Menvier Security TS790+, TS900+ Installation Manual

TS790+ & TS900+

Intruder Alarm Control Panels

Installation and Programming

Manual

© Cooper Security Limited 2003

Every effort has been made to ensure that the contents of this book
are correct, errors and omissions escepted. However, meither the
authors nor Cooper Security Limited accept any liability for loss or
damage caused or alleged to be caused directly or indirectly by this
book. The contents of this book are subject to change without
notice.

Printed and published in the UK.

Contents

Overview ............................................. 1

Introduction ................................................ 1

System Architecture.................................... 1

Control Panel.............................................. 1

Remote Keypads .......................................2

32 Character LCD (NETLCD) ........................ 2

8 Character Starburst (NETSTAR)...................2

4 Character LED (NETLED)............................ 2

Remote Arming Station (NETARM)................ 2

TSXNODE..................................................... 2

TS900 NODE (Obsolete) ..............................2

ID Node (TS900 IDNODE).............................2

TS700 LEC ................................................... 2

Specifications ............................................. 3

General....................................................... 3

Electrical ..................................................... 3

Physical ....................................................... 3

System Installation............................... 4

Cable Routing ............................................ 4

Node Network Wiring (TS900+ Only) ...........4

Remote Network Wiring .............................. 5

Combined Network Wiring (TS900+)........... 5

Control Panel Installation ............................ 6

Control Panel PCB Layout........................... 7

Connection Terminals & Indicators............. 8

Mains Connection...................................... 9

Battery Connection ....................................9

Remote Keypads .......................................9

NETLCD Remote Keypad............................. 9

NETSTAR Remote Keypad ............................ 9

NETLED Remote Keypad ............................. 9

NETARM Remote Arming Station.................. 9

PCB Layouts & Connections........................ 9

Installation Procedure................................ 10

Engineer’s Keypad.................................... 11

XNode (TS900+) ....................................... 11

XNode Wiring ............................................ 11

Programmable Outputs on the XNode..... 11

Installing an XNode ................................... 13

TS900 Node Installation (TS900+ Only) ..... 13

TS900 Node Layout (Obsolete) ................. 13

TS700 LEC Installation ............................... 14

Wiring Detection Circuits...........................14

Double Pole ..............................................14

End Of Line................................................ 15

External Sounder Connections .................15

Installing an External Sounder from a XNode16

Auxiliary Tamper........................................17

Extension Loudspeakers............................17

Digicom/RedCARE Installation ..................17

Plug-on Digicom Installation .....................17

Plug-on digi-Modem Installation...............18

Output Modules Installation (CPA6.OM)....18

Connecting a Printer.................................18

Using the CPA6 Printer................................18

Using the DATAC / RS232 Printer.................19

Programmable Outputs............................20

Control Panel Outputs ...............................20

XNode Outputs..........................................20

Remote Keypads & TS700.LECs.................20

Installing a Monitored Power Supply .........21

Pre Power-Up Checks................................21

Initial Power-Up .........................................21

Power-Up Checks .....................................22

NVM Defaults ............................................22

Engineer’s Menu 1 .............................24

Introduction ..............................................24

Menu contents ..........................................24

Panel Outputs [1.1] .............................25

Digicom Outputs [1.2]............................25

Digicom Channels [1.3] ........................25

Programmable Output Types ...................25

Program Circuits [1.4] .............................28

Circuit Types ..............................................28

Circuit Attributes.........................................29

System Timers [1.5] .............................30

Setting Modes [1.6] .............................33

Do System Print [1.7] .............................34

Remote Reset Algorithm [1.8] ................34

Configuration [1.9] .............................34

Goto User Menu 1 [1.0] ..........................37

Menu contents ..........................................37

View Location Text (LCD Only) [1.B] ........38

Relearn Hardware [1.C]..........................38

Engineers Menu 2..............................39

Introduction ..............................................39

Menu Contents..........................................39

View Circuits [2.1] .................................40

Set System Time [2.2] .............................40

Set System Date [2.3] .............................40

Change Passcode [2.4].........................40

Chime Circuits [2.5] .............................41

Alter 24Hr Group [2.6] ............................ 41

Print System Log [2.7]............................. 41

Configure Wards [2.8]............................ 41

