 to 5.5 −40 to +125 PGA, V , Selectable Iref ²C addressing
MCP3425 16 to 12 15 to 240 1 Di I
²C 155 102.7 to 5.5 −40 to +125 PGA, Vref
MCP3426 16 to 12 15 to 240 2 Di I
²C 145 102.7 to 5.5 −40 to +125 PGA, Vref
MCP3427 16 to 12 15 to 240 2 Di I
²C 145 102.7 to 5.5 −40 to +125 PGA, V , Selectable Iref ²C addressing
MCP3428 16 to 12 15 to 240 4 Di I
²C 145 102.7 to 5.5 −40 to +125 PGA, V , Selectable Iref ²C addressing
MCP3461 16 153.6k 1 2.7 to 3.6 930 7 –40 to +125SPI
One Dierential or Two Single-en
Channels, 153.6 kSPS, Low-Nois
Sigma ADCs
MCP3462 2 SPI16 153.6k 2.7 to 3.6 930 7 –40 to +125
Two Dierential or Four Single-en
Channels, 153.6 kSPS, Low-Nois
Sigma ADCs
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52
MIXED SIGNAL: Delta-Sigma A/D Converters
Part # Resolution
(bits)
Maximum Sampling
Rate (samples/sec)
# of Input
Channels Interface Supply Voltage
Range (V)
Typical Supply
Current (µA)
Typical INL
(ppm)
Temperature
Range (°C) Features
MCP3464 4 SPI16 153.6k 2.7 to 3.6 930 7 –40 to +125
Four Dierential or Eight Single-ended
Channels, 153.6 kSPS, Low-Noise 16-
Sigma ADCs
MCP3561 153.6k 1 2.7 to 3.6 930 7 –40 to +12524 SPI
One Dierential or Two Single-ended I
Channels, 153.6 kSPS, Low-Noise 24-
Sigma ADCs
MCP3562 24 2 SPI153.6k 2.7 to 3.6 930 7 –40 to +125
Two Dierential or Four Single-ended
Channels, 153.6 kSPS, Low-Noise 24-
Sigma ADCs
MCP3564 24 4 SPI153.6k 2.7 to 3.6 930 7 –40 to +125
Four Dierential or Eight Single-ended
Channels, 153.6 kSPS, Low-Noise 24-
Sigma ADCs
MCP3461R 16 153.6k 1 2.7 to 3.6 930 7 –40 to +125SPI
One Dierential or Two Single-ended I
Channels, 153.6 kSPS, Low-Noise 16-
Sigma ADCs with Vref
MCP3462R 2 SPI16 153.6k 2.7 to 3.6 930 7 –40 to +125
Two Dierential or Four Single-ended
Channels, 153.6 kSPS, Low-Noise 16-
Sigma ADCs with Vref
MCP3464R 4 SPI16 153.6k 2.7 to 3.6 930 7 –40 to +125
Four Dierential or Eight Single-ended
Channels, 153.6 kSPS, Low-Noise 16-
Sigma ADCs with Vref
MCP3465R 24 SPI153.6k 1 2.7 to 3.6 930 7 –40 to +125
One Dierential or Two Single-ended I
Channels, 153.6 kSPS, Low-Noise 24-
Sigma ADCs with Vref
MCP3561R 153.6k 1 2.7 to 3.6 930 7 –40 to +12524 SPI
One Dierential or Two Single-ended I
Channels, 153.6 kSPS, Low-Noise 24-
Sigma ADCs with Vref
MCP3562R 24 2 SPI153.6k 2.7 to 3.6 930 7 –40 to +125
Two Dierential or Four Single-ended
Channels, 153.6 kSPS, Low-Noise 24-
Sigma ADCs with Vref
MCP3564R 24 4 SPI153.6k 2.7 to 3.6 930 7 –40 to +125
Four Dierential or Eight Single-ended
Channels, 153.6 kSPS, Low-Noise 24-
Sigma ADCs with Vref
MCP3565R 24 SPI153.6k 1 2.7 to 3.6 930 7 –40 to +125
One Dierential or Two Single-ended I
Channels, 153.6 kSPS, Low-Noise 24-
Sigma ADCs with Vref
MCP3550-50 22 1 Di SPI 2.7 to 5.5 120 2 −40 to +125 50 Hz rejection13
MCP3550-60 22 1 Di SPI 2.7 to 5.5 2 −40 to +125 60 Hz rejection15 140
MCP3551 22 1 Di SPI 2.7 to 5.5 120 2 −40 to +125 Simultaneous 50/60 Hz rejection14
MCP3553 20 1 Di SPI 2.7 to 5.5 2 −40 to +12560 140
MIXED SIGNAL:
Pipelined A/D Converters
Part # Resolution
Max Sample
Rate
(Msamples/sec)
# of Input
Channels
Input
Type Interface
Supply
Voltage
(V)
Power
Dissipation
(mW)
Input
Channel
BW (MHz)
SNR
(dB)
SFDR
(dB)
Input
Range
(Vp-p)
Features
MCP37D31-200 200 1, 2, 4, 8 Dierential16 Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 490 74.7 90 2.98500
Decimation lters, digital dow
converter
, AEC-Q100 Grade 1
TFBGA package)
MCP37231-200 200 1, 2, 4, 8 Dierential16 Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 490 74.7 90 2.98500 Decimation lters, AEC-Q100
Grade 1 (only TFBGA packag
MCP37D20-200 200 Dierential14 1 Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 348 67.8 96 1.8650 Decimation lters, digital dow
converter
MCP37220-200 200 Dierential14 1 Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 348 67.8 96 1.8 Decimation lters650
MCP37D21-200 200 1, 2, 4, 8 Dierential14 Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 490 74.2 90 2.98500
Decimation lters, digital dow
converter
, AEC-Q100 Grade 1
TFBGA package)
MCP37221-200 200 1, 2, 4, 8 Dierential14 Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 490 74.2 90 2.98500 Decimation lters
, AEC-Q100
Grade 1 (only TFBGA package)
MCP37D10-200 12 200 Dierential1 Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 338 67 96 1.8650
Decimation lters, digital
down-converter, noise-shaping
requantizer
Analog and Interface Product Selector Guide 53
MIXED SIGNAL:
Pipelined A/D Converters
Part # Resolution
Max Sample
Rate
(Msamples/sec)
# of Input
Channels
Input
Type Interface
Supply
Voltage
(V)
Power
Dissipation
(mW)
Input
Channel
BW (MHz)
SNR
(dB)
SFDR
(dB)
Input
Range
(Vp-p)
Features
MCP37210-200 12 200 Dierential1 Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 338 67 96 1.8650 Decimation lters, noise-shapi
requantizer
MCP37D11-200 12 200 1, 2, 4, 8 Dierential Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 468 71.3 90 2.98500
Decimation lters, digital dow
converter
, AEC-Q100 Grade 1
TFBGA package)
MCP37211-200 12 200 1, 2, 4, 8 Dierential Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 468 71.3 90 2.98500 Decimation lters, noise shapi
requantizer
MCP37D31-80 16 80 1, 2, 4, 8 Dierential Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 329 500 73.9 93 2.98
Decimation lters, digital
down-converter, AEC-Q100
automotive qualication
MCP37D21-80 14 80 1, 2, 4, 8 Dierential Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 320 500 73.9 93 2.98
Decimation lters, digital
down-converter, AEC-Q100
automotive qualication
MCP37D11-80 12 80 1, 2, 4, 8 Dierential Serial DDR LVDS or
Parallel CMOS 1.2, 1.8 311 500 70.9 92.2 2.98
Decimation lters, digital
down-converter, AEC-Q100
automotive qualication
MIXED SIGNAL: Energy Metering and Power Monitoring ICs
Part # Dynamic
Range
Power
System
Typical
Accuracy
Input
Channels
ADC
Resolution
Event
Monitoring
Zero-Cross
Detection Pin
Output
Type V (V)dd Temperature
Range (°C) Features
MCP39F511 4000:1 Single
Phase 0.1% I, V, Temp. 24-bit 5 Yes UART/
Single-wire
2.7 to
3.6 −40 to +125
Power monitoring IC with active, reactive and app
energy, PF, RMS current/voltage, frequency, event
MCP39F521 4000:1 Single
Phase 0.1% I, V, Temp. 24-bit I4 Yes ²C2.7 to
3.6 −40 to +125
Power monitoring IC with active, reactive and app
energy, PF, RMS current/voltage, frequency, event
MCP39F511N 4000:1 Single
Phase 0.5% I1, I2, V 24-bit UART6 Yes 2.7 to
3.6 −40 to +125
Dual-channel power monitoring IC with active,
active and reactive energy, PF, RMS current/vo
notications, EEPROM, PWM output
MCP39F511A 4000:1 Single
Phase 0.1% I, V, Temp 24-bit 5 Yes UART/
Single-wire
2.7 to
3. −40 to +125
AC & DC dual-mode power monitoring IC with
power, active and reactive energy, PF, RMS cur
notications, EEPROM, PWM output
MCP3905A/
06A
500:1/
1000:1
Single
Phase 0.10% I, V 16-bit Active Power
Pulse
4.5 to
5.5 −40 to +125 Active power calculation
ATM90E26 5000:1 Single
Phase 0.1% I, V, N N/A 1 Yes SPI/UART/
Pulse
2.8 to
3.6 −40 to +85 Single-phase energy meter IC with active, reacti
reactive energy, PF, RMS current/voltage, anti-t
ATM90E32AS 6000:1 Poly-
phase 0.1% 3xI, 3xV N/A 8 SPI/PulseYes 2.8 to
3.6 −40 to +85
Three-phase energy meter IC with active, reacti
energy, PF, RMS current/voltage, frequency, fu
measurement, event notications, temperature s
ATM90E36A 6000:1 Poly-
phase 0.1% 3xI, 3xV, N N/A SPI/Pulse5 Yes 2.8 to
3.6 −40 to +85
Three-phase energy meter IC with active, reacti
energy, PF, RMS current/voltage, frequency, DF
harmonic measurement, event notications, tem
MIXED SIGNAL: Energy Measurement AFEs
Part # Dynamic
Range
Typical
Accuracy
ADC
Channels
ADC
Resolution SINAD Gain
Selection
Output
Type V (V)dd Temperature
Range (°C) Features
MCP3918/10 10000:1 0.1% 1/2 24-bit 93.5 Up to 32 SPI/2-wire 2.7 to 3.6 −40 to +125 AFE with phase correction, Programmable data rate, 16
2-wire interface
MCP3919 10000:1 0.1% 24-bit 93.5 Up to 32 SPI/2-wire 2.7 to 3.6 −40 to +1253 AFE with phase correction, Programmable data rate, 16
2-wire interface
MCP3912 10000:1 0.1% 24-bit 93.5 Up to 32 SPI 2.7 to 3.6 −40 to +125 AFE with phase correction, Programmable data rate, 16-bit C4
MCP3913/14 10000:1 0.1% 6/8 24-bit 94.5 Up to 32 SPI 2.7 to 3.6 −40 to +125 AFE with phase correction, Programmable data rate, 16-bit CR
ATSENSE101 3000:1 0.1% 16/32-bit 84 Up to 8 SPI 3.0 to 3.6 −40 to +85 Die temperature sensor3
ATSENSE201(H) 3000:1 0.1% 16/32-bit 84 Up to 8 SPI 3.0 to 3.6 −40 to +85 Die temperature sensor4
ATSENSE301(H) 3000:1 0.1% 7 16/32-bit 84 Up to 8 SPI 3.0 to 3.6 −40 to +85 Die temperature sensor
www.microchip.com/analog
54
MIXED SIGNAL: DC Power Monitors
Part #
# of
Current
Sensors
Description Full Scale
Range (mV)
Current
Measurement
Max Accr (%)
Eective Sampling
Interval Min to Max
(msec)
Bus Voltage
Range (V)
# of Temp.
Monitors
(Ambient, Remote)
Temp.
