Aritech ATS1290 Handleiding

Aritech Beveiliging ATS1290

Lees hieronder de 📖 handleiding in het Nederlandse voor Aritech ATS1290 (24 pagina's) in de categorie Beveiliging. Deze handleiding was nuttig voor 53 personen en werd door 2 gebruikers gemiddeld met 4.5 sterren beoordeeld

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Pagina 1/24

ATS1290

IADS DGP

2006 GE Security B.V. 1055375

 

 

www.gesecurity.net

ATS129

IADS DGP available menus

1-DGP Status

0-Exit, Menu:

Operating

*=-,#=+,0=Exit

Dev:16 A:0 T:0

*=-,#=+,0=Exit

DGP1 I:17-32 O:17-32

*=-,#=+,0=Exit

V-bus: 12,7 Vdc

*=-,#=+,0=Exit

I-bus: 3 mA

*=-,#=+,0=Exit

2-Device Status

0-Exit,Menu:

17/0,PIR,T0

Input No:

17/0, Normal

*=-,#=+,0=Exit

3-Device Settings

0-Exit,Menu:

17/0,PIR,T0

Input No:

17/0,Loc1:0

*,Value:

17/0,1:00000000

*,Bits:

4-Reset Settings

0-Exit,Menu:

17/0,PIR,T0

Input No:

17/0,Reset(Y/N)?

*=Yes,#=No

5-Learn Mode

0-Exit,Menu

Start Learn Mode?

*=Yes,#=No:

6-DGP Mode

0-Exit,Menu:

1 DGP address

*=Change,#=Enter

Extended Mode

*=Change,#=Enter

7-Factory Defaults

0-Exit,Menu:

Set Factory Defaults?

*=Yes,#=No:

ATS129

IADS DG

Introduction

The ATS1290 is an interface between the ATS LAN bus and an IADS bus

(Intelligent Addressable Device System bus). It provides two-wire

bidirectional communications with up to 32 individually addressed IADS

modules. It is intended to be sitting on the LAN of any existing

configuration of ATS products to expand the system with addressable

modules. A maximum of 15 ATS1290 DGPs can be connected to the

LAN.

Mounting the unit

Mount the ATS1290 PCB in any existing ATS series enclosure that

supports the BB format.

Connections CON1 (see fig ,  and )

COMMS

12 VDC power supply. It is recommended that where the

distance between an ATS1290 and the nearest device is

more than 100 meters, a separate power supply be

used. Refer to the Remote DGP section. When using an

external power supply, use a fused power output (1 A

fast).

COMMS

D+

D -

Positive and negative data connection of the system

databus. Units can be up to 1.5 km from the ATS control

panel, depending on the cable used. See the ATS control

panel installation guide for details.

TAMP

The PCB tamper switch is connected in parallel to the

external tamper connection. Tamper switch requires

normally open contacts.

 Depending on the type of housing used, you can use the PCB

tamper or connect an external tamper.

CON10 (see fig , )

Earth connection. Connect the shield of the ATS COMMS cable. At the

other end of the cable the shielding must be connected to one system

earth. See the ATS control panel installation guide. This is not

applicable for the possible shielding of the IADS -bus.

DGP dipswitch settings (see fig ,  & fig )

ADDR DIP switches 1 to 4 are used to identify the DGP number to

the ATS control panel. Select the required DGP number and

set the address DIP switch as indicated in figure .

LEDs (see fig , )

RX LED flashes to indicate polling data is being received on the

system databus from the ATS control panel. If the LED does

not flash, the control panel is not operational or the

databus is faulty (usually cabling).

TX LED flashes to indicate the DGP is replying to polling from

the ATS control panel. If the RX LED flashes but the TX LED

does not, it indicates that the DGP is not programmed to be

polled in the control panel or that it is addressed

incorrectly.

Connections CON2 (see fig ,  & fig )

PID Connection to all Addressable modules. Requires one + and

one – terminal to be connected. This will provide power

supply and data.

Modules provide for two bus terminals (see ) or only one terminal

(see  & ). The bus loop does not need special termination.

IADS configurations

There are two main configurations:

• Point identification solution based on I/O modules.

• Intelligent addressable detectors solution.

 Due to very complicated cable length calculation, it is not

recommended to combine intelligent addressable detectors

with I/O modules.

Point identification solution

In the point identification solution, only I/O modules (integrated and

standalone I/O) are recommended. In this configuration conventional

detectors with additional IADS modules (AD011/AD111) are used.

This configuration is based on a 4-wire system:

• Data + power for I/O - 2 wires.

• Power for detectors - 2 wires.

The ATS1290 can support 32 inputs in this configuration. Detectors

themselves need to be powered by a separate power supply.

 This is an optimised solution for retrofit.

Intelligent addressable detectors solution

This configuration is based on a 2-wire system:

• Data + power for all addressable detectors

The ATS1290 can support 16 detectors. For some modules, 2 inputs are

necessary, and therefore the expanded addressing mode could be

used to stay into the range of 32 addresses on the ATS1290.