View System Log [2.9] ............................ 42

Log Event Codes...................................... 43

Reset User Code 1 [2.0]......................... 44

Start Call Back [2.A]............................. 44

Engineer’s Menu 3 ............................ 45

Introduction.............................................. 45

Menu Contents ......................................... 45

Time Switches [3.1]............................. 46

Part Set Groups [3.2]............................. 47

Part Set Group Operation.......................... 47

Code Set Groups [3.3]........................... 47

Code Set Group Operation ...................... 47

Engineers Name (LCD Only) [3.4] .......... 48

Part Set Text (LCD Only) [3.5] .................. 48

Circuit Text (LCD Only) [3.6].................... 48

Custom Text Menu (LCD Only) [3.7] ....... 48

Reset Message ......................................... 48

Banner Message....................................... 48

Location Text............................................. 49

Printer Header ........................................... 49

Part Set Banner.......................................... 49

XNode Outputs [3.8]............................. 49

Built In Tests [3.9] ................................. 49

Current Consumption ............................... 49

Voltage ..................................................... 50

View Circuit Resistance (LCD Only)............ 50

Test Digi Outputs ....................................... 50

View Inactive Circuits [3.0] ..................... 50

Custom Outputs A & B [3.A/B] ................ 51

Custom Output - Example 1 ..................... 51

Custom Output - Example 2 ..................... 51

Custom Output - Example 3 ..................... 51

Modem Options (LCD Only) [3.C] ..........52

Call Back No.1 ..........................................52

Call Back No.2 ..........................................52

Call Back No.3 ..........................................52

Modem Password .....................................52

Modem Site No. ........................................52

Program Digicom......................................52

Reset Digicom........................................... 54

Appendices ...................................... 55

Contact ID Extended Reporting ...............55

Resetting the Engineers passcode ........... 55

Domestic Part-Set Application Example... 56
Defining Part-Set buttons to Omit a Ward.. 57
Defining Part-Set buttons to Arm a Ward(s) 58

Commercial Part-Set Application............. 60

Key Switch Application Example ..............60

Time Switch Application Example.............61

Alarm Abort & Confirmation ..................... 61

Alarm Abort Operation .............................. 61

Sequential Confirmation Operation .......... 61

Text Editing Keys ....................................... 62

Cursor Types ..............................................62

Common Key Sequences ........................ 62

Setup New Users ....................................... 62

User Types.................................................. 62

Quick Reference Engineers Menus........... 64

Quick Reference Engineers Menus........... 65

Quick Reference Engineers Menus........... 66

TS790+ & TS900+ Installation Manual Oveview

1

Overview

Introduction

The TS790+ and TS900+ alarm control units are
designed for medium to large installations. The
TS900+ can handle from 10 to 56 zones, while
the TS790+ can handle from 10 to 16 zones.
Both systems can be remotely programmed or
interrogated via the telephone line and a P.C.

Both systems can be broken down into 4
separately controlled areas (Wards) so that the
premises or parts of the premises can be
controlled independently.

The TS790+ and TS900+ are based on the
TS790 and TS900, but also offer:

 Programmable pins for Plug-on STU or

digicom.

 Backtamper and improved lid tamper.

 Improved text display for user when setting

the system.

System Architecture

Figure 1. TS790+ and TS900+ Architecture

Control Panel

The control panel is the controlling unit for the
system, it has a power supply and connections
for a standby battery. It has the following
facilities:

 8 programmable detection circuits

 Bell and strobe outputs

 4 programmable outputs (1 x Voltage free

contacts and 3 high current transistorised)

 8 programmable digicom/RedCARE

outputs

 A connector for a plug-on Menvier

digicom, digi-Modem, or STU

 Extension loudspeaker output

 All system program information and the

700 event log is stored in a removable non­volatile memory (NVM)

XNODE

2Outputs

8Zones

XNODE

2

Outputs8

Zones

XNODE

2

Outputs8

Zones

X

NODE

2Outputs

8Zones

X

NODE

2Outputs

8Zones

CONTROL

PANEL

TS900 NODE

NETWORK

TS900

ID NODE

2Outputs

8Zones

30IDZones

8

Outpu

ts

(T wo Options)

REMOTE

KEYPAD

Or LEC

1Outputs

2Zones

1

Outpu

ts

2

Zones

1

Outpu

ts

2

Zones

1Outputs

2Zones

REMOTE

NETWORK

(8 Zones)

Printer

Speaker

CPA6.OM

AUX 12V

Plug-on

Digicom/Modem

Bell output

Strobe output

Digi outputs 1 - 8

Outputs 1 - 4

Plug On

STU

REMOTE

REMOTE

REMOTE

KEYPAD

KEYPAD

KEYPAD

Or LEC

Or LEC

Or LEC

XNODE

Overview TS790+ & TS900+ Installation Manual

2

Remote Keypads

Up to 4 remote keypads can be connected to
the control panel. Each remote keypad has two
detection circuits and a single switched -ve
output. There are four types of remote keypads
that can be used:

32 Character LCD (NETLCD)

The NETLCD remote keypad has a backlit 32
character super-twist Liquid Crystal Display (LCD)
and a backlit tactile rubber keypad. When using
the LCD Keypads the text for user codes, part
setting modes and circuit identification can be
programmed to make the operation and
programming of the system easier.

