SECOLink GSV4 Wiring Manual

Brand: SECOLink

Model: GSV4

Category: Touch screen monitors

Type: Wiring Manual

Intruder alarm system

GSV4

Wiring manual

SAFETY WARNINGS

The device must be installed in a place with limited access.

Please act according to your local rules and do not dispose of your unusable alarm system or its components with other household

waste. This product utilization in EU is covered by European Directive 2002/96/EC.

The device uses two power supplies: main and back-up.

2V, 7Ah/20HR capacity, rechargeable hermetically sealed Lead-Acid battery.

Main power supply: a power transformer with:

- primary winding: ~230V, 50 Hz;

- secondary winding: ~20V, 1.5A, 50Hz.

Back-up power supply: 1

SECOLINK intruder alarm system GSV4 is compliant with EN 60950-1 safety requirements.

Power supplies described above must comply with the EN 60950-1 safety requirements.

All devices connected to the intruder alarm system must comply with EN 60950-1 safety requirements.

Intruder alarm system is compliant with the essential requirements of Directives 1999/5/EC, 2004/108/EC and 2006/95/EC.

Intruder alarm system contains radio transceiver operating in GSM900/1800 bands.

Please read and follow these safety guidelines in order to maintain safety of operators and people around:

DO NOT use the intruder alarm system where it can interfere with other devices and cause any potential danger.

DO NOT use the intruder alarm system with medical devices.

DO NOT use the intruder alarm system in a hazardous environment.

DO NOT expose the intruder alarm system to high humidity, chemical environment, or mechanical impacts.

Additional automatic Two-Pole Circuit Breaker should be installed in AC electric power circuit in order to protect against over-

current, short circuits, and earthing faults.

The circuit breaker contact gap should be no less than 3mm. Protective circuit breaker current must be in a 0,5A - 2A range. The

circuit breaker should be placed close to the system's housing and should be easily accessed.

Before performing any work of installation or service always disconnect the device from power supplies in the following order:

- cut off the 230 VAC power line with the automatic Two-pole Circuit Breaker;

- disconnect the 12V back-up battery by removing battery female plug from a male socket BAT.

Two-pole Circuit-Beaker installation on flexible cables is forbidden.

General safety requirements:

- do not touch any part of the main power supply under voltage: transformer, a fuse block, and connection wires;

- it is forbidden to perform any device installation or service work during lightning;

- use batteries as per manufacturer's recommendations. The use of improper battery type may cause an explosion;

- battery replacement : make sure that battery terminals are isolated; battery terminals’ short-wiring may cause an explosion.

It is not recommended to connect the device to a fully discharged battery.

Inoperative or expired batteries should be recycled according to the local rules or EU directives 2006/66/EC and 93/86/EEC.

Collection and separate utilization of waste battery is mandatory!

To avoid system malfunction use an adequate charger to

charge a new or discharged battery before connecting battery to the device.

Intruder alarm system comes with built LEDs. The LEDs blink when device is powered up.-in

Connection to the main supply must be made as per local authorities rules and regulations.

The end of a stranded conductor should not be consolidated by soft-soldering. Insulated pins should be used and connected in a

manner that they are and will remain mechanically efficient.

Device installation and service should be performed by trained personnel with sufficient knowledge about the device and general

safety requirements to work with low voltage (up to 1000V) AC power lines. In case of device malfunction, repair works can only be

performed by qualified personnel. If the system is malfunctioning, the end user should inform qualified personnel as soon as

possible. The user is not allowed to repair the system.

Fig. 1. Automatic two-pole circuit breaker and power cable wiring diagram

Automatic two-pole

circuit breaker

L N

Cable from a power

distribution board

Power cable to the

alarm system

Cabinet of the alarm system (device)Power supply distribution board

The device must be connected to AC power supply with Protective Earthing. Cable color and purpose: Phase or Live line (L) -

black or brown cable, Neutral line (N) - blue cable, Protective Earth line (PE) - green cable with a vertical yellow stripe. Please use

only double isolated cables with a cross-sectional area of no less than 0,75 mm for 230V.

Page 1

In order to simplify security system programming, GSV4 is supplied to customers

with a pre-installed default template. It has 1 pre-programmed partition and 6 zones:

Zones:

Z1 is preset to be used with an entry door magnetic contact;

Z2 – with PIR motion detector in an entry/exit path;

Z3, Z4, Z5 – for PIR detectors wiring;

Z6 – key-switch zone to arm/disarm and clear the alarm.

PGM outputs:

+BELL is preset in the template to control a siren with no battery;

-PGM1 is preset to make an activation (makes “minus”) of a siren with back-up

battery;

-PGM2 is preset to indicate system status (armed/disarmed).

Template. Siren output programming

SECOLINK security system GSV4 may have different templates for different

countries. Check GSV4 sticker for country’s prefix or a pre-installed template code.

