Menvier Security TS700 Installation & Programming Instructions

TS700

Intruder Alarm Control Panel

_~

OPEN

_~

OPEN

_~

A

B

C

D

1

4

7

ENT

2

5

8

0

3

6

9

ESC

Sett ing the Syst em

Ent er your pa ss code XXXX th en lea v e th e pro tec t ed a re a.

Unsetting the System

Go dir e ct ly to t he ke yp ad and en ter you r p as scod e XXXX .

Resetting

Ent er your pa ss code XXXX f ollow ed by EN T the n 3. Te leph on e you r a lar m com pan y and follow th eir instr uct io ns.

!

See U ser Manual

A

Part Set

B

Part Set

C

Part Set

D

1

BELL TEST

4

NEW CODE

7

ZONE OMIT

ENT

2

WALK TEST

5

CHIME

3

RESET

6

24 Hr OMIT

9 8

SILENT

0

FULL SET

ESC

Installation & Programming

Instructions

Contents

Overview

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3

Control Panel . . . . . . . . . . . . . . . . . . . . . . . . 3

Remote Keypads and LECs . . . . . . . . . . . . . 3

Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

Specifications . . . . . . . . . . . . . . . . . . . . . . . 4

System Configuration. . . . . . . . . . . . . . . . . . 4

System Installation

Cable Routing . . . . . . . . . . . . . . . . . . . . . . . 5

Installing The Control Panel . . . . . . . . . . . . . 5

Mains Connections . . . . . . . . . . . . . . . . . . . 5

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

PCB Layout. . . . . . . . . . . . . . . . . . . . . . . . . . 6

Wiring Detection Circuits . . . . . . . . . . . . . . . 7

Installing Remote Keypads and LECs. . . . . . 8

Engineer's Keypad . . . . . . . . . . . . . . . . . . . . 8

Installing a Plug-on Digicom . . . . . . . . . . . 10

Installing a stand-alone Digicom or RedCARE

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

Sounder Connections . . . . . . . . . . . . . . . . 11

Installing Output Modules. . . . . . . . . . . . . . 12

Connecting a Printer . . . . . . . . . . . . . . . . . 12

Programmable Outputs . . . . . . . . . . . . . . . 13

Pre Power-Up Checks. . . . . . . . . . . . . . . . . 14

Initial Power-Up. . . . . . . . . . . . . . . . . . . . . . 14

Power-Up Checks. . . . . . . . . . . . . . . . . . . . 14

Factory Default Parameters . . . . . . . . . . . . 15

Programming

Engineer Menu 1 . . . . . . . . . . . . . . . . . . . . 16

Panel Outputs . . . . . . . . . . . . . . . . . . . . . . 16

Digicom Outputs . . . . . . . . . . . . . . . . . . . . 16

Plug-on Digicom Channels . . . . . . . . . . . . 16

Detection Circuits and Attributes . . . . . . . . 18

System Timers. . . . . . . . . . . . . . . . . . . . . . . 19

Setting Modes . . . . . . . . . . . . . . . . . . . . . . 20

System Print . . . . . . . . . . . . . . . . . . . . . . . . 21

Remote Reset Algorithm . . . . . . . . . . . . . . 21

System Configuration. . . . . . . . . . . . . . . . . 21

Engineer's Menu 2 . . . . . . . . . . . . . . . . . . . 22

View Circuits. . . . . . . . . . . . . . . . . . . . . . . . 22

Change Time. . . . . . . . . . . . . . . . . . . . . . . 22

Change Date . . . . . . . . . . . . . . . . . . . . . . 23

2

Change Engineer's Passcode . . . . . . . . . . 23

Configure Chime Circuits. . . . . . . . . . . . . . 23

Configure 24 Hour Omit Group . . . . . . . . . 23

Print System Log . . . . . . . . . . . . . . . . . . . . . 24

Configure Part-Set Groups . . . . . . . . . . . . . 24

View System Log . . . . . . . . . . . . . . . . . . . . 24

Reset Master User 1 . . . . . . . . . . . . . . . . . . 24

Appendices

Domestic Part-Set Application Example. . . 26

Programming procedure. . . . . . . . . . . . . . 27

Commercial Part-Set Application Example 27

Programming procedure. . . . . . . . . . . . . . 29

Installation Record

TS700 Installation Manual

Overview

Overview

Introduction

The TS700 intruder alarm control system is provided for domestic and commercial intruder alarm systems conforming to BS4737: part 1: 1986. The system consists of a control panel and at least one remote keypad.

Control Panel

The control panel is the controlling unit for the alarm system with its own power supply and an internal battery (supplied separately) for use during a mains failure.

It has the following facilities:

●

●

●

Eight programmable detection circuits

Bell and strobe output

Four programmable high current outputs

●

●

●

●

●

Eight programmable digicom output

Connection for a plug-on digicom

Extension loudspeaker output (16 Ohms)

1.5 Amp power supply

All system data stored in a Non-Volatile Memory (NVM)

Remote Keypads and LECs

The TS700 system will accept three types of remote keypads: The NETLED remote keypad has a 4 x

7 segment LED display and a power indicator. The NETSTAR remote keypad has a 8 character LCD display and a power indicator. The NETARM remote arming keypad has a power indicator and a programmable function LED. The Local Expansion Card (TS700.LEC) provides the means of adding two detection circuits without the need of using a remote keypad. All device types can be used on the same system, providing the total does not exceed four. Each device provides the following facilities:

●

Two programmable detection circuits

●

A programmable output

Options

Additional equipment may be connected to the TS700:

●

●

A plug-on digital communicator type DC54 or DC58 can be fitted inside the control panel to transfer panel status information to a dedicated alarm receiving centre via the BT network.

Other types of digital communicators, RedCARE STU or Paknet interface card can be connected to the control panel to transfer panel status information to a dedicated alarm receiving centre via the BT network.

3

●

●

Overview TS700 Installation Manual

A printer type CPA6.P (obsolete) or a standard RS232 serial printer via a Menvier Printer

Adaptor (MPA/DCI) can be connected to provide a printout of the 200 log events and system parameters.

An output module type CPA6.OM can be connected to provide an output to a set of

LEDs/relays to indicate circuit activation. Each module will provide up to eight circuit indications and two modules can be "daisy chained" to provide up to sixteen outputs.