Accuracy
Typ/Max (°C)
Alert/
THERM
PAC1710 SMBus/I1 ²C Current/DC Power Sensor 10, 20, 40, 80 2.5 to 2,600 0 to + 40±1 1
PAC1720 2 Dual SMBus/I ²C Current/DC Power Sensor 10, 20, 40, 80 2.5 to 2,600 0 to + 40±1 1
PAC1921 2 SMBus/I²C Current/Power Sensor with Analog
Output 100 ±1 2.5 to 2,900 0 to + 32
PAC1931 1 SMBus/I ²C Current/Power Sensor with
Accumulator 100 ±0.9 0.98 to 125 10 to +32
PAC1932 2 SMBus/I ²C Current/Power Sensor with
Accumulator 100 1±0.9 0.98 to 125 0 to +32
PAC1933 3 SMBus/I ²C Current/Power Sensor with
Accumulator 100 1±0.9 0.98 to 125 0 to +32
PAC1934 4 SMBus/I²C Current/Power Sensor with
Accumulator 100 1±0.9 0.98 to 125 0 to + 32
EMC1701-1 1 SMBus/I ²
C Current/DC Power Sensor with
Temperature Monitoring 10, 20, 40, 80 2.5 to 2,600 +3 to +24 1, 0 ±0.25/±1 2 H±1
EMC1701-2 1 SMBus/I ²
C Current/DC Power Sensor with
Temperature Monitoring 10, 20, 40, 80 2.5 to 2,600 +3 to +24 1, 0 ±0.25/±1 2 S±1
EMC1702-1 1 SMBus/I ²
C Current/DC Power Sensor with Two
Temperature Monitors 10, 20, 40, 80 2.5 to 2,600 +3 to +24 1, 1 ±0.25/±1 2 H±1
EMC1704-1 1 SMBus/I ²C Current/DC Power Sensor with Four
Temperature Monitors 10, 20, 40, 80 2.5 to 2,600 +3 to +24 1, 3 ±0.25/±1 2 S±1
EMC1704-2 1 SMBus/I ²C Current/DC Power Sensor with Four
Temperature Monitors 10, 20, 40, 80 2.5 to 2,600 +3 to +24 1, 3 ±0.25/±1 2 H±1
MIXED SIGNAL: Dual-Slope A/D Converters
Part # Supply
Voltage (V) Input Voltage Range Resolution Sampling
Rate (Conv/s)
Input
Channels
Data
Interface
Temperature
Range (°C) Features
TC500 1±4.5 to ±7.5 V + 1.5V to V – 1.5V Up to 16 bits 4 to 10ss dd 3-Wire 0 to +70 Dierential input range, Programmable resolution/
conversion time
TC500A ±4.5 to ±7.5 V + 1.5V to V – 1.5V Up to 17 bits 4 to 10 3-Wire 0 to +70ss dd 1 Dierential input range, Programmable resolution/
conversion time
TC510 1+4.5 to +5.5 V + 1.5V to V – 1.5V Up to 17 bits 4 to 10ss dd 3-Wire 0 to +70 Dierential input range, Programmable resolution/
conversion time, Charge pump (−V) output pin
TC514 4+4.5 to +5.5 V + 1.5V to V – 1.5V Up to 17 bits 4 to 10ss dd 3-Wire 0 to +70 Dierential input range, Programmable resolution/
conversion time, Charge pump (−V) output pin
TC520A +4.5 to +5.5 Serial port 0 to +70 Optional serial interface adapter for TC500/500A/510/51
TC7109 ±4.5 to ±5.5 V + 1.5V to V – 1.0V 12 bits plus sign bit 2 to 10 Parallel or Serial port −25 to +85 Dierential input rangess dd 1
TC7109A ±4.5 to ±5.5 V + 1.5V to V – 1.0V 12 bits plus sign bit 2 to 10 Parallel or Serial port −25 to +85 Dierential input rangess dd 1
MIXED SIGNAL: Binary and BCD A/D Converters
Part # Description Supply
Voltage (V) Input Voltage Range Resolution
(Digits)
Resolution
(Counts)
Max Power
(mW)
Data
Interface
Temperature
Range (°C) Features
TC850 Binary A/D V + 1.5V to V – 1.5V 15-bit ±32,768 8-bit parallel −25 to +70 Highest conversion speed (40 conv/sec) 4±5 ss dd 35
TC14433 BCD A/D ±4.5 to ±8 ±199.9 mV to 1.999V ±2,000 20 MUXed BCD −40 to +85 For DMM, DPM, Data loggers
TC14433A BCD A/D ±4.5 to ±8 ±199.9 mV to 1.999V ±2,000 20 MUXed BCD −40 to +85 For DMM, DPM, Data loggers
MIXED SIGNAL: Display A/D Converters
Part # Display Type Supply Voltage (V) Resolution (Digits) Resolution (Counts) Power (mW) Temperature Range (°C) Features
TC7106 LCD 9 ±2,000 −25 to +85 For DMM, DPM, Data logger applications 10
TC7106A LCD 9 ±2,000 −25 to +85 For DMM, DPM, Data logger applications 10
TC7107 LED ±2,000 −25 to +85 For DMM, DPM, Data logger applications±5 10
TC7107A LED ±2,000 −25 to +85 For DMM, DPM, Data logger applications±5 10
TC7116 LCD 9 ±2,000 −25 to +85 Hold function 10
TC7116A LCD 9 ±2,000 −25 to +85 Hold function 10
TC7117 LED ±2,000 −25 to +85 Hold function±5 10
TC7117A LED ±2,000 −25 to +85 Hold function±5 10
TC7126 LCD 9 ±2,000 −25 to +85 Low-power TC7106 0.5
TC7126A LCD 9 ±2,000 −25 to +85 Low-power TC7106 0.5
TC7129 LCD 9 ±20,000 0 to +70 Lowest noise ±3 mV sensitivity 4.5
Analog and Interface Product Selector Guide 55
MIXED SIGNAL: Digital Potentiometers
Part # # of
Taps Memory # Per
Package Interface Resistance
(kOhms)
INL
(Max)
DNL
(Max)
Temperature
Range (°C) Comments
MCP4011 Volatile Up/Down 2.1, 5, 10, 50 −40 to +125 Potentiometer mode 8-pin SOIC, 8-pin64 1 0.5 0.5
MCP4012 Volatile Up/Down 2.1, 5, 10, 50 −40 to +125 Rheostat mode 6-pin SOT-2364 1 0.5 0.5
MCP4013 Volatile Up/Down 2.1, 5, 10, 50 −40 to +125 Potentiometer to V 6-pin SOT-2364 1 0.5 0.5 ss
MCP4014 Volatile Up/Down 2.1, 5, 10, 50 −40 to +125 Rheostat to V 5-pin SOT-2364 1 0.5 0.5 ss
MCP4017 128 Volatile I1 ²C 0.55, 10, 50, 100 0.25 −40 to +125 7-bit, Volatile, I²C digital potentiometer 6-pin SC-7
MCP4018 128 Volatile I1 ²C 0.55, 10, 50, 100 0.25 −40 to +125 7-bit, Volatile, I²C digital potentiometer 6-pin SC-7
MCP4019 128 Volatile I1 ²C 0.55, 10, 50, 100 0.25 −40 to +125 7-bit, Volatile, I²C digital potentiometer 5-pin SC-7
MCP40D17 128 Volatile I1 ²C 0.55, 10, 50, 100 0.25 −40 to +125 7-bit, Volatile, I²C digital potentiometer 6-pin SC-7
MCP40D18 128 Volatile I1 ²C 0.55, 10, 50, 100 0.25 −40 to +125 7-bit, Volatile, I²C digital potentiometer 6-pin SC-7
MCP40D19 128 Volatile I1 ²C 0.55, 10, 50, 100 0.25 −40 to +125 7-bit, Volatile, I²C digital potentiometer 5-pin SC-7
MCP4021 Nonvolatile Up/Down 2.1, 5, 10, 50 −40 to +125 Potentiometer mode, Shutdown, WiperLock™ Technology 8-pin SOIC, 8-pin M64 1 0.5 0.5
MCP4022 Nonvolatile Up/Down 2.1, 5, 10, 50 −40 to +125 Rheostat mode, Shutdown, WiperLock Technology 6-pin SOT-2364 1 0.5 0.5
MCP4023 Nonvolatile Up/Down 2.1, 5, 10, 50 −40 to +125 Potentiometer to V , WiperLock Technology 6-pin SOT-2364 1 0.5 0.5 ss
MCP4024 Nonvolatile Up/Down 2.1, 5, 10, 50 −40 to +125 Rheostat to V , Shutdown, WiperLock Technology 5-pin SOT-2364 1 0.5 0.5 ss
MCP4141 128 Nonvolatile SPI 5, 10, 50, 100 0.25 −40 to +125 Potentiometer mode, Shutdown 8-pin PDIP, 8-pin S1 0.5
MCP4142 128 Nonvolatile SPI 5, 10, 50, 100 0.8 0.25 −40 to +125 Rheostat mode, Shutdown 8-pin PDIP, 8-pin S1
MCP4241 128 Nonvolatile 2 SPI 5, 10, 50, 100 0.25 −40 to +125 Potentiometer mode, Shutdown, WiperLock Technology0.5
14-pin PDIP
MCP4242 128 Nonvolatile 2 SPI 5, 10, 50, 100 0.8 0.25 −40 to +125 Rheostat mode, Shutdown 10-pin MSOP, 10-p
MCP4131 129 Volatile SPI 5, 10, 50, 100 0.25 −40 to +125 Potentiometer mode, Shutdown 8-pin PDIP, 8-pin 1 0.5
MCP41HV31 128 Volatile SPI 5, 10, 50, 100 0.125 −40 to +1251 0.5 7-bit Volatile digital potentiometer with specied operation
from 10V to 36V and SPI interface 14-pin TSS
MCP4132 129 Volatile SPI 5, 10, 50, 100 0.8 0.25 −40 to +125 Rheostat mode, Shutdown 8-pin PDIP, 8-pin 1
MCP4231 128 Volatile 2 SPI 5, 10, 50, 100 0.25 −40 to +125 Potentiometer mode, Shutdown, WiperLock Technology0.5
14-pin PDIP
MCP4232 128 Volatile 2 SPI 5, 10, 50, 100 0.8 0.25 −40 to +125 Rheostat mode, Shutdown 10-pin MSOP, 10-
MCP41010 256 Volatile SPI −40 to +85 Potentiometer mode, Shutdown 8-pin PDIP, 8-pi1 10 1 1
MCP41050 256 Volatile SPI −40 to +85 Potentiometer mode, Shutdown 8-pin PDIP, 8-pi1 50 1 1
MCP41100 256 Volatile SPI −40 to +85 Potentiometer mode, Shutdown 8-pin PDIP, 8-pin1 100 1 1
MCP4151 256 Volatile SPI 5, 10, 50, 100 −40 to +125 Potentiometer mode, Shutdown 8-pin PDIP, 8-pin 1 1 0.5
MCP41HV51 256 Volatile SPI 5, 10, 50, 100 0.25 −40 to +1251 1 8-bit Volatile digital potentiomer with specied operation
from 10V to 36V and SPI interface. 14-pin TSS
MCP4152 256 Volatile SPI 5, 10, 50, 100 −40 to +125 Rheostat mode, Shutdown 8-pin PDIP, 8-pin 1 1 0.5
MCP4161 256 Nonvolatile SPI 5, 10, 50, 100 −40 to +125 Potentiometer mode, Shutdown 8-pin PDIP, 8-pin 1 1 0.5
MCP4162 256 Nonvolatile SPI 5, 10, 50, 100 −40 to +125 Rheostat mode, Shutdown 8-pin PDIP, 8-pin 1 1 0.5
MCP42010 256 Volatile 2 SPI −40 to +85 Potentiometer mode, Shutdown 14-pin PDIP, 14-10 1 1
MCP42100 256 Volatile 2 SPI −40 to +85 Potentiometer mode, Shutdown 14-pin PDIP, 14-100 1 1
MCP4251 256 Volatile 2 SPI 5, 10, 50, 100 −40 to +125 Potentiometer mode, Shutdown, WiperLock Technology1 0.5
14-pin PDI
MCP4252 256 Volatile 2 SPI 5, 10, 50, 100 −40 to +125 Rheostat mode, Shutdown 10-pin MSOP, 10-1 0.5
MCP4261 256 Nonvolatile 2 SPI 5, 10, 50, 100 −40 to +125 Potentiometer mode, Shutdown, WiperLock Technology1 0.5
14-pin PDI
MCP4262 256 Nonvolatile 2 SPI 5, 10, 50, 100 −40 to +125 Rheostat mode, Shutdown 10-pin MSOP, 10-1 0.5
MCP4341 129 Nonvolatile SPI 5, 10, 50, 100 0.8 0.375 −40 to +125 7-bit, Volatile potentiometer with an SPI interface 20-pin TSSOP, 20-4
MCP4342 129 Nonvolatile SPI 5, 10, 50, 100 0.8 0.375 −40 to +125 7-bit, Volatile rheostat with an SPI interface 14-pin TSSOP4
MCP4361 257 Nonvolatile SPI 5, 10, 50, 100 −40 to +1254 1 0.5 8-bit, Non-volatile potentiometer with an SPI interface 20-pin TSSOP, 20
MCP4362 257 Nonvolatile SPI 5, 10, 50, 100 −40 to +125 8-bit, Non-volatile rheostat with an SPI interface 14-pin TSSOP4 1 0.5
MCP4331 129 Volatile SPI 5, 10, 50, 100 0.8 0.375 −40 to +125 7-bit, Volatile potentiometer with an SPI interface 20-pin TSSOP, 204
MCP4332 129 Volatile SPI 5, 10, 50, 100 0.8 −40 to +125 7-bit, Volatile rheostat with an SPI interface 14-pin TSSOP4 0.5
MCP4351 257 Volatile SPI 5, 10, 50, 100 −40 to +125 20-pin TSSOP, 204 1 0.5 8-bit, Non-volatile potentiometer with an SPI interface
MCP4352 257 Volatile SPI 5, 10, 50, 100 −40 to +125 8-bit, Non-volatile rheostat with an SPI interface 14-pin TSSOP4 1 0.5
MCP4441 129 Nonvolatile I4 ²C 0.55, 10, 50, 100 0.25 −40 to +125 Potentiometer mode, WiperLock Technology 20-pin TSSOP, 20
MCP4442 129 Nonvolatile I4 ²C 5, 10, 50, 100 0.8 0.375 −40 to +125 Rheostat mode, WiperLock Technology 14-pin TSSOP
MCP4461 257 Nonvolatile I4 ²C 1 0.55, 10, 50, 100 −40 to +125 Potentiometer mode, WiperLock Technology 8-pin MSOP
MCP4462 257 Nonvolatile I4 ²C 1 0.55, 10, 50, 100 −40 to +125 Rheostat mode, WiperLock Technology 14-pin TSSOP, 5
MCP4531 128 Volatile I1 ²C 0.55, 10, 50, 100 0.25 −40 to +125 Potentiometer mode 14-pin TSSOP, 5
MCP45HV31 128 Volatile I1 ²C 0.55, 10, 50, 100 0.125 −40 to +125
7-bit volatile digital potentiometer with specied operation from
10V to 36V and I²C interface
14-pin TSS
MCP45HV51 256 Volatile I1 ²C 15, 10, 50, 100 0.25 −40 to +125
7-bit volatile digital potentiometer with specied operation from
10V to 36V and I²C interface
8-pin MSO
www.microchip.com/analog
56
MIXED SIGNAL: Digital Potentiometers
Part # # of
Taps Memory # Per
Package Interface Resistance
(kOhms)
INL
(Max)
DNL
(Max)
Temperature
Range (°C) Comments
MCP4631 128 Volatile 2 I ²C 0.55, 10, 50, 100 0.25 −40 to +125 Potentiometer mode 14-pin TSSOP, 1
MCP4541 128 Nonvolatile I1 ²C 0.55, 10, 50, 100 0.25 −40 to +125 Potentiometer mode, WiperLock Technology 8-pin MSOP
MCP4641 128 Nonvolatile 2 I ²C 0.55, 10, 50, 100 0.25 −40 to +125 Potentiometer mode, WiperLock Technology 14-pin TSSOP, 16
MCP4651 256 Volatile 2 I ²C 1 0.55, 10, 50, 100 −40 to +125 Potentiometer mode 14-pin TSSOP, 1
MCP4561 256 Nonvolatile I1 ²C 1 0.55, 10, 50, 100 −40 to +125 Potentiometer mode, WiperLock Technology 8-pin MSOP
MCP4661 256 Nonvolatile 2 I ²C 1 0.55, 10, 50, 100 −40 to +125 Potentiometer mode, WiperLock Technology 14-pin TSSOP, 16
MCP4532 128 Nonvolatile I1 ²C 5, 10, 50, 100 0.8 0.375 −40 to +125 Rheostat mode 8-pin MSOP, 8-p
