D9412GV3/D7412GV3
Operation and Installation Guide
EN Control Panels
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D9412GV3/D7412GV3 | Operation and Installation Guide | Federal Communications Commission (FCC) Rules
.
The telephone company might make changes in its
facilities, equipment, operations, or procedures that
could affect the operation of the equipment. If this
happens, the telephone company provides advance
notice in order for the necessary modifications to be
made in order to maintain uninterrupted service.
This equipment cannot be used on public coin service
provided by the telephone company. Connection to
Party Line service is subject to state tariffs. (Contact
your state public utilities commission for information.)
FCC Registration Number:
US:ESVOT00BD9412GV3
Service Center in USA:
Bosch ST Service Center
8601 East Cornhusker Hwy
Dock B
Lincoln, NE 68507 - 9702 USA
Ringer Equivalence: 0.0B
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D9412GV3/D7412GV3 | Operation and Installation Guide | Contents
.
4.7
4.8
4.9
4.10
5.0
5.1
Programming the Control Panel....................17
Installing the Point Chart Label .....................18
Testing the System .........................................18
Service Walk Test ...........................................18
Power Supply.................................................22
Primary Power Terminals 1 and 2 ................22
Contents
1.0
2.0
2.1
2.2
3.0
3.1
Introduction ......................................................7
Lightning Strikes.............................................8
Effects .................................................................8
Precautions during Installation ........................8
Overview............................................................9
Configuration and Parts....................................9
5.1.1 Primary (AC) Power Circuit............................22
5.1.2 Installing the Transformer ..............................22
5.2
5.2.1 Secondary (DC) Power ..................................22
5.2.2 Installing the Battery........................................22
5.2.3 Replacing the Battery .....................................24
5.2.4 Battery Supervision.........................................24
5.2.5 Battery Charging Circuit.................................24
5.2.6 Battery Discharge and Recharge Schedule 25
6.0
6.1
6.2
6.3
Secondary Power Terminals .........................22
3.1.1 Parts List...........................................................10
3.1.2 Parts Available by Separate Order ...............10
3.2
3.3
Accessories......................................................11
Features in the D9412GV3 and D7412GV312
3.3.1 SDI Molex Connector......................................12
3.3.2 Tip and Ring Posts..........................................12
3.3.3 Telephone Line Sniff.......................................12
3.3.4 Points ................................................................12
3.3.5 Areas and Accounts........................................12
3.3.6 Digital Communicator......................................12
3.3.7 Keypads............................................................13
3.3.8 Keyswitch..........................................................13
3.3.9 Access Control.................................................13
3.3.10 Event Memory..................................................13
3.3.11 Event Log..........................................................13
3.3.12 Ground Fault Detection ..................................13
3.3.13 Ground Fault Detection Added Feature.......14
3.3.14 Conettix Functions...........................................14
3.3.15 Programming....................................................14
3.3.16 Other Features.................................................14
Power Outputs...............................................26
Circuit Protection.............................................26
Total Available Power.....................................26
Continuous Power Output Terminals 3, 8, 24,
and 32...............................................................26
6.4
Programmable Power Output Terminals 6, 7,
and 8 .................................................................27
6.4.1 Programming ...................................................27
6.4.2 Terminals 6 and 7 ...........................................27
6.4.3 Fire System Power Formula..........................27
6.4.4 Terminal 8.........................................................27
7.0
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
7.9
7.10
7.11
Telephone Connections ..............................28
Registration......................................................28
Notification........................................................28
Location ............................................................28
Telephone Cord Connection..........................28
Phone LED (Red)............................................29
Operation Monitor LED (Green)....................29
Dialing Format .................................................29
Telephone Line Monitor..................................29
Called Party Disconnect.................................29
Communication Failure ..................................29
D928 Dual Phone Line Switcher...................30
4.0
4.1
4.2
4.3
4.4
4.5
Installation.......................................................14
Installation Preparation...................................14
Enclosure Options...........................................14
Mounting Enclosure ........................................14
Installing the Control Panel............................15
Connecting Earth Ground...............................15
4.5.1 Terminal 10.......................................................15
4.5.2 Ground Fault Detect Enable ..........................15
4.5.3 Enabling Ground Fault Detection..................16
4.5.4 Ground Fault Specifications...........................16
4.5.5 Locking the Reset Pin.....................................16
7.11.1 Description .......................................................30
7.11.2 Operation..........................................................30
7.11.3 Installing the D928 ..........................................31
7.11.4 D928 Status LEDs...........................................31
8.0
8.1
8.2
8.3
8.4
4.6
Completing the Installation.............................17
4.6.1 Charging the Battery.......................................17
4.6.2 Installing and Wiring Detection Devices.......17
4.6.3 Installing Modules and Relays.......................17
On-Board Points............................................31
Terminals 11 to 22 Description .....................31
Point Sensor Loops.........................................31
Point Parameters.............................................32
Point Response Time .....................................33
4.6.4 Connecting the On-board Points and
Keypads............................................................17
4.6.5 Powering Up.....................................................17
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D9412GV3/D7412GV3 | Operation and Installation Guide | Contents
.
8.5
Wiring Information for Installations Using the
Rothenbuhler 5110/4001-42 High Security
Bell.....................................................................33
Off-Board Points............................................36
Point (Zonex) Bus: D9412GV3 Terminals and
11.3
11.4
D279A Independent Zone Control................57
Keyswitch .........................................................57
11.4.1 Description .......................................................57
11.4.2 Programming ...................................................57
11.4.3 Installation ........................................................57
11.4.4 Operation..........................................................57
12.0 SDI Devices..........................................................59
12.1
12.2
12.3
9.0
9.1
D7412GV3 Terminals .....................................36
9.1.1 POPIT Modules................................................36
9.1.2 POPEX Modules..............................................36
9.1.3 Missing Conditions ..........................................36
9.1.4 Extra Point Events...........................................36
Description .......................................................59
Installation ........................................................59
D9131A Parallel Printer Interface Module...59
9.1.5 D9412GV3/D7412GV3 Responses to Missing
12.3.1 Switch Settings................................................59
12.3.2 Supervision.......................................................59
12.4
Point Conditions...............................................37
D8125 and D9127 POPIT Modules ..............37
Installing the D8125 POPEX Module............40
9.2
9.3
D9210B Wiegand Control Interface Module60
12.4.1 Access ..............................................................60
12.4.2 Switch Settings................................................60
9.3.1 Mounting ...........................................................40
9.3.2 Wiring the D8125 to the Control Panel.........40
9.3.3 Wiring POPITs to the Data Expansion Loop40
12.5
SDI Addresses 88 and 92..............................60
12.5.1 D9133DC Direct Connect Programming
9.3.4 Wiring Data Expansion Loops to POPEX
Module ..............................................................60
Modules.............................................................41
12.5.2 Network Interface Modules............................61
12.5.3 Address Settings .............................................61
12.5.4 Supervision.......................................................61
13.0 Programmer and Accessory Connections...62
9.3.5 POPIT Sensor Loops......................................41
9.3.6 POPIT Module Point Assignments................41
9.3.7 Program Record Sheet...................................41
9.3.8 POPIT Labels...................................................42
13.1
13.2
Programmer Connector..................................62
Installer Keypad and Local Programmers
9.4
D8128D OctoPOPIT Module .........................42
9.4.1 Description........................................................42
9.4.2 Listings..............................................................43
9.4.3 Installation.........................................................44
9.4.4 Setting the OctoPOPIT Switches ..................44
9.4.5 Mounting OctoPOPITs....................................45
9.4.6 Wiring OctoPOPITs.........................................45
9.4.7 OctoPOPIT Sensor Loops..............................49
Mode .................................................................62
13.3
13.4
Programmer Access Reports ........................62
Accessory Connector......................................63
14.0 Faceplates ............................................................64
14.1
14.2
D9412GV3 Faceplate.....................................64
D7412GV3 Faceplate.....................................65
Appendix A: System Wiring Diagrams, Issue A..66
9.5
10.0 Off-Board Relays.................................................50
10.1 D8129 OctoRelay ............................................50
Testing Off-Board Points................................49
A.1
A.2
D9412GV3 Control Panel ..............................66
D7412GV3 Control Panel ..............................69
Appendix B: Point Address Charts ........................72
10.1.1 Configuring the D8129 OctoRelay ................51
10.1.2 Relay Outputs ..................................................51
10.1.3 Installation.........................................................51
10.1.4 Wiring Connections.........................................52
B.1
Zonex 1, Points 9 to 127 (D9412GV3); Zonex
1, Points 9 to 75 (D7412GV3) .......................72
B.2
Zonex 2, Points 129 to 247 (D9412GV3 Only)
...........................................................................73
10.2
D811 Arm Status Relay Module....................52
Specifications...............................................................74
SDI Bus A (+):................................................................74
Connection: ....................................................................74
Two Telco lines:.............................................................74
Discharge Cycle.............................................................74
10.2.1 Relay Output ....................................................52
10.2.2 Installation.........................................................52
10.2.3 Wiring Connections.........................................53
11.0 Arming Devices...................................................55
11.1
11.2
Description........................................................55
Keypad Terminals 29 to 32............................55
11.2.1 Assigning an Address for the Keypad ..........55
11.2.2 Installation.........................................................56
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D9412GV3/D7412GV3 | Operation and Installation Guide | Tables
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Figure 36: D9412GV3, Input Points and Peripheral
Devices System Wiring ...........................67
Figure 37: D9412GV3, SDI Devices System Wiring
System Wiring...........................................68
Figure 38: D7412GV3, Power Supply Side System
Figures
Figure 1: System Configuration ................................9
Figure 2: Enclosure Mounting .................................15
Figure 3: Enabling Ground Fault Detection...........16
Figure 4: Reset Pin...................................................16
Wiring.........................................................69
Figure 5: D9412GV3 Service Walk Test Flow Chart
Figure 39: D7412GV3, Input Points and Peripheral
....................................................................20
Devices System Wiring ...........................70
Figure 6: D7412GV3 Service Walk Test Flow Chart
Figure 40: D7412GV3, SDI Devices System Wiring
....................................................................21
....................................................................71
Figure 7: Battery Terminals .....................................23
Figure 8: Non-Power-Limited Wiring......................23
Figure 9: Charging and Battery LEDs....................24
Figure 10: RJ31X Wiring............................................28
Tables
Table 1:
Table 2:
Table 3:
Table 4:
Table 5:
Table 6:
Related Documentation.............................7
GV3 Series Control Panel Differences ...9
Compatible Accessories1 ........................11
Compatible Keypads................................13
Ground Fault Impedance Specifications16
Figure 11: Phone Connector, Phone LED, and
Operation Monitor LED Locations..........28
Figure 12: D928 Dual Phone Line Switcher............30
Figure 13: On-board Point Sensor Loop Wiring......32
Battery Discharge and Recharge
Schedule....................................................25
Figure 14: Rothenbuhler 5110/4001-42 High
Security Bell Wiring Configuration .........34
Table 7:
Table 8:
Table 9:
Charging Status and Low Battery LEDs25
Phone Cord Lengths................................31
Point Parameters .....................................32
Figure 15: Wiring the Rothenbuhler 5110/4001-42
High Security Bell to the D9412GV3 or
D7412GV3 Control Panel........................35
Figure 16: Connecting the D8125 POPEX to the
D9412GV3 Control Panel........................38
Figure 17: Connecting the D8125 POPEX to the
D7412GV3 Control Panel........................39
Figure 18: Program Record Sheet............................42
Figure 19: D8128D OctoPOPIT Layout ...................43
Table 10: POPEX Modules ......................................36
Table 11: Extra Point Events ...................................36
Table 12: Off-Board Point Errors.............................37
Table 13: Data Expansion Loop Wire Specifications
....................................................................40
Table 14: D8128D OctoPOPIT Switch Settings for
Figure 20: Connecting D8128D OctoPOPITs to the
D9412GV3 and D7412GV3....................44
D9412GV3.................................................46
Table 15: Switch 5 Settings for Line Termination .44
Table 16: Terminal Strip Connections ....................45
Table 17: D8129 OctoRelay Switch Settings.........51
Table 18: Number of D8128Ds Used with D8129s52
Table 19: Keypad Address Settings........................55
Table 20: Keypad Connections ...............................56
Table 21: SDI Device Connections.........................59
Table 22: Printer Address Switch Settings.............59
Figure 21: Connecting D8128D OctoPOPITs to the
D7412GV3.................................................47
Figure 22: Wiring Multiple D8128Ds Using Molex®
Connectors................................................48
Figure 23: D8128D OctoPOPIT Sensor Loops.......49
Figure 24: D8129 Connections to the D9412GV3..50
Figure 25: D8129 Connections to the D7412GV3..51
Figure 26: D811 Module Wiring to the D9412GV3.53
Figure 27: D811 Module Wiring to the D7412GV3.54
Figure 28: Power at Keypads ....................................57
Figure 29: Keyswitch Wiring......................................58
Figure 30: DX4020 DIP Switch Settings..................61
Figure 31: Reset Pin...................................................62
Table 23: Address Switch Settings for Access
Control Module .........................................60
Table 24: Zonex 1 Point Address Chart.................72
Table 25: Zonex 2 Point Address Chart.................73
Table 26: Specifications............................................74
Figure 32: Programmer and Accessory Connections
....................................................................63
Figure 33: D9412GV3 Faceplate ..............................64
Figure 34: D7412GV3 Faceplate ..............................65
Figure 35: D9412GV3, Power Supply Side System
Wiring.........................................................66
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D9412GV3/D7412GV3 | Operation and Installation Guide | 1.0
Introduction
.
1.0 Introduction
This manual addresses the operation and installation of the D9412GV3 and D7412GV3 Control Panels.
Throughout this guide, the words “control panel” refer to both control panels (D9412GV3 and D7412GV3).
Table 2 on page 9 provides an overview of the differences in the control panels.
To obtain any of the documents in Table 1, contact Bosch Security Systems, Inc. Customer
Service at (800) 289-0096 and request the documentation by its corresponding part number.
Table 1:
Related Documentation
Name of Documentation
D9412GV3/D7412GV3 Release Notes
Product Type
Part Number
F01U143073
F01U143069
F01U143070
F01U170807
F01U170809
73-07302-000
F01U011791
74-06819-000
74-06925-000
48101
Control Panels
D9412GV3/D7412GV3 Approved Applications Compliance Guide
D9412GV3/D7412GV3 Operation and Installation Guide (this document)
D9412GV3/D7412GV3 Program Entry Guide
D9412GV3/D7412GV3 Program Record Sheet
UL Certificated Bank Safe and Vault Applications Technogram
D1255RB/D1256RB/D1257RB Installation Instructions
D1255/D1255B Installation Instructions
Keypads
D1256/D1257 Installation Instructions
D1260/D1260B Installation Guide
D1260/D1260B Owner’s Manual
50410
D720 Series Installation Instructions
74-06918-000
46458
D279A Operation and Installation Instructions
Security System Owner's Manual
71-06633-000
F01U143082
4998141259
GV3 Series Owner's Manual Supplement
RPS Installation Guide
Programming
Tools
D8128D Installation Guide
Expansion
Devices
F01U070537
F01U034973
F01U161691
32206
D8125MUX Operation & Installation Guide
ISW-D8125CW-V2 Installation & Operation Guide
D9210B Operation and Installation Guide
These products meet the requirements for UL 864 Commercial Fire applications.
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D9412GV3/D7412GV3 | Operation and Installation Guide | 2.0
Lightning Strikes
.
2.0 Lightning Strikes
The control panels are designed to significantly
reduce electromagnetic interference and malfunction
generally caused by lightning.
2.1
Effects
Any electronic system can be struck directly by
lightning or be adversely affected by a lightning strike
near the system. When lightning strikes, several
things happen:
An electromagnetic wave spreads from the point
of the strike inducing high voltages in nearby
conductors.
The voltage changes substantially on electrical
grounds near the lightning strike.
High voltages are induced in anything directly
struck by lightning.
The effects of a lightning strike can include Missing
Trouble, Missing Alarm, or Point Bus Trouble events.
Occasionally, Reboot and Watchdog events might be
sent because the control panel tried to reset itself.
Electronic systems, including control panels, cannot
be completely immune to direct or indirect lightning
strikes; however, some proven installation practices
might greatly reduce the risk of undesirable affects.
2.2
Precautions during Installation
To minimize the risk of undesirable effects from
lightning strikes on high risk installations that use a
point-bus technology:
Do not run wiring outside the building.
If you must install the unit in a metal building,
keep the wiring at least 0.61 m (2 ft) away from
external metal surfaces.
Earth ground the unit correctly. Do not use an
electrical ground or telephone ground.
Avoid running wires near telephone, data, or
power lines inside a building. Historical evidence
shows that locating control panel wiring at least
0.61 m (2 ft) away from telephone, data, or power
lines is successful at minimizing lightning
damage. When your data lines must cross the
path of AC or other wiring, cross the lines
perpendicularly.
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D9412GV3/D7412GV3 | Operation and Installation Guide | 3.0
Overview
.
3.0 Overview
3.1
Configuration and Parts
Figure 1: System Configuration
D8129 OctoRelay provides alarm
and auxiliary relay output.
(Other functions available.)
D9210B Modules can be
used for access control.
Each D8128D OctoPOPIT combines
eight POPIT points in one module.
DX4020 or ITS-DX4020-G allows
communciation over a Local or Wide
Area Network (LAN/WAN).
Control
Panel
D928 Module allows the control
panel to monitor two phone lines.
D8125, ISW-D8125CW-V2 or D8125MUX
Interface used for point expansion.
On-Board Points
1 to 8
D8132 Modules (two 12 VDC batteries)
provide additional power for keypads and
other powered devices.
Use keypads or keyswitches to arm the control panel by
area. The D9412GV3 control panel supports up to 32 areas.
The D7412GV3 control panel supports up to 8 areas. Each
area can have its own account number or areas can be
grouped together with a common account number. Points of
protection are assigned to areas.
D9131A Module connects
to a parallel printer to print
the event log.
Table 2:
GV3 Series Control Panel Differences
D9412GV3
Features
D7412GV3
D7212GV3
Yes - 8 doors
Yes - 2 doors
No
Access Control
Arm/Disarm Passcodes
Cards/Tokens
249
996
16
99
396
4
99
N/A
4
Passcode-Protected Custom Functions
Number of Printers
3
1
1
Number of Points
246
128
32
75
64
8
40
24
4
Number of Relays
Number of Areas
Number of D1255 Keypads
Number of D1260 Keypads
16
16
8
8
8
8
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D9412GV3/D7412GV3 | Operation and Installation Guide | 3.0
Overview
.
D1255B, D1255, D1256, D1260, D1260B
Keypad, or D720 Keypad
D1255RB Fire Keypad, D1256RB Fire Keypad, or
D1257RB Fire Alarm Annunciator
D1640 Transformer
3.1.1 Parts List
The D9412GV3 andD7412GV3 Control Panels are
shipped assembled from the factory with the following
parts:
Literature Pack
D126 or D1218 Battery
D9412GV3/D7412GV3 Program Record Sheet
(P/N: F01U170809)
D161 or D162 Phone Cord (order two cords if
using the D928 Dual Phone Switcher)
D8103, D8108A, or D8109 Enclosure
7000/9000 Series Point Chart Label
(P/N: 79-06660-000)
Configured packages are also available. Please
consult the Bosch Security Systems, Inc. Product
Catalog.