Specifications

Input Voltage:

Control Panel:

Power Supply Rating:

NETSTAR Remote Keypad:

NETLED Remote Keypad:

NETARM Arming Keypad:

Battery:

Zones with tamper loops:

Panel dimensions:

Panel weight (w/o battery):

Remote Keypad dimensions:

Remote Keypad weight:

Environment:

System Configuration

240V +/-10% 50Hz

110mA (normal) 190mA (alarm with extension speaker)

1.5 Amp

50mA (normal) 60mA (alarm)



12V 7Ah Sealed Lead Acid type

10 - 16

383w x 312h x 95d mm

4.4kg

150w x 100h x 30d mm

280g

0 - 55 ° C

Printer

Speaker

Aux 12V

Printer

Bell output

Strobe output

Digi outputs 1- 8

Outputs 1- 4

Remote

Network

TS700

8 Zones

(DP / EOL)

1 Output

Remote

Keypad or LEC

2 Zones

(DP / EOL)

1 Output

Remote

Keypad or LEC

2 Zones

(DP / EOL)

1 Output

Remote

Keypad or LEC

2 Zones

(DP / EOL)

Number of Zones =10 to 16

1 Output

Remote

Keypad or LEC

2 Zones

(DP / EOL)

Figure 1. TS700 System Configuration

4


System Installation

System Installation

Cable Routing

When installing cables ensure that detection, remote keypad, bell and mains cables are kept separated from each other and that panel internal wiring is clear of the main PCB.

Installing The Control Panel

Proceed as follows:

1.

Open the control panel by removing two screws from the front cover. Remove the cover by sliding it up slightly to disengage the bottom clip, disconnect the earth bonding cable from the spade connection on the front cover, then lift clear.

2.

Note the position of the cable entries as follows:

(a) Ten 20mm cable entries and for detection, alarm and remote keypad cables.

(b) A 20mm cable entry for mains (240V) below the mains input terminal block.

☞ The mains cable must enter the control panel through its own cable entry and must not be mixed with other cables.

3.

Hold the control panel back box in the required position (keyhole to the top) and mark the centre of the keyhole position. Remove the back box, drill and plug the hole.

4.

Screw a No 10 screw into the plugged hole. Re-position the back box and mark the remaining four securing holes. Remove the back box, drill and plug the holes.

5.

Re-position the back box and secure using not less than 30mm x No 10 screws through the four dished 5mm holes.

6.

Pass all cables into the base via the trunking holes or knockouts, grommeting as appropriate.

7.

If required install and connect the following:-

(a) Stand alone digicom or RedCARE STU.

(b) Plug-on digicom type DC54, or DC58.

(c) Output modules type CPA6.OM.

(d) Printer type DATAC or serial RS232 via a printer adapter (MPA/DCI).

Mains Connections

The mains supply is connected to a 3 way terminal block connector on the main PCB. All electrical connections must be carried out by a qualified person and comply with the current IEE regulations.

+

To comply with European regulations the supply should be fed from a readily accessible disconnect device, e. g. un-switched fused spur fitted.

+

When making mains connections it should be ensured that if the cable slips in such a way as to place a strain on the conductors, the protective earthing conductor will be the last to take the strain.

5

System Installation

PCB Layout

OUTPUT MODULE

JP4

PRINTER

JP4

Remote keypad

Network connections

JP3

DIGI-MODEM

RR

JP5

SPKR

VOL

NVM

BATTERY

FAULT

LED

Programmable

Detection

Circuits 1 - 8

V

POWER

ON


Panel Outputs

O/P -1 = Switched -ve @ 500mA

O/P -2 = Switched -ve @ 500mA

O/P +3 = Switched +ve @ 500mA

O/P +4 = Switched +ve @ 500mA

Auxiliary 12V

Digicom Outputs

Programmable @ 100mA

Auxiliary Tamper

Extension loudspeaker

External sounder connections

Bell fuse (1A)

Aux. fuse (1A)

Mains connection

Mains fuse (200mA)

Figure 2. TS700 Main PCB Layout

6

TS700 Installation Manual System Installation

Wiring Detection Circuits

All detection circuits may be wired as "End of line" (EOL) or "Double Pole" (DP). Both methods can be used on the same system.

Double Pole (DP)

The DP method requires the following:

●

●

●

●

●

The detector alarm and tamper contacts are connected to the zone and tamper terminals respectively.

The combined alarm and tamper loop resistance must be less than 100 Ohms.

The maximum number of detection devices allowed in a circuit is ten.

Normally open devices such as pressure pads and exit terminator buttons are connected between the zone and tamper terminals.

If the detection circuit is not used links can be fitted across the zone and tamper loops or programmed as Not Used.

End Of Line (EOL)

The EOL method requires the following:

●

●

●

●

●

●

The detector alarm contacts must have a 4K7 shunt resistor fitted.

A 2K2 End of Line (EOL) resistor must be fitted at the point in the circuit furthest from the control panel.

Loop resistance with the EOL resistor shorted must be less than 100 Ohms.

The maximum number of detection devices allowed in a circuit is ten.

Normally open devices such as pressure pads and exit terminator buttons are connected across outer terminals

If the detection circuit is not used links can be fitted across the zone and tamper loops or programmed as Not Used.

500 meters or 100 Ohms

500 meters or 100 Ohms

4K7 = Yellow, Violet, Red

2K2 = Red, Red, Red

4K7

Alarm

Alarm

Tamper

2K2

Tamper

Alarm Alarm

Tamper Tamper

Max. 10 devices per circuit

Alarm

4K7

Tamper

Max. 10 devices per circuit

4K7

Alarm

Tamper

2K2

2K2

Wiring N.O. devices (Exit Terminators)

Figure 3. DP and EOL Circuit Connections

Wiring N.O. devices (Exit Terminators)

7

System Installation TS700 Installation Manual

Installing Remote Keypads and LECs

The following types of devices may be connected to the control panel:

NETLED

-

4 x 7 Segment LED display.

NETSTAR

NETARM

8 Character Starburst LCD display.

Remote Arming station (Power LED & programmable "Function" LED).

TS700.LEC

-

2 zone local expansion card.

Any combination of devices can be used on the same system, providing the total number does not exceed four.

1.

Always ensure that all power (mains and battery) is removed before making any connections to the remote keypad.

2.

Separate the cover and base by using a screwdriver to push 2 of the clips (top or bottom) inward from the base indents, then lift the cover assembly, noting that the PCB is fixed to the under side of the cover.

3.

Hold the base in position (keyhole to the top) and mark the three securing holes, drill and plug the wall as required. Pass all the cables into the base via the cable entry points as appropriate and secure the base to the wall.

4.

Connect “Remote Network” and detection circuit cables to the appropriate terminals, see

Figure 4.

5.

Set the I/D selector jumper link to the required position:

I/D Selector

1

2

3

4

ENG / NULL

Circuit A

09

11

13

15

N/A

Circuit B

10

12

14

16

N/A

Panel Output

5

6

7

8

N/A

☞ No two remote keypads or LECs should have the same I/D.