MCP4632 128 Volatile 2 I ²C 5, 10, 50, 100 0.8 0.375 −40 to +125 Rheostat mode 10-pin MSOP, 10
MCP4542 128 Nonvolatile I1 ²C 5, 10, 50, 100 0.8 0.375 −40 to +125 Rheostat mode, WiperLock Technology 8-pin MSOP, 8-pi
MCP4552 256 Volatile I1 ²C 1 0.55, 10, 50, 100 −40 to +125 Rheostat mode 8-pin MSOP, 8-p
MCP4652 256 Nonvolatile 2 I ²C 1 0.55, 10, 50, 100 −40 to +125 Rheostat mode 10-pin MSOP, 1
MCP4562 256 Nonvolatile I1 ²C 1 0.55, 10, 50, 100 −40 to +125 Rheostat mode, WiperLock Technology 8-pin MSOP, 8-pi
MCP4662 256 Nonvolatile 2 I ²C 1 0.55, 10, 50, 100 −40 to +125 Rheostat mode, WiperLock Technology 10-pin MSOP, 10
MIXED SIGNAL:
Frequency-to-Voltage/Voltage-to-Frequency Converters
Part # Frequency Range (kHz) Full Scale (ppm FS/°C) Non-linearity (%FS) Temperature Range (°C)
TC9400 −40 to +85 14-pin100 ±40 ±0.05
TC9401 ±0.02 −40 to +85 14-pin100 ±40
TC9402 ±0.25 −40 to +85 14-pin100 ±100
MIXED SIGNAL: D/A Converters
Part # Resolution
(Bits)
DAC
Channels Interface Memory Voltage Reference Output Setting
Time (μs) DNL (LSB) INL (LSB) Max Operating
Current (μA)
Temperature Range
(°C)
MCP47CMB01 8 I1 ²C 16 0.1 0.1MTP Ext, IntV , dd 700 −40 to +125 10-pin 3 × 3
MCP47CMB02 8 2 I ²C 16 0.1 0.1MTP Ext, IntV , dd 700 −40 to +125 10-pin 3 × 3
MCP47CMB11 I10 1 ²C 16MTP Ext, IntV , dd 0.25 0.25 700 −40 to +125 10-pin 3 × 3
MCP47CMB12 2 I10 ²C 16MTP Ext, IntV , dd 0.25 0.25 700 −40 to +125 10-pin 3 × 3
MCP47CMB21 12 I1 ²C 16 0.1 0.1MTP Ext, IntV , dd 700 −40 to +125 10-pin 3 × 3
MCP47CMB22 12 2 I ²C 16 0.1 0.1MTP Ext, IntV , dd 700 −40 to +125 10-pin 3 × 3
MCP47CVB01 8 I1 ²C Volatile Ext, Int 700 −40 to +125 10-pin 3 × 3V , dd 16 0.1 0.1
MCP47CVB02 8 2 I ²C Volatile Ext, Int 700 −40 to +125 10-pin 3 × 3V , dd 16 0.1 0.1
MCP47CVB11 I10 1 ²C Volatile Ext, Int ±0.25 ±0.25 700 −40 to +125 10-pin 3 × 3V , dd 16
MCP47CVB12 2 I10 ²C Volatile Ext, Int ±0.25 ±0.25 700 −40 to +125 10-pin 3 × 3V , dd 16
MCP47CVB21 12 I1 ²C Volatile Ext, Int 700 −40 to +125 10-pin 3 × V , dd 16 1 1
MCP47CVB22 12 2 I ²C Volatile Ext, Int 700 −40 to +125 10-pin 3 × V , dd 16 1 1
MCP48CMB01 8 I1 ²C 16 0.1 0.1MTP Ext, IntV , dd 700 −40 to +125 10-pin 3 × 3
MCP48CMB02 8 2 I ²C 16 0.1 0.1MTP Ext, IntV , dd 700 −40 to +125 10-pin 3 × 3
MCP48CMB11 I10 1 ²C 16MTP Ext, IntV , dd 0.25 0.25 700 −40 to +125 10-pin 3 × 3
MCP48CMB12 2 I10 ²C 16MTP Ext, IntV , dd 0.25 0.25 700 −40 to +125 10-pin 3 × 3
MCP48CMB21 12 I1 ²C 16 1 1MTP Ext, IntV , dd 700 −40 to +125 10-pin 3 ×
MCP48CMB22 12 2 I ²C 16 1 1MTP Ext, IntV , dd 700 −40 to +125 10-pin 3 ×
MCP48CVB01 8 I1 ²C Volatile Ext, Int 700 −40 to +125 10-pin 3 × 3V , dd 16 0.1 0.1
MCP48CVB02 8 2 I ²C Volatile Ext, Int 700 −40 to +125 10-pin 3 × 3V , dd 16 0.1 0.1
MCP48CVB11 I10 1 ²C Volatile Ext, Int 0.25 0.25 700 −40 to +125 10-pin 3 × 3V , dd 16
MCP48CVB12 2 I10 ²C Volatile Ext, Int 0.25 0.25 700 −40 to +125 10-pin 3 × 3V , dd 16
MCP48CVB21 12 I1 ²C Volatile Ext, Int 700 −40 to +125 10-pin 3 × V , dd 16 1 1
MCP48CVB22 12 2 I ²C Volatile Ext, Int 700 −40 to +125 10-pin 3 × V , dd 16 1 1
MCP48FEB01 8 SPI EEPROM V , V , V 7.8 0.25 180 −40 to +125 8-pin MSOP1 dd ref bg 0.5
MCP48FEB11 SPI EEPROM V , V , V 7.8 180 −40 to +125 8-pin MSOP10 1 dd ref bg 0.5 1.5
MCP48FEB21 12 SPI EEPROM V , V , V 7.8 180 −40 to +125 8-pin MSOP1 dd ref bg 1 6
MCP48FEB02 8 2 SPI EEPROM V , V , V 7.8 0.25 380 −40 to +125 8-pin MSOPdd ref bg 0.5
Analog and Interface Product Selector Guide 57
MIXED SIGNAL: D/A Converters
Part # Resolution
(Bits)
DAC
Channels Interface Memory Voltage Reference Output Setting
Time (μs) DNL (LSB) INL (LSB) Max Operating
Current (μA)
Temperature Range
(°C)
MCP48FEB12 2 SPI EEPROM V , V , V 7.8 380 −40 to +125 8-pin MSOP10 dd ref bg 0.5 1.5
MCP48FEB22 12 2 SPI EEPROM V , V , V 7.8 380 −40 to +125 8-pin MSOPdd ref bg 1 6
MCP48FVB01 8 SPI Volatile V , V , V 7.8 0.25 180 −40 to +125 8-pin MSOP1 dd ref bg 0.5
MCP48FVB11 SPI Volatile V , V , V 7.8 180 −40 to +125 8-pin MSOP10 1 dd ref bg 0.5 1.5
MCP48FVB21 12 SPI Volatile V , V , V 7.8 180 −40 to +125 8-pin MSOP1 dd ref bg 1 6
MCP48FVB02 8 2 SPI Volatile V , V , V 7.8 0.25 380 −40 to +125 8-pin MSOPdd ref bg 0.5
MCP48FVB12 2 SPI Volatile V , V , V 7.8 380 −40 to +125 8-pin MSOP10 dd ref bg 0.5 1.5
MCP48FVB22 12 2 SPI Volatile V , V , V 7.8 380 −40 to +125 8-pin MSOPdd ref bg 1 6
MCP47FEB04 8 4 I²C EEPROM V , V , V 7.8 ±0.0125 ±0.1 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP47FEB14 10 4 I²C EEPROM V , Vdd ref bg, V 7.8 ±0.05 ±0.4 1000 VQFN-20 5x5, T-40 to +125
MCP47FEB24 12 4 I²C EEPROM V , Vdd ref bg, V 7.8 ±0.2 ±1.5 1000 VQFN-20 5x5, T-40 to +125
MCP47FEB08 8 8 I²C EEPROM V , V , V 7.8 ±0.0125 ±0.1 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP47FEB18 10 8 I²C EEPROM V , Vdd ref bg, V 7.8 ±0.05 ±0.4 1800 VQFN-20 5x5, T-40 to +125
MCP47FEB28 12 8 I²C EEPROM V , Vdd ref bg, V 7.8 ±0.2 ±1.5 1800 VQFN-20 5x5, T-40 to +125
MCP47FVB04 8 4 I²C RAM V , V , V 7.8 ±0.0125 ±0.1 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP47FVB14 10 4 I²C RAM V , V , V 7.8 ±0.05 ±0.4 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP47FVB24 12 4 I²C RAM V , V , V 7.8 ±0.2 ±1.5 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP47FVB08 8 8 I²C RAM V , V , V 7.8 ±0.0125 ±0.1 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP47FVB18 10 8 I²C RAM V , V , V 7.8 ±0.05 ±0.4 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP47FVB28 12 8 I²C RAM V , V , V 7.8 ±0.2 ±1.5 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FEB04 8 4 SPI EEPROM V , V , V 7.8 ±0.0125 ±0.1 1000 VQFN-20 5x5, TSdd ref bg -40 to +125
MCP48FEB14 10 4 SPI EEPROM V , V , V 7.8 ±0.05 ±0.4 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FEB24 12 4 SPI EEPROM V , V , V 7.8 ±0.2 ±1.5 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FEB08 8 8 SPI EEPROM V , V , V 7.8 ±0.0125 ±0.1 1800 VQFN-20 5x5, TSdd ref bg -40 to +125
MCP48FEB18 10 8 SPI EEPROM V , V , V 7.8 ±0.05 ±0.4 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FEB28 12 8 SPI EEPROM V , V , V 7.8 ±0.2 ±1.5 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FVB04 8 4 SPI RAM V , V , V 7.8 ±0.0125 ±0.1 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FVB14 10 4 SPI RAM V , V , V 7.8 ±0.05 ±0.4 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FVB24 12 4 SPI RAM V , V , V 7.8 ±0.2 ±1.5 1000 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FVB08 8 8 SPI RAM V , V , V 7.8 ±0.0125 ±0.1 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FVB18 10 8 SPI RAM V , V , V 7.8 ±0.05 ±0.4 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP48FVB28 12 8 SPI RAM V , V , V 7.8 ±0.2 ±1.5 1800 VQFN-20 5x5, Tdd ref bg -40 to +125
MCP47FEB01 8 I1 ²C EEPROM V , Vdd ref bg, V 6 0.50.25 180 −40 to +125 8-pin MSOP
MCP47FEB11 I10 1 ²C EEPROM V , Vdd ref bg, V 6 0.5 1.5 180 −40 to +125 8-pin MSOP
MCP47FEB21 12 I1 ²C EEPROM V , Vdd ref bg, V 6 1 6 180 −40 to +125 8-pin MSOP
MCP47FEB02 8 2 I ²C EEPROM V , Vdd ref bg, V 6 0.50.25 380 −40 to +125 8-pin MSOP
MCP47FEB12 2 I10 ²C EEPROM V , Vdd ref bg, V 6 0.5 1.5 380 −40 to +125 8-pin MSOP
MCP47FEB22 12 2 I ²C EEPROM V , Vdd ref bg, V 6 1 6 380 −40 to +125 8-pin MSOP
MCP47FVB01 8 I1 ²C 6 0.5Volatile V , V , Vdd ref bg 0.25 180 −40 to +125 8-pin MSOP
MCP47FVB11 I10 1 ²C 6 0.5 1.5Volatile V , V , Vdd ref bg 180 −40 to +125 8-pin MSOP
MCP47FVB21 12 I1 ²C 6 1 6Volatile V , V , Vdd ref bg 180 −40 to +125 8-pin MSOP
MCP47FVB02 8 2 I²C 6 0.5Volatile V , V , Vdd ref bg 0.25 380 −40 to +125 8-pin MSOP
MCP47FVB12 2 I10 ²C 6 1.5Volatile V , V , Vdd ref bg 0.25 380 −40 to +125 8-pin MSOP
MCP47FVB22 12 2 I ²C 6 1 6Volatile V , V , Vdd ref bg 380 −40 to +125 8-pin MSOP
MCP47DA1 I6 1 ²C 6 0.35 160Volatile Vref 0.7 −40 to +125 6-pin SOT23
MCP4706 8 I1 ²C 6 0.05 400EEPROM V , Vdd ref 0.907 −40 to +125 6-pin SOT23,
MCP4716 I10 1 ²C 6 400EEPROM V , Vdd ref 0.188 3.625 −40 to +125 6-pin SOT23,
MCP4726 12 I1 ²C 6 14.5 400EEPROM V , Vdd ref 0.75 −40 to +125 6-pin SOT23
MCP4725 12 I1 ²C 6 14.5 400EEPROM Vdd 0.75 −40 to +125 6-pin SOT23
MCP4728 12 I4 ²C 6 13 1400EEPROM V , Vdd bg 0.75 −40 to +125 10-pin MSO
MCP4801 8 SPI Volatile V −40 to +125 8-pin MSOP1 bg 4.5 0.5 1 400
MCP4811 SPI Volatile V −40 to +125 8-pin MSOP,10 1 bg 4.5 0.5 3.5 400
www.microchip.com/analog
58
MIXED SIGNAL: D/A Converters
Part # Resolution
(Bits)
DAC
Channels Interface Memory Voltage Reference Output Setting
Time (μs) DNL (LSB) INL (LSB) Max Operating
Current (μA)
Temperature Range
(°C)
MCP4821 12 SPI Volatile V 0.75 12 −40 to +125 8-pin MSOP,1 bg 4.5 400
MCP4802 8 2 SPI Volatile V −40 to +125 8-pin MSOPbg 4.5 0.5 1 400
MCP4812 2 SPI Volatile V −40 to +125 8-pin MSOP,10 bg 4.5 0.5 3.5 400
MCP4822 12 2 SPI Volatile V 0.75 12 −40 to +125 8-pin MSOP,bg 4.5 400
MCP4901 8 SPI Volatile V −40 to +125 8-pin MSOP1 bg 4.5 0.5 1 350
MCP4911 SPI Volatile V −40 to +125 8-pin MSOP,10 1 bg 4.5 0.5 3.5 350
MCP4921 12 SPI Volatile V 0.75 12 −40 to +125 8-pin MSOP,1 bg 4.5 350
MCP4902 8 2 SPI Volatile V −40 to +125 8-pin MSOPbg 4.5 0.5 1 350
MCP4912 2 SPI Volatile V −40 to +125 8-pin MSOP,10 bg 4.5 0.5 3.5 350
MCP4922 12 2 SPI Volatile V 0.75 12 −40 to +125 8-pin MSOP,bg 4.5 350
INTERFACE AND NETWORKING
INTERFACE AND NETWORKING: CAN Products
Part # Description and Features Operating
Voltage (V)
Temperature
Range (°C)
T x
Buers
R x
Buers Filters Masks Inter
Out
ATA6560 CAN Transceiver with stand-by and silent mode, 5V I/O, CAN FD ready, 5 Mbps, AECQ100 Grade 1 4.5 to 5.5 −40 to +125 N/A N/A N/A N/A N/A
ATA6561 CAN Transceiver with stand-by mode, compatible with 3.3V and 5V microcontroller, CAN FD ready,
5 Mbps, AECQ100 Grade 1 4.5 to 5.5 −40 to +125 N/A N/A N/A N/A N/A
ATA6562 CAN Transceiver with stand-by and silent mode, 5V I/O, wake up pattern, CAN FD ready, 5 Mbps,
AECQ100 Grade 0, 1 4.5 to 5.5 −40 to
+125/+150 N/A N/A N/A N/A N
ATA6563 CAN Transceiver with stand-by mode, compatible with 3.3V and 5V microcontroller, wake up pattern,
CAN FD ready, 5 Mbps, AECQ100 Grade 0, 1 4.5 to 5.5 −40 to
+125/+150 N/A N/A N/A N/A N
ATA6564 CAN Transceiver with silent mode, compatible with 3.3V and 5V microcontroller, CAN FD ready, 5 Mbps,
AECQ100 Grade 0, 1 4.5 to 5.5 −40 to
+125/+150 N/A N/A N/A N/A N
ATA6565 Dual CAN Transceiver with stand-by mode, 5V I/O, wake up pattern, CAN FD ready, 5 Mbps, AECQ100
Grade 0, 1 4.5 to 5.5 −40 to
+125/+150 N/A N/A N/A N/A N
ATA6566 CAN Transceiver with stand-by mode, compatible with 3.3V and 5V microcontroller, CAN FD ready,
2 Mbps, AECQ100 Grade 0, 1, suitable for the Japanese market 4.5 to 5.5 −40 to
+125/+150 N/A N/A N/A N/A N
ATA6570 CAN Partial Networking Transceiver with Wake pin and Window Watchdog, compatible with 3.3V
and 5V microcontroller, wake up frame, CAN FD ready, 5 Mbps, AECQ100 Grade 0, 1 4.55 to 28 –40 to
+125/+150 N/A N/A N/A N/A N/
MCP2518FD External CAN FD Controller with SPI Interface, ISO 11898-1:2015 Compliant, 32-bit Time Stamp,
Supports CAN 2.0B and CAN FD, Highly Congurable 31 FIFOs and 32 Filters 2.7 to 5.5 −40 to +150 Up to
32
Up to
32 32 32 1 to
MCP25625 Integrated High-Speed CAN Transceiver and CAN 2.0B Controller 2.7 to 5.5 −40 to +125 2 23 6 1
INTERFACE AND NETWORKING: LIN Products
Part # Description Vreg Output
Voltage (V)
Operating Temp.