Assembly
PC board
Faceplate shield
Mounting skirt
The following literature is available in a separate
literature package for dealers.
One #6 x 1/4-in. screw
D9412GV3/D7412GV3 Operation and Installation
Guide (P/N: F01U143070)
D9412GV3/D7412GV3 Approved Applications
Compliance Guide (P/N: F01U143069)
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807)
3.1.2 Parts Available by Separate Order
Order the following components separately to
complete a basic eight-point installation.
The D1260 and D1260B Keypads must
have firmware version 1.04 or higher for
use with the D9412GV3 and D7412GV3.
D9412GV3/D7412GV3 Program Record Sheet
(P/N: F01U170809)
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D9412GV3/D7412GV3 | Operation and Installation Guide | 3.0
Overview
.
3.2
Accessories
Refer to the Bosch Security Systems, Inc. product catalog for additional information.
Table 3:
Compatible Accessories1
Model
Title
UL 864
Fire
X
Intrusion
D122/D122L
D125B
Dual Battery Harness
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Powered Loop Interface Module
X
D127
D129
Reversing Relay
Dual Class A Initiation Circuit Module
Relay Module
X
X
D130
X
D185
Reverse Polarity Module
Bell Circuit Supervision Module
Independent Zone Control (On-Board and OctoPOPIT Points)
LED Keypad (red)
X
D192G
X
X
D279A
D720R
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
D720W
LED Keypad (white)
D928
Dual Phone Line Switcher
Fire Keypad
X
X
X
X
X
D1255RB
D1256RB
D1257RB
D1218
Fire Keypad
Fire Alarm Annunciator
12 V, 17.2 Ah Rechargeable Battery
Keypads (General Purpose)
Text Keypad (red)
D1255/D1255B
D1255R
D1255W
D1256
Text Keypad (white)
Fire Keypad
Fire Alarm Annunciator
D1257
D1260/D1260B2
D1640
Keypads
X
X
X
X
X
16.5 VAC 40 VA Transformer
Transformer Enclosure
X
X
X
X
D8004
D8125
POPEX Module
D8125MUX
ISW-D8125CW-V2
D8128D
D8129
Multiplex Bus Interface
Commercial Wireless Interface Module
OctoPOPIT Module
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
OctoRelay Module
D8130
Release Module
D8132
Battery Charger Module
POPIT Module
D9127U/T
D9131A
D9210B
DX4020
ITS-DX4020-G
ICP-SDI-9114
ZX776Z
ZX794Z
ZX865
X
Parallel Printer Interface Module
Access Control Interface Module
Network Interface Module
GPRS/GSM Communicator
SDI Splitter
PIR Motion Sensor [15 m (50 ft)] with POPIT
PIR Motion Sensor [24 m (80 ft)] with POPIT
PIR/Microwave Motion Sensor [+1.7C (+35F)] with POPIT
PIR Motion Sensor [18 m (60 ft)] with POPIT
PIR/Microwave Motion Sensor [+1.7C (+35F)] with POPIT
X
X
X
X
ZX938Z
ZX970
1
Where the fire alarm transmitter is sharing on-premise communications equipment, the shared equipment must be UL Listed (ITE
or fire protective signaling).
2
Version 1.04 or above
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D9412GV3/D7412GV3 | Operation and Installation Guide | 3.0
Overview
.
3.3
Features in the D9412GV3 and
D7412GV3
Any points programmed as fire
supervisory points are latching.
3.3.1 SDI Molex Connector
Use the SDI Molex Connector to easily connect an
SDI device to the SDI bus without needing to
disconnect wires connected to the SDI terminals.
Possible applications include:
3.3.5 Areas and Accounts
The D9412GV3 supports up to 32 areas. The
D7412GV3 supports up to 8 areas. You can assign all
points to a single area or distribute them over all
supported areas.
Connecting a DX4010i to program the control
panel with Remote Programming Software (RPS)
at the premises
The control panel is armed and disarmed by area,
and several areas can be armed and disarmed with
one menu function. A passcode can also be assigned
an authority level that allows a user to arm an area
from a remote keypad in another area.Assigning each
area its own account number creates up to 32
separate accounts in the D9412GV3, and up to 8
separate accounts in the D7412GV3. Assigning the
same account number to different areas groups them
together in a single account.
Connecting a keypad to test the control panel.
Do not connect the D5200 Programmer to
the SDI Molex connector.
Control panel firmware v8.11 or later
does not support the D5200.
UL requires that the DX4010i be used for
programming only.
Area options include exit tone and delay, separate fire
and burglary outputs, and multiple opening and
closing windows. Area type can be used to create
area interdependencies for arming purposes.
3.3.2 Tip and Ring Posts
3.3.6 Digital Communicator
The tip and ring posts allow connecting a phone or
buttset for the purpose of troubleshooting
communications between the control panel and the
central station. This connection allows monitoring of
the dial tone, handshaking tones from the receiver,
and communications signals.
The control panel uses a built-in digital communicator
to send reports to the receiver. The control panel
sends reports in either the Modem IIIa2 or ANSI-SIA
Contact ID format. All software versions for the D6600
can be used with the control panel.
The control panel connects to an RJ31X or RJ38X
jack for telephone line seizure. Connecting to the
RJ31X complies with FCC regulations for using the
public telephone network. The control panel can be
programmed to direct reports to four separate
telephone numbers. Adding the D928 Dual Phone
Line Switcher Module allows connecting and
supervising a second telephone line.
3.3.3 Telephone Line Sniff
The D9412GV3 and D7412GV3 control panels
monitor the phone line for the programmed
supervision interval before indicating a phone line
trouble.).
3.3.4 Points
The Bosch Security Systems, Inc. D9412GV3 Control
Panel provides up to 246 points of protection. The
D7412GV3 Control Panel provides up to 75 points of
protection. Point programming parameters determine
the control panel’s response to open and shorted
conditions on the sensor loop for the point. Several
options allow individual point programming to custom-
fit the protection to the installation.
The system can route groups of Event Reports to four
different destinations. Each report group can be
programmed to send reports to one or more
destinations. Primary and backup reporting paths can
be programmed for each destination and each report
group. A custom option allows specification of
individual Event Reports to be sent.
Points 1 to 8 are located on the circuit board (on-
board points). They are standard sensor loops. The
remaining off-board points are POPIT points using
D8128D OctoPOPITs, D8125 POPEX Modules and
D9127 POPITs, or the ISW-D8125CW-V2
Commercial Wireless Interface Module.. MUX devices
can also be used with the D8125MUX.
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Overview
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3.3.7 Keypads
3.3.9 Access Control
Up to 32 unsupervised keypads can be connected to
the system. The available power, number of
supervised keypads, and number of areas covered
affect the total number of keypads that can be
connected.
The D9412GV3 can control eight access doors (each
requiring the optional D9210B Wiegand Control
Interface Module) with up to 996 uniquely identified
cards or tokens. The D7412GV3 can control two
access doors with up to 396 uniquely identified cards
or tokens. Any of the following can grant access:
The system can supervise up to sixteen D1255
keypads (all models), and up to eight D1260 keypads
(all models). The control panel sends a Serial Device
Trouble Report, SDI FAILURE in the Modem IIIa2
format or Expansion Module Failure (333) in Contact
ID format, if it loses communication with a supervised
keypad.
Wiegand-style access control device (card
reader) connected to the D9210B Access Control
Interface Module
Request to enter (RTE) or request to exit (REX)
input
Unlock command on a keypad
The access control features of the D9412GV3 and
D7412GV3 can deny access during armed periods.
The control panel can also grant access only to
certain authorized users depending on whether the
area is master armed, perimeter armed, or disarmed.
Programming for automatic disarming when
designated authorized users are granted access is
also possible.
More than 16 keypads can be added, but the system
can only supervise up to 16 keypads. Table 4 on page
13 shows the keypads that are compatible with the
D9412GV3 and D7412GV3 Control Panels. Refer to
Keypad in the D9412GV3/D7412GV3 Program Entry
Guide (P/N: F01U170807) for complete details on
programming keypad options.
3.3.10 Event Memory
UL requires all Fire System keypads to be
supervised.
The control panel retains point alarm and trouble
events in memory for each area. A D1255 (any
model) or a D1260 (any model) can be used to view
event memory by using COMMAND 40. The control
panel clears the previous events for an area from the
event memory when the area is armed.
Table 4:
Compatible Keypads
Model
Display
Application
3.3.11 Event Log
D1255/
D1255B/D alphanumeric
1255RB
16-character
Fire/Burglary/Access
The system stores 800 events from all areas in its
event log. For example, the system adds at least two
items to the log each time an area is armed or
disarmed, the open (or close) event that also contains
the previous arming state.
D1256/
D1256RB
16-character
alphanumeric
Fire
D1257/
D1257RB
16-character
alphanumeric
Fire
All events can be stored even if the control panel
does not send a report for them. The log can be
viewed at a keypad, printed locally using the D9131A
Parallel Printer Interface Module and a parallel printer,
or uploaded using Remote Programming Software
(RPS).
D1260/
D1260B
4-line by 20-
character
8 LED
Fire/Burglary
Fire/Burglary
D720/
D720B
3.3.8 Keyswitch
Maintained or momentary closure devices such as
keyswitches allow any of the available areas to be
armed or disarmed. Point programming determines
the loop responses and which area a keyswitch
controls.
For a list of the log events, refer to the appendix in the
user’s guide for the keypad.
3.3.12 Ground Fault Detection
The Earth Ground Terminal on the control panels is
electrically isolated from all other terminals to allow
the D9412GV3 and the D7412GV3 to detect ground
fault conditions. A Ground Fault Detect Enable switch
(S4) is located just under Terminal 10, Earth Ground,
on the control panel. Refer to Section 4.5.2 Ground
Fault Detect Enable on page 15 for information on
operating this function.
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3.3.13 Ground Fault Detection Added Feature
Skeds (scheduled events)
Limited local programming available in the
Service Menu
When Ground Fault Detect is enabled (S4 closed),
Points 1 to 8 can be used for non-powered fire-
initiating devices such as heat detectors, four-wire
smoke detectors, and pull stations. A D125B Powered
Loop Interface or a D129 Dual Class A Interface
Module is not required when connecting the non-
powered fire-initiating devices to Points 1 to 8.
4.0 Installation
4.1
This section contains a general installation procedure
and refers to other sections of the document for
detailed instructions.
Installation Preparation
3.3.14 Conettix Functions
The D6600 Conettix System supports data network
communications. Conettix allows the D6600 Receiver
to connect to various network technologies including
Ethernet and GPRS (General Packet Radio System).
Connecting to a data network is possible using the
COM4 or COM1 connection from the D6600 Receiver
to the D6680 Network Adapter. Control panels can
send reports through telephone lines, Ethernet,
Token-Ring or GPRS networks to the D6600 receiver
at the central station. Once events are received, they
can then be issued to automation software or a
network printer through a local area network (LAN) or
wide area network (WAN).
Review this document and the D9412GV3/D7412GV3
Program Entry Guide (P/N: F01U170807) before
beginning the installation to determine the hardware
and wiring requirements for the features used.
Have the following documentation available when
reading through this guide:
D9412GV3/D7412GV3 Program Record Sheet
(P/N: F01U170809)
Security System Owner’s Manual
(P/N: 71-06633-000) and GV3 Series Owner’s
Manual Supplement (P/N: F01U143082)
Installation manual for keypad or annunciator
(D1255 all models, D1255RB, D1256, D1256RB,
D1257, D1257RB, D1260 all models, or D720 all
models)
Sending events to the central station over a LAN or
WAN requires a network interface module (NIM), such
as the DX4020. Sending events over GPRS requires
a special NIM, the ITS-DX4020-G.
Before installation, become familiar with the operation
of RPS or the local Programmers menu.
3.3.15 Programming
Use the Remote Programming Software (RPS), or the
local Programmers Menu, to program the D9412GV3
and D7412GV3 Control Panels. Refer to the
D9412GV3/D7412GV3 Program Entry Guide (P/N:
F01U170807) for programming options.
4.2
Enclosure Options
Mount the control panel assembly in any of the Bosch
Security Systems, Inc. enclosures listed:
D8103 Universal Enclosure (tan)
D8109 Fire Enclosure (red)
D8108A Attack Resistant Enclosure (tan)
3.3.16 Other Features
D9412GV3 and D7412GV3 Control Panels have
many programmable features. Some of the features
are listed below. Complete details on all features are
in the D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807).
Refer to the D9412GV3/D7412GV3 Approved
Applications Compliance Guide (P/N: F01U143069) to
determine if the application requires a specific
enclosure.
4.3
Mounting Enclosure
Supervision of AC (primary power), battery
(secondary power), Zonex and SDI buses, central
processing unit (CPU), up to three printers, and
two telephone lines
Automatic System Test Reports
Remote access for programming, diagnostics,
and log uploads using the remote programming
software (RPS)
1. Run the necessary wiring throughout the
premises.
2. Mount the enclosure in the desired location. Use
all five enclosure mounting holes. Refer to
Figure 2.
3. Pull the wires into the enclosure.
Fire alarm verification
Programmable alarm output
Programmable relay output using the D8129
OctoRelay Module
Electromagnetic interference (EMI) can
cause problems on long wire runs.
Opening and closing windows
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Figure 2: Enclosure Mounting
3
2
4
1
2
7
8
3
5
9
6
1 - Point chart label
2 - Mounting skirt hooks (2)
3 - Module mounting holes (12)
4 - Tamper switch mounting holes (5)
5 - Skirt mounting hole (1)
6- Enclosure mounting holes (5)
7 - Mounting skirt hook holes (2)
8 - Back of D9412GV3/D7412GV3 Control Panel
9 - Lock down tab
4.4
Installing the Control Panel
4.5
Connecting Earth Ground
1. Place the control panel over the inside back of the 4.5.1 Terminal 10
enclosure, aligning the large rectangular openings
of the mounting skirt with the mounting hooks of
the enclosure. Slide the control panel down so
that it hangs on the hooks. Refer to Figure 2, Item
2 on page 15.
To help prevent damage from electrostatic charges or
other transient electrical surges, connect the system
to earth ground at Terminal 10 before making other
connections. Recommended earth ground references
are a grounding rod or a cold water pipe.
2. Remove the tape from the #6 x 1/4-in. screw in
the mounting tab on the control panel. The screw
passes through the mounting tab and into the
skirt mounting hole in the enclosure. Tighten the
screw to secure the control panel in the
enclosure.
Caution: Do not use telephone or
electrical ground for the earth ground
connection. Use
1.8 mm (14 AWG) to 1.5 mm (16 AWG)
wire when making the connection.
Do not connect other control panel
terminals to earth ground.
3. Connect earth ground to the control panel before
making any other connections. Refer to Section
4.5 Connecting Earth Ground.
4.5.2 Ground Fault Detect Enable
To meet UL 864 requirements, enable
Ground Fault Detect.
A ground fault is a circuit impedance to earth ground.
The control panel has a ground fault detection circuit
that, when enabled, detects ground faults on
Terminals 1 to 9 and 11 to 32. The control panel also
detects and annunciates ground faults on any device
connected to it.
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If a ground fault condition occurs, the keypads display
SERVC GND FAULT and the control panel transmits
a GROUND FAULT TROUBLE, AREA 1.
Table 5:
Ground Fault Impedance
Specifications
When the control panel recognizes that the ground
fault condition is corrected, and remains corrected for
between 5 to 45 consecutive sec, a Restoral Report is
sent.
Impedance
Control Panel Detects Ground Fault
≤ 300 Ω
Yes
300 Ω to
200 kΩ
≥ 200 kΩ
Detection depends upon the terminal
No
The D9412GV3 and D7412GV3 Control
Panels log and print a Ground Fault event
as a Trouble Point 256 if communicating
in Modem IIIa2 format. If communicating
in Contact ID format, the control panels
generate a Ground Fault (310) event.
4.5.5 Locking the Reset Pin
Locking the reset pin disables the control panel
(Figure 4). When the control panel is disabled, the
system ignores most keypad commands and points.
CALL FOR SERVICE appears in keypad displays
when the pin is locked down.
4.5.3 Enabling Ground Fault Detection
To enable Ground Fault Detect Enable, lock (close)
the S4 Ground Fault Detect Pin on the control panel
(Figure 3).
On-board relays (Terminals 6 and 7) and off-board
relays deactivate when the control panel is reset.
Terminal 8 has power when the relay is deactivated.
Activation interrupts power at that terminal. The on-
board relay (Terminal 8) remains deactivated when
the reset pin is locked in the disable position.
Figure 3: Enabling Ground Fault Detection
Releasing the reset pin from the closed position
resets the control panel. The control panel resets all
its timers, counters, indexes, and buffers. Any points
that restore after a reset do not generate Restoral
Reports.
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Figure 4: Reset Pin
1 - S4 Locked (Closed). Control panel detects
ground faults.
2 - S4 Unlocked (Open). Control panel does not
detect ground faults.
4.5.4 Ground Fault Specifications
Table 5 provides the impedance specifications for
detecting ground faults when any terminal or field
wiring is shorted to ground.
1 - Reset pin locked (closed)
2 - Reset pin normal (open)
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Installation
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Instructions for the D8125 POPEX Module,
4.6
Completing the Installation
D8128D OctoPOPIT Module, D8129 OctoRelay
Module, D811 Arm Status Relay Module, and
D928 Dual Phone Line Switcher appear in this
guide.
If not already complete, make the earth ground
connection to Terminal 10 and lock the reset pin in
the closed position.
4.6.1 Charging the Battery
Refer to Section 9.0 Off-Board Points on page
36 for D8125 and D8128D instructions. Refer to
Section 10.0 Off-Board Relays on page 50 for
D8129 and D811 instructions. Refer to Section
7.11 D928 Dual Phone Line Switcher on page 30
for D928 instructions.
Connect the battery, then the transformer to allow the
control panel to charge the battery while you complete
the installation. Refer to Section 5.0 Power Supply on
page 22 for instructions.
On-board Buzzer Sounds at Power Up and Reset:
The system performs a series of self-diagnostic tests
of hardware, software, and programming at power up
and at reset. The buzzer on the control panel sounds
during the tests. The self-diagnostics tests complete
in approximately 1 to 3 sec.
3. If using the power outputs at Terminals 7 or 8,
refer to Section 6.4 Programmable Power Output
Terminals 6, 7, and 8 on page 27 for
instructions.
4.6.4 Connecting the On-board Points and
Keypads
If the control panel fails any test, the buzzer continues
sounding and a System Trouble message appears at
the keypads.
4. Connect the on-board points and keypad wiring to
the system. Refer to Section 8.0 On-Board Points
on page 31 and Section 11.0 Arming Devices on
page 55 for instructions.
Touch Terminal 10 First: If the on-board buzzer
sounds briefly when the control panel is touched, any
static charge you carry discharges to the control
panel.
4.6.5 Powering Up
Reconnect the battery, then plug in the transformer.
The buzzer sounds for two sec when the control panel
is powered up. Leave the reset pin in the locked
position.
Avoid electrostatic discharge. Always
touch Terminal 10, the earth ground
connection, before beginning work on the
control panel.