☞ If the I/D is set to “ENG” the remote keypad will function as an Engineer’s keypad allowing it to be plugged onto the control panel so that system programming and testing may be carried out (see Engineer’s Keypad).

6.

For details on all remote keypad option links, please refer to the instructions supplied with the remote keypad.

7.

Finally clip the remote keypad cover onto the base being careful not to trap any cables or to obstruct the tamper switch.

Engineer's Keypad

Normally all system programming will be carried out from one of the installed remote keypads.

However sometimes it may be more convenient to program the system at the control panel, this can be achieved by using an Engineers Keypad. This is temporarily plugged on to the control panel (JP2). To convert a standard remote keypad to an "Engineers Keypad" an interface lead can be obtained from your supplier (P/No. NETEKI).

8


Spare Core

I/D=1

Remote

Keypad or LEC

A B C D E

100m (Max.)

I/D=2

Remote

Keypad or LEC

A B C D E

Control Panel

Remote

Network

A

B

C

D

E

+

Power for detectors

Figure 4. Remote Keypad & LEC connections

+

Power for detectors

I/D=3

Remote

Keypad or LEC

A B C D E

+

Power for detectors

System Installation

I/D=4

Remote

Keypad or LEC

A B C D E

+

Power for detectors

NETARM / NETLED Remote Keypad

Display Module

LED MIMIC

I/D

Selector

1

2

3

4

ENG

REMOTE

I/D

2 Detection

Circuits

A B C D E

ENT KEY

DISABLED

Remote network connections

Programmable output switched -ve

@100mA

Figure 5 NETARM, NETLED & NETSTAR Remote Keypads

LED MIMIC

NETSTAR Remote Keypad

Display Module

I/D

Selector

1

2

3

4

ENG

REMOTE

I/D

2 Detection

Circuits

A B C D E

ENT KEY

DISABLED

Remote network connections

Programmable output switched -ve

@100mA

9


Installing a Plug-on Digicom

1.

A digicom type DC54 or DC58 can be fitted in the base of the TS700 main panel. The unit should be fitted in accordance with the installation instructions supplied with it and connected to JP3.

2.

The alarm channels for the plug-on digicom are programmed as required (page 16). It will be necessary to fit a programmed NVM in the digicom or to program it in accordance with the instructions supplied with the unit.

Installing a stand-alone Digicom or RedCARE

A stand-alone digital communicator, Red CARE STU or Paknet interface card can be connected to the system to transfer panel alarm status information to a dedicated alarm receiving centre. The control panel has the following connections (Figure 6) for a digicom etc.

1 to 8

+DC POWER

LINE FLT

REM RESET

-

These are the programmable digicom outputs. They are normally at +12V and switch to 0V when active.

-

This provides a permanent +12V power to the digicom. The output is un-fused and therefore should only be used if the digicom is fitted inside the control panel.

-

When this input is switched to +12V a telephone line fault condition will be generated.

If the system is programmed for “Engineer Reset”, then after a full alarm the system will require resetting, normally this is done by the engineer or coded remote reset. Applying a -ve to this input terminal will cause the system to reset after a full alarm. This input could be connected to the “Control” output on a RedCARE STU so that the Alarm Receiving Centre can poll the

STU and thus reset the panel.

Control

Panel

Program

As:-

Open (08)

Alarm (05)

PA (06)

Fire (07) 1

+DC POWER

LINE FLT

4

3

2

8

7

6

5

AUX 0V

3GSTU

Channel Inputs are

Programmed as

Positive Removed

Figure 6. 3GSTU RedCARE Connections

10


Sounder Connections

The external and internal sounder can be connected to the control panel using the following connections:

AUX TAMP

SPK+

H/O -

H/O +

TR -

STB -

TRG -

These terminals provide tamper protection to auxiliary devices such as power supplies, extension loudspeaker units etc.

-

Extension loudspeakers may be connected between [SPK+] and [H/O-].

The minimum impedance is 16 Ohms. Up to two may be connected to the control panel.

Do NOT run extension loudspeakers within the same cabling as remote keypads or LECs.

-

This is used to provide a permanent -ve hold off to external sounders.

-

This is used to provide a permanent +ve hold off to external sounders, strobes etc. It is protected by a 1 Amp fuse (Bell 12V).

-

This is the negative tamper return connection from the siren or bell.

This is the strobe output which will switch to 0V on alarm and draws a maximum of 500mA. Connect the other side of the strobe to the [H/O+].

This output can be programmed to be either an SAB or SCB and operates as follows:

SAB: TRG - will switch to 0V on alarm and will sink a maximum of 500mA.

SCB: TRG - will provide a negative hold off, which is removed on alarm.

Control

Panel

H/O -

H/O +

TR -

STB -

TRG -

Typical

External Sounder

0V

+12V

Tamper In

Tamper Out

Strobe +ve

Strobe -ve

Trigger -ve

Figure 7. External and Internal Sounder Connections

11


Installing Output Modules

Output modules (CPA6.OM) can be used to provide an output to a set of LEDs to indicate circuit activations (mimic). Output modules will normally be fitted inside the equipment they are controlling and can be positioned up to 500 metres away from the main panel. They may be fitted inside the TS700 by fitting posts and securing them to the base. The output module should be used and connected in accordance with the output module instructions provided (Figure 8).

100m

PL1 PL2

To next OM

Connect to plug labelled OUTPUT

MODULE

1 2 3 4 5 6 7 8

1k Resistors

LED's

Figure 8. Output Module Connections

Connecting a Printer

The printer model type CPA6.P (obsolete) may be directly plugged on to the control panel plug labelled PRINTER. Alternatively other models such as the DATAC or any standard RS232 serial printer can be connected to the control panel via a MPA/DCI. Menvier Security supply a DATAC printer kit which consists of a portable RS323 printer, charger and DCI. The DCI can be purchased separately if you require to source your own RS232 printer.

DATA

IN

POW

ER

PAPE

R FE

ED

Connect to JP1

PRINTER

CPA6 Printer

PRINTER SETUP

Baud Rate

Parity

Stop Bits

Data Bits

DTR

= 4800

= None

= 2

= 8

= Normal

RS232 Data

MPA or DCI

Connect to JP1

PRINTER

DATAC or RS232 printer

Figure 9. Datac Printer Set-up and Connections

12


Programmable Outputs

The TS700 has many programmable outputs which can be used to drive relays, LED’s etc. Each output can be programmed for a different function, see "Programmable Output Types" on page

17.

Control Panel Outputs

The control panel has four high current programmable outputs:

[-1]

[-2]

[+3]

[+4]

-

Set of voltage free changeover contacts rated at 1 Amp.

-

Switched -ve output rated at 500mA.

-

Switched +ve output rated at 500mA.