Range (°C)
Vreg Output
Current (mA)
Supply Voltage
Range
(V)
Max
Baud Rate LIN Spe
ATA663211 LIN Transceiver −40 to +125 5 to 28 20 kbaud 2.0, 2.1, 2.2,
ATA6625 LIN Transceiver with integrated V −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.reg 5.0
ATA663201 LDO, pin compatible with ATA663231 LIN SBC −40 to +125 85 5 to 283.3
ATA663203 LDO, pin compatible with ATA663254 LIN SBC −40 to +125 85 5 to 285.0
ATA663231 LIN Transceiver with integrated V −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.reg 3.3
ATA663232 LIN Transceiver with integrated V and Wake Pin −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.2Areg 3.3
ATA663254 LIN Transceiver with integrated V −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.reg 5.0
ATA663255 LIN Transceiver with integrated V and Wake Pin −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.2Areg 5.0
Analog and Interface Product Selector Guide 59
INTERFACE AND NETWORKING: LIN Products
Part # Description Vreg Output
Voltage (V)
Operating Temp.
Range (°C)
Vreg Output
Current (mA)
Supply Voltage
Range
(V)
Max
Baud Rate LIN Spe
ATA663331 LIN Transceiver with integrated V and 2 relay driver −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.2reg 3.3
ATA663354 LIN Transceiver with integrated V and 2 relay driver −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.2reg 5.0
ATA663431 LIN Transceiver with integrated V , WWDT −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.reg 3.3
ATA663454 LIN Transceiver with integrated V , WWDT −40 to +125 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2.reg 5.0
ATSAMHA1G16A-MBT-B LIN SiP with V , LIN TRX and uC, 64K Flash memory −40 to +85 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA1G15A-MBT-B LIN SiP with V , LIN TRX and uC, 32K Flash memory −40 to +85 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA1G14A-MBT-B LIN SiP with V , LIN TRX and uC, 16K Flash memory −40 to +85 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA0G16A-MZT-B LIN SiP with V , LIN TRX and uC, 64K Flash memory −40 to +105 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA0G15A-MZT-B LIN SiP with V , LIN TRX and uC, 32K Flash memory −40 to +105 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA0G14A-MZT-B LIN SiP with V , LIN TRX and uC, 16K Flash memory −40 to +105 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA1E16A-MBT-B LIN SiP with V , LIN TRX and uC, 64K Flash memory −40 to +85 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA1E15A-MBT-B LIN SiP with V , LIN TRX and uC, 32K Flash memory −40 to +85 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA1E14A-MBT-B LIN SiP with V , LIN TRX and uC, 16K Flash memory −40 to +85 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA0E16A-MZT-B LIN SiP with V , LIN TRX and uC, 64K Flash memory −40 to +105 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA0E15A-MZT-B LIN SiP with V , LIN TRX and uC, 32K Flash memory −40 to +105 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA0E14A-MZT-B LIN SiP with V , LIN TRX and uC, 16K Flash memory −40 to +105 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, 2reg 3.3
ATSAMHA1E14A-
MBT-B510
LIN SiP with V , LIN TRX and uC, 16K Flash memory, reg
ISELED license 3.3 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, -40 to +85
ATSAMHA1E15A-
MBT-B510
LIN SiP with V , LIN TRX and uC, 32K Flash memory, reg
ISELED license 3.3 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, -40 to +85
ATSAMHA1E16A-
MBT-B510
LIN SiP with V , LIN TRX and uC, 64K Flash memory, reg
ISELED license 3.3 85 5 to 28 20 kbaud 2.0, 2.1, 2.2, -40 to +85
INTERFACE AND NETWORKING: Line Circuits
Part Number Line Circuit Type Application Series Loop Length Battery Topology Soc Interface Output
LE57D111 Acccess Networks Access Network SLIC VE580 Long External
LE57D121 Acccess Networks Access Network SLIC VE580 Long External
LE57D122 Acccess Networks Access Network SLIC VE580 Long External
LE58QL02 Acccess Networks Access Networks Quad SLAC VE580 Long PCM/MPI
LE58QL021 Acccess Networks Access Networks Quad SLAC VE580 Long PCM/MPI
LE58QL022 Acccess Networks Access Networks Quad SLAC VE580 Long PCM/MPI
LE58QL031 Acccess Networks Access Networks Quad SLAC VE580 Long PCM/MPI
LE58QL061 Acccess Networks Access Networks Quad SLAC VE580 Long PCM/MPI, GCI
LE58QL063 Acccess Networks Access Networks Quad SLAC VE580 Long PCM/MPI, GCI
LE79112 Acccess Networks Access Networks Voice Control Processor VE790 Long PCM/MPI
LE79114 Acccess Networks Access Networks Voice Control Processor VE790 Long PCM/SPI
LE79124 Acccess Networks NGCC Voice Control Processor VE792 Long PCM/SPI/GPI
www.microchip.com/analog
60
INTERFACE AND NETWORKING: Line Circuits
Part Number Line Circuit Type Application Series Loop Length Battery Topology Soc Interface Output
LE79128 Acccess Networks NGCC Voice Control Processor VE792 Long PCM/SPI/GPI
LE79234 Acccess Networks NGCC Voice Control Processor VE792 Long PCM/SPI
LE792388 Acccess Networks NGCC Octal SLAC VE792 Long Fixed PCM/MPI
LE79252 Acccess Networks Access Network SLIC VE790 Long External
LE79271 Acccess Networks NGCC SLIC VE792 Long External
LE79272 Acccess Networks NGCC SLIC VE792 Long External
LE79Q2281 Acccess Networks Access Networks Quad SLAC VE790 Long PCM/MPI, GCI
LE79Q2284 Acccess Networks Access Networks Quad SLAC VE790 Long PCM/MPI, GCI
LE79R70 Acccess Networks PBX VE580 Short External
LE79R79 Acccess Networks PBX VE580 Short External
LE88010 Broadband Gateway Broadband Gateway FXO CODEC VE880 Short PCM/SPI
LE88131 Broadband Gateway Broadband Gateway FXS VE880 Short Tracking PCM/SPI
LE88221 Broadband Gateway Broadband Gateway FXS VE880 Short Shared PCM/SPI
LE88231 Broadband Gateway Broadband Gateway FXS VE880 Short Tracking PCM/SPI
LE88241 Broadband Gateway Broadband Gateway FXS VE880 Short Shared PCM/SPI
LE88266 Broadband Gateway Broadband Gateway FXS VE880 Short Shared PCM/SPI
LE88276 Broadband Gateway Broadband Gateway FXS VE880 Short Tracking PCM/SPI
LE88286 Broadband Gateway Broadband Gateway FXS VE880 Short Shared PCM/SPI
LE88506 Broadband Gateway Broadband Gateway SLAC VE880 Short PCM/SPI
LE88830 Broadband Gateway Broadband Gateway SLIC VE880 Short Tracking
LE89156 Broadband Gateway Broadband Gateway FXS VE890 Short Tracking PCM/SPI
LE89810 Broadband Gateway Broadband Gateway SLIC VE890 Short Tracking
LE9530 Broadband Gateway Broadband Gateway SLIC VE950 Short Tracking Parallel
LE9540 Broadband Gateway Broadband Gateway SLIC VE950 Short Tracking Serial
LE9541 Broadband Gateway Broadband Gateway SLIC VE950 Short Tracking Serial
LE9551 Broadband Gateway Broadband Gateway SLIC VE950 Short Tracking Serial
LE9622 Broadband Gateway Broadband Gateway FXS miSLIC Short Shared PCM/SPI
LE9632 Broadband Gateway Broadband Gateway FXS miSLIC Short Tracking PCM/SPI
LE9641 Broadband Gateway Broadband Gateway FXS miSLIC Short Tracking PCM/SPI, ZSI
LE9642 Broadband Gateway Broadband Gateway FXS miSLIC Short Shared ZSI
LE9643 Broadband Gateway Broadband Gateway FXS miSLIC Short Tracking PCM/SPI, ZSI
LE9651 Broadband Gateway Broadband Gateway FXS miSLIC Short Tracking PCM/SPI, ZSI
LE9652 Broadband Gateway Broadband Gateway FXS miSLIC Short Tracking ZSI
LE9653 Broadband Gateway Broadband Gateway FXS miSLIC Short Tracking PCM/SPI, ZSI
LE9662 Broadband Gateway Broadband Gateway FXS miSLIC Short Shared ZSI
LE9672 Broadband Gateway Broadband Gateway FXS miSLIC Short Tracking ZSI
ZL79124 Acccess Networks NGCC Voice Control Processor VE792 Long PCM/SPI/GPI
ZL792388 Acccess Networks NGCC Octal SLAC VE792 Long Fixed PCM/MPI
ZL792588 Acccess Networks NGCC Octal SLAC VE792 Long PCM/MPI
ZL88601 Broadband Gateway Broadband Gateway FXS ZL880 Short Shared PCM/SPI
ZL88602 Broadband Gateway Broadband Gateway FXS ZL880 Short Shared PCM/SPI
ZL88701 Broadband Gateway Broadband Gateway FXS ZL880 Short Tracking PCM/SPI
ZL88702 Broadband Gateway Broadband Gateway FXS ZL880 Short Tracking PCM/SPI
Analog and Interface Product Selector Guide 61
INTERFACE AND NETWORKING: Line Circuits
Part Number Line Circuit Type Application Series Loop Length Battery Topology Soc Interface Output
ZL88801 Broadband Gateway Broadband Gateway FXS ZL880 Short Shared PCM/SPI
INTERFACE and Networking: Line Drivers
Part Number Application Series Loop Length Signal Power (dBm) Number of Ports
LE87100 PLC, G.HN, HPAV 2.0 PLC Short 15.5 1
LE87251 ADSL2+, HDSL DSL CO Long 20.5 2
LE87270 VDSL2 35b DSL CPE Medium/Long 14.5 1
LE87271 VDSL2 35b DSL CPE Medium/Long 14.5 1
LE87281 G.Fast 106MHz G.fast Short 8 1
LE87282 G.Fast 106MHz G.fast Short 8 2
LE87285 G.Fast 106 MHz/VDSL2 G.fast Short/Medium 8 or 13 1
LE87286 G.Fast 212MHz G.fast Short 8 1
LE87290 VDSL2 35b DSL CO Medium 20 2
LE87401 PLC, G.HN, HPAV 2.0 PLC Short 20 1
LE87402 PLC, G.HN, HPAV 2.0 PLC Short 20 2
LE87501 PLC, G.HN, HPAV 2.0 PLC Short 20 1
LE87511 PLC, G.HN, HPAV 2.0 PLC Short 16 1