Yellow Charging Status LED Remains Lit: If the
yellow charging status LED remains lit after five
minutes of powering up the control panel, either the
battery is deeply discharged or too many powered
devices were connected to the control panel.
Combined continuous current draw for Terminals 3, 8,
24, and 32, and the accessory connector cannot
exceed 1.4 A. Refer to Section 6.0 Power Outputs on
page 26 for help.
If the control panel receives an electrostatic
discharge, it might generate Watchdog Reset and
Param Fail events.
4.6.2 Installing and Wiring Detection Devices
Install and wire detection devices and keypads at their
locations throughout the premises. Do not connect
the control panel yet.
Section 8.0 On-Board Points on page 31 contains
instructions for wiring the on-board points to detection
devices. Section 11.0 Arming Devices on page 55
contains instructions for wiring the keypads.
4.7
Programming the Control Panel
If the control panel is not already programmed, review
the D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807). Ensure that all accessory
modules for desired features are available for
installation.
Instructions for wiring the off-board point POPIT
sensor loops are found in the instructions packaged
with the POPIT modules.
Use RPS to load a custom program into the control
panel as needed.
4.6.3 Installing Modules and Relays
1. Power down the unit by unplugging the
transformer and disconnecting the battery.
Always power down the unit when
installing modules or relays, or when
making wiring connections to the control
panel.
2. Install and wire any modules required for the
installation as described in the module’s
installation instructions.
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Installation
.
4.8
Installing the Point Chart Label
Only Walk Test Start and Walk Test End
are reported to the central station.
The point chart label is required for fire
systems with verifications points.
The D9131A can be configured for local
printing. Refer to the D9412GV3/
D7412GV3 Program Entry Guide
(P/N: F01U170807).
A point chart label is included in the literature pack.
Install the point chart label for fire or combined fire-
and-burglary systems that use verification points.
Use the D9412GV3/D7412GV3 Program Record
Sheet (P/N: F01U170809) to gather the necessary
information for completing the point chart. Fill out the
label and install it on the inside of the enclosure door
(refer to Figure 2 on page 15).
During a Service Walk Test, the summary
alarm and summary fire remain off,
because there are no Fire or Burg alarm
conditions to summarize. The P# Relay
Response Type feature operates as
programmed.
Avoid smearing the entries on the chart.
Use the peel-off backing to press the
label in place.
Service Walk Test Procedure.
Refer to Figure 5 on page 20 and Figure 6 on page 21
for Service Walk Test options. Refer to the Walk Test
procedures in the GV3 Series Owner’s Manual
Supplement (P/N: F01U143082) when using a D1260
or D1260B Keypad.
4.9
Testing the System
After installing and programming the control panel,
test the system completely. Test the control panel and
all devices for proper operation.
1. Choose a keypad to conduct the test. Ensure that
the display shows the idle disarmed text.
Test after initially programming the control
panel.
2. Press the [MENU] key to enter the Function List.
Press [NEXT] repeatedly until the SERVICE
WALK ? prompt appears.
To meet UL 864 requirements, perform a
full system test after any subsequent
programming session.
3. Press [ENT], or press [9][9] followed by [ENT] to
reach the Service Menu to access the Service
Walk Test.
Refer to Section 4.10 Service Walk Test on page 18
for complete Service Walk Test instructions.
Clear after Test: To clear the event memory and
report buffer, momentarily close the reset pin. Events
stored in the control panel’s event log are not cleared.
The D7412GV3 does not include the
Service Walk Test in the Service Menu.
Enabling the Service Walk Test function
in the Function List provides access to
the Service Walk Test in the D9412GV3.
4.10 Service Walk Test
The Service Walk Test differs from the standard Walk
Test. In the standard Walk Test, POPITs whose
switches are set for a point number not programmed
in the control panel do not appear in the test. In the
Service Walk Test, POPITs whose switches are set
for a point number that is not programmed in the
control panel do appear in the test.
4. The display shows ### PTS TO TEST .Test the
first detection device.
5. When a detection device is faulted, the keypad
emits a brief tone and displays the point text of
the point tested for 60 sec. After 60 sec, the
display returns to the ### PTS TO TEST
message.
The Service Walk Test allows a user to walk test all
246 points from a control-panel-wide keypad,
regardless of the point index type.
Extra Points display default text: If the switches on
a POPIT are set incorrectly to a point number that is
not in the program for the control panel, the default
text for that point number (PT ###) appears when the
point is faulted. Refer to the control panel’s program
record sheet for the default text for all points.
A Service Walk Test can also be initiated by account-
wide or area-wide keypads but test only those points
that are within the scope of the keypad that initiated
the function. The Service Walk Test does not test
points in armed areas.
Faulting the point a second time produces the tone
and shows the point text, but does not decrease the
count in the ## PTS TO TEST message.
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Installation
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6. After the last point is tested, 0 PTS TO TEST
appears. Press [ESC]. The display shows ALL
PTS TESTED briefly before returning to idle text.
5. To see the points that remain untested during the
Service Walk Test:
a. Press [ESC] when point text appears. The
display shows ## PTS TO TEST.
The Service Walk Test, when performed
on a D7412GV3, cannot display “0 PTS
TO TEST” because the D7412GV3 is
physically unable to connect to the
second POPEX Module (used for Points
129-247).
b. Press the [ESC] key. VIEW UNTESTED ?
appears.
c. Press [ENT]. ## PTS UNTESTED appears.
d. Press [NEXT] to see a list of the points that
have not yet been tested. Move through this
list by pressing the [NEXT] key.
Automatic time-out returns the system to
idle text: If there is no point or keypad
activity for 20 min., the Service Walk Test
ends automatically. The keypad returns to
idle text.
e. To resume the Service Walk Test, press
[ESC]. ## PTS UNTESTED appears.
f. Press [ESC]. ## PTS TO TEST appears.
g. Resume testing points. To end the Service
Walk Test, press [ESC] twice.
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Installation
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Figure 5: D9412GV3 Service Walk Test Flow Chart
SERVICE WALK?
[ENT]
246 PTS TO TEST
[ESC]
Test a device
POINT TEXT
(Text displays for 60 seconds)
245 PTS TO TEST
[ESC]
Test a device
POINT TEXT
(Text displays for 60 seconds)
244 PTS TO TEST
[ESC]
Test a device
POINT TEXT
1 PTS TO TEST
[ESC]
Test a device
0 PTS TO TEST
IDLE TEXT
[ESC]
VIEW UNTESTED?
[ENT]
# PTS UNTESTED
[NEXT]
[ESC]
[ESC]
POINT TEXT
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Installation
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Figure 6: D7412GV3 Service Walk Test Flow Chart
SERVICE WALK?
[ENT]
75 PTS TO TEST
[ESC]
Test a device
POINT TEXT
(Text displays for 60 seconds)
74 PTS TO TEST
[ESC]
Test a device
POINT TEXT
(Text displays for 60 seconds)
73 PTS TO TEST
[ESC]
Test a device
POINT TEXT
1 PTS TO TEST
[ESC]
Test a device
0 PTS TO TEST
IDLE TEXT
[ESC]
VIEW UNTESTED?
[ENT]
# PTS UNTESTED
[NEXT]
[ESC]
[ESC]
POINT TEXT
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Power Supply
.
4. Plug the transformer into an unswitched, 120
VAC, 60 Hz power outlet only.
5.0 Power Supply
5.1
5. Secure the transformer to the outlet with the
screw provided.
Primary Power Terminals 1 and 2
5.1.1 Primary (AC) Power Circuit
D8004 Transformer Enclosure Required for Fire
Systems
The primary source is a 16.5 VAC, 40 VA, internally-
fused transformer (Bosch Security Systems, Inc.
Model D1640). The control panel draws 200 mA when
idle and 300 mA when in an alarm state. The total
available auxiliary current is 1.4 A.
Use the D8004 Transformer Enclosure for the D1640
Transformer in fire and combined fire and burglary
applications.
Check with the Authority Having
Jurisdiction (AHJ) about mounting
transformers on specific circuits.
Transient suppressors and spark gaps protect the
circuit from power surges. This protection relies on
the ground connection at Terminal 10. Ensure that
you connect Terminal 10 to a proper ground. Refer to
Section 4.5 Connecting Earth Ground on page 15.
5.2
Secondary Power Terminals
AC Power Fail
5.2.1 Secondary (DC) Power
The system indicates an AC power failure when
Terminals 1 and 2 do not have power. The AC Fail
Time parameter sets the number of minutes or
seconds without AC power before the control panel
acknowledges the failure and the number of minutes
or seconds after the power returns before the control
panel acknowledges restored power. Refer to the
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807) for additional information about
AC Fail Time and UL 864 requirements.
A 12 V sealed lead-acid rechargeable battery (D126)
supplies secondary power for auxiliary and alarm
outputs, and powers the system during interruptions
in primary (AC) power.
Use Lead Acid Batteries Only: The
charging circuit is calibrated for lead-acid
batteries. Do not use gel-cell or nicad
batteries.
Extra Batteries Increase Back-up Time
5.1.2 Installing the Transformer
To increase battery back-up time, connect a second
12 V battery in parallel to the first battery. Use a D122
Dual Battery Harness to ensure proper and safe
connection. Refer to the Standby Battery and Current
Rating Chart in the D9412GV3/D7412GV3 Approved
Applications Compliance Guide (P/N: F01U143069)
for battery standby time calculations.
Do not short-circuit the terminals of the
transformer: Shorting the terminals
opens the internal fuse, causing
permanent failure. Connect the
transformer to Terminals 1 and 2 of the
control panel before plugging it into the
power source.
D1218 Battery
The D1218 is a 12 V, 18 Ah battery for use in
applications requiring extended battery standby time.
Up to two D1218 batteries can be connected when
used with a D122 Dual Battery Harness.
1. Use 1.22 mm (18 AWG) wire (minimum) to
connect the transformer to the control panel.
The wire length should be as short as possible.
The maximum length is 15 m (50 ft). Connect the
battery and plug in the transformer.
Caution: When connecting two D1218
Batteries to the control panel, both must
have the same capacity (use two 17.2 Ah
batteries or two 18 Ah batteries).
2. Route telephone and sensor loop wiring away
from any AC conductors, including the
transformer wire.
AC wiring can induce noise and low level voltage
into adjacent wiring. Route data wiring away from
AC and telephone wiring.
When using two D1218 batteries, use a
separate enclosure, a D122L Dual
Battery Harness, and long leads.
Always connect the battery first and then
plug in the transformer.
5.2.2 Installing the Battery
1. Place the battery upright in the base of the
enclosure.
3. Connect the battery. Refer to Section 5.2.2
Installing the Battery on page 22.
2. Locate the red and black leads supplied in the
literature pack.
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Power Supply
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3. Connect the black battery lead to Terminal 4, and
Figure 7: Battery Terminals
then to the negative (-) side of the battery.
4. Connect the red battery lead to Terminal 5, and
then to the positive (+) side of the battery.
Warning: High current arcs are possible.
The positive (red) battery lead and
Terminal 5 can create high current arcs if
shorted to other terminals or the
enclosure. Use caution when working
with the positive lead and Terminal 5.
Always disconnect the positive (red) lead
from the battery before removing it from
Terminal 5.
Caution: The battery terminals and wire
are not power limited. A 6.4 mm (0.250
in.) space must be maintained between
the battery terminals, battery wiring, and
all other wiring. Battery wiring cannot
share the same conduit, conduit fittings,
or conduit knock-outs with other wiring.
1 - Battery terminals. Terminal 5 is non-power
limiting.
Figure 8: Non-Power-Limited Wiring
1 - Conduit required for use with external batteries. 4 - Relay output wires
2 - Battery wires
5 - Input or Zone wires
6 - Standby battery
3 - 6.4 mm (0.25 in.) minimum. To ensure proper
spacing, use tie-wraps or similar devices to
secure wires.
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Power Supply
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5.2.3 Replacing the Battery
Figure 9: Charging and Battery LEDs
Replace batteries every 3 to 5 years under normal
use. Record the date of installation directly on the
battery.
LEDs Off When Normal
Caution: Exceeding the maximum output
ratings or installing the transformer in an
outlet that is routinely switched off causes
heavy discharges. Routine heavy
discharges can lead to premature battery
failure.
10.2 VDC - Battery Load Shed
YELLOW - Charging Status
D8132 Boost Battery Backup: Adding a D8132
Battery Charger Module supports additional batteries
of up to 27 Ah capacity, if required.
RED - Low Battery - 12.1 VDC
The control panel, plus any connected D8132
Modules and auxiliary power supplies, must be on the
same AC circuit to discharge evenly if AC power fails.
The number of D8132 Modules is determined by the
number of available outlets on the same circuit. Refer
to the Standby Battery and Current Rating Chart in
the D9412GV3/D7412GV3 Approved Applications
Compliance Guide (P/N: F01U143069) for battery
standby time calculations.
Investigate Low Battery reports immediately: If
primary (AC) power is off and the discharge
continues, the control panel becomes inoperative
when the battery voltage drops below 10.2 VDC.
5.2.5 Battery Charging Circuit
Float Charge
The float voltage for the battery charging circuit is
13.9 VDC at a maximum current of 1.4 A, less any
devices connected to the control panel. If the float
voltage drops below 13.8 VDC due to overload or
battery discharge, the yellow Charging Status LED
lights.
5.2.4 Battery Supervision
When battery voltage drops to 13.8 VDC, the yellow
Charging Status LED illuminates. When the battery
voltage drops to 12.0 VDC to 11.8 VDC, the red Low
Battery LED lights, and the keypad or keypads display
SERVC LOW BATT. The control panel (if
Loss of AC Load Shed Relay protects battery:
During an AC power loss, the battery supplies all
power to the security system. If the battery voltage
falls below 10.0 V during an AC power loss, a load
shed relay isolates the battery from the control panel
and disables the control panel. Load shed protects
the battery from being damaged by deep discharge.
When AC power restores, the load shed relay
reconnects the charging circuit on the control panel to
the battery and the battery begins to recharge.
programmed for power supervision) sends a
BATTERY LOW report in the Modem IIIa2
communication format. It sends a Low System
Battery (302) report in the Contact ID format.
If the battery is missing or shorted, the red Low
Battery LED flashes at the same rate as the green
Operation Monitor LED. If the control panel is
programmed for power supervision, it sends a
BATTERY MISSING report in the Modem IIIa2
communication format, or Control Panel Battery
Missing (311) report in the Contact ID format.
Overcharge Load Shed With AC Present: If more
than 1.4 A of auxiliary current draw from the control
panel occurs, the battery supplies the current and
begins to discharge. If this situation is not corrected,
the battery continues to discharge and at 11.8 VDC to
12.0 VDC, the keypads display Serv Low Batt.
When battery voltage returns to 13.7 VDC, the Low
Battery LED turns off and the keypad or keypads
clear the SERVC LOW BATT message. If the control
panel is programmed for power supervision, it sends
a BATTERY RESTORAL report in the Modem IIIa2
communication format or a Control Panel Battery
Restored to Normal (302) report in the Contact ID
format. At 13.9 VDC, the yellow Charging Status LED
stops lighting.
When the battery voltage drops below 10.0 VDC, the
control panel shuts down. Remove all loads to the
control panel and disconnect AC power. Fix the
condition creating the over current. Add a new battery
and reconnect AC power.
A shorted battery condition is created either by a
shorted cell inside the battery or by a short on
Terminals 4 and 5. A shorted battery might cause the
control panel to operate in an unsafe way. This
condition generates WATCHDOG RESET reports.
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Power Supply
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Reset the control panel by momentarily placing the
reset pin in the disable position. Refer to Figure 4 on
page 16. The red Low Battery LED continues flashing
until the control panel resets.
5.2.6 Battery Discharge and Recharge Schedule
Table 6: Battery Discharge and Recharge
Schedule
Discharge Cycle
AC Off:
AC Fail Report when AC fails, if
control panel is programmed to
report AC failure at occurrence.
13.9 VDC:
13.8 VDC:
12.0 VDC:
Charging float level.
Charging status LED on.
Low Battery and AC Fail Reports if
programmed. Low battery LED on.
<10.0 VDC:
Battery load shed (processing
functions continue if AC is present).
Recharge Cycle
AC On:
Load shed relay reset; battery
charging begins; Battery Trouble
and AC Restoral Reports sent.
13.7 VDC:
13.9 VDC:
Battery Restoral Reports sent. Low
battery LED off.
Changing status LED off; battery
float charged.
Table 7:
Type
Charging Status and Low Battery LEDs
LED
Action
Color
State
Charging Status LED Yellow
Shows the charging status of the battery. Refer to Figure 9 on
page 24 for location.
Yellow
Off
Battery is fully charged.
If the battery is missing, shorted, or reversed, the Charging Status
LED is off, but the red Low Battery LED is flashing.
Yellow
Yellow
On
Battery float charge is below 13.8 VDC. If AC is present, the
battery is charging.
Indicates the combined current draw from all outputs exceeds 1.4
A. This is normal under alarm conditions for non-fire systems with
sirens or bells drawing more than 1.4 A. If the LED lights regularly
for extended periods or does not go out, check the current draw
for devices connected to the power outputs. Refer to Section 6.0
Power Outputs on page 26 for instructions.
Flash once per
minute
System is checking the battery.
Low Battery LED
Red
Shows the condition of the battery. Refer to Figure 9 on page 24
for location.
Red
Red
Off
On
Battery is fully charged.
Battery voltage dropped to between 12.0 VDC and 11.8 VDC.
LED turns off when voltage reaches 13.7 VDC.
Red
Flash
Battery is missing or shorted.
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Power Outputs
.
6.2
Total Available Power
6.0 Power Outputs
The system produces up to 1.4 A of combined power
at 12.0 VDC nominal for special application use. The
outputs listed below share the available power. These
outputs are shown as red circles on the faceplate.
6.1
Circuit Protection
Three self-resetting circuit breakers protect the control
panel from short circuits on the continuous and
programmable power outputs. If the control panel is
programmed for power supervision and a short circuit
occurs on one of the power outputs, the control panel
sends BATTERY LOW and BATTERY MISSING
when using Bosch Security Systems, Inc. Modem IIIa2
communicator format. Under the same conditions
when using Contact ID communicator format, the
control panel sends Control Panel Battery Low (302)
and Control Panel Battery Missing (311).
Terminal 3 - Auxiliary Power: Use this terminal to
power devices requiring continuous power.
Terminal 6 (Relay A) - Alarm Power Output:
Programmable relay normally open, power on alarm.
Terminal 7 (Relay B) - Alternate Alarm Power
Output: Programmable relay normally open, power
on alarm.
Terminal 8 (Relay C) - Switched Auxiliary Power:
Programmable relay normally closed, switches power
off when the Sensor Reset command is executed.
One self-resetting circuit breaker protects:
Terminal 3: Auxiliary Power
Terminal 24: Zonex Power
Terminal 24 - Zonex Power: Use this terminal to
power Zonex modules such as the D8125, D8128D,
and D8129 Modules.
A short circuit on one terminal disrupts
power to the other terminal.
Terminal 32 – SDI Power +: Use this terminal to
power serial device interface (SDI) devices such as
keypads, the D9131A Parallel Printer Interface
Module, and the D9210B Wiegand Control Interface
Module.