-

Switched +ve output rated at 500mA.

Remote keypads & LEC Outputs

Each remote keypad and TS700 LEC has one programmable output:

[O/P]

-

Switched -ve output rated at 100mA.

+ve O/P

(Programmed as Alarm / Bell / etc)

Aux 0V

Diode (IN418)

Relay

+ 12 V 0V

+ve O/P

(Programmed as Detector Reset)

Smoke

Detector

Aux 0V

+ve O/P

Aux 0V

Relay available from

RS components

P/No. 346-946.

Capable of switching mains voltages

Aux 12 V

-ve O/P

(Programmed as Alarm / Bell / etc)

Aux 12V

Diode (IN418)

Relay

+ 12 V 0V

Smoke

Detector

-Ve O/P

(Programmed as Detector Reset)

Aux 12V

1K0 Ohm Resistor

LED (Light Emiting Diode)

-Ve O/P

Relay available from

RS components

P/No. 346-946.

Capable of switching mains voltages

1K0 Ohm Resistor

LED (Light Emiting Diode)

+ve O/P Aux 12V

12V Buzzer

RS Part No. 245-051

12V Buzzer

RS Part No. 245-051

Aux 0V -Ve O/P

+ve Outputs -ve Outputs

Figure 10. Programmable Outputs Wiring Examples

13


Pre Power-Up Checks

Once the system is installed, but prior to powering-up give the system one final check to ensure that:

1.

The wiring conforms to the requirements detailed in this manual and that all interconnections are correct (A to A, B to B etc.).

2.

All system cables are kept clear of mains supply cables, telephone cables and R.F. cables. It is recommended that cable ties be used to keep cables separated.

3.

Verify that maximum cable lengths and resistances are not exceeded.

4.

Mains power supply cables to the system are connected to an un-switched fused spur.

5.

Grommets are used where cables enter metal housings to ensure that insulation is not compromised.

Initial Power-Up

To power the system for the first time:

1.

Place a small screwdriver blade between the pins on the control panel PCB, marked

"FACTORY RESET". This will ensure the factory default parameters are set (see Table 1).

2.

Switch on the 240V mains supply and remove screwdriver blade.

3.

Check that power LED on the control panel PCB is illuminated.

4.

Check that the remote keypads display "LT" (Panel Lid tamper). The remote keypad sounders and extension loudspeakers will operate.

5.

Enter the engineers passcode (default 1234) to silence the sounders.

6.

Connect the standby battery.

Power-Up Checks

When the initial power-up checks have been completed, check the following:

1.

Using a voltmeter measure the DC voltage at each remote keypad and ensure the voltage is greater than 11V whilst running on the system standby battery.

2.

Using a voltmeter measure the DC voltage between mains earth and +12V, and the voltage between mains earth and 0V. In both cases the measurement should be 1V or less. If the

Voltage is greater than 1V, the system has an "Earth Fault" and all cables should be checked for isolation to earth.

3.

Using a voltmeter set to a low DC voltage range, measure the voltage across the control panel PCB test point (V). To calculate the system current consumption multiply the reading by ten, e.g., a reading of 70mV = 700mA. Ensure that the reading is not greater than 1.0A.

4.

Repeat test (3) with the system in an alarm condition and ensure that the reading is not greater than 1.0A.

5.

The system is now ready to be programmed see "Programming".

14


Factory Default Parameters

Engineer's code

Master User code

Panel and

Remote Outputs

Digicom Outputs

& Channels

Detection

Circuits

System Timers

Setting Modes

Reset Algorithm

System

Configuration

1

Walk Test Courtesy

1

Fire

0

4

8

8

PA

0 Seconds

Full Set

Final Exit

0

4

2

Light

2

01: Final Exit

08: PA Audible

ACPO Delay

0 seconds

Exit Time

30 Seconds

Double Knock

Bell output is SAB bell is delayed for

30 seconds in part set

Continuous entry and exit tones

1234

5678

3

Switched

12V

3

Alarm

4

Detector

Reset

4

Set

02: Night (access)

09: Final Exit

1

No Re-arms

0

5

Entry Time

30 Seconds

9

5

Code

Accepte d

5

6

Code

Accepte d

6

7

Code

Accepte d

7

8

Code

Accepte d

8

Eng on

Site

Bell On

03-06: Night

Tamper Second

Alarm

07: Exit Terminator

10: PA Audible

2

Settling Time

07 seconds

6

Bell Duration

20 Minutes

Test Time

14 Days

Part Set A

Timed Exit

Part Set B

Timed Exit

1

User 1 has access to all user menus

5

Alarm output is cleared on reset

004

2

Fire signalled at all times

6

Setting with line fault or mains failure is allowed

9

Engineer code only for access to engineer menus

11-16:Not Used

3

Digicom Delay

0 Seconds

7

Bell Delay

0 Minutes

Part Set C

Timed Exit

3

24 Hour circuits are audible

7

System reset by user

Table 1. Factory Default Parameters

15

Programming

Programming


Engineer Menu 1

Engineers menu 1 is selected when the engineer's passcode is entered during the unset condition.

The engineer may leave engineer menu 1 by pressing the [ESC] key. The system will return to the unset condition but the remote keypads will show: "ENG ON SITE". This message will be cleared the next time a valid user passcode is entered. When engineers mode is selected the monitoring of tamper circuits is disabled.

Panel Outputs

Outputs 1 to 4 for the control panel and 5 to 8 for the remote keypads can be programmed to any of the output function types 0 to 55 as listed in Table 2 on page 15.

1.

Ensure that "Engineer Menu 1" is selected.

2.

Press 1 to select the Panel Outputs option.

3.

The display will show: PAN.-

4.

Enter the required output number 1 to 8.

5.

The display will show the current output function (Table 2).

6.

Enter the new function number and press [.

7.

The display will return to step 3. Repeat steps 4 to 7 for the remaining outputs.

8.

Press ] to return to "Engineer Menu 1".

PAN.-

Enter panel output 1 - 4 or remote output 5 - 6.

04

Enter new output type 00 - 55

(see Table 2.)

Digicom Outputs

The eight switched -ve Digicom outputs 1 to 8 may be connected to the Digicom channel inputs.

The outputs may be programmed to any of the function types 0 to 55 (Table 2).

1.


2.

Press 2 to select the Digicom Outputs option.

3.

The display will show: DIG.-

4.

Enter the required digicom output number 1 to 8.

5.

The display will show the current output function (Table 2).

DIG.-

Enter digicom output 1 - 8.

6.

Enter the new function number and press [.

7.

The display will return to step 3. Repeat steps 4 to 7 for the remaining digicom outputs.

8.


04

Enter new output type 00 - 55

(see Table 2.)