LE87536 ADSL2+, HDSL DSL CO Long 20 2
LE87557 VDSL2 35b DSL CPE Medium 14.5 1
LE87611 PLC, G.HN, HPAV 2.0 PLC Short 8 1
LE87612 PLC, G.HN, HPAV 2.0 PLC Short 8 2
www.microchip.com/analog
62
INTERFACE AND NETWORKING: Ethernet products
Part Number Bandwidth Interface (Upstream) Wake-On-LAN Temperature*EEE
Ethernet Controllers
ENC28J60 SPI I 28-pin SPD10
ENC624J600 10/100 SPI/Parallel I 24-pin TQFN
LAN9217 10/100 16-bit Host Bus/MII 100-pin TQF
LAN9218 10/100 32-bit Host Bus I 100-pin TQF
LAN9220/1 10/100 16-bit Host Bus I 56-pin QFN
LAN9250 10/100 SPI, SQI TM
, HBI ü ü I 64-pin QFN
LAN9420 10/100 32-bit PCI 3.0 I 128-pin VTQ
LAN89218 10/100 32-bit Host Bus A, I 100-pin TQF
KSZ8851 10/100 8-/16-/32-bit or SPI ü A, I 32-pin QFN
KSZ8852 10/100 8-/16-/32-bit ü ü I 64-pin LQF
KSZ8441 10/100 8-/16-/32-bit or SPI ü ü I 64-pin LQF
Ethernet Bridges
LAN9500A 10/100 USB 2.0 ü I 56-pin QFN
LAN9730 10/100 USB 2.0 (HSIC)/MII I 56-pin QFN
LAN9512/13/14 10/100 USB 2.0 I 64-pin QFN
LAN89530 10/100 USB 2.0 ü A, I 56-pin QFN
LAN89730 10/100 HSIC ü I 56-pin QFN
LAN7430 Gigabit PCIe 3.1 ü ü I 48-pin VQF
LAN7431 Gigabit PCIe 3.1 RGMII üA 72-pin VQF
LAN7500 Gigabit USB 2.0 ü I 56-pin QFN
LAN7800/01/50 Gigabit USB 3.1/USB 2.0/HSIC ü ü A, I 48-pin SQF
Ethernet Transceivers (PHYs)
KSZ9031 Gigabit MII/RMII/RGMII ü A, I 48-/64-pin
LAN8810 Gigabit GMII I 72-pin QF
LAN8820 Gigabit RGMII I 56-pin QF
KSZ8061 10/100 MII/RMII ü ü A, I 32-/48-pin
KSZ8081 10/100 MII/RMII I 24-/32-pin
KSZ8091 10/100 MII/RMII ü ü I 24-/32-pin
KSZ8051 10/100 MII/RMII A, I 32-pin QFN
LAN8710A 10/100 MII/RMII I 32-pin QF
LAN8720A 10/100 RMII I 24-pin QFN
LAN8740A 10/100 MII/RMII ü ü I 32-pin QFN
LAN8741A 10/100 MII/RMII üI 32-pin QFN
LAN8742A 10/100 RMII ü I 24-pin QFN
LAN88730 10/100 MII/RMII A, I 32-pin QFN
INTERFACE AND NETWORKING: Ethernet products
Part # Bandwidth Ports Interface (Upstream) 1588–v2 Cable Diags 100 Fx Temperature*
EtherCAT ® Controllers
LAN9252 10/100 2/3 SPI, SQI™, 8-/16-/32-bit host bus Clock Sync. ü ü I
Analog and Interface Product Selector Guide 63
INTERFACE AND NETWORKING: Ethernet products
Part # Bandwidth Ports Interface (Upstream) 1588–v2 Cable Diags 100 Fx Temperature*
Ethernet Switches
LAN9352 10/100 2 SPI/SQI/HBI ü ü – I
LAN9303 10/100 MII/RMII/Turbo MII3 üI
LAN89303 10/100 MII/RMII/Turbo MII3 üA, I
LAN9353 10/100 MII/RMII/Turbo MII3 ü ü ü I
LAN9354 10/100 RMII3 ü ü ü I
LAN9355 10/100 MII/RMII/Turbo MII3 ü ü ü I
KSZ8863 10/100 MII/RMII3 ü ü I
KSZ8873 10/100 MII/RMII3 ü ü A, I
KSZ8463 10/100 MII/RMII3 ü ü ü I
KSZ8864 10/100 MII/RMII4 ü A, I
KSZ8794 10/100 MII/GMII/RGMII4 ü– I
KSZ8795 10/100 GMII/RGMII/MII/RMII5 ü– I
KSZ8775 10/100 MII/GMII/RGMII5 ü– I
KSZ8765 10/100 MII/GMII/RGMII5 ü ü I
KSZ8895 10/100 MII/RMII5 ü– I
KSZ8567 10/100 5, 7 SGMII/RGMII/MII/RMII üLinkMD
®
+ with signal quality indicator with SGMII A, I
KSZ9563 10/100/1000 RGMII/MII/RMII3 ü ü – I
KSZ9893 10/100/1000 RGMII/MII/RMII3 ü– I
KSZ8563 10/100 RGMII/MII/RMII3 ü ü – I
KSZ9897 10/100/1000 6, 7 SGMII/RGMII/MII/RMII üwith SGMII I
KSZ9567 10/100/1000 7 SGMII/RGMII/MII/RMII üLinkMD+ with signal quality indicator with SGMII I
KSZ9477 10/100/1000 7 SGMII/RGMII/MII/RMII 1588 + HSR/
DLR LinkMD+ with signal quality indicator with SGMII I
Note: All products above are supported with 3.3V operating voltage *A = Automotive temperature range, (–40˚ to +105˚C) I = Industrial temperature range (–40˚ to +85˚C)
INTERFACE AND NETWORKING: Serial Peripherals
Part # Description Operating
Voltage (V)
Operating Temp.
Range (°C)
Bus
Type
Max Bus
Frequency (kHz) Features
MCP23008 8-bit I/O Port Expander 1.8 to 5.5 −40 to +85 I ²C 1700 Three HW address pins, HW interrupt, 25 mA source/sink capability per I/O 18-pin PDIP, 18-p
MCP23S08 8-bit I/O Port Expander 1.8 to 5.5 −40 to +85 SPI Two HW address pins, HW interrupt, 25 mA source/sink capability per I/O 18-pin PDIP, 18-pin S10000
MCP23009 8-bit I/O Port Expander 1.8 to 5.5 −40 to +125 I ²C 3400 One HW address pin, HW interrupt, 25 mA source/sink per I/O, 100 kHz,
400 kHz and 3.4 MHz I ²C supported 18-pin PDIP,
MCP23S09 8-bit I/O Port Expander 1.8 to 5.5 −40 to +125 SPI HW interrupt, 25 mA source/sink per I/O 18-pin PDIP, 18-pin10000
MCP23016 16-bit I/O Port Expander 2.0 to 5.5 −40 to +85 I ²C 400 Three HW address inputs, HW interrupt, 25 mA source/sink capability per I/O 28-pin PDIP, 28-p
MCP23017 16-bit I/O Expander 1.8 to 5.5 −40 to +125 I ²C 1700 Three HW address pins, 25 mA sink/source per I/O, 100 kHz, 400 kHz and
3-4 MHz I²C supported, Interrupt output 28-pin PDIP,
MCP23S17 16-bit I/O Expander 1.8 to 5.5 −40 to +125 SPI Three HW address pins, 25 mA sink/source per I/O, Interrupt output 28-pin PDIP, 28-pin SO10000
MCP23018 16-bit I/O Port Expander 1.8 to 5.5 −40 to +125 I ²C 3400 One HW address pin, 2 HW interrupts, 25 mA source/sink per I/O,
100 kHz, 400 kHz and 3.4 MHz I ²C supported 24-pin SSOP
MCP23S18 16-bit I/O Port Expander 1.8 to 5.5 −40 to +125 SPI Two HW interrupts, 25 mA source/sink per I/O 28-pin SOIC, 28-pin10000
INTERFACE AND NETWORKING: Wi-Fi ® Modules
Part # Radio Pin
Count Antenna
Frequency
Range
(GHz)
Sensitivity
(dBm)
Power
Output
(dBm)
Power
Consumption (mA) Sleep MAC Features Protocols Encry
Tx Rx
MRF24WG0MA 802.11 b/g PCB36 2.412–
2.484 −95 +18 240 0.1 mA156 (1) 802.11b/g, Wi-Fi
Direct, SoftAP, WPS
Wi-Fi Connection Manager, Announce,
DNS, DDNS, DHCP, FTP, HTTP, NBNS,
SNMP, SNTP, SSL, TCP, UDP, ZeroConf (2)
WPA
PSK,
ENT
WINC1500-
MR210PB 802.11 b/g/n 28 PCB,
U.FL
2.412–
2.472 −94 +18.5 250 57 380 µA 802.11b/g/n, SoftAP,
Wi-Fi Direct TCP, UDP, DHCP, ARP, HTTP, SSL, DNS WEP
Secu
www.microchip.com/analog
64
INTERFACE AND NETWORKING: Wi-Fi ® Modules
Part # Radio Pin
Count Antenna
Frequency
Range
(GHz)
Sensitivity
(dBm)
Power
Output
(dBm)
Power
Consumption (mA) Sleep MAC Features Protocols Encry
Tx Rx
SAMW25 802.11 b/g/n 51 2.412–
2.472 −94 +17 250 57 380 µA
802.11b/g/n, SoftAP,
Wi-Fi Direct, station
mode
DHCP, DNS, TCP/IP (IPv4), UDP, HTTP,
HTTPS
WEP
Perso
Note 1: Note 2: Indicates “off” current Supported in the provided stack
INTERFACE AND NETWORKING: High-Linearity 2.4-GHz Ampliers
Part
Number Freq (GHz) 802.11 Standard Description Gain (dB) Linear Po (dBm) EVM (%) (V) Current @ Po (Vcc
LX5511 2.3–2.5 n PA + PDET 26.0 20 3.0 3.3
LX5535 2.4–2.5 n PA + PDET 32.0 24.5 3.0 3.3–5
LX5518 2.4–2.5 n PA + PDET 2630.0 3.0 3.3–5
LX5602 2.4–2.5 n PA, Filtering, PDET 2630.0 3.0 5
LX5533 2.4–2.5 ac PA, Filtering, PDET 24 1.830.0 5
INTERFACE AND NETWORKING: High-Linearity 5-GHz Ampliers
LX5530 4.9–5.9 n PA + PDET 28.0 22 3.0 3.3–5
LX5531 5.15–5.85
n
PA, Filtering, PDET 33.0
25 3.0 5
ac 23 1.8 5
INTERFACE AND NETWORKING: Low-Noise Ampliers
Part Number Freq (GHz) 802.11 Standard Description Gain (dB) Noise Figure (dB) IIP3 (dBm) Current @ Po (mA) V (V)cc
LX5561 2.4–2.5 b/g/n/ac LNA 13 1.5 6.5 10.5
LX5560 4.9–6.0 a/n/ac LNA 12 1.7 9.56
LX5563 2.4–2.5 b/g/n/ac LNA + Bypass 7.5 914 1.3
LX5575 5.15–5.85 a/n/ac LNA + Bypass 12 1.7 12 9 3
INTERFACE AND NETWORKING: Dual-Band Front-End Modules
Part Number Freq (GHz) 802.11 Standard Description Gain (dB) Linear Po (dBm) EVM (%) V (V) Currecc
LX5591
2.4–2.5
n
Dual-Band
PA + PDET + LNA
with Bypass + SPDT
30
18 3.0
3.3
ac 1.816
5.15–5.85
n
27
18 3.0
3.3
ac 1.816
Analog and Interface Product Selector Guide 65
INTERFACE AND NETWORKING: Single-Band, High-Linearity Front-End Modules
Part Number Freq (GHz) 802.11 Standard Description Gain (dB) Linear Po (dBm) EVM (%) V (V) Current @ Pocc
LX5551 2.4–2.5 n PA + SPDT + PDET 27 18 3.0 3.3
LX5584A 2.4–2.5
nPA + Log DET + LNA
with bypass + SP3T 30
19 3.0 3.3
ac 18 1.8 3.3
LX5584B 2.4–2.5 nPA + Log DET + LNA
with Bypass + SP3T 33 21 3.0 5.0
ac 20 1.8 5.0
LX5584H 2.4–2.5 nPA + Log DET + LNA
with Bypass + SP3T 33 21 3.0 5.0
ac 20 1.8 5.0
LX5586 5.15–5.85
nPA + PDET + LNA
with Bypass + SPDT 27
17.0 3.0 3.3
ac 1.816.0 3.3
LX5586A 5.15–5.85
nPA + PDET + LNA
with Bypass + SPDT 27
17.5 3.0 3.3
ac 1.816.5 3.3
LX5586H 5.15–5.85
nPA + PDET + LNA
with Bypass + SPDT 27
20 3.0 5.0
ac 19 1.8 5.0
LX5589A 5.15–5.85
nPA + Log DET + LNA
with Bypass + SPDT 30
18 3.0 3.3
ac 17 1.8 3.3
LX5589H 5.15–5.85 nPA + Log DET + LNA
with Bypass + SPDT 32 22 3.0 5.0
ac 20 1.8 5.0
LX5589B 5.15–5.85
nPA + Log DET + LNA
with Bypass + SPDT 32
22 3.0 5.0
ac 20 1.8 5.0
INTERFACE AND NETWORKING: Bluetooth ® Modules
Part # Bluetooth
Spec
Module
Type
No Shield
Option
Rx Sensitivity
(dBm)
Power Output
(dBm) (typ.) Sleep InterfaceProles
BM62 5.0 Stereo
Audio Yes −90 2 HFP, HSP, A2DP, AVRCP, SPP UART
BM63 5.0 Stereo
Audio No −89 2 HFP, HSP, A2DP, AVRCP, SPP UART
BM64 5.0 Stereo
Audio Yes −90 HFP, HSP, A2DP, AVRCP, SPP UART, I15 ²C
BM20 Audio −91 System O 2 μA HFP, HSP, A2DP, AVRCP, SPP, PCAP5.0 Yes 4 Analog audio out, mic in, lin
in, UART
BM23 Audio −91 System O 2 μA HFP, HSP, A2DP, AVRCP, SPP, PCAP5.0 Yes 4 I2S Digital audio out, mic in,
in, UART