Another self-resetting circuit breaker protects:
Terminal 6: Alarm Power Output
Terminal 7: Alternate Alarm Power Output
Terminal 8: Switched Auxiliary Power.
Accessory Connector: The D928 Dual Phone Line
Switcher connects to the accessory connector.
6.3
Continuous Power Output
Terminals 3, 8, 24, and 32
A short circuit on one of the terminals
disrupts power to the other two terminals.
The continuous current draw for powered devices
connected to Terminals 3, 8, 24, and 32, and the
accessory connector must not exceed 1.4 A. Devices
powered from these outputs operate at 12.0 VDC
Nominal.
The third self-resetting circuit breaker protects
Terminal 32: Power +.
Power Restricted for Fire and Combined Fire and
Burglary Systems: Use the Fire System Power
Formula to calculate the current available for fire and
combined fire and burglary systems (refer to Section
6.4 Programmable Power Output Terminals 6, 7, and
8).
UL requires any device powered from a
power output to be supervised.
UL requires that power outputs are not
shared between fire and non-fire devices
unless all devices are in conduit within
20 ft and are in the same room.
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Power Outputs
.
Power Restricted for Fire and Combined Fire and
Burglary Systems: Fire systems are prohibited from
using the battery for determining alarm power. Use
the fire system power formula that follows to calculate
the current available for fire and combined fire and
burglary systems.
6.4
Programmable Power Output
Terminals 6, 7, and 8
6.4.1 Programming
The power outputs at Terminals 6, 7, and 8 are
programmed as Relays A, B, and C. All relays are
programmed in the Relays section.
6.4.3 Fire System Power Formula
Relays are assigned a relay type, (Fire Bell, for
example) when they are assigned to an area. Relays
can be assigned to one or more areas.
To calculate the current available at Terminals 6 and
7 for fire and combined fire and burglary systems:
1. Add together the current draws for all devices
connected to Terminals 3, 8, 24, and 32, and the
accessory connector. This is the total current
required for the normal standby condition (NSC).
2. The current available for NSC is 1.4 A. Subtract
the NSC current required calculated in Step 1
from the NSC current available, 1.4 A. The
difference is the alarm current available for
Terminals 6 and 7.
The Bosch Security Systems, Inc. defaults set Relay
A (Terminal 6) as a Steady Alarm Bell output, Relay B
(Terminal 7) as a Pulsed Fire Bell output, and Relay C
(Terminal 8) as a Verification or Reset output for
smoke detectors. The D9412GV3/D7412GV3
Program Entry Guide (P/N: F01U170807) contains
complete instructions for programming relays. Refer
to Sections 6.4.2 Terminals 6 and 7, 6.4.3 Fire
System Power Formula, and 6.4.4 Terminal 8 on
page 27 for descriptions of the functions of each
terminal.
In formula format:
=
Alarm current
available
1.4 A NSC current
required (Step 1)
Refer to the Bell Parameters section of the program to
set the Fire Bell, Alarm Bell output responses for
relays. Four annunciation patterns are available:
Steady, Pulsed, California Standard, and Temporal
Code 3.
Refer to the D9412GV3/D7412GV3 Approved
Applications Compliance Guide (P/N: F01U143069)
for module or accessory current requirements.
6.4.4 Terminal 8
Terminal 8 provides continuous positive (+) 12.0 VDC
Nominal power. Relay C interrupts the power at
Terminal 8 when activated. Use Terminal 8 to power
smoke detectors or other devices that are reset by
interrupting power. One self-resetting circuit breaker
protects Terminals 6, 7, and 8 against shorts.
Voltage Output at Terminals 6, 7, and 8
If Terminals 6, 7, and 8 do not provide the expected
output, check:
Programming for Relays A, B, and C in the relays
section of the program.
Bell Parameters section of the program to confirm
that the Alarm and Fire Bell responses are
programmed for the expected duration and
pattern.
Point Assignments section to confirm that each
point is programmed for the expected local
response.
Verification and Reset Relay
The default program sets Relay C (Terminal 8) as a
verification and reset relay. Refer to Relay
Parameters and Point Assignments in the
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807) for instructions on programming
verification and reset relays and points.
6.4.2 Terminals 6 and 7
Performing a sensor reset at a keypad produces a
five-sec relay activation of verification and reset
relays. The control panel ignores verification and
resettable points during the five sec.
When activated, Terminals 6 (Relay A) and 7 (Relay
B), provide positive (+) 12.0 VDC Nominal power
output. Use the power at Terminals 6 and 7 to power
bells, siren drivers, piezoelectric fire sounders,
electronic horns, or other devices.
Programming determines the format of the output and
the conditions that activate it. One self-resetting circuit
breaker protects Terminals 6, 7, and 8 against shorts.
When using Relay A or Relay B to activate notification
appliance circuits in UL Listed fire alarm applications,
install a D192G Indicating Circuit Module.
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D9412GV3/D7412GV3 | Operation and Installation Guide | 7.0
Telephone Connections
.
Figure 10: RJ31X Wiring
7.0 Telephone Connections
7.1
Registration
RJ31X
1
TIP (green)
RING (red)
The Bosch Security Systems, Inc. D9412GV3 and
D7412GV3 Control Panels are registered with the
Federal Communication Commission (FCC) under
Part 68, for connection to the public telephone system
using an RJ31X or RJ38X jack installed by the local
telephone company.
R1
T
R
T1
1
2
5
7 8
4
1
1
4
4
5
5
8
8
2
4
3
An RJ31X jack can be modified by placing
a jumper wire between Terminals 2 and 7 to
become an RJ38X jack.
5
7.2
Notification
Do not connect registered equipment to party lines or
coin-operated telephones. Notify the local telephone
company and provide the following information before
connecting the control panel to the telephone
network:
6
1 - RJ31X Jack
2 - (TIP)
3 - (RING)
4 - Telco connector block
5 - Outside telco
6 - Premises telephone
The particular line to which the control panel will
be connected
Make (Bosch Security Systems, Inc.), model
(D9412GV3 or D7412GV3), and serial number of
the control panel
7.4
Telephone Cord Connection
FCC registration number:
US:ESVOT00BD9412GV3
Connect one end of a D161 (2.1 m [7 ft.]) or a D162
[61 cm (2 ft.)] Telephone Cord to the telco cord
connector located on the bottom left corner of the
control panel. Refer to Figure 11. Connect the other
end to the RJ31X or RJ38X jack.
Ringer equivalence for the control panel: 0.0B
7.3
Location
To prevent jamming of signals, wire the RJ31X or
RJ38X jack before the in-house telephone system to
support line seizure (Figure 10). Install the jack on the
street side of the telephone switch, wired ahead of
any PBX equipment. Line seizure temporarily
To supervise the phone cord, use an
RJ38X jack.
interrupts normal telephone usage while the control
panel sends data. After installation, confirm that the
control panel seizes the line, acquires dial tone,
reports correctly to the receiver, and releases the
telephone line to the in-house telephone system.
Figure 11: Phone Connector, Phone LED, and Operation Monitor LED Locations
D5200/D5360
PROG CONN
Point 8, S3 Opti on
Open=AB-12 UL
PH ON E LIN E SEIZ ED LE
D
Bel l Bo x 220 k
O N w hen communicating
O FF w hen idle
1
Operation Monit orLED
Pu lses when Normal
Flick ers whe n Ringin g
TIP
R NI
G
RED
11
12 13
14
15 16 17 18
19 20 21 22
G REEN
TE LCOC OR D MOD EL D161
PHO NE LINE
SEIZED
2
RIN G
TIP
3
TELC O
1 - Phone LED (red)
2 - Telephone cord connector
3 - Operation Monitor LED (green)
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Telephone Connections
.
Bad Line Might Test OK: The telephone line monitor
uses voltage levels to test the status of the telephone
line. In some instances, a given telephone line might
be out of service without affecting the voltage on the
line. The telephone line monitor cannot recognize this
trouble condition.
7.5
Phone LED (Red)
The red Phone LED illuminates when the control
panel seizes the telephone line and remains
illuminated until the control panel returns the
telephone line. Refer to Figure 11 on page 28 for the
location of the red LED.
7.9
Called Party Disconnect
7.6
Operation Monitor LED (Green)
Telephone companies provide “called party
The green Operation Monitor LED indicates the
operation of the central processing unit (CPU). When
the CPU is operating normally, the LED flashes 0.5
sec on, 0.5 sec off.
disconnect” to allow the called party to terminate a
call. The called party must go on hook (hang up) for a
fixed interval before a dial tone is available for a new
call. This interval varies with telephone company
equipment. Control panel firmware allows for “called
party disconnect” by adding a 35-sec, “on hook”
interval to the dial tone detect function. If the control
panel does not detect a dial tone in seven sec, it puts
the telephone line on hook for 35 sec to activate
“called party disconnect,” goes off hook, and begins a
seven-second dial tone detect. If no dial tone is
detected, the control panel dials the number anyway.
Each time the number is dialed, the control panel
records this as an attempt.
This green LED also serves as a ring indicator. The
LED is located on the lower right side (Figure 11 on
page 28). When there is ring voltage on the telephone
line (the telephone is ringing), the green LED flashes
at a faster rate for the duration of each ring. Ring
voltage must reach a minimum of 45 VAC before the
system detects it.
7.7
Dialing Format
The system can be programmed to use dual tone
multi-frequency (DTMF) or pulse dialing. Refer to
Phone Parameters in the D9412GV3/D7412GV3
Program Entry Guide (P/N: F01U170807).
7.10 Communication Failure
After two attempts to reach the receiver over the
phone line, the control panel generates and sends a
COMM TROUBLE PH # event. If a backup route is
used, the event that triggered the telephone call to the
central station follows the COMM TROUBLE PH #
event.
7.8
Telephone Line Monitor
The control panel has a built-in telephone line monitor
that tests the telephone line for voltage and current. If
the D928 Dual Phone Line Switcher is used to
connect two telephone lines to the control panel, both
lines are monitored. The normal voltage on a
telephone line is approximately 48 VDC (24 VDC for
some telephone systems).
After ten unsuccessful attempts to reach the receiver,
the control panel enters communication failure. The
control panel clears any reports queued for the failed
route and a COMM FAIL # event is generated and
display at the keypads. A trouble sounder can be
programmed to annunciate at the keypads.
If the control panel senses trouble, it starts a
programmable telephone line trouble timer, which
continues to run as long as the monitor detects
trouble. It resets to zero when the control panel
senses a normal line. If the timer reaches the delay
time in the Phone Supervision program item, it begins
a telephone line trouble response. Programming
determines what the response is. For programming
information, refer to Phone Parameters in the
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807).
One hour after the COMM FAIL # is generated, the
control panel attempts to send a restoration event. If a
communication failure still occurs, the keypad trouble
sounds again.
If the D928 Dual Phone Line Switcher is used, the
control panel makes a total of ten attempts before
entering communication failure.
Enhanced Communication
Any time the control panel uses the telephone line to
make a call or is on-line with the remote programming
software (RPS), it stops monitoring the telephone line
during this process. When the telephone line on the
control panel is no longer in use, it begins to monitor
the telephone line again.
The D9412GV3 and D7412GV3 Control Panels can
send events over the SDI Bus to a DX4020 Network
Interface Module (NIM).For more information on the
enhanced communications capabilities, refer to
AUXPARAM in the D9412GV3/D7412GV3 Program
Entry Guide (P/N: F01U170807).
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Telephone Connections
.
7.11 D928 Dual Phone Line Switcher
Figure 12: D928 Dual Phone Line Switcher
7.11.1 Description
The optional D928 Dual Phone Line Switcher allows
the control panel to send reports over two separate
telephone lines. If a telephone line is not within the
operating range, the control panel attempts to use the
other telephone line to send the message. If trouble is
detected, the control panel keeps the faulty telephone
line in memory.
1
2
3
+
+
4
6
Set the Ring Count above 2 on Answering
Machines: The control panel’s RPS line monitor
feature might not operate correctly if an answering
machine with a ring count of less than two rings is
connected to a telephone line used by the D928
Module.
5
7.11.2 Operation
7
9
Refer to Phone and Phone Parameters in the
GV2MAIN section of the D9412GV3/D7412GV3
Program Entry Guide (P/N: F01U170807) for
telephone supervision and reporting options. To use
the D928, set the Two Phone Lines prompt to Yes.
8
10
When the D928 is installed, the control panel
alternates between Phone Line 1 and Phone Line 2 to
send its first report. For example, on day one, the
control panel first attempts to communicate on Phone
Line 1. On day two, the control panel switches and
attempts to communicate on Phone Line 2.
Any time the control panel resets or is
powered down or up, the next reported
event always attempts to call out on Phone
Line 1 first.
11
1 - Connect to ACCESSORY CONNECTOR with
ribbon cable.
2 - Green to Terminal 1
3 - Black to Terminal 9
If Phone Line 2 is not in service on “Day 2”,
the control panel switches to the primary
phone line to send the report.
4 - AC Power LED (green)
5 - Phone jack to primary phone line
6 - Primary Fail LED (yellow)
7 - Phone jack to secondary phone line
8 - Secondary Fail LED (yellow)
9 - Phone jack to telco connector
10 - Communications Fail LED (yellow)
11 - Buzzer
With the D928 Dual Phone Line Switcher installed,
the control panel uses two telephone lines (primary
and secondary) to dial up to four telephone numbers.
When using a primary and a backup device within a
Route Group #, the control panel makes two
attempts on the primary telephone line using the
Primary Device # as programmed. If these two
attempts fail, the control panel switches to the
secondary telephone line using the Backup Device #
as programmed. This pattern continues for a total of
ten attempts. After ten unsuccessful attempts, the
control panel generates a Comm Fail event for the
given Route Group #.
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On-Board Points
.
Phone Line Fail LEDs
7.11.3 Installing the D928
Two yellow Phone Line Status LEDs (one for the
primary telephone line, one for the secondary
telephone line) light if the telephone line is not within
the operating range. The control panel monitors the
faulty telephone line for the programmed interval
before indicating a trouble condition. Refer to Section
7.8 Telephone Line Monitor on page 29 for a
description of phone line monitor operation.
Mounting
Mount the D928 on the lower right side of the
enclosure using the screws provided with the
switcher.
Wiring
The D928 has two flying leads. The green lead
monitors AC power. The black lead is the ground
reference for the AC Power LED.
Communication Failure LED
1. Connect the green lead from the D928 to
Terminal 1.
The yellow Communication Failure LED lights when
the system is in communication failure. The LED turns
off when communication restores. Refer to Section
7.10 Communication Failure on page 29.
2. Connect the black lead from the D928 to
Terminal 9.
Dedicated telephone lines might be
required for UL 864 Commercial Fire
applications. Check with your Authority
Having Jurisdiction (AHJ).
Telephone Connections
1. Plug one end of the ribbon cable provided into J4
on the D928. Plug the other end of the ribbon
cable into the ACCESSORY connector on the
control panel.
2. Plug one end of the D162 phone cord provided
into the telco jack. Plug the other end of the
phone cord into the TELCO jack on the control
panel. Refer to Table 8 for phone cord lengths.
8.0 On-Board Points
8.1
Terminals 11 to 22 Description
The control panel provides eight on-board points.
Each point functions independently and does not
interfere with the operation of the others. The control
panel monitors the sensor loops for normal, shorted,
or open conditions between an input terminal (11, 13,
14, 16, 17, 19, 20, or 22) and any of the point
common terminals (12, 15, 18, and 21). The
programming for the point determines how the control
panel responds to those conditions. Refer to the
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807) for point programming options.
The control panel also monitors the sensor loops for
ground fault conditions if S4 is latched (ground fault
detect enabled).
Table 8:
Phone Cord Lengths
Phone Cord
D161
Length
2.4 m (8 ft)
61 cm (2 ft)
D162
3. Plug one end of a D161 or D162 phone cord into
J1 on the control panel. Plug the other end of the
phone cord into the RJ31X or RJ138X for the
primary telephone line.
4. Plug one end of a D161 or D162 phone cord into
J2 on the control panel. Plug the other end of the
phone cord into the RJ31X or RJ138X for the
secondary telephone line. Refer Table 8 for
phone cord lengths.
8.2
Point Sensor Loops
7.11.4 D928 Status LEDs
Not for use in Fire Applications.
Four LEDs mounted on the front edge of the D928
Module show the status of AC power for the control
panel, the status of the two telephone lines, and
communication failure (Figure 11 on page 34). When
programmed and operating normally, only the green
AC power status LED is lit.
When wiring the on-board points (Figure 13), install
a 1 kΩ resistor at the far end of the sensor loop to
provide a reference for supervision. Dry-contact
sensing devices can be connected in series
(normally-closed) or in parallel (normally-open) to any
of these loops.
AC Power LED
The number of normally-open and normally-closed
detection devices each sensor loop can supervise is
limited only by the resistance on the loop. The total
resistance for the wire length and contacts, minus the
end-of-line (EOL) resistor, must not exceed 100 Ω.
The green AC Power Status LED lights when AC
power is applied to Terminals 1 and 2 on the control
panel.
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On-Board Points
.
8.3
Point Parameters
Table 9:
Point Parameters
Voltage Range
The condition of on-board Points 1 to 8 is determined
by measuring the voltage across the point input
terminal and one of the common terminals. The
sensor loops must be connected and the 1 kΩ EOL
resistor in place.
Loop
Open
Greater than 3.7 VDC, but less than 5.0
VDC.
Normal
Shorted
Greater than 2.0 VDC, but less than 3.0
VDC.
Greater than 0.0 VDC, but less than 1.3
VDC.
Figure 13: On-board Point Sensor Loop Wiring
1
2
3
4
7
1 k
2
3
5
8
10
9
2
6
1 - 100 Ω maximum
2 - Point input terminal
3 - Common
7 - P105F (Package of 8 EOL resistors) or
P105BL (Package of 8 UL Listed EOL
resistors) (P/N: 15093130-004)
8 - Brown
9 - Black
10 - Red
4 - Normally-closed contacts (NC)*
5 - Normally-open contacts (NO)
6- Combination: Normally-open contacts and
normally-closed contacts (NO/NC)
*
UL does not allow normally-closed loops for commercial fire applications.
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On-Board Points
.
8.4
Point Response Time
8.5
Wiring Information for Installations
Using the Rothenbuhler
5110/4001-42 High Security Bell
The control panel scans on-board and off-board point
sensor loops every 300 ms. The Debounce program
item in the Point Assignment section of the software
determines point response time by setting the number
of times the control panel scans a point before
generating an alarm.
Warning: Wear ear protection when
installing and testing the Rothenbuhler
High Security Bell.
Sound levels greater than 95 dBA at
3 m (10 ft) can occur.
The debounce count can range from 2 to 15;
therefore, point response time ranges from 600 ms to
4.5 sec. The Bosch Security Systems, Inc. default for
debounce count is 2.
1. Remove all power from the control panel.
2. Use six-conductor 1.2 mm (18 AWG) shielded
stranded wire between the control panel and the
5110 Logic Board (located in the bell enclosure).
Increasing debounce might cause missed
alarms. If you increase the debounce
count, detection devices can enter alarm
and reset without exceeding the point
response time.