Plug-on Digicom Channels

The eight channels for the plug-on digicom may be programmed to any of the function types 00 to 55 (Table 2). The procedure is similar to programming the digicom outputs (above).

1.

Follow above procedure, except press 3 at step 2.

Dc3.-

Enter digicom output 1 - 8.

16

TS700 Installation Manual Programming

No

00

01

Type

Bell On

Strobe

Function

Active when the external Bell trigger is activated.

Active when the Strobe trigger is activated.

25

26

27

22

23

24

28

29

30

31

17

18

19

20

21

06

07

08

09

02

03

04

05

10

11

12

13

14

15

16

35

36

37

32

33

34

SW12 Used to latch devices in an alarm. Active when the system is set.

Detector Reset Used to power devices which require power to be removed to reset them.

Walk Test Active when a Walk Test is in progress.

Alarm Active when intruder alarm is present.

PA

Fire

Active when a PA alarm is present.

Active when a Fire alarm is present.

Set Active when the system is Set.

Code Accepted Active for 10 seconds when any valid passcode is entered.

24 Hour

Second Alarm

Courtesy Light

Engr on Site

Ccts Omitted

Auxiliary

Sndr Control

Active when a 24 hour circuit is in alarm.

Active when a second circuit causes an alarm, use for ALARM CONFIRMATION.

Active when any keypad is in use.

Active when the engineer's passcode is entered until a User passcode is entered.

Active when circuits are omitted.

Active when an Auxiliary circuit is in alarm.

Can be used as the 0V connection to an extension loudspeaker so that the sounder is muted during keypad entries. Only suitable for panel outputs 1 & 2.

Active when area A is Set.

Area Set A

Area Set B

Area Set C

Tamper

Line Fault

Mains Off

Exit/Entry

Test Fail

First Knock

DC Failed

DC Successful

Active when area B is Set.

Active when area C is Set.

Active when a Aux, or circuit tamper is triggered.

Active when a digicom telephone line fault occurs.

Active when mains power is removed.

Active during exit and entry.

Active when a circuit on Test is activated.

Active when a double knock is activated for the first time.

Active if the digicom fails to communicate.(plug-on)

Active when the digicom sends a message and it is acknowledged. (plug_on)

DC Active

Second Entry

Entry

Exit

Part Set C fail

Part Set B fail

Part Set A fail

Part Set

Area C Alarm

Area B Alarm

38

39

Area A Alarm

Duress Alarm

40- 55 Circuit mimic

Active while the digicom is triggered.(plug-on)

Active when the second entry timer is started.

Active when the system is set or part set and the entry route is in use.

Active when the system exit procedure is started.

Active when Part Set area C fails to set.

Active when Part Set area B fails to set.

Active when Part Set area A fails to set.

Active when ever the system is Part Set.

Active when Area C Alarms.

Active when Area B Alarms.

Active when Area A Alarms.

Active when a duress code is entered at a keypad.

Will mimic (active when circuit is active) circuits 1 to 16 respectively .

Table 2. Programmable Output Functions

17

Programming TS700 Installation Manual

Detection Circuits and Attributes

Detection circuits 1 to 8 for the panel and 9 to 16 for the remote keypads/ LECs are programmed as follows:

1.


2.

Press 4 to select the Circuits and Attributes option.

3.

Select circuit number (01 - 16) and press [. The current circuit type will be displayed.

4.

Enter the new circuit type, using keys 0 to 9, or A, B or C (Table 3).

Press [ to accept.

5.

The circuit number, type and attributes are displayed in turn.

6.

Select new attributes by using keys 1 to 5 (Table 4) these will

"toggle" the attributes on & off. Press [ to accept.

7.

Continue for remaining circuits with steps 3 to 5.

CT.--

Enter circuit number 01 - 16.

NITE

Enter new circuit type 0 - 9 or A,

B or C (see Table 3.)

Acc

Press 0 - 5 to `toggle' circuit attributes on & off (see Table 4.)

Key Display

0 NoTU

1 NITE

2 24HR

3

4

5

6

7

8

9

A

B

C

PA S

PA A

FIRE

Au

FE

ET

FULL

PSA

PSB

PSC

Circuit Type

Not Used - A circuits that is not monitored.

Night - A circuit that will generate a full alarm when the system is set.

24 Hour - A circuit which is monitored at all times. When activated in the unset condition a local alarm is generated and when activated in the set condition a full alarm is generated.

PA Silent - A circuit which is monitored at all times. When activated it will signal a P.A. on the

Digicom outputs and activate any other outputs that have been programmed as P.A.

PA Audible - A circuit which is monitored at all times. When activated it will signal a P.A. on the digicom outputs, activate any other outputs that have been programmed as P.A. and generate a full alarm condition.

Fire - A circuit that is normally connected to a smoke or heat detector. When activated it will generate a fire tone on internal sounders and the external sounders are pulsed.

Auxiliary - A circuit which is monitored at all times. When activated it will cause any of the outputs that have been programmed as `Auxiliary' to go active.

Final Exit - This must be the last detector or door contact that is activated when leaving or entering the protected area. When the setting mode for the area is programmed for "Final

Exit" setting, opening and closing of this circuit during the exit procedure will cause the system or area to set. Once set, activation of this circuit will start the entry timer.

Exit Terminator - A circuit that is normally connected to a push button outside the protected area, which operates as follows: a) When the setting mode is programmed as "Timed Exit", activation of this circuit will cause any remaining exit time to be truncated to zero.

b) When the setting mode is programmed as "Exit Terminator", the area will set when the

Final Exit circuit has been operated and the exit terminator button is pressed.

Full Set Keyswitch - A circuit which can be connected to a keyswitch to allow the system to be full-set (active) and unset (healthy).

Part-Set A Keyswitch - A circuit which can be connected to a keyswitch to allow part-set group A to be set (active) and unset (healthy).

Part-Set B Keyswitch - A circuit which can be connected to a keyswitch to allow part-set group B to be set (active) and unset (healthy).

Part-Set C Keyswitch - A circuit which can be connected to a keyswitch to allow part-set group C to be set (active) and unset (healthy).

Table 3. Circuit Types

18


Key Display

1 Acc

2

3

4

5

2AcT

TEST

ISOL

RST

Programming

Attribute Type

Access - Circuits programmed with this attribute are automatically isolated during the entry procedure to allow a "walk through" route for the user to access the remote keypad.

When the system is part set activation of a circuit with the "Access" attribute will start the entry timer. The Access attribute may only be assigned to Night circuit types.

Double Knock - Circuits programmed with this attribute will only cause an alarm if: a) The circuit is activated twice within the Double Knock window (this time may be set in the

System Timers menu).

b) The circuit remains active for the whole duration of the Double Knock window.