RN4870 BLE −90 L2CAP, ATT, GATT, GAP, Integrated Public Proles UART, i5.0 Yes 0 2C
RN4871 BLE −90 L2CAP, ATT, GATT, GAP, Integrated public proles UART, I5.0 Yes 0 ²C, SPI
RN4678 5.0 Data,
Dual-Mode Yes −90 BR/EDR
−92 LE 2Deep Power Down
130 μA
BT3.0: GAP, SPP, SPD, RFCOMM, L2CAP
BT4.2: GAP, GATT, ATT, SMP, L2CAP UART, I
²C
BM70 5.0 Data, Single-
Mode BLE Yes −90 Power saving 1 μA GAP, GATT, SM, L2CAP, Integrated public proles0 UART, I
²C, SPI, ADC, PWM
GPIOs
BM71 5.0 Data, Single-
Mode BLE Yes −90 Power saving 1 μA GAP, GATT, SM, L2CAP, Integrated public proles0 UART, I
²C, SPI, ADC, PWM
GPIOs
RN4020 4.1 Data, Single-
Mode BLE No −92.5 7 Dormant < 700 nA,
deep sleep < 5.0 μA GAP, GATT, SM, L2CAP, integrated public proles UART, PIO, AIO, SPI
BM78 5.0 Data,
Dual-Mode Yes −90 (BR/EDR)
−92 LE 2Deep Power Down
130 μA
BT3.0: GAP, SPP, SDP, RFCOMM, L2CAP
BT4.2: GAP, GATT, ATT, SMP, L2CAP UART, I
²C, GPIOs
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66
INTERFACE AND NETWORKING: IEEE 802.15.4 zigbee ® RF Transceiver Products
Part # Pin
Count Antenna Frequency
Range (GHz)
Sensitivity
(dBm)
Power Output
(dBm) RSSI Tx Power
Consumption (mA)
Rx Power
Consumption (mA)
Clock
(MHz) Sleep MAC MAC
Features
MRF24J40 2.405 to 2.48 −95 23 19 20 2 μA CSMA-CA40 0 Yes Yes
MRF24J40MA 12 PCB 2.405 to 2.48 −94 23 19 20 2 μA CSMA-CA0 Yes Yes
MRF24J40MD 12 PCB 2.405 to 2.48 −104 +19 32 20 10 μA CSMA-CAYes 140 Yes
MRF24J40ME 12 U.FL 2.405 to 2.48 −104 +19 32 20 10 μA CSMA-CAYes 140 Yes
INTERFACE AND NETWORKING: Sub-GHz Transceivers/Modules
Part # Pin Count Frequency Range
(MHz) Sensitivity (dBm) Power Output (dBm) RSSI Tx Power Consumption
(mA) Rx Power Consumption (mA) Clock (MHz)
MRF89XA 32 868/915/950 −113 +12.5 25 mA @ +10 dBm 12.8 MHzYes 3
MRF89XAM8A 12 868 −113 +12.5 25 mA @ +10 dBm 12.8 MHzYes 3
MRF89XAM9A 12 915 −113 +12.5 25 mA @ +10 dBm 12.8 MHzYes 3
INTERFACE AND NETWORKING: Sub-GHz Transmitters
Part # Pin Count Frequency Range (MHz) Modulation Data Rate (Kbps) Tx Power (dBm) Operating Voltage (V)
MICRF114 285–445 OOK6 115.2 (NRZ),
57.6 (Manchester Encoded) 10 1.8–3
MICRF113 ASK 20 1.8–3.66 300–450 10
MICRF112 ASK/FSK 50 (ASK), 10 (FSK) 1.8–3.10 300–450 10
INTERFACE AND NETWORKING: Sub-GHz Receivers
Part # Pin Count Frequency Range (MHz) Modulation Data Rate (Kbps) Sensitivity (dBm) RSSI Rx Power Consumption (mA) Sleep In
MICRF219A ASK/OOK 20 −110 15 µA16 300–450 Yes 4.3
MICRF220 ASK/OOK 20 −110 N/A16 300–450 Yes 4.3
MICRF221 850–950 ASK/OOK −109 9 15 µA16 10 Yes
MICRF229 ASK/OOK 20 −112 15 µA16 400–450 Yes 6
MICRF230 ASK/OOK 20 −112 N/A16 400–450 Yes 6
INTERFACE AND NETWORKING: MCU Transmitters
Part # Pin Count Frequency
Range (MHz)
Program
Memory (Bytes)
EEPROM
(bytes)
RAM
(bytes)
Digital
Timer
Watch Dog
Timer
Max Speed
(MHz) ICSP Modulation Data Rate
(kbps)
Output P
(dBm
PIC12F529T39A 310–928 2.3K 201 8 OOK/FSK6 64 1 1 Yes 100 10
PIC12LF1840T39A 310–928 7.1K 256 256 2 32 OOK/FSK6 1 Yes 100 10
PIC16LF1824T39A 20 310–928 4K 256 256 32 OOK/FSK1 1 Yes 100 10
rfPIC12F675F 380–450 1.7K 128 20 ASK/FSK6 64 1 1 Yes 40 10
rfPIC12F675H 850–930 1.7K 128 20 ASK/FSK6 64 1 1 Yes 40 10
rfPIC12F675K 290–350 1.7K 128 20 ASK/FSK6 64 1 1 Yes 40 10
INTERFACE AND NETWORKING: USB Bridge Devices
Part # USB Speed USB Compliant PHY MCU Interface T /R Number of GPIO Operating Voltage (V)x x Buer Size (bytes)
MCP2200 Full-Speed USB (12 Mb/s), Low-Speed USB (1.5 Mb/s) UART 128/128 8 2.7 to 5.5 20-pin SOICYes Yes
MCP2210 Full-Speed USB (12 Mb/s), Low-Speed USB (1.5 Mb/s) SPI 9 3.3 to 5.5 20-pin SOICYes Yes 64
MCP2221 Full-Speed USB (12 Mb/s), Low-Speed USB (1.5 Mb/s) IYes Yes ²C 64 4 3.0 to 5.5 14-pin P
INTERFACE AND NETWORKING: USB Products
Part # Description Processor Interface # of Downstream Ports Card Formats Indu
USB Hub Controllers
USB2412 Hi-Speed USB 2.0 2-Port Hub USB 2.0 2
USB2422 Small-footprint, 2-Port Value Hub, Commercial and Industrial Temperature with USB Battery Charging 1.1 USB 2.0 2
Analog and Interface Product Selector Guide 67
INTERFACE AND NETWORKING: USB Products
Part # Description Processor Interface # of Downstream Ports Card Formats In
USB251XB/
USB2517 Hi-Speed USB 2.0 Hub with Battery Charger Detection USB 2.0 2, 3, 4, 7 port options
USB2524 4-Port Hi-Speed USB 2.0 Multi-Switch Hub USB 2.0 × 2 4
USB3503 3-Port Hi-Speed USB 2.0 HSIC Hub for Mobile Applications HSIC 3
USB3803 3-Port Hi-Speed USB 2.0 Hub for Mobile Applications USB 2.0 3
USB3X13 3-Port Hi-Speed USB 2.0 Smart Hub for Mobile Applications USB 2.0 or HSIC 3 (USB 2.0 × 2/HSIC ×1)
USB253X Hi-Speed USB 2.0 Controller Hub with Battery Charger Detection USB 2.0 2, 3, 4 port options
USB46X4 Hi-Speed USB 2.0 Controller Hub with USB and HSIC Interfaces USB 2.0 or HSIC 4 (USB 2.0 ×4 or
USB 2.0 ×2/HSIC × 2)
USB553XB SuperSpeed USB 3.0 Hub with Battery Charger Detection USB 3.0 2, 3, 4 or 7 port options
USB5734 SuperSpeed USB 3.1 Gen1 Smart Hub Controller with I/O Bridging and FlexConnect USB 3.1 Gen1 4
USB5744 SuperSpeed USB 3.1 Gen1 Small Form Factor Hub Controller USB 3.1 Gen1 4
USB-C™ Power and Charging
UTC200X USB-C Controller I/O 1 DFP or 1 UFP
USB Transceivers/Switches
USB333X Mobile Hi-Speed USB 2.0 Transceiver with Multi-frequency Support ULPI
USB334X Hi-Speed USB 2.0 Transceiver with Multi-frequency Support ULPI
USB3300 Hi-Speed USB 2.0 Transceiver (24 MHz reference clock support) ULPI
USB3740B Hi-Speed USB 2.0 Switch with Extremely Low Power USB 2.0
USB375XA-X Hi-Speed USB 2.0 Port Protection with Switch and Charger Detection USB 2.0
INTERFACE AND NETWORKING: USB Products (Continued)
Part # Description Processor Interface # of Downstream Ports Card Formats Industrial Version
USB Flash Media Controllers
USB224X Hi-Speed USB 2.0 Multi-Format Flash Media Controller USB 2.0 SD™/MMC/eMMC™/MS/xD ü
USB225X Hi-Speed USB 2.0 Multi-Format Flash Media Controller USB 2.0 SD/MMC/eMMC/MS/xD/CF ü
USB264X Hi-Speed USB 2.0 Multi-Format Flash Media Hub Controller USB 2.0 2 SD/MMC/eMMC/MS/xD (Automotivü
USB2660 Hi-Speed USB 2.0 Multi-Format Flash Media Hub Controller USB 2.0 2 SD/MMC/eMMC/MS/xD (×2) ü
USB4640 Hi-Speed USB 2.0 Multi-Format Flash Media HSIC Hub Controller HSIC 2 SD/MMC/eMMC/MS/xD ü
USB Security
SEC1110 Smart Card Controller USB 2.0 Smart Card ü
SEC1210 Smart Card Controller with Multi-Interface Support USB 2.0 Smart Card ×2 ü
INTERFACE AND NETWORKING: Real-Time Clock/Calendar (RTCC)
Bus
Part # Pins
Timing Features Memory (1) Power
Unique Features (2) 5 ku
Pricing
Digital Trimming
(Adj./Range)
Alarm
Settings WDT Outputs SRAM
(Bytes)
EEPROM
(Kbits)
Protected
EEPROM (bits)
Min
Vcc
Min
Ibat
I²C
MCP7940M 8 ±127 ppm 1 sec. IRQ/CLK 1.8 SOIC (SN), TSS 64 0 0 $0.46
MCP7940N 8 ±127 ppm 1 sec. IRQ/CLK 1.8 Power Fail Timestamp $0.59 SOIC (SN), TSSO 64 0 0 1.3
MCP7940X 8 ±127 ppm 1 sec. IRQ/CLK 1.8 Power Fail Timestamp SOIC (SN), TSSO 64 0 64 1.3 $0.66
MCP7941X 8 ±127 ppm 1 sec. IRQ/CLK 1.8 Power Fail Timestamp $0.72 SOIC (SN), TSSO 64 1 64 1.3
SPI
MCP7951X ±255 ppm 0.01 sec. IRQ/CLK 128 1.8 Power Fail Timestamp $0.90 SOIC (SL), TSSO10 64 1 1.3
MCP7952X ±255 ppm 0.01 sec. IRQ/CLK 2 128 1.8 Power Fail Timestamp $0.96 MSOP (MS), TDF10 64 1.3
MCP795W1X ±255 ppm 0.01 sec.14 ü1. CLK, 2. IRQ,
3. WDT RST 64 1 1.3128 1.8 Power Fail Timestamp,
Event Detects (× 2) $1.22 SOIC (SL), T
MCP795W2X ±255 ppm 0.01 sec.14 ü1. CLK, 2. IRQ,
3. WDT RST 64 1.32 128 1.8 Power Fail Timestamp,
Event Detects (× 2) $1.28 SOIC (SL), T
Note 1: All part numbers with an “X” have three protected EEPROM programming options: [0 = Blank ID], [1 = EUI-48™ MAC Address], [2 =EUI-64™ MAC Address]
2: The Power Fail Timestamp in all RTCCs occur at Battery Switchover.
www.microchip.com/analog
68
CO AND SMOKE DETECTOR ICS
CO AND SMOKE DETECTOR ICS: Photoelectric Smoke Detector ICs
Part # Horn Driver
Alarm Pattern
Alarm
Memory
Low Battery
Detection
Chamber
Test
Alarm
Interconnect
Sensitivity
Timer
Internal
POR
Alternate
Diagnostic Mode
O
Temp
RE46C140 NFPA Temporal No −25Yes Yes Yes Yes Yes
RE46C141 NFPA Temporal No −25Yes Yes Yes Yes
RE46C143 Continuous Tone No −25Yes Yes Yes Yes
RE46C144 Continuous Tone No −25 Yes Yes Yes Yes Yes
RE46C145 NFPA Temporal No −25Yes Yes Yes Yes Yes Yes
RE46C165 NFPA Temporal −25 Yes Yes Yes Yes Yes Yes Yes
RE46C166 Continuous Tone −25 tYes Yes Yes Yes Yes Yes Yes
RE46C167 NFPA Temporal −25 Yes Yes Yes Yes Yes Yes Yes
RE46C168 Continuous Tone −25 tYes Yes Yes Yes Yes Yes Yes
RE46C190 NFPA Temporal or Continuous Tone −10 tYes Yes Yes Yes Yes Yes
RE46C191 NFPA Temporal or Continous Tone No −10 tYes Yes Yes Yes Yes Yes
RE46C194 NFPA Temporal or ContinuousTone No 0 tYes Yes Yes Yes Yes Yes
RE46C200 NFPA Temporal or Continous Tone No −10 tYes Yes Yes Yes Yes Yes
CO AND SMOKE DETECTOR ICS
: Ionization Smoke Detector ICs
Part # Horn Driver
Alarm Pattern
Alarm
Memory
Low Battery
Detection
Reverse Battery
Protection
Alarm
Interconnect
Hush
Timer
Power-up
Low Battery Test
Operating Temp.