Cable topology IADS – BUS (see fig )

 A - DGP, B - control panel

In principle, the bus topology is free. Shown are several topologies (see

figure ):

1. Distributed (all IADS modules distributed across the line).

2. Star (all modules with own branches to a star point).

3. Lumped (all IADS modules at the end).

Recommended cable type

Use cables with as low resistance and capacitance as possible.

If a shielded cable is used for the IADS bus, this must not be connected

to either earth, PID- or PID+. If connected, it would result in additional

capacity and it will reduce the distance of the IADS bus.

The Table 1 below shows the maximum cable lengths in metres for

different cable types. The number of modules and module load are

taken into account. Check the module manuals for the "Unit Load". 1

Unit Load corresponds to 300 µA typical current.

 The absolute minimum working voltage of the IADS DGP is

10.5 VDC with battery operation (measured on COMMS 12 VDC

power supply of the DGP).

Table 1. Maximum cable lengths (meters) with a minimum DGP voltage

of 10.5V

4 Wire IADS bus

External powered IADS modules

(4 wire IADS bus)

32 IADS modules:

AD011 (UL=1), AD111 (UL=2)

Cable type 2 x 0.5 mm 2 x 2 x 0.5 mm

# Wires 1 + 1 2 + 2

IADS bus 0.5 mm 1 mm

Distributed  S 1 x 800 m 1 x 1600 m

Star  T 16 x 200 m 16 x 400 m

U 1 x 80 m 1 x 880 m Lumped 

V 16 x 40 m 16 x 40 m

2 Wire IADS bus

IADS modules powered out of the IADS bus

(2 wire IADS bus)

16 IADS modules:

EV435-AD (UL=8), EV435AM-AD (UL=16)

Cable type 2 x 0.5 mm 2 x 2 x 0.5 mm

# Wires 1 + 1 2 + 2

IADS bus 0.5 mm 1 mm

Distributed  S 1 x 200 m 1 x 400 m

Star  T 16 x 200 m 16 x 400 m

U 1 x 40 m 1 x 80 m Lumped 

V 16 x 10 m 16 x 20 m

 The distances S, T, U and V are referred to in Fig .

 The power supply of conventional detectors is not taken into

account.

IADS module address setting and zone/output numbering

The address setting for the IADS module is directly linked to the zone

and output number the module will have in the control panel. IADS

module numbering starts from DIP switch setting 0.

Table 2. Address setting examples

1st DGP

address

Internal module

(e.g. EV435-AD) address

DIP switch setting on

internal module

17 0 00000000

18 1 10000000

19 2 01000000

4th DGP

address

Internal module

(e.g. EV435-AD) address

DIP switch setting on

internal module

65 0 00000000

66 1 10000000

67 2 01000000

15th DGP

address

Internal module

(e.g. EV435-AD) address

DIP switch setting on

internal module

241 0 00000000

242 1 10000000

243 2 01000000

Combine functionality to one output

For some applications, it is good practice to combine functionality to

one output to save outputs for other purposes. For example, enabling

and disabling walk test LEDs for the AD111.

Normally one output, of which can enable/disable the walk test LED, is

directly linked from the control panel to the IADS module. Each output

can control one walk test LED of one IADS module.

It is also possible to control all walk test LEDs of all AD111 by one

output. The only requirement is that the output needs to be within the

DGP range. Program the "ATS style output" for all relevant IADS

modules to one specific output. If more areas need to be controlled

separately, more outputs need to be reserved.

Learning IADS modules

IADS modules need to be recognised by the ATS1290 IADS DGP before

the device will be able to transfer status information or can be

configured by the IADS DGP.

To facilitate this, the ATS1290 IADS DGP has a jumper (JP2, fig , ).

Shorting this jumper with a screwdriver for a few seconds will start the

learn mode by which modules will become known. Any additional

settings regarding configuration of the module are available either by

jumper/DIP switch settings or via configuration menu, which is a part

of the ATS1290 menu. For more information on the available settings

of a module, see the manual of that module.

ATS1290 programming menu

The ATS1290 provides for additional settings available through the

onboard menu. To enter this menu:

• Connect the ATS1290 to the ATS control panel.

• In the ATS control panel Installation Programming menu:

o Activate polling to the ATS1290 (installer-menu 4).

o Enter installer-menu 28 – Remote Devices.

o Select 1-DGP.

o Select the ATS1290 DGP address.

You are now in the ATS1290 DGP menu.

Menu explanation

1. Status

Retrieve information regarding the status of the ATS1290.

Use the ENTER key to move through the different information screens.

1.1. Operational status

Indicates module status: DGP-Tamper, Module missing, multiple

modules, etc.

1.2. Device info

Shows in one line the number of modules known to the system, the

number of modules in alarm and the number of modules in tamper.

Product specificaties

Merk:	Aritech
Categorie:	Beveiliging
Model:	ATS1290

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