3. If you do not have a Silence switch, temporarily
install a 1 resistor across TB1-1 and TB1-6 on
the 5110 Logic Board. The resistor keeps the
5110’s bell silent during the installation and
alignment procedures. Also place a temporary
wire jumper across the TB1-6 Bell Relay and
TB1-7. Refer to Figure 15 on page 35 for wiring a
Silence switch.
Use a debounce count of 2 for all points except:
Use 3 for Interior Follower points.
Use 4 for door points connected to a D9210B
Access Control Interface Module.
4. Mount the D8108A’s 4001-42 External Balanced
Line Module and wire it to the 5110 Logic Board
using two-conductor 0.8 mm (22 AWG) cable.
5. Wire the 4001-42 to the control panel. Refer to
Figure 15 on page 35 and the Rothenbuhler
installation manual.
6. Before supplying AC and DC power to the control
panel and bell, ensure you are wearing ear
protection. The bell sounds for 2 sec and then
silences during power up.
For additional information about bell requirements,
refer to Bank Safe and Vault Applications in the
D9412GV3/D7412GV3 Approved Applications and
Compliance Guide (P/N: F01U143069).
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On-Board Points
.
Figure 14: Rothenbuhler 5110/4001-42 High Security Bell Wiring Configuration
2
1
3
1
6
0.64 mm (1/4 in.)
minimum distance
4
5
7
8
9
-
-
+
+
10
10
12
11
11
13
14
17
15
16
1 - Self-contained vibration sensor
2 - Control panel
3 - Accessory modules
4 - High line security module
5 - 4001-42 Balanced Line Module
6 - 5110 Bell
10 - D126 Battery
11 - D8108A Enclosure
12 - D122L Battery Harness*
13 - Proximity/control unit
14 - Normally open (NO)
15 - Normally closed (NC)
16 - End-of-line (EOL) resistor
17 - Safe
7 - D133 Relay
8 - Zone input
9 - D122 Battery Harness*
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On-Board Points
.
Figure 15: Wiring the Rothenbuhler 5110/4001-42 High Security Bell to the D9412GV3 or D7412GV3
Control Panel
4
1
5
6
7
9
1
9
3
2
3
13
6
7
8
2
RED
ORG
WHT BL K
4
12
9
1
2
3
6
3
11
9
N/O 1
10
COMM 1
N/C 1
X1 -
X1+
1 - 5110 Logic Board
8 - Alarm zone input*
2 - 4001-42 External Line Balancing Module
3 - D9412GV3 or D7412GV3 Control Panel
4 - Alarm output
9 - 10 k resistor
10 - Optional Silence switch
11 - D133 Relay Module
12 - BBL In 4
5 - Alternate alarm
6 - Common
13 - BBL Out 5
7 - +12.0 VDC
14 - Terminal TB1
Use Terminal 11, 13, 14, 17, 19, 20, or 22. (select only one.)
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Off-Board Points
.
Table 10: POPEX Modules
9.0 Off-Board Points
9.1
Point (Zonex) Bus: D9412GV3
Terminals and D7412GV3
Terminals
Model
Power
Data
D9412G
Terminals 23 and 24
Terminals 25 and 26
or
Terminals 27 and 28
9.1.1 POPIT Modules
D7412G
Terminals 23 and 24
Terminals 27 and 28
The D9412GV3 can use point of protection input
transponder (POPIT) modules to provide a maximum
of 238 off-board points, bringing the total number of
points the D9412GV3 can monitor to 246. The
D7412GV3 provides up to 67 off-board points,
bringing the total number of points the D7412GV3
monitors to 75. Each off-board point requires a POPIT
Module.
9.1.3 Missing Conditions
If a programmed POPIT is disconnected from the
expansion loop, a missing condition appears
immediately and the event is logged. The missing
condition might also be sent to a central station or
printed to an on-site printer, if programmed to do so.
Refer to the D9412GV3/D7412GV3 Program Entry
Guide (P/N: F01U170807) for programming options.
The expansion bus can be shared
between fire and non-fire devices where
the POPIT module provides data isolation
between the input and the bus
connections.
9.1.4 Extra Point Events
Extra Point events are generated when a POPIT
connected to the data expansion bus does not have
an assigned Point Index. Table 11 shows when an
Extra Point event is or is not generated. Table 12 on
page 37 shows additional error conditions that can
occur for the off-board points.
9.1.2 POPEX Modules
POPITs connect to supervised two-wire data
expansion loops run from POPIT to POPIT throughout
the premises. Data expansion loops connect to a
D8125 Point of Protection Expander (POPEX)
Module. POPEX Modules have power and data
connections to the point bus on the control panel
(Table 10).
Table 11: Extra Point Events
A POPIT connected to the data
expansion bus does not have an
assigned Point Index and:
Extra Point event? Additional Information
Data expansion bus is disconnected
No
Keypad does not annunciate or display a trouble
condition.
Keypad annunciates and displays a trouble
condition
Extra Point is logged and might be programmed to
send reports to the central station or to an on-site
printer.
Data expansion bus restores to
normal condition after an open
condition
Yes
Point input changes status from
normal to open or shorted
No
Keypad does not annunciate or display a trouble
condition.
Yes
Keypad annunciates and displays a trouble
condition
Extra Point is logged and might be programmed to
send reports to the central station or to an on-site
printer.
During a Service Walk Test, the point
input changes status from normal to
open or shorted
The Service Walk Test never shows the electrical state of a point as “Extra.”
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Off-Board Points
.
Table 12: Off-Board Point Errors
Error Condition
Result
Additional Information
+/- leg of the data expansion bus has a
short circuit to earth ground, with
Ground Fault Detect enabled
Ground Fault event
+/- leg of the data expansion bus is
disconnected
All POPITs beyond the
disconnection send Missing
report
All POPITs send Missing
report
Pt Bus Trouble event
Data expansion bus has a short circuit
When the data expansion bus restores, Pt
Bus Restore event occurs. If any POPIT is
connected to the data expansion bus
without an assigned Point Index, an Extra
Point event occurs.
All POPITs send Missing
report
Pt Bus Trouble event
+/- leg of the data expansion bus has a
short circuit to the Common terminal on
the control panel
Terminal 26, 28, or 94 has a short
circuit to a Common terminal
No Pt Bus Trouble event occurs
Pt Bus Trouble event
Keypad displays:
SERVC ZONEX 1
Pt Bus Trouble event
Keypad displays:
SERVC ZONEX 1
Terminal 25, 27, or 94 has a short
circuit to a Common terminal
Terminals 27 and 28 have a short
circuit together
9.1.5 D9412GV3/D7412GV3 Responses to
Missing Point Conditions
The D9127 Module enclosures are made of UL Listed
fire resistant material. D9127T Modules contain
tamper switches. D9127U Modules include
untampered covers. Unless the module is mounted in
a tampered enclosure, UL requires D9127T Modules
for certificated accounts.
The D9412GV3 and D7412GV3 respond to missing
point conditions based on the point’s programming
and the armed state of the point’s area. For example,
if an interior motion detector point is missing during a
disarmed state, a Missing Trouble event is generated; Listings
however, if the point is missing while the area is
The D8125 POPEX and the D9127 POPIT Modules
Master Armed, a Missing Alarm event is generated.
Non-fire, 24-hour points always generate a Missing
Alarm event, whereas Fire points always generate a
Missing Fire Trouble event.
are UL Listed for Local or Police Connected Burglar
Alarm, Central Station Burglar Alarm, Household
Burglar Alarm, Central Station Fire, Local Fire,
Remote Station Fire, Household Fire, and Electrically
Actuated Transmitter Applications.
9.2
D8125 and D9127 POPIT Modules
Refer to the D9412GV3/D7412GV3 Approved
Applications Compliance Guide (P/N: F01U143069) to
determine the required equipment and enclosures for
the application.
D9127 POPITs use the D8125 POPEX Module to
report to the control panel. Each D8125 supports up
to 119 POPIT points. Connect two D8125 Modules to
the D9412GV3 to bring the combined total number of
POPIT and on-board points to 246.
Points 9 to 127 connect to the first POPEX
Module.
Points 129 to 247 connect to the second POPEX
Module.
The D9412GV3 reserves Points 128 and 248 for
internal use.
The control panel annunciates activity only for each
POPIT, not for each detection device connected to
the sensor loop.
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Off-Board Points
.
Figure 16: Connecting the D8125 POPEX to the D9412GV3 Control Panel
1 - D8125 POPEX Module
2 - Switch block
3 - D9127 Sensor Loop
5 - Zone expansion loop
6 - Up to 119 POPITs
7 - Expansion zones
4 - 33 kΩ EOL resistor (P/N: P106F [15-03130-002],
package of eight)
For system supervision, do not use looped wire terminals. Break the wire run to provide
supervision of the connections.
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Off-Board Points
.
Figure 17: Connecting the D8125 POPEX to the D7412GV3 Control Panel
2
2
2
Reset Pin
e all exc ept Bat tery
g a nd Pr ogr am min g
4
RED -Low Battery -
4
4
D912 7U/T
D9127 U/T
D9127 U/T
3
AL DE VICE CO NN EC TION
S
3
3
CLA SS
16.5 VA
2
TRA NSFO RM E
R
C
40 VA 60 Hz
POW ER
+
Mo d el
D
1 64 0
Internally Fused
-
Require s Uns w itched Out let
DATA BU
DATA BU
S
S
A
Do not share w ith other equipW
+AUX POWER
B
(+)
BA TT ER Y N E GAT IVE ON LY
C
O MM O N
CAUTION:
A
void damage to
(-)
Do not connect to terminals.
V
Maximu2m4
M aximu m cha rgin g cur ren
Curr ent 1
5
6
B ATT ERY PO
BATTERYPOSITIVE ONLY
O NE
X
OU
X
T
1
1
RELAY A
RELAY B
RELAY C
PROGRAM
ZO NE
IN
ALARM
Ter min als
and
1
6
N
N
OT
OT
U
U
SED
26
7
SWITCHED
Ter mina l
SED 25
(-)
(-)
COMMON
ZO NE
ZO NE
X
X
PO WER
+
24
23
EART HGROUND
S4 G RO UN FAU LT DETE CT
CO M M ON
(+)
(+)
D
Enabled
Disabled
D5200/D5360
PR OG CO N
8 , S3 Optio n
N
=1 EO L
k
l O peration
=A B-12 UL
Box 220
PHO NE
O N when
O FF
k
GND
when di le
ratio
n
Mo nitor LED
Pu sl es w hen Nor mal
TIP Flickers w hen Ringing
EEN
OUT
IN
RED
AUX
1 - D8125 POPEX Module
2 - Switch block
3 - D9127 Sensor Loop
5 - Zone expansion loop
6 - Up to 119 POPITs
7 - Expansion zones
4 - 33 kΩ EOL resistor (P/N: P106F [15-03130-002],
package of eight)
For system supervision, do not use looped wire terminals. Break the wire run to provide
supervision of the connections.
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9.3.3 Wiring POPITs to the Data Expansion
Loop
9.3
Installing the D8125 POPEX Module
For information on the Multiplex Bus
Interface, refer to the D8125MUX Multiplex
Bus Interface Operation and Installation
Guide (P/N: F01U034973).
Use one two-wire data expansion loop or distribute
the POPITs on up to three loops. Setting DIP
switches on the POPIT Modules assigns them to point
numbers. Refer to Section 9.3.6 POPIT Module Point
Assignments on page 41.
Save the POPIT Label Sheets: The D8125 is
packaged with two sets of POPIT label sheets. One
set is marked “Bank 1” for use with the D7412GV3
and D7212GV3. The other set is marked “Bank 2” for
use with the D9412GV3 and D9112. Use the sheets
later to label the POPITs. Refer to Section 9.3.6
POPIT Module Point Assignments on page 42.
Review Section 4.6.2 Installing and Wiring Detection
Devices on page 17 to determine if shielded wire is
required. Refer to Table 13 to determine the wire
gauge for the length of each data expansion loop.
Table 13: Data Expansion Loop Wire
Specifications
9.3.1 Mounting
To install the D8125 in the enclosure with the control
panel:
Maximum Length of All Data Expansion Loops
Combined
1. Align the D8125 POPEX Module with any of the
four mounting locations in the enclosure
(Figure 2 on page 15).
AWG
22
Length in Meters (Feet)
548 (1800)
20
881 (2890)
2. Using the screws provided with the module,
secure it in the enclosure.
18
16
14
1402 (4600)
2231 (7320)
3551 (11,650)
9.3.2 Wiring the D8125 to the Control Panel
Combine Data Expansion Loops
To wire one or two D8125 Modules to the control
panel (Figure 16 on page 38 and Figure 17 on page
39):
The maximum lengths shown in Table 13 are for all
data expansion loops connected to the same POPEX
Module combined.
Power Down the Control Panel: Disconnect the
positive (red) battery lead at the battery and unplug
the transformer.
Wiring POPITs Together
Do not connect POPITs to each other in
series or with a T-tap. Doing so might
cause random missing POPIT conditions.
For Points 9 to 127 (9 to 75 on D7412GV3):
1. Connect the GND terminal of the D8125 to
Terminal 23 on the D9412GV3 or to Terminal 9
on the D7412GV3.
Before installing the POPITs, ensure that
the resistance on the data expansion loop
is no more than 40 .
2. Connect the OUT terminal of the D8125 POPEX
Module to ZONEX IN 1, Terminal 27.
3. Connect the IN terminal of the D8125 POPEX
Module to ZONEX OUT 1, Terminal 28.
To connect POPITs to one another in parallel:
1. Connect the positive (+) data terminal from one
POPIT to the positive (+) data terminal on the
next POPIT.
4. Connect the AUX terminal of the D8125 to
Terminal 24 on the D9412GV3 or to Terminal 3
on the D7412GV3.
2. Connect the negative (-) data terminal from one
POPIT to the negative (-) data terminal on the
next POPIT.
For Points 129 to 247 (D9412GV3 only):
1. Connect the GND terminal of the D8125 to
Terminal 23.
3. Repeat Steps 1 and 2 to connect all POPITs to
the expansion loop. It is not necessary to wire the
POPITs in any particular order on the loop. The
switch setting on each POPIT assigns it a point
number, regardless of its physical location.
2. Connect the OUT terminal of the D8125 POPEX
Module to ZONEX IN 2, Terminal 25.
3. Connect the IN terminal of the D8125 POPEX
Module to ZONEX OUT 2, Terminal 26.
Three-inch Clearance for Tampered POPITs
4. Connect the AUX terminal of the D8125 to
Terminal 24.
Mount tampered POPIT modules at least 7.6 cm (3
in.) apart to prevent the tamper magnets from
interfering with each other.
Refer to Section 9.3.4 Wiring Data Expansion Loops
to POPEX Modules on page 41 for instructions on
connecting POPITs to the D8125 POPEX Module.
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9.3.4 Wiring Data Expansion Loops to POPEX
9.3.7 Program Record Sheet
Modules
The first column of the table in Figure 18 on page 42
contains the POPIT Switch Settings for the D9127
POPITs. On the D9127T/U POPIT, switches are
numbered 0 to 6, from left to right. Set the indicated
switches to the ON position. If a dash () appears in
the switch position, set the switch to the OFF position.
Each POPEX Module has two positive (+) and two
negative (-) data expansion loop terminals. Up to 119
POPITs can be connected to one D8125 on the
D9412GV3; up to 67 POPITs for the D7412GV3
(Figure 16 on page 38 and Figure 17 on page 39).
To connect the data expansion loops to the D8125
POPEX Module:
The second column contains the Translation of the
point number into the Zonex format. Refer to Point
User Flag in the D9412GV3/D7412GV3 Program
Entry Guide (P/N: F01U170807) for an explanation of
this feature.
1. Connect the positive (+) data terminal from the
first POPIT on the data expansion loop to one of
the D8125’s positive (+) terminals.
The third column contains the Point Number as
shown at keypads.
2. Connect the negative (-) data terminal from the
first POPIT on the data expansion loop to one of
the D8125’s negative (-) terminals.
The fourth column contains the Point Index. Refer to
Point Index Parameters in the D9412GV3/D7412GV3
Program Entry Guide (P/N: F01U170807) for an
explanation of the point index.
9.3.5 POPIT Sensor Loops
The number of normally-open and normally-closed
detection devices each sensor loop can supervise is
limited only by the resistance on the loop. Resistance
on each sensor loop must be less than 100 , not
including the EOL resistor.
The fifth column, Area Assign, shows the area to
which the point is assigned.
The sixth column shows the Debounce Count for the
point. Refer to Debounce Count in the
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807).
Certain UL and NFPA applications can
limit the number of detection devices.
Consult the appropriate UL or NFPA
standards.
The seventh column shows the BFSK/Relay report
code, which associates a relay to an individual point.
POPITs detect open, shorted, normal, and grounded
circuit conditions on their sensor loops. They send the
condition of their loops to the control panel. A ground
on the sensor loop sends a general system ground-
fault condition report. Each POPIT is programmed
and sends signals to the control panel separately.
The eighth column contains the Custom Point Text
displayed at keypads for the point. The text is sent to
the receiver when the control panel uses the Modem
IIIa2 format.
Terminate each POPIT sensor loop with the 33 k
end-of-line (EOL) resistor (D106F) included with each
POPIT.
Use a twisted-pair wire (six twists per foot) in all
POPEX and POPIT installations for the data
expansion loop wiring and the POPIT sensor loops.
Run wires away from AC sources to prevent AC
induction. If you suspect a noisy environment, use
shielded cable. Refer to Section 9.3 Installing the
D8125 POPEX Module on page 39.
9.3.6 POPIT Module Point Assignments
Six switches on each POPIT assign the module to a
point number. For POPIT switch settings, refer to
Point Assignment in the D9412GV3/D7412GV3
Program Record Sheet (P/N: F01U170809). The
program record sheet provides information about the
Point Assignments tables. Figure 18 on page 42 is an
example of the tables.
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Figure 18: Program Record Sheet
9.3.8 POPIT Labels
For UL 864 Commercial Fire applications,
refer to Installing Combination Fire and
Intrusion Alarm Systems in the
D9412GV3/D7412GV3 Approved
Applications Compliance Guide
(P/N: F01U143069) for important
information about combination fire and
intrusion systems.
D9412GV3 off-board points are numbered 9 to 127
and 129 to 247. The D7412GV3 uses Points 9 to 75
only. The D9412GV3 reserves Points 128 and 248 for
internal use. POPITs must be connected for Points
129 to 247 to expansion loops connected to POPEX
#2.
Two sheets of peel-off POPIT labels are supplied with
the D8125 POPEX Module. Use the sheet marked
“Bank1” for Points 9 to 127. Use the sheet marked
“Bank2” for Points 129 to 247.
9.4
D8128D OctoPOPIT Module
Modules D8128, D8128A, or D8128B are
incompatible with the D9412GV3 or
D7412GV3. Use only the D8128D
OctoPOPIT Module. Using Modules
D8128, D8128A, or D8128B can cause
intermittent Missing and Restoral Reports.
Each label has two parts. Place the smaller part (with
only the point number) on the chip. Place the larger
part with the switch settings on the base of the
POPIT. Set the switches and cover the POPIT.
Do not program two POPITs for the same point
number. After programming all the points, perform a
Service Walk Test. Refer to Section 4.10 Service
Walk Test on page 44. If a point does not test, check
the programming for a duplicated address.