Range (°C)
RE46C180 NFPA Temporal or Continuous Tone No −10 to +60 16Yes Yes Yes Yes Yes
RE46C181 NFPA Temporal or Continuous Tone No −10 to +60 16Yes Yes Yes Yes Yes
CO AND SMOKE DETECTOR ICS
: Ionization Smoke Detector Front Ends
Part # Microprocessor Compatible Output Output Options Typical Application Operating Temperature Range (°C)
RE46C112 VYes out dd 1/4 of V or Vout 1/4 of Detect Input 3V or 3.3V Microprocessor −10 to +60 8-p
RE46C114 Yes Vout dd 1/2 of V or Vout 1/2 of Detect Input 5V Microprocessor −10 to +60 8-p
RE46C311 Yes Op Amp Ionization Smoke Detector Front End −10 to +60 8
RE46C312 Op Amp Ionization Smoke Detector Front End −10 to +60 8Yes
CO AND SMOKE DETECTOR ICS: CO Detectors
Part # Operating
Voltage (V )dc
Voltage
Regulator (V )dc
LED
Driver
Horn
Driver Interconnect
Low
Battery
Detection
Brown
Out
Boost
Regulator
Op Amp
Vos Max
( V)µ
Op Amp
lb Max
(pA)
Op Amp
GBWP
(kHz)
Op Amp
Aol (dB)
Op Amp
Slew Rate
(V/ S)µ
Op Amp
Unity Gain
Stable
RE46C800 2 to 12 3.3 1000 200 10 115 0.003 80Yes Yes Yes Yes Yes Yes Yes
RE46C803 2 to 3.6 3.3/1.8 No No 1000 200 10 115 0.003 86Yes Yes Yes Yes Yes
Analog and Interface Product Selector Guide 69
CO AND SMOKE DETECTOR ICS: Piezoelectric Horn Drivers
Part # Operating Voltage (V) LED Driver Voltage Regulator (V) Low Battery Detection Interconnect Power Good Operating Temp
RE46C100 – –6 to 16 −40 to +8
RE46C101 – –6 to 16 Yes −40 to +8
RE46C104 – –4 to 8 0 to +50
RE46C105 – –6 to 12 3.3 or 5Yes Yes −40 to +8
RE46C107 2 to 5 3 or 3.3 0 to +50Yes Yes – –
RE46C108 6 to 12 3.3 or 5 −40 to +8 – –
RE46C109 6 to 12 −40 to +8– 3 Yes Yes Yes
RE46C117 2 to 5 0 to +50 – –
RE46C119 6 to 12 −40 to +8– 3 Yes Yes Yes
RE46C317 2 to 5 −10 to +6 – –
RE46C318 2 to 5 −10 to +6 – –
ULTRASOUND
ULTRASOUND: High-Voltage Analog Multiplexers
Part # Bleed Resistor V -V R C I (A) Features# of Ch. and Conguration pp nn on ( )Ωsg On/O (pF) sw
HV20220 8 SPST No 200V 22 38/12 5V–12V Logic Input, 5 MHz clock frequency3
HV20320 8 SPST No 200V 22 38/12 5V–12V Logic Input, 5 MHz clock frequency3
HV232 8 SPST 200V 22 38/12 5V–12V Logic Input, 5 MHz clock frequencyYes 3
HV219 8 SPST No 200V 50/20 5V–12V Logic Input, 5 MHz clock frequency11 3
HV2201 8 SPST No 200V 22 38/12 3.3V–5V Logic input, 20 MHz clock frequency3
HV2301 8 SPST 200V 22 38/12 3.3V–5V Logic input, 20 MHz clock frequencyYes 3
HV2221 8 SPST No V range = +15V to +50V, pp
V range = −190V to −225Vnn 15 470/18 3.3V–5V Logic input, 20 MHz clock frequency
HV2321 8 SPST Yes V range = +15V to +50V, pp
V range = −190V to −225Vnn 15 470/18 3.3V–5V Logic input, 20 MHz clock frequency
HV209 6 × 2:1 Mux 200V 22 38/12 5V–12V Logic Input, 5 MHz clock frequencyYes 3
HV20822 2 Banks of 8 channel No 220V 22 38/12 5V–12V Logic Input, 5 MHz clock frequency3
HV238 2 Banks of 8 channel 220V 22 38/12 5V–12V Logic Input, 5 MHz clock frequencyYes 3
HV2601 16 SPST No 200V 22 38/12 3.3V–5V Logic input, 20 MHz clock frequency3
HV2701 16 SPST No 200V 22 38/12 3.3V–5V Logic input, 20 MHz clock frequency3
HV2605 16 SPST No 200V 22 13/10 3.3V–5V Logic input, 20 MHz clock frequency3
HV2705 16 SPST 200V 22 13/10 3.3V–5V Logic input, 20 MHz clock frequencyYes 3
HV2631 2 Banks of 8 channel No 220V 22 38/12 2 3.3V–5V Logic input, 20 MHz clock frequency
HV2731 2 Banks of 8 channel 220V 22 38/12 2 3.3V–5V Logic input, 20 MHz clock frequencyYes
HV2803 32 SPST No ±6V 27/9 3.3V Input Logic, 66 MHz Clock Frequency10 3
HV2903 32 SPST Yes-2 ±6V 27/9 3.3V Input Logic, 66 MHz Clock Frequency10 3
HV2904 32 SPST Yes-1 ±6V 27/9 3.3V Input Logic, 66 MHz Clock Frequency10 3
HV2070 32 SPST No ±6V 20/11 3.7 3.3V Input Logic, 66 MHz Clock Frequency4.5
HV2733 8 SPDT 200V 22 38/12 2 3.3V–5V Logic input, 20 MHz clock frequencyYes
HV2661 8 × 3:1 Mux No 200V 22 30/9 2 3.3V–5V Logic input, 20 MHz clock frequency
HV2761 8 × 3:1 Mux 200V 22 30/9 2 3.3V–5V Logic input, 20 MHz clock frequencyYes
HV2662 24 SPST No 200V 22 12/9 2 3.3V–5V Logic input, 20 MHz clock frequency
HV2762 24 SPST 200V 22 12/9 2 3.3V–5V Logic input, 20 MHz clock frequencyYes
HV2808 2 Banks of 16 SPDT No 200V 22 23/9 3.3V–5V Logic, A/B bar Control pin3
HV2809 2 Bank of 16 No 200V 22 23/9 3.3V -5V Logic, A/B bar + EN Control pins3
HV2801 16 × 2:1 Mux No 200V 22 23/9 3.3V–5V Logic input, 20 MHz clock frequency3
HV2901 16 × 2:1 Mux 200V 22 23/9 3.3V–5V Logic input, 20 MHz clock frequencyYes 3
HV2802 32 SPST No 200V 22 13/10 3.3V–5V Logic input, 20 MHz clock frequency3
HV2902 32 SPST 200V 22 13/10 3.3V–5V Logic input, 20 MHz clock frequencyYes 3
HV2621 16 SPST No 300V 22 18/10 3.3V–5V logic input, 33 MHz clock frequency3
HV2721 16 SPST Yes-2 300V 22 18/10 3.3V–5V logic input, 33 MHz clock frequency3
HV2722 16 SPST Yes-1 300V 22 18/10 3.3V–5V logic input, 33 MHz clock frequency3
HV2708 16 SPST SWA side Only 5 14 12/8 1.9A Low Harmonic Distortion, Low Charge Injectio
HV2707 16 SPST Both Sides 5 14 12/8 1.9A Low Harmonic Distortion, Low Charge Injectio
HV2607 16 SPST None 5 14 12/8 1.9A Low Harmonic Distortion, Low Charge Injectio
HV2918 16 × 2:1 Mux SW Side Only 5 6 22/4 2.7A Low Harmonic Distortion, Low Charge Injecti
HV2818 16 × 2:1 Mux None 5 6 22/4 2.7A Low Harmonic Distortion, Low Charge Injectio
www.microchip.com/analog
70
ULTRASOUND: Ultrasound MOSFET Drivers
Part # # of
Channels
Input Voltage
Min. (V)
Input Voltage
Max. (V)
Ouput Voltage
Bipolar (V)
Output Voltage
Unipolar (V)
Output Rise/
Fall Time
Peak
Current Application Circuit
MD1210 2 1.2 NA 0–12 6 ns/6 ns ±2A Pair with 1 × TC63205.0
MD1211 2 1.8 NA 0–12 10 ns/10 ns ±2A Pair with 1 × TC63205.0
MD1213 2 1.8 0–12 6 ns/6 ns ±2A Pair with 1 × TC63205.0 ±5
MD1711 12 1.8 NA 0–12 8 ns/8 ns ±2A Pair with 6 × TC6320 to form a 2-Channel 5-Level Pulser3.3
MD1712 12 1.8 NA 0–12 8 ns/8 ns ±2A Pair with 6 × TC6320 to form a 2-Channel 5-Level Pulser3.3
MD1715 12 1.8 NA 0–12 6.5 ns/6.5 ns ±2A Pair with 1 × TC8020 to form a 2-Channel 5-Level Pulser3.3
MD1716 12 1.8 NA 0–12 6.5 ns/6.5 ns ±2A Pair with 1 × TC8020 to form a 3-Channel 3-Level Pulser3.3
MD1810 1.8 0–12 6 ns/6 ns ±2A4 5 ±5
Pair with 2 × TC6320 to form a 1-Channel 4-Level Pulser/2 Channel 2 Level Pulser/1 C
MD1811 1.8 0–12 6 ns/6 ns ±2A Pair with 2 × TC6320 to form a 2-Channel 2-Level Pulser4 5 ±5
MD1812 1.8 0–12 6 ns/6 ns ±2A Pair with 1 × TC6320 and 1 × TC2320 to form a 1-Channel 3-Level Pulser5 5 ±5
MD1813 1.8 0–12 6 ns/6 ns ±2A Pair with 1 × TC6320 and 1 × TC2320 to form a 1-Channel 3-Level Pulser5 5 ±5
MD1820 1.8 0–12 7 ns/7 ns ±2A4 5 ±5
Pair with 2 × TC6320 to form a 1-Channel 4-Level Pulser/2-Channel 2 Level Pulser/1 C
MD1821 1.8 0–12 7 ns/7 ns ±2A Pair with 2 × TC6320 to form a 2-Channel 2-Level Pulser4 5 ±5
MD1822 1.8 0–12 7 ns/7 ns ±2A Pair with 2 × TC6320 to form a 1-Channel 3Level Pulser4 5 ±5
ULTRASOUND: Ultrasound TR Switches
Part # # of Channels FeaturesNoise (per √Hz)
MD0100 1/2 0.7 nV/√Hz ±100V Ultrasound T/R Switches
MD0101 0.8 nV/√Hz ±100V Ultrasound T/R Switches with Clamp Diode4
MD0105 0.8 nV/√Hz ±130V Ultrasound T/R Switches4
ULTRASOUND: Arbitrary Waveform Generators
Part # Output Sampling Frequency Features
MD2131 Push-Pull Source Drive 250 MHz 8-bit DAC, 48-step phase, PWM, 8-bit Apodization DAC
MD2134 Push-Pull Source Drive 250 MHz 8-bit DAC, 7-bit PAM, 16-Level
ULTRASOUND: Ultrasound Transmitters
Part # Output Voltage (V) Output Current (A) Number of Channels Features
HV748 ±75 ±1.25 4-Channel 2-Level RTZ4
HV7360 ±2.5 1 or 2 1-Channel 3-Level or 2-Channel 2-Level±100
HV7361 ±2.5 1 or 2 1-Channel 3-Level or 2-Channel 2-Level with integrated T/R±100
HV7355 8 8-Channel Unipolar Active RTZ150 ±1.5
HV7350 8 8-Channel 3-Level±60 ±1.0
HV7351 ±70 8 8-Channel 3-Level with Built-in Digital Beamformer±3.0
HV7321 ±80 ±2.5 4-Channel 5-level RTZ, HD2 –44 dB @ 5 MHz4
HV7322 ±80 ±2.0 8 8-Channel 7-level with dual T/R
HV7358 ±80 16-Channel 3-Level with Built-in Digital Beamformer and T/R±1.6 16
POWER MANAGEMENT: AC/DC
Part # Minimum Input
Voltage (V)
Maximum Input
Voltage (V)
Osc Frequency
Min (kHz)
Osc Frequency
Max (kHz) On-Board FET? Type of On-Board
FET?
Rds,on (Max,
25C)?
Ove
Pro
MCP1012 16V (Typical) 500V Continu-
ous/700V Transient 37 63 FALSE NA NA Cycle
Analog and Interface Product Selector Guide 71
PoE Controllers
Part # Standards Supported Ports Operating Temperature Host Interface Tempera
PD69210 IEEE 802.3af, IEEE 802.3at, IEEE 802.3bt, UPoE, PoH 48 I²C UART Ind–40 to +85
PD69220 IEEE 802.3af, IEEE 802.3at, IEEE 802.3bt, UPoE, PoH 48 I²C UART Ind–40 to +85
www.microchip.com/analog
72
Featured Analog Development Tools
Thermal Management Products
Sensor Products
For a complete list of development tools, please visit www.microchip.com/development tools.
MCP9600 Evaluation Board (ADM00665)
The MCP9600 Evaluation Board is used to digitize the Thermocouple EMF voltage to degree Celsius with
±1.5°C accuracy. You can easily evaluate all device features using a Type K thermocouple. The device also
supports Types J, T, N, E, B, S and R. Each of these types are evaluated by replacing the Type K Thermo-
couple connector with the corresponding connectors (not included).
Thermocouple Reference Design (TMPSNSRD-TCPL1)
This reference design demonstrates how to instrument a thermocouple and accurately sense temperature
over the entire thermocouple measurement range. This solution uses the MCP3421 18-bit Analog-to-Digital
Converter (ADC) to measure voltage across the thermocouple.
Linear Sensor Kit (LXK3301AL003)
This 100 mm linear position sensor evaluation kit comes will all you need to test out inductive technology
for a linear sensor. The kit includes a 100 mm linear sensor evaluation board, a programmer that is run from
our Integrated Programming and Calibration Environment (IPCE) GUI and applicable cables.
Rotary Sensor Kit (LXK3301AR001)
This 18 mm 120˚ rotary position sensor evaluation kit comes will all you need to test out inductive technol-
ogy for a rotary sensor. The kit includes a rotary position sensor evaluation board, a programmer that is run
from our Integrated Programming and Calibration Environment (IPCE) GUI and applicable cables.