The Double Knock attribute may only be assigned to Night, 24hr and Auxiliary circuit types.

Test - Circuits with this attribute will be disabled from the system for the period set by the

"Test Time" (see System Timers). If the circuit is activated during this period the activation will be logged and the user is informed of the circuit failure when trying to set the system. The test fail message may only be cleared with the engineer's passcode. If at the end of the test period no activations have occurred the circuit is automatically removed from test and behaves as normal. The test period is initiated by entering the engineer's passcode. The test attribute may only be assigned to Night, 24hr, PA Silent, PA Audible, Fire and Auxiliary circuit types.

Isolate - Circuits with this attribute are allowed to be omitted by the user when setting the system. The isolate attribute may only be assigned to Night, 24hr and Auxiliary circuit types.

Reset - This attribute is normally assigned to a circuit that is connected to a Vibration or

Smoke detector, so that during the "Detector Reset" period the circuit is not monitored. The

Reset attribute may only be assigned to Night, 24hr, Fire and Auxiliary circuit types.

Table 4. Circuit Attributes

System Timers

There are ten separate system timers which are shown in Table 5a and 5b.

1.


2.

Press 5 to select the System Timers option.

3.

The display will show: Tir.-

4.

Enter the required timer number 0 to 9.

5.

The display will show the current timer setting.

6.

Enter the new timer value and press [.

7.

The display will return to step 3. Repeat steps 4 to 7 for the remaining outputs.

8.


Tir.-

Enter timer number 0 - 9. (see

Table 5a & 5b)

030

Enter timer value 000 -199. (see

Table 5a & 5b)

Key Timer Range

0-199

Function

0 ACPO Delay 0-199 sec For ACPO requirements this timer is normally set to 90 seconds. If during the entry procedure the user deviates from the entry route and causes an alarm, the communication of the alarm signal to the central station is delayed by this timer.

1 Re-Arms At the end of the bell duration time the system re-arms all circuits that are healthy. Circuits that are still in an alarm are isolated until they change to a healthy condition. This timer controls the number of times that a circuit will re-arm before it is locked out of the system.

Table 5a. System Timers

19


2 Settling Time 0-199 sec When setting the system by "Final Exit" or "Exit Terminator", detectors that are on the exit route sometimes take 3-4 seconds to settle after activation. The delay programmed in this timer is used to allow these detectors to settle before the system or area is set.

3 Digicom Delay 0-199 sec When the system is part-set the communication of an alarm signal to the central station may be delayed by the value set in this timer.

4 Exit Time 0-199 sec This timer sets the delay between the user initiating the exit procedure and the system (or area) actually Setting. If during the exit time an Exit Terminator circuit is activated the exit time is cancelled and the system sets immediately.

5 Entry Time 0-199 sec The time allowed for entering the protected premises via the entry route when the system is (Part) Set . The time is allocated to two entry periods. A warning is given if the first is exceeded and a full alarm occurs if the second is exceeded.

6 Bell Duration 0-199 min The duration time of the bell and sounders when an alarm occurs.

7 Bell Delay 0-199 min This timer delays the activation of the bell output and internal sounders.

8 Double Knock 0-199 sec This is the Double Knock time window in which either:

Two circuit activation must occur within this time to generate an alarm condition. Or the circuit must remain active for the whole duration of this time to generate an alarm condition. This will only apply to circuits with the

Double Knock attribute

9 Test Time 0-30 days This timer varies the number of days that Test attribute may be applied to a circuit. If the time is set to 000 then circuits will remain on test until the "Test" attribute is removed.

Table 5b. System Timers

Setting Modes

The system may be set by one of the following modes:

Final Exit

-

The system or area will set when the "Final Exit" circuit is activated and after the "Settle Time" has expired.

Exit Terminator The system or area will set when the "Final Exit" circuit is activated, the "Exit

Terminator" button is pressed and after the "Settle Time" has expired.

Timed Exit The system or area will set when the "Exit Time" has expired or if the "Exit

Terminator" button is pressed.

The setting mode for full-set, part-set groups A, B and C are programmed as follows:

1.


2.

Press 6 to select the Setting Modes option.

3.

The display will show: S.BY-

S.BY-

Enter setting group 0,A,B or C.

4.

Select setting group by pressing:

0 for full-set

A for part-set group A

B for part-set group B

C for part-set group C

5.

The display will show the current setting mode.

F-FE

Enter setting mode 1,2,3 or 0.

20


6.

Select new setting mode by pressing:

1 for Final Exit

2 for Exit Terminator

3 for Timed Exit

0 to `toggle' between all three options

7.

When the display shows the required setting press [ to accept.

The display will return to step 3. Repeat steps 4 to 7 for the remaining setting groups.

8.


+

When using part set codes to set areas, the first area that is set will follow the setting mode defined by that area. Any subsequent areas will always use the timed exit method.

System Print

A print-out of all system parameters may be obtained so that a permanent record of the system program details may be kept.

1.


2.

Press 7 to select the System Print option.

Ln01

Press ESC to cancel printing.

3.

The display will show the line that is being printed (Ln01).

4.

Press ] to stop printing and return to "Engineer Menu 1".

Remote Reset Algorithm

When the system requires an Engineer Reset this may be over ridden by using the Remote Reset facility. To provide additional security the way in which the "Reset Code" is generated can be selected to be one of 199 algorithms (default=004).

1.


004

2.

Press 8 to select the Reset Algorithm option.

Enter new number 000 - 199.

3.

The display will show the current setting.

4.

Enter the new number and press [ to accept.


There are ten system configuration options which are shown in Table 6.

1.


2.

Press 9 to select the System Configuration option.

3.

The display will show: con.-

4.

Enter the required configuration number 0 to 9.

5.

The display will show the current setting. Press 0 to "toggle" between YES and NO. Press [ to accept.

6.

The display will return to step 3. Repeat steps 4 to 6 for the remaining system configuration options.

7.


con.-

Enter configuration number 0- 9

(see Table 6).

YES

Press 0 to `toggle' the option between YES or NO.

(see Table 6).

21


Key

0 Bell output is set for SAB

YES NO

Bell output is set for SCB

1 Disable Master User from menu 2 options 4-9

2 Fire Signalled when Unset/Part Set/Full Set

Master user has access to all options in menu 2

Fire signalled only when full Set

3 24hour circuits silent when Unset

4 Bell is instant when Part Set

24hour circuits audible when Unset

Bell is delayed when Part Set (30 secs)

5 Alarm output (05) cleared when system is unset Alarm output cleared when system is reset

6 Setting inhibited with line fault/no mains power

7 System reset by User or Engineer

Setting allowed with line fault/no mains power

System reset by Engineer or Remote Reset

8 Continuous Entry and Exit tones Rising Entry and Exit tones

9 Engr & Remote Reset code to gain access to E1/E2 Engr code gains access to E1 and E2 menus

Table 6. System Configuration options

Engineer's Menu 2

This menu is selected by pressing the [ENT] key whilst "Engineers menu 1" is selected. There are ten programming options within this menu, which can be selected in any order. The engineer can leave this menu and return to "Engineers Menu 1" by pressing the [ESC] key.