8 Character Starburst (NETSTAR)

The NETSTAR remote keypad has a backlit 8
character starburst display (LCD) and a backlit
tactile rubber keypad.

4 Character LED (NETLED)

The NETLED remote keypad has a 4 character
LED display and backlit tactile rubber keypad.
When using the LED remote keypads, text
cannot be programmed but all other system
functions are available.

Remote Arming Station (NETARM)

The Remote Arming Station only allows setting
and unsetting of the system. The unit has two
indicator LEDs, the “Power LED” and a
programmable “Function LED” (the “Function
LED” may be programmed as “Fault” or “Area
Set” etc.).

TSXNODE

The XNode provides eight programmable
detection circuits and two programmable
outputs (one switched +ve and one switched ­ve). Use the XNode to replace the TS900 Node
where necessary. (Do not use on the TS790+.)

TS900 NODE (Obsolete)

The TS900 Node provides eight programmable
detection circuits and two programmable
outputs. (Do not use on the TS790+.)

ID Node (TS900 IDNODE)

The TS900 IDNode can be used as an
alternative to the standard XNode. It provides a
single ID Detector Loop for connection to 30 ID
devices and 8 programmable outputs. Several
configuration options allow it to be used on its
own or with existing XNodes. You can also
connect two IDNodes to give a total of 40
zones. (Do not use on the TS790+.)

TS700 LEC

The Local Expansion Card (LEC) provides two
programmable detection circuits and one
programmable output.

TS790+ & TS900+ Installation Manual Overview

3

Specifications

General

Zones TS790+ - 10 to 16
TS900+ - 10 to 56
Expansion 2 zone LECs and/or Keypads

6 zone LEC
8 zone XNodes (not on

TS790+)

30 zone ID Node (not on

TS790+)
(Two IDNodes give up to 40

zones total.)
Outputs (Panel) 12 + 8 via plug-on digicom
Keypad types 32 Character LCD
8 Character Starburst LCD
4 Character 7-segment LED
LED Arming station

Electrical

Mains Input 230+/-10% 50Hz+/-5%
Control Panel 220mA (normal)
300mA (alarm)
Battery 12V 7Ah Sealed Lead Acid
Power Supply 1.5A
LCD keypad 120mA (normal) 130mA

(alarm)
Starburst keypad 120mA (normal) 130mA

(alarm)
LED keypad 120mA (normal) 140mA

(alarm)
Arming Station 30mA (normal) 40mA

(alarm)
XNode 60mA (normal) 60mA

(alarm)
TS900 Node 60mA (normal) 60mA

(alarm)
ID Node 80mA (with 1 device)
160mA (with 30 devices)
TS700 LEC 30mA (normal) 30mA

(alarm)

Physical

Control panel 384(W) x 312(H) x 95(D)mm

4.9Kg
Remote Keypads 150(W) x 104(H) x 30(D) mm
282g
Nodes (all types) 128(W) x 182(H) x 34(D) mm
370g
TS700 LEC 142(W) x 82(H) x 36(D) mm
213g
Environment -10 to +55 degrees C

System Installation TS790+ & TS900+ Installation Manual

4

System Installation

Cable Routing

When installing cables, the following should be
noted:

¨

Screened cable may prove necessary if the
Network is run adjacent to cables that
produce R.F. or are switching high current
loads, e.g., mains, telephone, computer.

¨

Ensure that all Network and detection circuit
cables are kept clear of mains supply cables,
telephone cables, R.F. cables and cables
supplying bells or sounders.

¨

Mains power supply cables to the system
must be connected to an un-switched fused
spur that cannot be accidentally switched
off, and must enter the housing via its own
cable entry point.

¨

In larger installations it may prove necessary
to fit remote power supplies to overcome
excessive voltage drops in the cable runs. It is
recommended that the Menvier 519XB is
used in these instances as it can be fault
monitored by the control panel.