9.4.1 Description
The D8128D OctoPOPIT Module combines the
functions of the D8125 POPEX Module and the
D9127 POPIT Modules to provide eight off-board
points in a single module. You can wire both D8128D
OctoPOPIT and D8125 POPEX Modules in parallel to
the Zonex Bus terminals on the same control panel.
Walk Test and Service Walk Test Do Not Show
Extra Points: If the point assignment switches on a
POPIT or OctoPOPIT are set incorrectly, missing and
extra points can occur. If the same point number is
assigned to two or more POPITs or OctoPOPITs,
none of the points with that number test correctly.
Refer to Section 9.1 Point (Zonex) Bus: D9412GV3
Terminals and D7412GV3 Terminals on page 36.
Review Section 6.0 Power Outputs on page 26 to
ensure that there is enough power for the
OctoPOPITs and other powered devices that will be
connected to the system.
Up to thirty D8128D Modules can be connected to the
D9412GV3 Control Panel. Up to nine D8128Ds can
be connected to the D7412GV3 Control Panel (three
points can be used on the last OctoPOPIT).
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9.4.2 Listings
Figure 19: D8128D OctoPOPIT Layout
The D8128D OctoPOPIT Module is UL Listed for
Local or Police Connected Burglary Alarm, Central
Station Burglary Alarm, Household Burglary Alarm
applications, and commercial fire applications (UL 864
and NFPA 72).
1
The D8128D is also suitable for fire supervisory
applications, such as indicating circuit supervision
(using the D192G Bell Circuit Supervision Module),
sprinkler supervision, and valve tamper protection.
Requirements for Fire Initiation Applications
2
Non-powered, fire initiating devices such as
pull-stations, heat detectors, and UL Listed
four-wire smoke detectors can be
connected directly to the point inputs on the
D8128D.
3
4
For UL 864 Commercial Fire applications,
refer to Installing Combination Fire and
Intrusion Alarm Systems in the
D9412GV3/D7412GV3 Approved
Applications Compliance Guide
(P/N: F01U143069) for important
information about combination fire and
intrusion systems.
1
2
3
4
5
6
7
8
P O I N T S
The D125B Dual Powered Loop Interface Module or
the D129 Dual Class “A” Module zone outputs can be
connected directly to the point inputs on the D8128D.
Use the D125B to connect two-wire smoke detectors.
Typically, the D129 is used for connecting waterflow
switches.
1 - Molex® connectors
2 - Address DIP switches
3 - Terminal strip
4 - Point DIP switches
The D125B or D129 and the OctoPOPIT can be
mounted in the same enclosure with the control panel
or in a separate enclosure connected to the control
panel’s enclosure by a conduit not more than 6 m
(20 ft.) in length.
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9.4.3 Installation
Table 14: D8128D OctoPOPIT Switch Settings
for D9412GV3 and D7412GV3
For the most effective installation, use the following
four-step process:
1. Set the OctoPOPIT switches. Refer to Section
9.4.4 Setting the OctoPOPIT Switches.
ZONEX 1
D8128D Address Switches
ZONEX 2
Points 9 to
127
Points 129
to 247
1
2
3
4
5
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
2. Physically mount the OctoPOPIT in the
enclosure. Refer to Section 9.4.5 Mounting
OctoPOPITs, page 45.
9 to 16
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
ON
ON
OFF
ON
OFF
ON
129 to 136
137 to 144
145 to 152
153 to 160
161 to 168
169 to 176
177 to 184
185 to 192
193 to 200
201 to 208
209 to 216
217 to 224
225 to 232
233 to 240
241 to 247
17 to 24
25 to 32
33 to 40
41 to 48
49 to 56
57 to 64
65 to 72
73 to 80
81 to 88
89 to 96
97 to 104
105 to 112
113 to 120
121 to 127
3. Wire the OctoPOPIT. Refer to Section 9.4.6
Wiring OctoPOPITs on page 45.
OFF OFF
ON
ON
ON
OFF
ON
4. Wire the OctoPOPIT sensor loops. Refer to
Section 9.4.7 OctoPOPIT Sensor Loops on page
49.
OFF OFF
OFF OFF OFF
ON
ON
ON
ON
ON
ON
ON
OFF
ON
9.4.4 Setting the OctoPOPIT Switches
The D8128D OctoPOPIT has two sets of DIP
switches (Figure 19 on page 43). Use the DIP
switches on the top of the unit (with the terminal strip
along the left edge) to set the address for the
OctoPOPIT. Use the DIP switches at the bottom of
the unit to enable or disable individual points
connected to the OctoPOPIT.
OFF
OFF OFF
OFF OFF
OFF OFF
ON
ON
ON
OFF
ON
OFF OFF OFF
* Line Termination Switch
Address Switches
For the D8128D OctoPOPITs assigned to
Points 121 to 127, 241, and 247, set Point
Input Switch 8 to the OPEN position.
The switches on the D8128D OctoPOPIT set point
assignments and line termination. These switches are
easier to set before mounting the D8128D in the
enclosure.
D9412GV3 uses Points 9 to 127 on Zonex
1 and Points 129 to 247 on Zonex 2.
D7412GV3 uses Points 9 to 75 on Zonex 1
only.
Switches 1, 2, 3, and 4 assign the OctoPOPIT sensor
loops to point numbers on the control panel. Table 14
shows the OctoPOPIT switch settings for point
assignments.
Table 15: Switch 5 Settings for Line
Termination
Switch 5 sets line termination. Refer to Table 15.
Is a D8125 POPEX
Module connected?
Switch 5 Setting(s) on
D8128D OctoPOPIT(s)
Set Switch 5 of only one
D8128D to ON
No
Set Switch 5 of all
D8128Ds to OFF
Yes
Point DIP Switches
Each point connected to the D8128D is enabled by
closing the respective DIP switch, or disabled by
opening the DIP switch. For example, to disable a
device connected to the P3 Terminal (Point 3), move
DIP switch number 3 to the OPEN position.
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Use the point DIP switches to disable conflicting
points, such as when a D9210B Access Control
Module must be assigned to a point that falls within
the range of the D8128D OctoPOPIT. In this example,
a D9210B is assigned to Point 20. On the same
system, a D8128D OctoPOPIT is assigned to Points
17 through 24. Moving the DIP switch for Point 4 to
the OFF position would effectively disable Point 20,
allowing normal operation of the D9210B and the
OctoPOPIT.
9.4.6 Wiring OctoPOPITs
Warning: Disconnect all power to the
control panel before beginning any work
with the internal components. Serious
injury could result from electrical shock.
1. Power down the control panel:
a. Disconnect the positive (red) battery lead at
the battery.
b. Unplug the transformer.
Terminate each OctoPOPIT sensor loop with a 1 kΩ
EOL resistor. Attach a resistor even if you do not
enable the loop.
A D8128D OctoPOPIT can be installed
up to 61 m (200 ft.) from the control
panel.
9.4.5 Mounting OctoPOPITs
The D8128D OctoPOPIT Module can be installed in
the enclosure with the control panel using standard
four-conductor 0.8 mm (22 AWG) wire, or in a
separate enclosure (Model D8103, D8103A, or
D8109) up to 61 m (200 ft.) from the control panel
using shielded (recommended) standard four-
conductor 0.8 mm (22 AWG) wire. If using the D125B
or D129, refer to the Specifications section of the
D8128D Installation Guide (P/N: F01U070537) for
cabling requirements.
2. Connect the D8128D to the control panel using
either of the following methods:
Wire the D8128D to the terminal strip on the
side of the POPEX Module, or
Connect the D8128D using the Molex®
connectors (P1 and P2). Refer to Using
Molex® Connectors on page 48.
Caution - AC induction: Avoid installing
Zonex data wires and Zonex input (sensor
loop) wires around any AC conduit, wiring,
or electrical devices that emit fields of
electromagnetic interference (EMI).
For UL Listed systems, mount the D8128D in a
tamper-proof enclosure. To install OctoPOPITs in the
control panel’s enclosure, complete the following
procedure. Use the D137 Mounting Bracket to install
OctoPOPITs in enclosures with no module-mounting
locations available.
Using the Terminal Strip
Refer to Table 16, Figure 20 on page 46, and
Figure 21 on page 47 when using the terminal strip to
connect the D8128D OctoPOPIT to the control panel.
1. Align the OctoPOPIT module using any of the
four mounting locations in the enclosure. Refer to
Figure 2 on page 15.
Table 16: Terminal Strip Connections
2. Use the screws provided with the module to
secure it in the enclosure.
D8128D
Common
Out
D9412GV3
D7412GV3
Terminal 23
Terminal 27
Terminal 23
Zonex 1 = Terminal 27
Zonex 2 = Terminal 25
Zonex 1 = Terminal 28
Zonex 2 = Terminal 26
Terminal 24
In
Terminal 28
Terminal 24
+12 V
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Figure 20: Connecting D8128D OctoPOPITs to the D9412GV3
1 - Zonex Bus 1, Switch 1 ON (Points 9 to 72)
2 - Bus 1
7 - Zonex Bus 2, Switch 1 ON (Points 129 to
192)
8 - Bus 2
9 - First address on Zonex Bus 2
10 - Last address on Zonex Bus 2
11 - Zonex Bus 2, Switch 1 OFF (Points 193 to
240)
3 - First address on Zonex Bus 1
4 - Last address on Zonex Bus 1
5 - Zonex Bus 1, Switch 1 OFF (Points 73 to 127)
6 - Sensor loops
Refer to Address Switches in Section 9.4.4 Setting the OctoPOPIT Switches on page 44 for
information about making these switch settings. Refer to Table 15 on page 44 for information
about setting Switch 5.
For system supervision, do not use looped wire terminals. Break the wire run to provide
supervision of the connections.
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Figure 21: Connecting D8128D OctoPOPITs to the D7412GV3
1 - Zonex 1 address
2 - Sensor loops
Refer to Address Switches in Section 9.4.4 Setting the OctoPOPIT Switches on page 44 for
information about making these switch settings. Refer to Table 15 on page 44 for information
about setting Switch 5.
For system supervision, do not use looped wire terminals. Break the wire run to provide
supervision of the connections.
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Using Molex® Connectors
Each D8128D Module is supplied with a 30 cm (12 in.) female-to-female Molex cable assembly.
P1 and P2 are Molex connectors that parallel the COM, IN, OUT, and +12.0 VDC terminals on the terminal
strip. In installations with multiple D8128Ds, use these connectors (as opposed to terminals) with the supplied
cable; however, when connecting D8128D Modules directly to the control panel, the terminal strip is easier to
use.
The Molex connectors provided are "keyed" (Molex plug can fit in only one direction). Ensure that the connector
is attached correctly: the red wire is on the bottom of P1 (or P2) and the black wire is on the top.
When connecting multiple D8128Ds to a control panel, you can connect the control panel terminals to P1 or the
COM, IN, OUT, and +12V terminals on the first D8128D. Then connect P2 of the first D8128D to P1 of the
second D8128D and so on (Figure 22).
Figure 22: Wiring Multiple D8128Ds Using Molex® Connectors
3
P2
P1
P2
P1
P2
P1
1
9
2
28
27
26
25
24
COM IN OUT+12V
COM IN OUT+12V
COM IN OUT+12V
7
6
8
23
5
4
1 - D9412GV3 Control Panel
2 - Yellow
3 - Green
6 - First D8128D
7 - Second D8128D
8 - Third 8128D
4 - Black
9- Up to 15 per Zonex Bus
5- Red
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9.4.7 OctoPOPIT Sensor Loops
Figure 23: D8128D OctoPOPIT Sensor Loops
Only the resistance on the loop limits the number of
normally-open or normally-closed detection devices
each sensor loop can supervise. Resistance on each
sensor loop must be less than 100 with the
detection devices connected.
1
Certain UL and NFPA applications can limit the
number of detection devices. Consult the appropriate
UL or NFPA standards.
COM IN OUT+12V P1 COM P2 P3 COM P4 P5 COM P6 P7 COM P8
2
3
The OctoPOPIT detects open, short, closed, normal,
and grounded circuit conditions on its sensor loops
and sends the conditions to the control panel. Each
sensor loop has an assigned point number and sends
signals to the control panel separately.
4
Use twisted-pair wire for the OctoPOPIT sensor loops
to avoid EMI problems. Run wires away from the
premises telephone and AC wiring. If you suspect a
noisy environment, use shielded cable.
5
1 - D8128D OctoPOPIT
2 - To control panel
The OctoPOPIT has two rows of terminal numbers. In
the row nearest to the terminal blocks, the positive
outputs for the sensor loops are labeled P1 to P8.
Sensor loop outputs P1 and P2, P3 and P4, P5 and
P6, and P7 and P8 share common terminals. The
common terminals for each pair are labeled COM.
3 - To additional OctoPOPIT sensor loops
4 - OctoPOPIT sensor loops
5 - 1 kΩ EOL resistor (P/N: P105BL, package of
eight)
9.5
Testing Off-Board Points
Terminate each OctoPOPIT sensor loop with a 1 kΩ
Use the Service Walk Test to test off-board points.
Test to ensure that all off-board points operate
properly.
EOL resistor. Attach a resistor even if you do not
enable the loop. The OctoPOPIT includes a D105BL
resistor for each sensor loop. Refer to Figure 23 on
page 49.
Walk Test and Service Walk Test Do Not Show
Extra Points: If the point assignment switches on a
POPIT or OctoPOPIT are set incorrectly, missing and
extra points can occur. If the same point number is
assigned to two or more POPITs or OctoPOPITs,
none of the points with that number test correctly.
Refer to Section 9.1 Point (Zonex) Bus: D9412GV3
Terminals and D7412GV3 Terminals on page 36.
Do not duplicate point assignments. Points do not
function properly if assigned to an OctoPOPIT sensor
loop and a POPIT, to two OctoPOPIT sensor loops, or
to two POPITs.
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.
OctoRelays for relay numbers 1 to 64 connect to
Zonex 1, Terminal 28. OctoRelays for relay numbers
65 to 128 connect to Zonex 2 (D9412GV3 only),
Terminal 26 on the D9412GV3. Refer to Figure 24 on
this page and Figure 25 on page 51.
10.0 Off-Board Relays
10.1 D8129 OctoRelay
Use the D8129 OctoRelay to add relay outputs to the
system in groups of eight. On the D9412GV3, up to
128 OctoRelay outputs (relay numbers 1 to 128) can
be added to the system using 16 OctoRelays.
D7412GV3 allows up to 64 relay outputs. Review
Section 6.0 Power Outputs on page 26 to ensure that
enough power is provided for the OctoRelays and
other powered devices that are connected to the
system.
Alarm output, auxiliary relay, sensor reset, arming
status, point status, alarm memory, or remote
functions can be assigned to the OctoRelay outputs
individually. Refer to Relay Parameters in the
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807) for programming details.
D8129 Restricted for Fire Systems: D8129 relay
outputs are not supervised and cannot be used in fire
or combined fire and burglary installations for primary
indicating devices.
Figure 24: D8129 Connections to the D9412GV3
1 - D8129 OctoRelays for relay numbers 1 to 64.
Connect OctoRelays in parallel.
2 - D8129 OctoRelays for relay numbers 65 to
128. Connect OctoRelays in parallel.
3 - Power limited
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Figure 25: D8129 Connections to the D7412GV3
1 - D8129 OctoRelays for relay numbers 1 to 64.
Connect OctoRelays in parallel.
2 - Power limited
10.1.2 Relay Outputs
10.1.1 Configuring the D8129 OctoRelay
Relay outputs can activate when you are
setting the OctoRelay switches or
programming the control panel.
Five switches on the OctoRelay determine the relay
numbers for the eight relay outputs (Table 17).
Table 17: D8129 OctoRelay Switch Settings
Disconnect equipment connected to relay
outputs when you perform these
functions.
Panel
D8129 OctoRelay On Panel, Connect
Relay
Switch Setting
D8129 to:
Each OctoRelay output provides a Form C dry contact
rated for 1.0 A at 12.0 VDC. Normally-open, common,
and normally-closed terminals are available for each
relay output. When an individual output is activated,
continuity exists between the normally-open and
common terminals. When the output is not activated,
continuity exists between the normally-closed and
common terminals.
Number
1 to 8
Off-On-On-On-On
On-Off-On-On-On
Off-Off-On-On-On
On-On-Off-On-On
Off-On-Off-On-On
On-Off-Off-On-On
Off-Off-Off-On-On
On-On-On-Off-On
Zonex 1 Terminal 28
Zonex 1 Terminal 28
Zonex 1 Terminal 28
Zonex 1 Terminal 28
Zonex 1 Terminal 28
Zonex 1 Terminal 28
Zonex 1 Terminal 28
Zonex 1 Terminal 28
9 to 16
17 to 24
25 to 32
33 to 40
41 to 48
49 to 56
57 to 64
10.1.3 Installation
D7412G Maximum
Set the switches on the OctoRelay before installing it
in the enclosure. Refer to Section 10.1.1 Configuring
the D8129 OctoRelay.
65 to 72
Off-On-On-On-On
Zonex 2 Terminal 26
Zonex 2 Terminal 26
Zonex 2 Terminal 26
Zonex 2 Terminal 26
Zonex 2 Terminal 26
Zonex 2 Terminal 26
Zonex 2 Terminal 26
Zonex 2 Terminal 26
73 to 80
On-Off-On-On-On
Off-Off-On-On-On
On-On-Off-On-On
Off-On-Off-On-On
On-Off-Off-On-On
Off-Off-Off-On-On
On-On-On-Off-On
81 to 88
Install the OctoRelay in the enclosure with the control
panel (Figure 2 on page 9) or in an adjacent
enclosure that is no more than 1.5 m (5 ft.) from the
control panel. Use 1.5 mm (16 AWG) to 0.8 mm
(22 AWG) wire.
89 to 96
97 to 104
105 to 112
113 to 120
121 to 128
To install OctoRelays in the enclosure with the control
panel:
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1. Align the module with one of the mounting
locations in the enclosure (refer to Figure 2 on
page 9).
10.2 D811 Arm Status Relay Module
The D811 Arm Status Relay Module allows the
addition of a single off-board relay output to the
system. Alarm output, auxiliary relay, sensor reset,
arming status, point status, alarm memory, or remote
functions can be assigned to the D811 relay output. It
is not restricted to the Arming Status Mode only.
2. Using the screws provided with the module,
secure the module in the enclosure.
Use the D137 Mounting Bracket or D9002
Mounting Skirt to install OctoRelays in enclosures
with no available module mounting locations.
Relay Numbers for D811 Not Programmable: If the
D811 is connected to Zonex 1, Terminal 28, use relay
number 53 for the relay output. If the D811 is
connected to Zonex 2, Terminal 26 on the
D9412GV3, use relay number 117 for the relay
output.
10.1.4 Wiring Connections
Power down the control panel to connect OctoRelays.
Refer to Figure 24 on page 50 and Figure 25 on page
51.
OctoRelays for Relays 1 to 64 connect to
Zonex 1, Terminal 28.
D811 Modules connect as shown in Figure 26 on
page 53and Figure 27 on page 54. Review Section
6.0 Power Outputs on page 26 to ensure that enough
power is provided for the powered devices that
connect to the system. Refer to Relay Parameters in
the D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807) for programming details.
OctoRelays for Relays 65 to 128 connect
to Zonex 2, Terminal 26 on the
D9412GV3 only.