View Circuits

This option allows the engineer to view the status of each detection circuit. The circuit status conditions are H=Healthy, A=Active, S=Shorted or T=Tamper.

1.


2.

Press 1 to select the View Circuits option.

03-H

Circuit 03 is Healthy.

3.

The circuit status will be displayed.

4.

Select circuits either by entering the number or by pressing [ to scroll through the circuits.

5.

Press ] to abandon and return to "Engineer Menu 2".

03-A

Circuit 03 is Active.

Change Time

The system clock may be changed using 24 hour clock format.

1.


2.

Press 2 to select the Change Time option.

3.

Enter the time in 24 hour notation (e.g., 1805).

4.

Press [ to accept.

----

Enter time in 24 hour format.

1805

Time entered 1805 (6:05 pm.)

22


Change Date

The system calendar may be changed by entering the date as four digits representing the day and month e.g., 0207 is the 2nd July.

1.


----

2.

Press 3 to select the Change Date option.

Enter date (day & month).

3.

Enter the date as four digits.

4.

Press [ to accept.

0207

Date entered 0207 (02 July).

Change Engineer's Passcode

The factory default engineer's passcode is set to 1234, but the installation engineer should change this to their own personal four-digit passcode, as follows:

1.


2.

Press 4 to select the Change Engineer's Passcode option.

----

Enter new engineer passcode.

3.

Enter the new passcode then press [ to accept.

4.

A high tone will indicate acceptance. A low tone sound will indicate that the passcode is not available.

2804

New passcode 2804 entered.

Press ENT to accept.

Configure Chime Circuits

This option is used to select the circuits that will chime.

1.


2.

Press 5 to select the Chime Circuits option.

3.

Circuits will be displayed as Y(Yes) to chime or N(No) not to chime. Change status by pressing 0 ("toggle" action).

4.

Press [ to accept (high tone) and go to next circuit. Circuits may be selected by number. Press ] to quit.

01-N

Circuit 01 will not chime.

Press 0 to change.

01-Y

Circuit 01 will chime.


Configure 24 Hour Omit Group

This option allows the engineer to select the 24 hour circuits that will be omitted when the 24 hour omit option is selected in "User Menu 1" option 6.

1.


2.

Press 6 to select the 24hour Omit Group option.

02-A

Circuit 02 will remain Armed.

Press 0 to change.

3.

Circuits will be displayed as O(Omitted) or A(Armed). Press 0 to change ("toggle" action).

4.

Press [ to accept (high note) and go to next circuit. A low tone indicates that the circuit cannot be omitted.

5.

Circuits may be selected by number. Press ] to quit.

02-O

Circuit 02 will be Omitted.


23


Print System Log

A printer may be connected to produce a print-out of the last 200 system events.

1.


2.

Press 7 to select the Print Log option.

3.

Enter the number of events to be printed.

4.

Press [ to start printing. To stop printing select the menu again and enter 000 as the number of events to be printed.

---

Enter the number of events to be printed. Press ENT to start.

Configure Part-Set Groups

When the system is part-set certain circuits are omitted. This option allows the engineer to select those circuits to be omitted when part-set A or B or C is selected.

1.


2.

Press 8 to select the Part-Set Groups option.

PS -

Enter part-set group A, B or C.

3.

Select the part-set group A or B or C.

4.

Circuits will be displayed as O(Omitted) or A(Armed). Press 0 to change ("toggle" action).

01-A

5.

Press [ to accept displayed status (high tone) and go to next circuit. Circuits may be selected by number.

6.

Press ] to return to step 3 and ] again to return to "Engineer

Menu 2".

Circuit 01 will remain Armed.

Press 0 to change.

01-O

Circuit 01 will be Omitted.


View System Log

The time, date and nature of the last 200 events on the system may be viewed starting with the most recent event.

1.


2.

Press 9 to select the View Log option.

3.

The most recent event will be displayed (see Table 7)

4.

Press A to scroll back and C to scroll forward. Press B to show the time of the event (first press), the date (second press) the time in minutes and seconds (third press).

5.

Press ] to abandon.

CA.01

Log event showing `Circuit

Alarm 01'. Press A to scroll back or C to scroll forward. Press B to view time and date.

Reset Master User 1

This option allows the engineer to reset the master user passcode back to the factory default code

`5678'. This feature is useful when the master user has forgotten their passcode or has inadvertently changed it.

1.


2.

Press 0 to Reset User 1.

24


AA Action Alarm (Alarm output activated)

Ac** Access Passcode (User code **entered with the last two digits reversed)

LT

OP

Lid Tamper or SAB tamper

System Open (unset)

AD.** Alarm Delayed (the system is part set and circuit ** was activated)

Or Omits Removed

Au.** Auxiliary Alarm (circuit number

**activated)

BF

PA.**

Battery Fault (battery voltage below 10.5V) PF

PA Alarm (from circuit number **)

Power Failure (remote power LED flashes)

BT Bell Test Pr Power Restored

CA.** Circuit Alarm (from circuit number **) cc

PS.*

Communication Complete (Plug-on only) PT.**

Part Set (area *)

Code Tamper (from remote keypad **) cF

CI

Communication Failed (plug-on only)

Circuits Isolated (24 hour circuits)

CO.** Circuits Omitted (circuit number

**omitted)

Dc Date Changed

DF Default User code 1 to 5678

Du.** Duress Alarm (from User code **) rA rc

System re-armed

System reset by REMOTE CODE RESET rr.** Remote Keypad ** removed rT.** Remote Keypad ** case tamper

SF

Sr

System Failed to Set

System on-site reset (LK1 open on power up)

EA.** Entry Alarm (from circuit number **)

En.** Entry (from circuit number **)

FA.** Fire Alarm (from circuit number **)

FB.** Fuse Blown (fuse number **)

ST.* Area * Set (using area setting codes)

So.** Part set keyswitch ** operated

TA.** Tamper Alarm (from circuit number **)

Tc Time Changed

Fn.** First Knock (from circuit number **)

Fr Factory Reset (LK1 closed on power up)

TF.** Circuit ** failed test

To All Test circuits removed from test

FS Full Set Un.* Area * unset (using area setting codes)

LB

LF

Lr

Low Battery

Telephone line fault

Telephone line restored

Ur.** User Code ** entered

-No event

Table 7. Event Log Codes

25

Appendices

Appendices


Domestic Part-Set Application Example

The TS700 control panel can be configured so that only part of the system is armed. The following example illustrates how the TS700 alarm system is configured so that it protects different areas of a three bedroom detached house. Figure 11 shows the layout of the house and position of the detection circuits and remote keypad.