Figure 2. TS900 Node Network Wiring

Node Network Wiring (TS900+ Only)

XNodes require a 4 core cable for
interconnection, and may be connected in a
“daisy-chain” or “star” configuration. The
distance between each XNode must not
exceed 100 metres. The Aux +/- terminals
provide power for detectors. On installations
that utilise the XNode outputs to drive sounders
and strobes it may be necessary to fit a remote
power supply (Figure 2) to prevent over loading
of the control panel power supply.

Control Panel

XNode

XNode

Node
Network

XNode

XNode

IN

OUT

AUX

IN OUT

AUX

AUX

AUX
12V

-

+

IN OUT

AUX

IN OUT

AUX

XNode

100m

I/D=1 I/D=2

Power For
Detectors

Power For
Detectors

Power For
Detectors

Power For
Detectors

Remote PSU

(519 XB)

Power For
Detectors

I/D=3

I/D=5

I/D=4

A
B
F
G

A

B
F

G

A
B
F
G

A
B
F

G

A
B
F
G

A
B

F

G

A
B
F

G

A
B
F
G

A
B

F

G

A
B

F
G

A
B

F
G

100m

100m 100m

TS790+ & TS900+ Installation Manual System Installation

5

Remote Network Wiring

Devices on the “Remote Network” require a 6
core cable for interconnection, and may be
connected in a “star” or “daisy-chain”
configuration. The distance to the furthest
device from the control panel must not exceed
100 metres. Power for detectors are provided
by the A and B terminals (Figure 3).

Figure 3. TS790+ & TS900+ Remote Network wiring

Figure 4. TS900+ Combined Network Wiring

Combined Network Wiring (TS900+)

On some installations it may be desirable to
have a remote keypad connected after the
XNodes. This can be achieved by using an
eight core cable from the control panel and
connector strips within the XNode and remote
keypads (Figure 4).

Remote
Keypad
or LEC

Node
Network

Remote
Network

Control Panel

Power For
Detectors

Power For
Detectors

Power For
Detectors

C

D
E

IN OUT

AUX 12V

XNode

I/D=2

A
B

F
G

A
B

F
G

IN OUT

AUX 12V

XNode

ABCDE

I/D=1

A
B

F
G

A
B

F

G

A
B

F

G

IN OUT

AUX 12V

XNode

I/D=3

A
B

F
G

A
B

F
G

100 Meters (Max.)

100m

Connector Strips

System Installation TS790+ & TS900+ Installation Manual

6

Control Panel Installation

Proceed as follows:

1. Open the control panel by removing the
three screws from the front cover. Remove
the cover by sliding it up slightly to
disengage the bottom clip.

2 Note the position of the cable entries as

follows:
(a) Ten 20mm cable entries 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.

Figure 5. TS790+ & TS900+ Control Panel Layout

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

5. Re-position the back box and pass all
cables into the base via the appropriate
cable entries, remembering to fit grommets
where necessary.

6. Secure the back box using not less than
30mm x No 10 screws through the three
securing holes.

7. If required install and connect the following:
(a) Digicom or RedCARE STU.
(b) Plug-on digicom type DC54, DC58

DC58M.
(c) Output modules type CPA6.OM.
(d) Printer type DATAC or serial RS232 via a

printer adapter (MPA/DCI).
(e) Relay module type RM.3A.

+ -

V

R25

Mains

Transformer

Mains Cable
Entry

Fused Terminal

Block 315mA

Printed Circuit Board
(PCB)

Battery
Position

Lid and
Back Tamper

TS790+ & TS900+ Installation Manual System Installation

7

Control Panel PCB Layout

Figure 6. TS790+ & TS900+ Main PCB

System Installation TS790+ & TS900+ Installation Manual

8

Connection Terminals & Indicators

The main PCB has the following “Jumper Plugs”
(JP) and indicator LEDS:

JP1 PRINTER

This 6-pin plug is used for connecting to
either a CPA6.P printer or a standard
RS232 printer via the MPA printer adaptor.

JP2 ENGINEERS REMOTE

An Engineers remote keypad may be
temporally connected to this 6-pin plug
to allow programming and testing to be
carried out at the control panel.

¨

DO NOT plug the Engineer’s keypad into
JP1, or the printer into JP2. If you do damage
will occur.

JP3 DIGI-MODEM

A plug-on digicom or digi-Modem may
be connected to this 7-pin plug to allow
panel alarm information to be transferred
to a central station. The digi-Modem is
used for remote communication and
programming via a P.C. The PCI lead also
connects to this plug when using the P.C.
for direct communication with the control
panel.