Example: GSV4_MY

Note: In most templates, +BELL is set for sirens with no

battery (picture 2). To use the siren with back-up battery

(picture 3) you need to change +BELL definition to Power

supply. Definition changing in software MASCAD is shown

on the right.

Note: If an installation of a siren with back-up battery is done

using 2 wires (picture 4), then an installer needs to make

changes as shown to the right. This type of siren uses a back-

up battery to sound an alarm and makes alarm when power

supply line (+BELL) does not provide power from GSV4. Use

Inversion of Status PGM attribute to program the system for

this operation.

BAT

+BELL

COM

power supply

positive control / power supply

20V

+BELL

COM

-PGM1

Note: Check siren wiring manual from manufacturer.

Switches or jumpers can be used to set up this type of a

siren.

Picture 4. Installation of a siren with back-up battery using 2 wires

12V batery

7Ah/20HR

Black

Red

Zones (see Wiring of zones)

COM

+BELL

-PGM1

-PGM2

Intruder alarm system

Installation of GSV4

GSV4

+AUX

COM

BAT

-PGM1

-PGM2

20V

COM

SYSTEM LED

MODEM LED

USB

+BELL

For correct operation GSV4 needs one 12V

7Ah rechargeable battery. The battery is used

as a back-up power supply in case of a

temporary AC loss. This battery is also used

when an alarm system consumes more power

than GSV4 can supply (~0,7 A). Excessive

consumption may happen when the system

activates a siren. Usually activation lasts only a

few minutes, so it does not discharge the

battery.

GSV4

Power supply

distribution board

AC power transformer:

Primary winding: ~230V AC, 50Hz

Secondary winding: ~20V AC, 50Hz

Live

wire

Neutral

wire

Protective

Earth wire

Fuse

250mA

Main Protective

Earthing terminal

Automatic

two-pole

circuit

breaker

Picture 2. Wiring of a power supply and a siren without battery

Maximum long term output current of GSV4:

Maximum current out of +AUX:

Maximum battery charging current:

0,7 A

+0,25 A

Maximum load ratings and electrical

characteristics of GSV4

Maximum current out of +BELL (without battery)

Maximum current out of +BELL (with battery)

Maximum current into -PGM1:

Maximum current into -PGM2:

+0,2 A

-0,05 A

GSV4 disconnects battery when its voltage is less than:

(I + I + I 0,7 A )

+AUX

+BELL

9,5 V

Minimum AC voltage on AC 20V:

Maximum current of a fast blowing fuse used in battery

~16 V

3,15 A

Maximum AC voltage on AC 20V:

Note: Higher than ~22 V voltage can damage GSV4.

Maximum voltage on +AUX, +BELL outputs:

Minimum voltage on +AUX, +BELL outputs:

~22 V

+13,9 V

+12,0 V

Maximum current of a slow blowing fuse used in primary AC:

Maximum AC power consumption

250 mA

30 mA

BAT. CHARGE

+2,0 A

+BELL

COM

-PGM1

power supply

negative control

power supply

20V

+BELL

COM

-PGM1

BAT

Use 3 - 15 kOhm resistor on siren terminals +BELL

and -PGM if siren does not give enough voltage.

Picture 3. Installation of a siren with back-up battery using 3 wires

10kΩ

Wiring manual

Leave no less than 10 cm of free space

between the ventilation hole and any other

surface. Increase in temperature of GSV4 can

reduce the maximum current on +AUX and

PGM outputs.

Attention!

Do not cover ventilation

holes of the cabinet!

Calculated life expectancy for GSV4 at 40°C

ambient temperature is 9 years. Ambient

temperature over 40°C may reduce its life

expectancy.

Securing power cable to the cabinet

Plastic cabinet CAS6 has few plastic

components for power cable fastening

and bottom covers if video module

VIDNET is not used. Locate plastic

components in the bottom of the plastic

cabinet and cut them with a cutter.

Mounting modules in the cabinet

Plastic box

GSV4

Screw

GSV4 have to be fastened in plastic cabinet by

using screws. Mounting holes should correspond

to cabinet's rear wall holes.

Page 2

to PGM /

relay

Normally closed

contact

(NC)

Normally closed

contact with one

resistor

(NC/EOL)

Normally closed

contact with two

resistors

(NC/DEOL)

Normally open contact

(NO)

Normally open contact

with one resistor

(NO/EOL)

Normally open contact

with two resistors

(NO/DEOL)

Wiring of zones

Detector

+AUX COM Z1 COM

GSV4

+AUX

COM

Tamper

1kΩ

+AUX COM Z1 COM

+AUX

COM

GSV4

Tamper

Detector

1kΩ 1kΩ

GSV4

+AUX COM Z1 COM

+AUX

COM

Tamper

Detector

GSV4

+AUX COM Z1 COM

+AUX

COM

Tamper

Detector

1kΩ

GSV4

+AUX COM Z1 COM

+AUX

COM

Tamper

Detector

1kΩ 1kΩ

GSV4

+AUX COM Z1 COM

+AUX

COM

Tamper

Detector

Wiring of a 4-wire smoke detector

Note: Smoke detectors produ-

ced by different manufacturers

may have a different terminals

layout. For more information

check detector wiring manual

provided by the manufacturer.