Only one OctoRelay is shown wired to each Zonex
bus in Figure 24 on page 50and Figure 25 on page
51. Wire additional OctoRelays in parallel. Review
Section 6.0 Power Outputs on page 26 for information
about providing enough power for the relays.
D811 Restricted for Fire Systems: The D811 relay
output is not supervised and cannot be used in fire or
combined fire and burglary installations for primary
indication devices.
The number of D8129 OctoRelays that can be
connected to each Zonex terminal on the D9412GV3
control panels is limited by the number of D8128D
OctoPOPITs connected.
10.2.1 Relay Output
Relay outputs can activate when you are
programming the control panel.
Using D8129 OctoRelays and D8128D
OctoPOPITs together on the same Zonex
terminals is limited and depends on the
number of D8128 OctoPOPITs and
D8129 OctoRelays connected to a single
Zonex Bus.
Disconnect equipment connected to relay
outputs when you perform this function.
Each D811 relay output provides a Form C dry
contact rated for 1.0 A at 12.0 VDC. Normally-open,
common, and normally-closed terminals are available.
When an individual output is activated, continuity
exists between the normally-open and common
terminals. When the output is not activated, continuity
exists between the normally-closed and common
terminals.
Refer to Table 18 for information about
the maximum number of D8128Ds and
D8129s you can connect to a single
Zonex bus.
10.2.2 Installation
Table 18: Number of D8128Ds Used with
D8129s
Install the D811 in the enclosure with the control
panel (Figure 26) or in an adjacent enclosure no more
than
1.5 m (5 ft.) from the control panel. Use 1.5 mm
(16 AWG) to 0.8 mm (22 AWG) wire.
If the number of
D8128Ds connected to a than this number of
single Zonex bus is:
Do not connect more
D8129s:
To install D811 Modules in the enclosure with the
control panel:
9
6
5
4
3
1
1
10
11
12
13
14
1. Align the D811 Module with any of the four
mounting locations in the enclosure (Figure 2 on
page 15).
2. Using the screws provided with the module,
secure it in the enclosure.
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Use the D137 Mounting Bracket or D9002
10.2.3 Wiring Connections
Mounting Skirt to install D811 Modules in
enclosures with no available module mounting
locations.
Power down the control panel to connect D811
Modules as shown in Figure 26 on this page and
Figure 27 on page 54.
The D811 for Relay 53 connects to
Zonex 1.
The D811 for Relay 117 connects to
Zonex 2 on the D9412GV3.
Figure 26: D811 Module Wiring to the D9412GV3
1 - D811 for Relay 53
2- D811 for Relay 117
3- On-board points
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Figure 27: D811 Module Wiring to the D7412GV3
1 - D811 for Relay 53
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D9412GV3/D7412GV3 | Operation and Installation Guide | 11.0 Arming Devices
.
D1260/D1260B: Easy-to-read, 4-line by 20-
character LCD display with eight “soft” keys to
display simple selections. Addressable SDI
Addresses 1-8.
D720/D720B: LED display keypad appropriate for
use as a single area keypad with up to eight
points. Addressable to all 16 SDI addresses.
11.0 Arming Devices
11.1 Description
Keypads, maintained or momentary contact
keyswitches, or a combination of the two are used to
arm and disarm areas. The D9412GV3 can support
up to 32 areas. The D7412GV3 can support up to 8
areas. Refer to 3.3.5 Areas and Accounts on page 12
for a description of areas.
D1255 and D720 are available in white
(D1255W and D720W) or red (D1255R
and D720R).
For UL 864 Commercial Fire applications,
refer to Installing Combination Fire and
Intrusion Alarm Systems in the
D9412GV3/D7412GV3 Approved
Applications Compliance Guide
(P/N: F01U143069) for important
information about combination fire and
intrusion systems.
To meet UL 864 requirements for
Commercial Fire applications, use a
D1255RB, D1256RB, or D1257RB for a
fire keypad or fire annunciator.
For operational information, refer to the user’s guide
for the specific keypad.
11.2.1 Assigning an Address for the Keypad
11.2 Keypad Terminals 29 to 32
Switches on the keypad assign an address (1 to 16).
The address determines if the keypad is supervised,
the scope of the keypad, and to what area the keypad
is assigned. Refer to Keypad Assignment in the
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807) for a complete description of
addresses.
The Bosch Security Systems, Inc. keypad is a four-
wire powered device used to arm and disarm areas,
annunciate complete system status, initiate system
tests, and control many functions of the security
system.
The system can supervise up to 16 keypads. The
control panel sends a Serial Device Trouble Report,
SDI FAILURE, in the Modem IIIa2 format or
Expansion Module Failure (333) in Contact ID format,
if it loses communication with a supervised keypad.
CALL FOR SERVICE appears in any keypad that
loses communication with the control panel, if the
keypad has text display capability. SERVC KEYPAD
appears at all other keypads connected to the system.
Table 19 shows the correct switch setting for each
address.
Table 19: Keypad Address Settings
Address
Switch
1
2
3
4
5
6
A total of 32 unsupervised keypads can be connected
to the system. The number of supervised keypads,
number of areas, and the available power affect the
total number of keypads that can be connected to the
system. Refer to Keypad in the
D9412GV3/D7412GV3 Program Entry Guide
(P/N: F01U170807) for complete programming details
on keypad options.
Address #1
Address #2
Address #3
Address #4
Address #5
Address #6
Address #7
Address #8
Address #9
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
OFF ON
ON
OFF OFF ON
OFF ON
ON
OFF ON
ON
OFF OFF OFF ON
ON
OFF ON
OFF ON
OFF OFF ON
Five types of keypads are available for use with the
system.
ON
ON
ON
ON
OFF
OFF
OFF
OFF
Address #10 OFF ON
Address #11 ON
Address #12 OFF OFF ON
Address #13 ON
Address #14 OFF ON
Address #15 ON
Address #16 OFF OFF OFF OFF
D1255/D1255B/D1255RB: 16-character
alphanumeric display for general use.
Addressable to all 16 SDI addresses.
D1256/D1256RB: Text display keypad with keys
designated for local fire alarm control.
Addressable to all 16 SDI addresses.
D1257/D1257RB: Text display keypad for fire
annunciation. Addressable to all 16 SDI
addresses.
OFF ON
ON
OFF OFF
OFF OFF
OFF OFF OFF
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11.2.2 Installation
Extra Power for More Keypads
Refer to the keypad installation manuals for
installation and mounting instructions. Keypads
connect to the control panel in parallel (Table 20).
The D1255 and D1255B Keypads draw 104 mA when
idle. They draw 206 mA with the keys lit and the
sounder activated. Review Section 6.0 Power Outputs
on page 26 to determine the total power output
requirements for the system.
Table 20: Keypad Connections
One or more D8132 Battery Charger/Power Supply
Modules can be added for the number of keypads
used. Figure 28 on page 57 shows the D8132
powering keypads in a stand-alone configuration.
D9412GV3/
D7412GV3
Terminal
Keypad
Wire
Color
Function
Function
+12.0 VDC
Data
32*
31
30
29
POWER +
DATA BUS A
DATA BUS B
COMMON
Red
For UL Certificated accounts, use a UL Listed
auxiliary 12.0 VDC or 24 VDC regulated, power-
limited power supply for Fire Protective Signaling
Units and Commercial or Residential Burglar Units.
The D8132 is not UL Listed as a stand-alone power
supply.
Yellow
Green
Black
Data
Common
* Connect with at least 1.5 m (5 ft.) of 0.8 mm (22 AWG) wire
(4.3 m [14 ft.] of 1.2 mm [18 AWG] wire).
The control panel and the D8132 (or
other power supply) must share
COMMON.
Switching the Green and Yellow Wires Affects
Other Keypads: Connecting the green wire
incorrectly from the keypad to Terminal 31 and the
yellow wire to Terminal 30 causes other keypads
connected to the control panel to go blank or to sound
random beep tones.
Figure 28 on page 57 shows the common
form of the D8132 Module connected to
the common on the keypad and the
common on the control panel. Any stand-
alone power supply, powering any device
connected to the control panel, must also
be connected to a common terminal on
the control panel.
You can connect devices to the data bus (Terminals
30 and 31) by parallel wire run from the control panel
to each device, wire from device to device, or a
combination of the two using a maximum of 4572 m
(15000 ft) of 0.8 mm (22 AWG) wire for all devices
connected to the SDI Bus combined.
If using the ground fault detection
capability on the D9412GV3 and
D7412GV3 Control Panels with an
external power supply, ensure that the
external selected power supply isolates
its earth ground connection from the
negative side of the auxiliary power
output. External power supplies that do
not isolate earth ground can cause
ground fault conditions on the control
panel.
Wire Limits for Individual Devices
Refer to the installation instructions for each device
for wire length specifications.
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Figure 28: Power at Keypads
5
2
3
2
4
1
3
4
1 - To control panel
2 - +12.0 VDC
3 - Data
4 - Common
5 - D8132 or external power supply
11.3 D279A Independent Zone Control
Any on-board or OctoPOPIT point can be programmed so that the D279A Independent Zone Control operates
as independent point control (arming and disarming the point).
Refer to Point Assignments in the D9412GV3/D7412GV3 Program Entry Guide (P/N: F01U170807) for
programming information. Refer to the D279A Operation and Installation Instructions (P/N: 46458) for wiring
and operation instructions.
11.4 Keyswitch
11.4.1 Description
A maintained or momentary contact arming station (keyswitch) can be connected to master arm or disarm any
of the areas in the system. The keyswitch is connected to an on-board or off-board point’s sensor loop. Relays
can be programmed to activate arming status LEDs for keyswitch arming stations. Refer to Relays in the
D9412GV3/D7412GV3 Program Entry Guide (P/N: F01U170807).
11.4.2 Programming
Refer to Point Assignments in the D9412GV3/D7412GV3 Program Entry Guide (P/N: F01U170807) for the
correct programming for points used for keyswitches.
11.4.3 Installation
For maintained switches, connect the EOL resistor for the point at the keyswitch so that the switch opens the
circuit when it operates. A short on the circuit produces an alarm if the area is armed and a trouble if it is
disarmed. Refer to Figure 29 on page 58.
For momentary keyswitches, connect the EOL resistor at the keyswitch point so that when the keyswitch
operates, it shorts the resistor. An open on the circuit causes an alarm if the area is armed and a trouble if it is
disarmed. Refer to Figure 29 on page 58.
11.4.4 Operation
Maintained Contact
If the point to which the keyswitch is connected is programmed for a maintained contact, an open on the arming
circuit arms the area. All faulted points are force armed, regardless of the entry in the FA Bypass Max program
item. Returning the circuit to normal disarms the area. Refer to Area Parameters and Point Assignments in the
D9412GV3/D7412GV3 Program Entry Guide (P/N: F01U170807).
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Momentary Contact
If the point to which the keyswitch is connected is programmed for a momentary contact, shorting the arming
circuit toggles the area’s arming state between armed and disarmed. All faulted points are force armed,
regardless of the entry in the FA Bypass Max program item. Refer to Point Assignments in the
D9412GV3/D7412GV3 Program Entry Guide (P/N: F01U170807).
Silencing the Bell
To silence the bell (stop Alarm Bell output) if the system is armed, position the keyswitch to disarm the area. If
the area is disarmed, turn the keyswitch once to start the arming process. Turning the keyswitch a second time
stops the arming process and silences the bell.
Figure 29: Keyswitch Wiring
2
1
6
7
3
4
3
5
5
4
5 - 1 k or 33 kresistor
6- Open on a circuit arms the area
1 - Maintained keyswitch
2 - Momentary keyswitch
3 - Common
7 - Short on a circuit toggles the arming state
4 - Point input
Use 1 kΩ EOL resistors if using one of the zones on the control panel or an OctoPOPIT. Use a 33 kΩ resistor if using a POPIT.
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.
12.3 D9131A Parallel Printer Interface
Module
The Bosch Security Systems, Inc. D9131A Parallel
Printer Interface Module is a four-wire powered device
12.0 SDI Devices
12.1 Description
D9412GV3 and D7412GV3 Control Panels can
support a number of accessory devices from the SDI
Bus using Terminals 29 through 32. Some devices
include the D1255 and D1255B Keypads (refer to
Section 11.0 Arming Devices on page 55), D9131A
Parallel Printer Interface Module, D9210B Wiegand
Control Interface Module, DX4010i RS-232 Serial
Interface Module, ITS-DX4020-G GPRS/GSM
Communicator, and DX4020 Network Interface
Module.
used to connect a standard parallel printer to a control
panel. D9412GV3 can supervise three printers and
the D7412GV3 can supervise one printer. A separate
D9131A Parallel Printer Interface Module is
necessary for each printer. The D9131A connects to
the printer using a standard parallel printer cable.
12.3.1 Switch Settings
Switches on the D9131A assign a unique address (17
to 19) for each printer. The address determines if the
printer is supervised, the area scope of the printers,
and the area to which the printer is assigned. Refer to
Printer Parameters in the D9412GV3/D7412GV3
Program Entry Guide (P/N: F01U170807) for a
complete description of addresses.
For UL 864 Commercial Fire applications,
refer to Installing Combination Fire and
Intrusion Alarm Systems in the
D9412GV3/D7412GV3 Approved
Applications Compliance Guide
(P/N: F01U143069) for important
information about combination fire and
intrusion systems.
Table 22 shows the correct switch setting for each
address.
Table 22: Printer Address Switch Settings
12.2 Installation
For complete installation instructions, consult the
operation and installation guide for the specific SDI
device. SDI devices connect to the control panel in
parallel (Table 21).
Printer
Switch
1
2
3
42
5
6
17
ON
ON
ON
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
18 1
OFF
ON
19 1
These devices can share power with the control panel
or be powered by a stand-alone power source.
1
D9412GV3 only.
2
Switch 4: ON = Header and form feed
OFF = No header and form feed
Table 21: SDI Device Connections
12.3.2 Supervision
D9412GV3/D7412GV3
SDI Devices
Wire Color
Red
Supervision includes:
Terminal
Function
Function
+12.0 VDC
Data
Proper operation of the SDI bus
32
31
30
29
POWER +
DATA BUS 1
DATA BUS B
COMMON
Proper connection of the printer cable between
the printer and the D9131A
Printer paper supply
Printer selected (on-line)
Printer power.
Yellow
Green
Data
Black
Common
A stand-alone power supply powering the
SDI device must also be connected to a
common terminal on the control panel.
The control panel sends an SDI Failure Report to the
receiver if communication with the printer interface
fails. If an SDI failure occurs, SERVC PRINTER
appears at the keypad. The report to the receiver
includes the address of the troubled D9131A to
indicate which printer needs service.
Do not connect the earth ground for the
stand-alone power supply to Terminal 10
on the control panel.
If an SDI device is supervised and Terminal SDI A
becomes disconnected, the device can continue to
operate normally, depending upon environmental
conditions.
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12.4 D9210B Wiegand Control Interface
Module
12.5 SDI Addresses 88 and 92
SDI Addresses 88 and 92 are available with the
D9412GV3 and D7412GV3 Control Panels and are
used for several different applications. Only one
device can be assigned to SDI Address 88 at a time.
Likewise, only one device can be assigned to SDI
Address 92 at a time.
The Bosch Security Systems, Inc. D9210B Wiegand
Control Interface Module is a four-wire powered
device providing connections for an access door point
and door strike. The D9412GV3 can supervise eight
Wiegand Control Modules, the D7412GV3 can
supervise two. Each D9210B supports one door to
control access. Programming allows each access
door to be configured independently.
12.5.1 D9133DC Direct Connect Programming
Module
Use the D9133DC Direct Connect Programming
Module to handle local programming of the
D9412GV3 and D7412GV3 Control Panels. In
addition, the D9133DC allows diagnostic and history
retrieval.
12.4.1 Access
Using Wiegand style cards or tokens, the D9210B can
allow access for up to 996 cards or tokens on the
D9412GV3, and up to 396 on the D7412GV3. User
access authority can be configured to restrict access
to certain doors or to certain periods of time. The
reading of access cards, in addition to granting
access, can control whether the system disarms.
Used with the D9412GV3, the D9210B recognizes
249 master users by user name, passcode, and
access authority. The D9210B recognizes 99 master
users when used with the D7412GV3. Each master
user supports three sub-users with unique cards or
tokens having the same access level as the master
user.
The D9133DC is not UL Listed, and
cannot remain connected to the system
for UL applications.
UL requires that the D9133DC be used
for programming only.
D9133DC uses SDI 88 only.
Connecting the D9133DC
12.4.2 Switch Settings
1. Configure D9133DC for SDI Address 88. To
program the control panel when the reset pin is in
the unlocked position, program Enable SDI RPS
to Yes in the GV2AUX handler.
Switches on the D9210B assign a unique address
(1 to 8) to each module. Table 23 shows the correct
switch setting for each D9210B address.
2. Connect D9133DC to Com Port 1 or Com Port 2
on the PC. The D9133DC has a DB-9 female
serial connector. A null-modem cable must be
purchased separately to connect the D9133DC to
a PC.
Table 23: Address Switch Settings for
Access Control Module
Door Module
Addresses
DIP Switch Settings
1
2
3
41
52
62
3. Using 0.8 mm (22 AWG) or 1.2 mm (18 AWG)
wire, connect the D9133DC SDI terminals (SDI
PWR, SDI A, SDI B, and SDI COM) to the control
panel’s SDI terminals (Terminals 29 to 32).
1
2
ON
OFF
ON
ON
ON
ON
ON
ON
ON
ON
---------------D7412GV3 Maximum---------------
3
4
5
6
7
8
ON
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
To send or receive the control panel’s program, place
the Reset Pin in the Locked or Unlocked position.
OFF OFF
ON
OFF
ON
ON
ON
OFF OFF
OFF
OFF
Locking the Reset Pin when
programming the control panel improves
the uploading and downloading times.
OFF OFF OFF
1 Switch 4, Fail Safe Mode:
ON = If SDI bus fails, relay energizes.
OFF = If SDI bus fails, relay de-energizes.
2 Switches 5 and 6 must remain in the ON position.
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D9412GV3/D7412GV3 | Operation and Installation Guide | 12.0 SDI Devices
.
12.5.2 Network Interface Modules
Figure 30: DX4020 DIP Switch Settings
The Bosch Security Systems, Inc. DX4020 Network
Interface Module is a four-wire powered SDI device
that provides connection for two-way communication
over Ethernet networks to D9412GV3 and
D7412GV3.
For programming information on enhanced
communications, refer to the D9412GV3/D7412GV3
Program Entry Guide (P/N: F01U170807).
The DX4020 can be installed up to 305 m (1000 ft)
from the control panel using 0.8 mm (22 AWG) wire.
The ITS-DX4020-G GPRS/GSM IP Communicator
enables two-way IP or dialed communication over a
commercial GPRS/GSM network. Typical applications
are event reporting to a central monitoring station and
remote access to Bosch intrusion control panels.
The ITS-DX4020-G GPRS/GSM IP Communicator
has two modes; GPRS uses Modem IIIa2; and GSM
uses Contact ID.
For programming information refer to the
ITS-DX4020-G GPRS/GSM IP Communicator
Installation and Operation Guide (P/N: F01U163066).