7

P

C

6

Kitchen

C

5

Dining Room

Garage

CP

Hall

S

3

Key:

P

Passive Infra-Red Detector

C

Magnetic Contact

S

Smoke detector

RK

Remote Keypad

CP Control Panel

C

4

RK

C

1

2

P

Bathroom

Landing

Lounge

8

P

Bedroom 2

9

P

RK

Figure 11. A typical three bedroom house.

26

Bedroom 3

P

10

Bedroom 1

TS700 Installation Manual Appendices

Using the plan of the typical three bedroom house, the following part-set arrangements are required by the occupants of the house:

Full Set

-

All circuits to be armed.

Part-set Group A

-

Circuits 9 and 10 to be omitted. This is required for normal night setting when everyone is in the house and have retired to bed.

Part-set Group B

-

Circuit 10 to be omitted. This is required when the occupant of bedroom 2 is away for the weekend.

Part-set Group C Circuits 2, 7, 8, 9 and 10 to be omitted. This is required when only perimeter protection is required.

Programming procedure

1.

First create a table listing the circuits that are required to be Armed (A) and Omitted (O) for each part-set group:

08

09

10

05

06

07

Circuit No. Location

01 Front Door

02

03

04

Hallway Detector

Smoke Detector

Garage up and over door

Garage door (back)

Kitchen Door

Dining Room PIR

Lounge PIR

Bedroom 2 PIR

Bedroom 1 PIR

A

O

O

A

A

A

A

A

A

A

Group A Group B Group C

A A

A

A

A

O

A

A

A

A

A

A

A

O

A

A

O

O

O

O

2.

From the above table assign circuits 01 - 10 as "Armed" or "Omitted" for each part-set group, see page 24 for full details.

3.

Program the setting mode for each part-set group, see page 20 for full details..

+

The PIR in the hallway (circuit 02) will need the "Access" attribute so that first person that comes down the stairs will start the entry timer.

Commercial Part-Set Application Example

This application example demonstrates how to use the "Part-set Codes" to set and unset different areas within a commercial premises. Using the plan of the building the following is required:

Part-set code A The sales manager will be assigned this passcode to access the sales and canteen area.

Part-set code B

-

The workshop manager will be assigned this passcode to access the workshop and canteen area.

Part-set code C

-

The stores manager will be assigned this passcode to access the stores and canteen area.

27

Appendices

P

1

CP

C 7


14

P

Stores

RK

13

C

Workshop Canteen

6

P

2

C

3

P

4

C

C 5

Sales

Office

11

C

RK

KEY:

P

Passive Infra-Red detector

C Magnetic Contact

RK

Remote Keypad

CP Control Panel

12

P P

8

10

C

Figure 12. Commercial Premises

RK P

9

The "Part-set Codes" A, B and C only affect the circuits assigned in their respective "Part-set Group'" i.e., "Part-set Code A" will set and unset the circuits assigned as "Omitted" in "Part-set Group A".

When configuring the TS700 system to use "Part-set Codes", it is important to think of the system from the full-set state. When a part-set code is entered the circuits that have been assigned as

"Omitted" for that "Part-set Group" will be unset. On re-entry of the "Part-set Code" the exit procedure is started and at the end of the exit procedure the circuits that were "Omitted" are armed again.

28

TS700 Installation Manual Appendices

Programming procedure

1.

First, imagine the system is fully set. When "Part-set Code A" is entered certain circuits are required to be "Omitted" whilst others remain "Armed". Create a table listing the circuits that are to be "Omitted" (O) when "Part-set Code A" is entered. The circuits that will not be omitted must therefore remain "Armed" (A). Then imagine the system is fully set again and repeat for

"Part-set Codes" B and C.

08

09

10

05

06

07

11

12

13

14

Circuit No. Location

01 Workshop PIR (1)

02

03

04

Workshop Internal Door

Workshop PIR (2)

Sales Internal Door

Canteen Door

Canteen PIR

Stores Internal Door

Sales PIR

Sales Office PIR

Sales Entrance Door

Workshop Entrance Door

Workshop PIR (3)

Stores Entrance Door

Stores PIR

O

O

O

O

O

A

A

A

A

A

A

A

O

A

Group A Group B Group C

O A

O

O

A

A

A

A

O

O

A

A

A

A

O

O

A

A

O

O

O

A

A

A

A

A

O

O

2.

From the above table assign circuits 01 - 14 as "Armed" or "Omitted" for each "Part-set

Group", see page 24 for full details.

3.

Program the setting mode for each "Part-set Group", see page 20 for full details.

4.

Program each "Part-set Code" with a four digit passcode, refer to the "User Operating

Instructions".

+

If a circuit is "Omitted" in more than one "Part-set Group" (circuits 05 and 06 in our example) it will only be armed when all "Part-set Groups" are set. Using our example, if the system is unset and "Part-set Code A" is entered, the exit procedure is started and at the end of the exit procedure circuits 04, 08, 09 and 10 will be armed. The canteen detection circuits 05 and 06 will remain unarmed until "Part-set Group" B and C are set (system full-set).

29

Installation Record

Installation Record

Type


Circuit Programming

Access D-Knock Test Omit Reset PS A PS B PSC 24hr No Location

01

10

11

12

07

08

09

13

14

15

16

02

03

04

05

06

1 2 3

Outputs

4 5 6 7 8 Output

Panel & remotes

Digicom outputs

Digicom Channel

Re-arms:

Bell Dur:

Full-set

Settling:

Bell Delay:

System Timers

Digi Delay:

D-Knock:

Exit Time:

Test Time:

Part-set A

Setting Modes

Part-set B

Entry Time:

ACPO:

Part-set C

1: Yes / No

6: Yes / No

2: Yes / No

7: Yes / No


3: Yes / No 4: Yes / No

8: Yes / No 9: Yes / No

Other

Algorithm No

Installation Company:

Remote Reset Tel No: Engineer:

Date:

Tel No:

30

5: Yes / No

0: Yes / No

18606

Menvier Security Ltd.

Kenn Road, Clevedon,

Bristol BS21 6LH, England

Tel: +44 (0)1275 870078

Fax: +44 (0)1275 343453

Email: [email protected]

Internet: http//:www.menviersecurity.co.uk

Drg No. 33:2159:00 Issue 01 Doc. 01 August 98

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