Terminals of smoke detector

to COM

to zone

to COM

Smoke detectors can be triggered by dust. Therefore, in order to prevent false alarms, it

is recommended to perform a fire alarm verification. Certain system settings must be

activated for the verification.

Zone settings:

Zone definition: 24h smoke;

Attribute assigned to the zone: Fire verification ;

PGM output settings:

Fire (smoke) detector must be powered from PGM output +BELL. If +BELL is

occupied, the power to the detector should be supplied from +AUX via relay. The relay

should be controlled by -PGM1 or -PGM2 ;

PGM definition: Fire Power Supply;

Zone selected to be as a fire zone must be marked as a trigger source for PGM output;

PGM reset time must be set;

Global time settings:

Detector settle time must be set;

Fire zone verification time must be set;

Operation: In order to check the triggered fire detector, power supply of the detector has

to be turned off temporarily and turned on again. The PGM output's length of time that it

stays turned off can be set under the setting Reset time. When reset time expires, the

system turns ON the PGM output again and waits for the detector to settle (Detector

settle time). Then the system checks the detector again as long as it was set under the

Fire zone verification time. If the fire detector is triggered again, it means that the alarm

was real.

It is recommended to use diode to

supress voltage surges on relay.

Wiring of relays

NCNC

NONO

Relay

GSV4

+AUX -PGM1

+AUX

-PGM1

NCNC

NONO

Relay

GSV4

+BELL COM

+BELL

COM

Additional information

System start-up with no 230V AC

power

Connect 12V battery with

GSV4 by using BAT

connector. Use a jumper to

close (for a short time)

terminal pins. The system

will start to operate,

however, AC loss trouble

will be indicated.

12V batery

7Ah/20HR

Black

Red

COM

BAT

20V

+BELL

Jumper

Restoring user PIN to default value

Purpose of S1 and S2 buttons

GSV4 has two buttons on a board: S1 and S2. The purpose of each button depends on whether its module is working (powered) or not (not powered):

when the device is working, S1 and S2 buttons are used to enable a service mode, register, download and upload the project at www.alarmserver.net. Pressing

each button certain amount of times corresponds to a specific function described in pictures below:

1 x S1

Enable service mode

(10 min.)

2 x S1

Upload project to

www.alarmserver.net

3 x S1

www.alarmserver.net

2 x S2

Download project from

www.alarmserver.net

when the device is not working, S1 button is used to start a firmware upgrade process. The firmware upgrade mode can be turned on by pressing and holding S1

button and connecting USB cable at the same time. The software Firmware Upgrade Tool. V.1.xx is used to upgrade the firmware.

Intruder alarm system

GSV4

Wiring manual

Zones settings:

Global time settings:

PGM ouput settings:

In order to restore user’s PIN to default

value, it is necessary to change some

settings:

Connect GSV4 to a computer via USB.

Download the project with the help of the

MASCAD software.

Open a Users tab and select a user that

forgot his/her PIN. Select the Temporary

PIN check-box. Default PIN is shown in

brackets.

Save settings and upload them back to

GSV4.

12V CT2 NCT1

12V CNCT2T1

12V CT2 NOT1

12V CNOT2T1

Page 3

+AUX

COM

BAT

-PGM1

-PGM2

20V

COM

USB

+BELL

GSV4

Wiring of LED and system status indication

GSV4

+AUX -PGM2

+AUX

-PGM2

1kΩ

Typical system installation example

Key-switch zone wiring

Additional information (continued)

GSV4 zone definition is PGM control, which can be used to connect a key-switch. It is possible to program this zone to arm the system when the zone is violated and

to disarm and clear the alarm when the zone is restored.

Images below show an example of how to connect and program the key-switch zone. The zone input is programmed to arm the system in Away mode when the zone

is violated (NC) and to disarm the system when the zone is restored (NO). If there is an alarm in the system,it will be cleared when disarming.

Zone settings:

GSV4

COM

Z6 COM

Wiring:

Turned Off Turned On

System is disarmed

System is armed in

Away mode

Operation:

GSV4 PGM definition is Full arm status, which can be used to indicate the system status (armed/disarmed). In this example, LED is used to show the status. The

system turns LED on when it is armed and turns it off when the system is disarmed.

Wiring: PGM settings: Operation:

Normally open

contact

(NO)

Normally closed

contact

(NC)

System is armed

System is disarmed

Intruder alarm system

GSV4