JP4 OUTPUT MODULE

Output Modules type CPA6.OM may be
connected to this 5-pin plug, and are
used to provide switched -ve outputs to
LEDs/relays etc. The outputs may be
programmed such that they will mimic
circuit activations or activate only when a
circuit causes an alarm condition.

JP5 RR

If the panel is programmed as “Engineer
Reset”, shorting the “Remote Reset” (RR)
pins after an alarm condition will cause
the panel to reset. These pins could be
connected to the “Control” output on a
RedCARE STU so that the central station
may provide a “Remote Reset” facility.
Note: Fit a jumper to JP7 CS to use JP5
without RedCARE.

JP6 FACTORY RESET

If these pins are shorted during power-up
all system parameters are reset to their
factory default settings. If the engineer’s
passcode is lost or forgotten it can be

reset to 1234 without loosing any other
program data. The procedure for
resetting the engineer’s passcode is
described on page 55.

JP7 CS

Before fitting a plug-on STU, the “CS” link at
JP7

MUST

be removed to ensure correct

operation of Remote Reset via RedCARE.

JP8 Lid Tamper

JP8 is connected to the tamper switch
assembly to provide lid tamper and back
tamper.

JP9&10

Pins for plug-on STU/Digicom.

VR1 SPEAKER VOLUME

When an extension loudspeaker is
connected to the control panel terminals
the volume of the advisory tones may be
adjusted using this control.

¨

Alarm tones are always at full
volume.

U2/3 NOVRAMS

A removable non-volatile memory (NVM)
device that stores all system program
parameters and the 700 log events. The
event log can be expanded to 1800
events when the second NVM(U2) is fitted.
Order code PP5.MEMKIT (5 x NVMs).

LED1 POWER ON

This LED indicates that the system power
(mains or battery) is healthy.

LED2 BATTERY FAULT

If the system battery is incorrectly
connected to the control panel or the
battery voltage level is below 4 Volts then
the “Battery Fault” LED will illuminate. The
fault LED will only extinguish when the
battery has been correctly connected or
replaced.

V SYSTEM CURRENT CONSUMPTION

To calculate system current consumption,
use a Voltmeter set to a low Voltage
range and measure the Voltage across
the test point. Multiply the reading by 10
to give the Total system current
consumption. For example, a reading of
70mV = 700mA.

TS790+ & TS900+ Installation Manual System Installation

9

Mains Connection

The mains supply is connected to a 3 way "Euro
Type" fused terminal block, which is fitted with a
315mA fuse. All electrical connections should
be carried out by a qualified electrician and
must comply with the current IEE regulations.

¨

To comply with european regulations the
supply should be fed from a readily
accessible disconnect device, e.g. un­switched 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.

Figure 7. Mains Suppy Connections

Battery Connection

A 7Ah battery must be fitted to the system to
allow it to function during a mains fail condition.
The TS790+/TS900+ is equipped with a “Battery
Protection” circuit so that if a battery is
accidentally reverse connected or its voltage is
below 11V, the “Battery Fault” LED illuminates. To
clear the fault simply reconnect or replace the
battery as appropriate.

Remote Keypads

Four types of remote keypads can be used on
the system, however, only the NETLCD remote
keypad can be used for programming text
information. Any combination of remote
keypad may be used on the same system if
desired.

NETLCD Remote Keypad

The NETLCD remote keypad has a 32 character
backlit Liquid Crystal Display (LCD)

NETSTAR Remote Keypad

The NETSTAR remote keypad has a 8 character
backlit Starburst Liquid Crystal Display (LCD).

NETLED Remote Keypad

The NETLED remote keypad has a 4 character
LED display.

NETARM Remote Arming Station

The NETARM remote arming station does not
have a display, therefore it is designed to only
be used where setting, part setting and
unsetting of the system is required.

PCB Layouts & Connections

Figure 8. NETLCD, NETLED & NETARM PCB Layout

Figure 9. NETSTAR PCB Layout

1

Detection Circuits.

Each remote keypad has two
programmable detection circuits.

2

Loudspeaker Volume.

For adjusting the volume of a speaker
wired to the remote keypad (NETLCD
only).

System Installation TS790+ & TS900+ Installation Manual

10

3 LED Mimic.

If this jumper link is set to the “enabled”
position, the red (ü) LED on the keypad
will be “ON” when the keypad output is
active.

4 Remote I/D.

Used to select the remote keypads
address. (ENG = Engineer).