Power Management Products
MCP19111 Evaluation Board (ADM00397)
The MCP19111 is a digitally-enhanced PWM controller. It combines a pure-analog PWM controller with a su-
pervisory MCU making it a fast, cost-eective and congurable power conversion solution. The MCP19111 is
ideal for standard power conversion, LED drivers and battery charging applications. This board demonstrates
how the device operates in a synchronous buck topology over a wide input voltage and load range.
MCP16251 and MCP1640B Synchronous Boost Converters Evaluation Board (ADM00458)
This board demonstrates the MCP16251/MCP1640B in two boost-converter applications with multiple
output voltages and was developed to help reduce product design cycle time. Three common output volt-
ages can be selected: 2.0V, 3.3V and 5.0V.
MIC33M650 6A Step Down Module Evaluation Board (DT100107)
The boards are intended to provide a platform allowing customers to easily evaluate the features of the new
MIC33M650 6A Power Modules in a buck converter application with adjustable output voltage through
pin-strapping using on board jumpers. These boards are ideal for powering core supply voltages and also
high-power single-cell Li-ion battery powered applications.
MIC33M656 6A Step Down Module Evaluation Board (DT100108)
The boards are intended to provide a platform allowing customers to easily evaluate the features of the
new MIC33M656 6A Power Modules in a buck converter application with output voltage and other settings
via I2C. These boards are ideal for powering core supply voltages and also high power single-cell Li-ion
battery-powered applications.
Analog and Interface Product Selector Guide 73
Featured Analog Development Tools
DT100105 Evaluation Board (MCP16502)
The MCP16502 Evaluation Board was developed to evaluate the capabilities of the MCP16502 High Performance
Power Management Integrated Circuit (PMIC) designed for SAMA5Dx/SAM9x6 MPUs. The device features 4
DC-DC buck converters capable of delivering 1A each, 2 LDOs with 300mA current capability and I2C programable
output voltages and 4 operating modes: Active, Low Power, Hibernate and High Performance Mode
MCP1633 SEPIC LED DRIVER Demo Board (ADM01002)
The MCP1633 SEPIC LED Driver Demo Board is a step-up/step-down, switch-mode, DC/DC converter used for
LED driver applications. The demo board provides a 200mA constant current source. Other output currents can
be obtained with minor modications to the boards Bill of Materials (BOM). MCP1633 LED Driver Demo Board
utilizes Microchip’s MCP1633 high-speed Pulse-Width Modulator (PWM). The small 16-pin QFN MCP1633 device
contains all the analog components necessary for a peak current mode control loop including specialized LED
driver blocks. An 8-pin PIC12F1822 microcontroller is used to implement the dimming and protection functions.
MIC23350 3A Synch Buck Regulator Evaluation Board (ADM00880)
The MIC23350 Evaluation Board is developed to evaluate and demonstrate Microchip Technology’s
MIC23350 product. The board features the MIC23350 in a typical Buck application supplied from an
external source, between 2.4V–5.5V. Nine output voltage levels can be set via two Voltage Select pins. Test
connectors allow probing, while the board can be loaded up to 3A.
MIC23650 6A Synch Buck Regulator Evaluation Board (ADM00885)
The MIC23650 Evaluation Board is developed to evaluate and demonstrate Microchip Technology’s
MIC23650 product. The board features the MIC23650 in a typical Buck application supplied from an
external source, between 2.4V–5.5V. Nine output voltage levels can be set via two Voltage Select pins. Test
connectors allow probing, while the board can be loaded up to 6A.
MCP1633 SEPIC LED DRIVER DEMO BOARD (ADM01002)
The MCP1633 SEPIC LED Driver Demo Board is a step-up/step-down, switch-mode, DC/DC converter used for
LED driver applications. The demo board provides a 200mA constant current source. Other output currents can
be obtained with minor modications to the boards Bill of Materials (BOM). MCP1633 LED Driver Demo Board
utilizes Microchip’s MCP1633 high-speed Pulse-Width Modulator (PWM). The small 16-pin QFN MCP1633 device
contains all the analog components necessary for a peak current mode control loop including specialized LED
driver blocks. An 8-pin PIC12F1822 microcontroller is used to implement the dimming and protection functions.
MCP16501 Evaluation Board (ADM01123)
MCP16501 evaluation boards are used to evaluate the MCP16501 PMIC. This is an addition to MCP1650x
brand new family of PMICs targeted for MPU power. The board will not include I2C communication, as the
IC does not support this, but it will still support load transient testing and voltage setting for the channels
and stability analysis testing. Dimensions are similiar with the MCP16502 eval board.
For a complete list of development tools, please visit www.microchip.com/development tools.
Power Management Products (continued)
Linear Products
MCP6V01 Thermocouple Auto-Zeroed Reference Design Board (MCP6V01RD-TCPL)
The MCP6V01 design board demonstrates how to use a dierence amplier system to measure Electromo-
tive Force (EMF) voltage at the cold junction of thermocouple to accurately measure temperature of the
thermocouple bead. This can be done by using the MCP6V01 auto-zeroed op amp because of its ultra-low
oset voltage (Vos) and high Common Mode Rejection Ratio (CMRR).
www.microchip.com/analog
74
Featured Analog Development Tools
For a complete list of development tools, please visit www.microchip.com/development tools.
Mixed Signal Products
MCP37X3X-200 16-bit 200 Msps ADC VTLA Evaluation Board (ADM00505)
This board provides the opportunity to evaluate the performance of the MCP37X3X-200 device family. With
the on-board MCP37D31-200 16-bit 200 Msps pipelined ADC, it allows you to evaluate the functionality of
the 16-bit 200 Msps ADCs and the digital signal processing features. With the help of a compatible data
capture card, the evaluation board can provide you with performance analysis features through the PC GUI.
PAC1921 High-Side Power and Current Monitor Evaluation Board (ADM00592)
The PAC1921 is a dedicated power monitoring device with a congurable analog output. This device is
unique in that all power-related information is available on the 2-wire/I
2C-compatible interface and power,
current or voltage is available on the analog output. This evaluation board provides you with the means to
exercise device functionality while connected either to target systems or while utilizing on-board sources.
MCP39F511 Power Monitor Demonstration Board (ARM00667)
The MCP39F511 Power Monitor Demonstration Board is a fully functional single-phase power monitor and
energy monitoring system. The system calculates and displays active power, reactice power, RMS current,
RMS voltage, active energy (both import and export) and four quadrant reactive energy. The Power Monitor
Utility Software enables you to easily experiment with all system conguration settings such as zero-cross
detection, PWM output frequencies, event congurations and calibration setup.
UCS81003 Evaluation Board (ADM00561)
This board provides the ability to evaluate the features of the UCS81003 Automotive USB Port Power Con-
troller with Charger Emulation. It allows the UCS81003 to be tested in dierent congurations by populat-
ing jumpers on specic header locations. The Evaluation Board contains the MCP2221 USB to I
2C bridge,
which allows communication via USB between the UCS81003 and the GUI running on the PC.
LAN9252 EtherCAT® Device Controller Evaluation Kit with HBI PDI Interface
(EVB-LAN9252-HBI)
This kit is a standalone platform to develop an EtherCAT device. It oers exibility to explore dierent host
bus interfaces such as 8-bit and 16-bit parallel bus, SPI and SQI™.
LAN874X 10/100 Ethernet Transceiver with EEE and Wake-On-LAN (EVB8740)
The EVB8740 is a PHY evaluation board for our LAN874X family, which integrates Energy Ecient Ethernet
and Wake-on-LAN features. It interfaces to a MAC controller via a standard MII or RMII interface.
USB3740 Hi-Speed USB 2.0 2-Port Switch (EVB-USB3740)
The EVB-USB3740 is used to evaluate our USB3740 USB 2.0 compliant 2-port switch. Some applications
require a single USB port to be shared with other functions. The USB3740 is a small and simple 2-port
switch providing system design exibility.
Interface Products
Linear Products (continued)
MCP6N16 Evaluation Board (ADM00640)
This board is designed to provide an easy and exible platform when evaluating the MCP6N16, a zero-drift
instrumentation amplier designed for low-voltage operation featuring rail-to-rail input and output perfor-
mance. The board is populated with the MCP6N16-100, which is optimized for gains for 100V/V or higher.
MCP6421 EMIRR Evaluation Board (ADM00443)
The MCP6421 EMIRR Evaluation Board is intended to support the Electromagnetic Interference Rejection Ratio
(EMIRR) measurement and to show the Electromagnetic Interference (EMI) rejection capability of the MCP6421 op amp.
Analog and Interface Product Selector Guide 75
Featured Analog Development Tools
For a complete list of development tools, please visit www.microchip.com/development tools.
Interface Products (continued)
UTC2000 Basic USB Type-C™ Controller Evaluation Kit (EVK-UTC2000)
The EVK-UTC2000 is a complete kit to evaluate our UTC2000 basic USB-C controller. It includes a
downstream-facing port dongle which can connect to any standard host, an upstream-facing port board to
mimic a USB-C device, as well as a USB-C cable.
USB5734 USB 3.1 Gen1 Controller Hub Evaluation Board (EVB-USB5734)
This board is a demonstration and evaluation platform that provides the necessary requirements and
interface options for evaluating the USB5734 Smart Hub on a 4-layer RoHS-compliant PCB. This will allow
you to gain an understanding of the product and accelerate integration into your design.
USB5926 USB 3.1 Gen1 Smart Hub with 2:1 USB-C MUX Evaluation Board (EVB-USB5926)
This board demonstrates implementation of USB Type-C ports using Microchip’s UTC2000 CC pin interface
controller and the USB5926’s built-in 2:1 Muxes. The board supports two downstream facing USB Type-C
ports along with an upstream facing USB Type-C port. The USB5926 also supports two additional down-
stream Type A ports for legacy purposes.
MCP2515 CAN Bus Monitor Demo Board
(MCP2515DM-BM)
The MCP2515 CAN Bus Monitor Demo board kit contains two identical boards that can be connected
together to create a simple two-node Controller Area Network (CAN) bus, which can be controlled and/or
monitored via the included PC interface. The board(s) can also be connected to an existing CAN bus.
USB to UART Converter Evaluation Board (MCP2200EV-VCP)
The MCP2200EV-VCP is a USB-to-RS232 development and evaluation board for the MCP2200 USB-to-
UART device. The board allows for easy demonstration and evaluation of the MCP2200. The accompany-
ing software allows the special device features to be congured and controlled. The board is powered from
USB and has a test point associated with each GPIO pin. In addition, two of these pins are connected
to LEDs which can be used to indicate USB-to-UART trac when the associated pins are congured as
TxLED and RxLED pins respectively.
Total System Solutions
ATSAMA5D27-WLSOM1 Evaluation Kit
The ATSAMA5D27-WLSOM1-EK1 is ideal for evaluating and prototyping with the SAMA5D27-WLSOM1,
Wireless System On Module (SOM) and the SAMA5D27C-LD2G, LPDDR2 System In Package (SIP). The
Evaluation Kit is made up of a baseboard, an ATSAMA5D27-WLSOM1 SOM soldered on the baseboard and
an ATSAMA5D27C-LD2G SIP soldered on the SOM.
SAMA5D27-SOM1-EK1
The ATSAMA5D27-SOM1-EK1 is a fast prototyping and evaluation platform for the SAMA5D2 based System
in Packages (SiPs) and the SAMA5D27-SOM1 (SAMA5D27 System On Module). The kit comprises a
baseboard with a soldered ATSAMA5D27-SOM1 module. The module features an ATSAMA5D27C-D1G-CU
SIP embedding a 1-Gbit (128 MB) DDR2 DRAM. The SOM integrates a Power Management IC (PMIC), a
QSPI memory, a 10/100 Mbps Ethernet PHY and a serial EEPROM with a MAC address. 128 GPIO pins are
provided by the SOM for general use in the system.
www.microchip.com
Support
Microchip is committed to supporting its customers in de-
veloping products faster and more eciently. We maintain a
worldwide network of eld applications engineers and technical
support ready to provide product and system assistance. For
more information, please visit www.microchip.com:
Technical Support: www.microchip.com/support
Evaluation samples of any Microchip device:
www.microchip.com/sample
Knowledge base and peer help:
www.microchip.com/forums
Sales and Global Distribution: www.microchip.com/sales
Training
If additional training interests you, Microchip oers several
resources including in-depth technical training and reference
material, self-paced tutorials and signicant online resources.
Overview of Technical Training Resources:
www.microchip.com/training
MASTERs Conferences:
www.microchip.com/masters
Developer Help Website:
www.microchip.com/developerhelp
Technical Training Centers:
www.microchip.com/seminars
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Tel: 86-186-6233-1526
China - Wuhan
Tel: 86-27-5980-5300
China - Xiamen
Tel: 86-592-2388138
China - Xian
Tel: 86-29-8833-7252
ASIA/PACIFIC
China - Zhuhai
Tel: 86-756-321-0040
India - Bangalore
Tel: 91-80-3090-4444
India - New Delhi
Tel: 91-11-4160-8631
India - Pune
Tel: 91-20-4121-0141
Japan - Osaka
Tel: 81-6-6152-7160
Japan - Tokyo
Tel: 81-3-6880-3770
Korea - Daegu
Tel: 82-53-744-4301
Korea - Seoul
Tel: 82-2-554-7200
Malaysia - Kuala Lumpur
Tel: 60-3-7651-7906
Malaysia - Penang
Tel: 60-4-227-8870
Philippines - Manila
Tel: 63-2-634-9065
Singapore
Tel: 65-6334-8870
Taiwan - Hsin Chu
Tel: 886-3-577-8366
Taiwan - Kaohsiung
Tel: 886-7-213-7830
Taiwan - Taipei
Tel: 886-2-2508-8600
Thailand - Bangkok
Tel: 66-2-694-1351
Vietnam - Ho Chi Minh
Tel: 84-28-5448-2100
2/27/20
The Microchip name and logo, the Microchip logo, Hyper Speed Control, HyperLight Load and PIC are registered trademarks and WiperLock is a trademark of Microchip Technology Incorporated in the U.S.A.
and other countries. USB Type-C and USB-C are trademarks of the USB Implementers Forum. All other trademarks mentioned herein are property of their respective companies.
© 2020, Microchip Technology Incorporated. All Rights Reserved. 10/20 DS20001060AX

Product specificaties

Merk: Microchip
Categorie: Niet gecategoriseerd
Model: TC1185

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