5 Ward Sounder Control.

If this jumper link is set to the “disabled”
position, the remote keypad sounder will
follow the control panel speaker output. If
this link is set to “enabled”, the remote
keypad sounder will only activate when
the panel speaker and the output on the
remote keypad are active at the same
time.

6 Keys 1 and 3 PA Enable

Leave this link intact to enable PA alarm
on keys 1 and 3. When a user presses 1
and 3 together the control panel sounds
a PA alarm. Cutting the link ensures that
when a user presses keys 1 and 3, the
control panel reports an alarm from zone
A on the keypad. The alarm type will
depend on how the zone types is
programmed in the control panel.

7 Loudspeaker Output.

This terminal can be connected to a
single 16

W

Loudspeaker (NETLCD only).

8 Network Connections & O/P.

Terminals A to E are used to connect the
remote keypad to the control panel
network. The O/P terminal is the
programmable output.

9

Tamper Switch.

Remote Keypad case tamper

10 Proximity Reader Option.

Pins for plugging on a TSNETPROX PR1
proximity reader module.

11 ENT Key Disable.

If the “ENT” key is enabled the remote
keypad can be used to set/unset and
access all user menus. If the “ENT” key is
disabled the remote keypad can only be
used to set and unset the system. (Not
fitted on NETLCD.)

Installation Procedure.

¨

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

1. 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.

2. 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.

3. Connect “Remote Network” and detection
circuit cables to the appropriate terminals,
see Figure 8.

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

I/D Selector Circuit A Circuit B Panel Output

1 09 10 5
2 11 12 6
3 13 14 7
4 15 16 8

ENG/NULL N/A N/A 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).

5. If the remote keypad has a "ENT" key
enabled/disable link it can be used to limit
the functionality of the remote keypad. If the
"ENT" key is enabled the remote keypad can
be used to set/unset and access all user
menus. If the "ENT" key is disabled the
remote keypad can only be used to set and
unset the system.

6. If the remote keypad has a “Ward Sounder
Control” link it can be used to make the
remote keypad sounder follow the
programmable output. When the link is set to
the disabled position the sounder responds

TS790+ & TS900+ Installation Manual System Installation

11

as normal. When the link is set to the
enabled position the sounder is only
enabled when the remote keypad
programmable output is active. For
example, to make the keypad ward
respective for ward A, program the output
on the remote keypad to "Sounder Control
A" (type 064) and set the "Ward Sounder
Control" link to the enabled position. (Hint:
use Engineer Menu 1 option 1. Panel o/p 5
= keypad o/p 1, panel o/p = keypad o/p 2
and so on.)

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” which is temporarily plugged on to the
control panel (JP2).

¨

DO NOT plug the Engineer’s Keypad into JP1

or you may damage the equipment.

To convert a standard remote keypad to an
“Engineers Keypad” an Engineer’s interface lead
is required which can be obtained from your
supplier (P/No. NETEKI).

Figure 10. Engineer’s Keypad Connections

XNode (TS900+)

The XNode is very similar to the TS900 Node in
that it provides the facility to add an extra eight
programmable detection circuits and two
programmable outputs. The maximum number
of XNodes that can be connected to any one
network is 5.

XNode Wiring

The XNode requires a 4 core cable for
interconnection, and up to 5 may be
connected in a “daisy-chain” or “star”
configuration. The distance between each
XNode must not exceed 100 metres. The total
distance to last XNode must not exceed 500
metres. The Aux. +/- terminals provide power for
the detectors.

Programmable Outputs on the XNode

The XNode has two programmable outputs,
each rated at 100mA, output [A+] is a switched
+ve output and output [B-] is a switched -ve.
The outputs can be used to drive sounders or
relays etc.

System Installation TS790+ & TS900+ Installation Manual

12

A B F G

A B F G

A B C D E

AUX 12V
500mA

REMOTE
500mA

AUX 12V

AUX 12V SPEAKER

OUTPUT MODULE

REMOTE ZONE
ENABLE

SPEAKER

VOLUME

NODE I/D

JP5

JP4

ZA

ZH

ZGZF

ZE

ZC ZDZB

CIRCUIT A

CIRCUIT H

CIRCUIT G

CIRCUIT FCIRCUIT E

CIRCUIT C CIRCUIT DCIRCUIT B

TA

TH

TG

TF

TE

TC TDTB

JP5 FITTED =
NO TAMPER

Output module

connector

Fit jumper-link

to disable

tamper switch

Tamper switch

I/D selector

(1-5 for TS900+)

Programmable

detection

circuits A - D

Node type

From previous

XNode or panel

Control panel mains

power indicator:

On = mains on

Flashing = mains off

Auxiliary 12V output

(for powering detectors)

Auxiliary 12V output

Programmable outputs:
A = 100mA switched +ve
B = 100mA switched -ve

To next XNode

Programmable
detection
circuits E - H

Auxiliary 12V
fuse (500mA)

2

4

6

8

10

TS2500

TS2500

TS900

TS900

14

16

12

3

5

7

9

13

15

11

1

2431

A B
O/P

NODE

NETWORK IN

NODE

NETWORK OUT

REMOTE KEYPAD NETWORK

+

+

-

--

-

+

+

Figure 11. Xnode Layout

TS790+ & TS900+ Installation Manual System Installation

13

Installing an XNode

1. Separate the cover and base by using a
screwdriver to push 2 of the clips (left or right)
inward from the base indents, then lift the
cover clear.

2. If the XNode is being fitted inside the control
panel you may remove the XNode PCB from
its base and secure it to the base of the
control panel using self adhesive feet. If
required, the tamper switch can be disabled
by fitting the jumper link across JP5, see
Figure 11.

3. If the XNode is being fitted outside the
control panel, hold the base in position and
mark the four securing holes. Drill and plug
the wall as required, then pass all cables into
the base via the cable entry points as
appropriate. Secure the base to the wall
using the appropriate fixing screws.

4. Connect the network data cables to the
appropriate terminals.

5. Set the I/D selector jumper link to the
required position, see the table below,
ensuring no two XNodes have the same I/D.

XNode I/D

1 2 3 4 5

A 17 25 33 41 49

B 18 26 34 42 50
C 19 27 35 43 51
D 20 28 36 44 52

E 21 29 37 45 53

F 22 30 38 46 54
G 23 31 39 47 55

C

I

R

C

U

I
T

S

H 24 32 40 48 56

OPs +A 1 3 5 7 9

-B 2 4 6 8 0

6. Set JP4 to the TS900 position.

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

TS900 Node Installation (TS900+ Only)

The TS900 Node is now obsolete, and has been
replaced by the TSXNode. The TS900 Node
allowed you to add an extra eight
programmable detection circuits and two
programmable outputs. The Nodes are
connected on the “Node Network” and up to
five may be connected to the TS900+ system.

¨

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

Figure 12 shows the connections for the “Node
Network” cables and detection circuit cables.

Set the I/D selector jumper link to the required
position. The Node ID table shown for the
XNode shows the positions for the jumper.

No two NODES should have the same I/D.
The NODE I/D selector DOES NOT have to be set

sequentially but it is advisable so as to aid fault
finding and programming.

TS900 Node Layout (Obsolete)

A B F G

A B F G

AUX 12V

AUX 12V

500mA

NODE I/D

JP2

ZA

ZH

ZGZF

ZE

ZC ZDZB

CIRCUIT A

CIRCUIT H

CIRCUIT G

CIRCUIT FCIRCUIT E

CIRCUIT C CIRCU IT DCIRCUIT B

TA

TH

TG

TF

TE

TC TDTB

JP2 FITTED = NO TAMPER

Fit jumper-link to dis able

tamper switch

Tamper s witch

I/D selector

Programmable

detection

circuits A - D

From pr evious

Node

Mains power indicator
On = mains on
Flashing = mains off

Auxiliary 12V output

(for powering detectors)

Programmable outputs:
[A+] = switched +ve @100mA
[B -] = switched -ve @100mA

To ne xt No de

Programmable
detection
circuits E - H

Auxiliary 12 V
fuse (500mA)

1
2
3
4
5

A B
O/P

NETWORK IN NETWORK OUT

++ - - -+

Figure 12. TS900 Node Layout

System Installation TS790+ & TS900+ Installation Manual

14

TS700 LEC Installation

The TS700 LEC (Local Expansion Card) is
connected to the “Remote Network” and
provides two additional programmable
detection circuits and a programmable output.
The “Remote Network” may have up to three
LECs connected, as the system will always
require at least one remote keypad.

Figure 13. TS700 LEC Layout

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

1. Remove the cover from the base and
carefully remove the PCB.

2. If the LEC is being fitted inside the control
panel you may remove the LEC PCB from its
base and secure it to base of the control
panel using self adhesive feet. If required,
the tamper switch may also be disabled by
fitting the jumper link across JP2, see Figure

13.

3. If the LEC is being fitted outside the control
panel, hold the base in position and mark
the two securing holes. Drill and plug the
wall, then pass all cables into the base via
the cable entry points. Secure the base to
the wall using the appropriate fixing screws.

4. Connect “Remote Network” cables and
detection circuit cables to the appropriate
terminals, see Figure 13.

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

I/D

Selector

Circuit A Circuit B Panel

Output

1 09 10 5
2 11 12 6
3 13 14 7
4 15 16 8

NULL N/A N/A N/A

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

DO NOT set the I/D selector to the “NULL”
position.

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

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 equipment.

Double Pole

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.

TS790+ & TS900+ Installation Manual System Installation

15

Figure 14. Double Pole Wiring

End Of Line

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.

Figure 15. End of Line Wiring

External Sounder Connections

The following terminals have been provided to
allow connections to an external sounder:

H/O -

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

H/O
+

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).

TR -

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

STB -

This is the strobe output which will switch
to 0V on alarm and is rated at 500mA.
Connect the other side of the strobe to
the H/O +.

TRG -

This is the bell trigger output which will
switch to 0V on alarm and is rated at
500mA. This output can be
programmed for SAB or SCB operation,
as follows:

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

SCB: TRG - will provide a negative hold
off (500mA), which is removed on alarm.

System Installation TS790+ & TS900+ Installation Manual

16

Figure 16. External Sounder Connections

Installing an External Sounder from a
XNode

The XNode has two programmable outputs,
these can be utilised to drive an external
sounder. However, it is recommended that a
remote power supply is fitted next to the XNode
in order to provide sufficient power for the
external sounder. A relay module such as the
Menvier RM3A is also required to drive the
external sounder. Figure 17 shows the
connection details.

Figure 17. External Sounders Connection -

Aux
12V

RLY 2

COIL -

COIL -

SPARE 1

SPARE 2

TAMPER

RM3A

SAB

MODULE

REMOTE
POWER
SUPPLY

XNODE

SPARE 3

SPARE 4

STROBE-

STROBE +

TAMPER OUT

TAMPER IN

TRIGGER

+12V

0V

TAMPER

CIRCUIT X

Program circuit
as: NIGHT

ZX

TX

COIL +

COIL +

RLY 2

COM

COM

N/O

N/O

N/C

N/C

RLY 1

RLY 1

12V

0V

+

-

A

+

B

-

TS790+ & TS900+ Installation Manual System Installation

17

Auxiliary Tamper

These two terminals provide tamper protection
to auxiliary devices such as power supplies,
extension loudspeakers etc. If they are not used
they must be linked out.

Extension Loudspeakers

Up to two extension loudspeakers can be
connected across the [SPK+] and [H/O-]
terminals on the control panel PCB. The volume
for the loudspeaker is controlled by VR1
“Speaker Volume”.

Figure 18. Loudspeaker Connections

Digicom/RedCARE Installation

Connect a digital communicator, RedCARE STU
or Paknet interface card to the control panel
using the following connections:

Digicom Outputs 1 to 8

These are the programmable digicom output
connections. They are normally at +12V and
switch to 0V when active. The outputs can be
inverted so that they switch from 0V to +12V
when active (see System Configuration on
page 34 ). Each output will source 5mA in the
+12V condition and sink 100mA in the 0V
condition.

Alternatively, fit a plug-on STU to JP9 and JP10.
This uses Digicom outputs 1 to 7 for Channels 1
to 7. Note that Channel 8 on this interface is
dedicated to “Low Battery”. You

MUST

remove
the "CS" link at JP7 before fitting a plug-on STU to
ensure correct operation of Remote Reset via
RedCARE.

+DC POWER

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

panel. Use any of the auxiliary 0V terminals for
the 0V supply for the digicom/STU.

LINE FLT

If an external device switches this input to +12V,
the control unit generates a “Line Fault”. If a
“Line Fault” occurs while the system is unset then
the control unit generates a “Chime”every
minute. If a “Line Fault” occurs while the system
is set then the control unit cancels the “Bell
Delay”.

Figure 19. 3GSTU RedCARE Connections

Plug-on Digicom Installation

A plug-on digital communicator DC54 or DC58
may be fitted inside the control panel to allow
alarm status information to be transferred to a
dedicated central station. The unit should be
fitted in accordance with the installation
instructions supplied with it and connected to
the control panel plug DIGI-MODEM (JP3) using
the lead provided with the unit, see Figure 20.
The NVM within the digicom can either be
programmed via the control panel, see page

52. or directly using an engineer's keypad
plugged into the digimodem.