1 - DIP Switches
2 - ON position
12.5.3 Address Settings
The DX4020 has specific DIP switch settings for SDI
Addresses 88 and 92 when using the DX4020 for
Remote Programming Software (RPS) or enhanced
communications in a local-area network (LAN) or
wide-area network (WAN) environment. Refer to
Figure 30 for the correct switch settings.
3 - OFF position
4 - SDI Address 80 switch settings
5 - SDI Address 88 switch settings
6 - SDI Address 92 switch settings
12.5.4 Supervision
Supervision of the DX4020 and D9133DC at SDI
Address 88 and 92 is available through programming
that ensures operation between the module and the
control panel.
If supervised and the module does not respond to
control panel supervision polls, SERVC SDI 88 or
SERVC SDI 92 appears at the keypad. The report to
the receiver includes the address of the troubled
module indicating which module needs service.
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D9412GV3/D7412GV3 | Operation and Installation Guide | 13.0 Programmer and Accessory Connections
.
Accessing Local Keypad Programming when the
Control Panel is Operating (Reset Switch Open)
13.0 Programmer and
Accessory Connections
13.1 Programmer Connector
Control panel firmware version 8.11 and later does
not support the D5200 Programmer. Instead, a limited
local keypad programming mode is available. Refer to
Section 13.2 Installer Keypad and Local Programmers
Mode on page 62 for details.
To access the Local Programmers Menu while the
control panel is operating:
1. Disarm all areas in the control panel.
Local keypad programming is only accessible
when all areas are disarmed.
2. At any D1255 or D1260 Keypad, press
[9][9][ENTER] to access the Service Menu.
3. Enter the Service passcode when prompted.
4. Advance the menu to the Keypad Programming
option, then press [ENTER] to enter programming
mode.
Figure 31: Reset Pin
The Keypad Programming menu is only available
when all areas in the control panel are disarmed.
Accessing Local Keypad Programming when the
Control Panel is in Standby Mode (Reset Switch
Closed)
The control panel is in standby mode when the Reset
pin is closed. Refer to Figure 31. While the control
panel is in standby mode, you can access the Service
Menu at one of two keypads with the following
restrictions:
An unsupervised D1260 Keypad (all versions)
at SDI Bus Address 8.
The D1260 Keypad does not support SDI Bus
Address 16.
An unsupervised D1255 Keypad (all versions)
at SDI Bus Address 16.
If a D1255 is set to SDI Bus Address 8, then
that keypad cannot be used to access the
Service Menu.
Only one keypad at a time is allowed to be in
use.
1 - Reset Pin locked (closed)
2 - Reset Pin normal (open) for normal control
panel operation
When the Reset Switch (labeled S1)
is closed, the communication module
at SDI Address 92 is disabled. While
in this mode, remote programming
communication is only supported by
the communication module at SDI
Address 88.
To access Local Keypad Programming when the
control panel is in standby mode:
1. From the keypad (D1260 at SDI Address 8 or
D1255 ad SDI Address 16), enter the Service
Passcode.
13.2 Installer Keypad and Local
Programmers Mode
2. Advance the menu to the Keypad Programming
option.
While installing or maintaining a D9412GV3 or
D7412GV3 control panel, it is sometimes necessary
to change the configuration. To do so, a local keypad
programming menu is available in the Service Menu.
You can access the Service Menu when the control
panel is in stand-by mode or while it is operating.
Refer to the D9412GV3/D7412GV3 Control Panel
Program Entry Guide (P/N: F01U170807) for an
explanation of the programming menu.
3. Press [ENTER] to enter Local Keypad
Programming.
13.3 Programmer Access Reports
When a program is sent to the control panel from
RPS, the control panel sends a Prog Access OK
report 10 sec after the reset switch is unlocked, or
when the programmer disconnects. The prompt in
routing must be programmed Yes to send this report.
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D9412GV3/D7412GV3 | Operation and Installation Guide | 13.0 Programmer and Accessory Connections
.
13.4 Accessory Connector
Use the accessory connector to connect the control
panel to the D928 Dual Phone Line Switcher. The
accessory connector is on the bottom right corner of
the I/O board (Figure 32). The D928 lets the control
panel use two telephone lines to send reports.
Refer to Section 7.11 D928 Dual Phone Line Switcher
on page 30 for installation and operating instructions.
Figure 32: Programmer and Accessory
Connections
1 - Accessory connector
2 - Programming connector
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D9412GV3/D7412GV3 | Operation and Installation Guide | 14.0 Faceplates
.
14.0 Faceplates
14.1 D9412GV3 Faceplate
Figure 33: D9412GV3 Faceplate
1 - Charging status LED (yellow)
2 - Low battery LED (red)
3 - Color-coded battery leads
4 - Ground fault detect enable
5- Phone LED (red)
8 - Ring
9 - S3, Point 8 EOL selection
10 - Operation monitor LED (green)
11 - Accessory connector
12 - Programming connector
Do not use with firmware version 8.11 or later
6 - Tip
13 - Reset pin
7 - Telephone cord connector
14 - SDI quick connector
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D9412GV3/D7412GV3 | Operation and Installation Guide | 14.0 Faceplates
.
14.2 D7412GV3 Faceplate
Figure 34: D7412GV3 Faceplate
1 - Charging status LED (yellow)
2 - Low battery LED (red)
3 - Color-coded battery leads
4 - Ground fault detect enable
5- Phone LED (red)
8 - Ring
9 - S3, Point 8 EOL selection
10 - Operation monitor LED (green)
11 - Accessory connector
12 - Programming connector
Do not use with firmware version 8.11 or later
6 - Tip
13 - Reset pin
7 - Telephone cord connector
14 - SDI quick connector
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D9412GV3/D7412GV3 | Operation and Installation Guide | Appendix A: System Wiring Diagrams, Issue A
.
Appendix A: System Wiring Diagrams, Issue A
A.1 D9412GV3 Control Panel
Figure 35: D9412GV3, Power Supply Side System Wiring
1 - If required by local AHJ, connect D113 Battery
Lead Supervision Module.
9 - To Relay A or Relay B
10 - Listed Audible Signaling Devices rated at
12.0 VDC nominal (do not use vibrating type
horns)
2
Batteries
3 - D122 Dual Battery Harness, as required
11 - C900V2(optional)
12 - RJ31X, secondary phone line
4- D1640 Transformer and D8004 Transformer
Enclosure required for NFPA Applications
5 - D8132 Dual Battery Charger with two batteries
(Batteries are not supervised.)
13 - 560 , 2 W EOL Resistor
(P/N: 15-03130-005)
6 - Power limited, supervised
7 - Power limited
14 - RJ31X, primary phone line
15 - D928
8 - D192G Bell Supervision Module
16 - To earth ground
All external connections except Terminal 5 (battery positive) are power limited.
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D9412GV3/D7412GV3 | Operation and Installation Guide | Appendix A: System Wiring Diagrams, Issue A
.
Figure 36: D9412GV3, Input Points and Peripheral Devices System Wiring
CLASS
2
TRANSFORMER
16.5 VAC 40 VA 60 Hz
Model D1640
Internally Fused Do not short
Requires Unswitched Outlet
RED
POWER
+
-
DATA BUS A
YELLOW
GREEN
Do not share with other equipment
D9412GV3
+ AUX POWER
DATA BUS
B
BATTERY NEGATIVE ONLY
BLACK
COMMON
CAUTION: Avoid damage to Panel.
Do not connect 24
V
to terminals.
Maximum charging current 1.4 A
BATTERY POSITIVE ONLY
N.F.P.A.
ZONEX OUT
1
Style 4.0
Signaling
Line
27
27
RELAY A
RELAY B
RELAY C
PROGRAMMABLE
ALARM OUTPUTS
ZONEX IN
1
Circuits
Terminals
6
and
SWITCHED AUX
Terminal
7
ZONEX OUT
2
26
225
8
ZONEX IN
25
24
23
ZONEX POWER
+
COMMON
VOLTAGE RANGES
ZONEX COMMON
Open
3.7 - 5.0 VDC
EARTH GROUND
Normal 2.0 - 3.0 VDC
Short0.0
-
1.3
VDC
S4 GROUND FAULT DETECT
Point
1
Point
2
Point
3
Point
4
Point
5
Point
6
Point
7
Point
8
D5200/D5360
PROG CONN
Point 8, S3 Option
Enabled
Disabled
-
+
Closed
=
1
kW EOL
Normal Operation
Open =AB-12 UL
PHONE LINE SEIZED LED
ON when communicating
OFF when idle
Bell Box 220 kW
Operation Monitor LED
Pulses when Normal
Flickers when Ringing
TIP
RING
11
COMMON
12
13
14
15
16
17
18
19
20
21
22
GREEN
RED
TELCO CORD MODEL D161
PHONE LINE
SEIZED
RING
TIP
TELCO
Sw. Aux Pwr
Zone B
1
2
Loop B+
Loop B-
Loop B-
Loop B+
Zone B
1
2
Zone A
3
4
5
6
7
8
9
Pnl Common
Pnl Common
Loop B-
3
4
5
Loop A-
Aux Power
Earth Ground
Common
6
Loop B+
7
Loop A+
8
9
Earth Ground
10
Zone A
Loop A+
Loop A-
Loop A-
10
11
12
13
Loop A+
1 - (Optional): For 24 V applications use a UL 1481
listed, regulated, power-limited 24 VDC power
supply with a D130 Relay Module. Refer to the
D130 Installation Instructions (P/N: F01U072455)
for correct wiring requirements.
5 - P105BL1 1 kW resistor (P/N: F01U033966):
For typical burglar alarm applications.
6 - D129 Dual Class A Initiation Circuit Module:
Provides optional Waterflow Alarm Retard
feature. Not suitable for two-wire smoke
detectors.
2 - D130 Relay Module
3 - D125B Powered Loop Interface Module
4 - To UL Listed two-wire smoke detectors. Refer to
Two-Wire Smoke Detectors in the
D9412GV3/D7412GV3 Approved Applications
Compliance Guide (P/N: F01U143069) for a
listing of compatible two-wire smoke detectors.
Use zero retard except for waterflow devices.
All external connections except Terminal 5 (battery positive) are power limited.
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D9412GV3/D7412GV3 | Operation and Installation Guide | Appendix A: System Wiring Diagrams, Issue A
.
Figure 37: D9412GV3, SDI Devices System Wiring System Wiring
1 - Up to 16 supervised D1255 (all versions), D1255RB,
D1256, D1256RB Keypads, or D1257RB or D1257 Fire
Annunciators, or up to 8 supervised D1260 Keypads
(all versions)
2 - Up to 8 D9210B Access Control Interface Modules
3 - Up to 3 supervised 9131A Parallel Printer Interface
Modules, or other SDI devices
7 - D8125 POPEX No.1
8 - D8125 POPEX No. 2
9- Up to 119 D9127U/T POPITs
10 - Zonex 1: 15 D8128Ds maximum*
11 - Zonex 2: 15 D8128Ds maximum*
12 - Zonex 1: Up to 8 D8129s maximum*
13 - Zonex 2: Up to 8 D8129s maximum*
4 - Power limited, supervised
5 - Power limited
6 - DX4020 Network Interface Module or other SDI device
*
The number of D8129 OctoRelays that can be connected to each zonex terminal on the control panel is limited by the number of
D8128D OctoPOPITs connected to the same terminal. Refer to the D8128D Installation Guide (P/N: F01U070537) or the D8129
Operation and Installation Guide (P/N: F01U036302) for specific information.
All external connections except Terminal 5 (battery position) are power limited.
Fire and Intrusion devices must be on separate circuits. Refer to ICP-SDI-9114 Installation
Instructions (P/N: F01U030068).
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D9412GV3/D7412GV3 | Operation and Installation Guide | Appendix A: System Wiring Diagrams, Issue A
.
A.2 D7412GV3 Control Panel
Figure 38: D7412GV3, Power Supply Side System Wiring
1
2
If required by local AHJ, connect D113 Battery
Lead Supervision Module.
Batteries
9 - To Relay A or Relay B
10 - Listed Audible Signaling Devices rated at
12.0 VDC nominal (do not use vibrating type
horns)
3 - D122 Dual Battery Harness, as required
11 - C900V2 (optional)
12 - RJ31X, secondary phone line
4- D1640 Transformer and D8004 Transformer
Enclosure required for NFPA Applications
5 - D8132 Dual Battery Charger with two batteries
(Batteries are not supervised.)
13 - 560 , 2 W EOL Resistor
(P/N: 15-03130-005)
6 - Power limited, supervised
7 - Power limited
14 - RJ31X, primary phone line
15 - D928
8 - D192G Bell Supervision Module
16 - To earth ground
All external connections except Terminal 5 (battery positive) are power limited.
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D9412GV3/D7412GV3 | Operation and Installation Guide | Appendix A: System Wiring Diagrams, Issue A
.
Figure 39: D7412GV3, Input Points and Peripheral Devices System Wiring
CLASS 2 TRANSFORMER
16.5 VAC 40 VA 60 Hz
Model D1640
Internally Fused - Do not short
Requires Unswitched Outlet
Do not share with other equipment
D7412GV3
+ AUX POWER
BATTERY NEGATIVE ONLY
CAUTION: Avoid damage to Panel.
Do not connect 24 V to terminals.
Maximum charging current 1.4 A
BATTERY POSITIVE ONLY
RELAY A
RELAY B
RELAY C
PROGRAMMABLE
ALARM OUTPUTS
Terminals
6
and
SWITCHED AUX
Terminal
7
8
COMMON
VOLTAGE RANGES
Open 3.7 - 5.0 VDC Short 0.0 - 1.3 VDC
Normal 2.0 - 3.0 VDC
EARTH GROUND
S4 GROUND FAULT DETECT
Point 1 Point 2
Point 3 Point 4
Point 5 Point 6
Point 7 Point 8
Enabled
Disabled
-
+
PHONE LINE SEIZED LED
ON when communicating
OFF when idle
TIP
RING
11
12
13
14
15
16
17
18
19
20
21
22
RED
TELCO CORD MODEL D161
Sw. Aux Pwr
Zone B
1
2
Loop B+
Loop B-
Loop B-
Loop B+
1
2
Zone A
3
4
5
6
7
8
9
Pnl Common
Pnl Common
Loop B-
3
4
Zone B
Aux Power
Earth Ground
Common
5
Loop A-
6
Loop B+
7
Loop A+
8
9
Earth Ground
10
Zone A
Loop A+
Loop A-
Loop A-
10
11
12
13
Loop A+
1 - (Optional): For 24 V applications use a UL 1481
Listed Regulated Power Limited 24 VDC power
supply with a D130 Relay Module. Refer to the
D130 Installation Instructions (P/N: F01U072455)
for correct wiring requirements.
5 - P105BL1 1 k resistor (P/N: F01U033966), for
typical burglar alarm applications.
6 - D129 Dual Class A Initiation Circuit Module:
Provides optional Waterflow Alarm Retard
feature. Not suitable for two-wire smoke
detectors.
2 - D130 Relay Module
3 - D125B Powered Loop Interface Module
4 - To UL Listed 2-wire smoke detectors. Refer to
Two-Wire Smoke Detectors in the D9412GV3/
D7412GV3 Approved Applications Compliance
Guide (P/N: F01U143069) for a listing of
compatible two-wire smoke detectors.
All external connections except Terminal 5 (battery positive) are power limited.
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D9412GV3/D7412GV3 | Operation and Installation Guide | Appendix A: System Wiring Diagrams, Issue A
.
Figure 40: D7412GV3, SDI Devices System Wiring
1 - Up to 16 supervised D1255 (all versions),
D1255RB, D1256, D1256RB Keypads, or
D1257RB or D1257 Fire Annunciators, or up to 8
supervised D1260 Keypads (all versions)
2 - Up to 2 D9210B Access Control Interface
Modules
5
DX4020 Network Interface Module or other
SDI device
6 - Power limited
7 - D8125 POPEX No. 1
8 - Up to 67 D9127U/T POPITs
9 - Zonex 1: Up to 9 D8128Ds
10 - Zonex 1: Up to 8 D8129s maximum
3 - Up to 1 supervised 9131A Parallel Printer
Interface Module, or other SDI device
4 - Power limited, supervised
*
The number of D8129 OctoRelays that can be connected to each zonex terminal on the control panel is limited by the number of
D8128D OctoPOPITs connected to the same terminal. Refer to the D8128D Installation Guide (P/N: F01U070537) or the D8129
Operation and Installation Guide (P/N: F01U036302) for specific information.
All external connections except Terminal 5 (battery positive) are power limited.
Fire and Intrusion devices must be on separate circuits. Refer to ICP-SDI-9114 Installation
Instructions (P/N: F01U030068).
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D9412GV3/D7412GV3 | Operation and Installation Guide | Appendix B: Point Address Charts
.
Appendix B: Point Address Charts
B.1 Zonex 1, Points 9 to 127 (D9412GV3);
Zonex 1, Points 9 to 75 (D7412GV3)
Place the labels on the base of the POPIT. Do not attach labels to the POPIT cover.
A bullet ( ) in the switch column indicates that the switch is set to ON.
D9127 POPITs can be used for Points 9 to 72; however, only D9127 POPITs can be used for Points 73 to 127.
D9127 POPITs have DIP switches 0 to 6.
Table 24: Zonex 1 Point Address Chart
Switch2
Switch2
Switch2
Address
0
1
2
3
4
5
6
Address
0
1
2
3
4
5
6
Address1
0
1
2
3
4
5
6
1
1
009
010
011
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
029
030
031
032
033
034
035
036
037
038
039
040
041
042
043
044
045
046
047
048
049
050
051
052
053
054
055
056
057
058
059
060
061
062
063
064
065
066
067
068
069
070
071
072
073
074
075
076
077
078
079
080
081
082
083
084
085
086
087
088
089
090
091
092
093
094
095
096
097
098
099
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
1283
1 - Points 9 to127 (D9412GV3); Points 9 to 75 (D7412GV3).
2 - A dot (·) in the Switch column indicates the switch is set to ON.
3 - The control panel reserves Point 128 for internal use.
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D9412GV3/D7412GV3 | Operation and Installation Guide | Appendix B: Point Address Charts
.
B.2 Zonex 2, Points 129 to 247 (D9412GV3 Only)
Place the labels on the base of the POPIT. Do not attach labels to the POPIT cover.
A number in the switch column indicates that the switch is set to ON.
Table 25: Zonex 2 Point Address Chart
Switch2
Switch2
Switch2
Address
0
1
2
3
4
5
6
Address1
0
1
2
3
4
5
5
Address1
0
1
2
3
4
5
6
1
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
2483
1 - Points 129 to 247 (D9412GV3 only).
2 - A dot (·) in the Switch column indicates the switch is set to ON.
3 - The control panel reserves Point 248 for internal use.
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D9412GV3/D7412GV3 | Operation and Installation Guide | Specifications
.
Specifications
Table 26: Specifications
Voltage Input
(Power
Primary:
Terminals 1
and 2
16.5 VAC 40 VA class 2 plug-in transformer (D1640)
Supply)
Secondary:
Terminals 4
and 5
Sealed lead-acid rechargeable battery (12.0 VDC, 7 Ah or 12.0 VDC, 17.2 or 18
Ah). The control panel supports up to two 12.0 VDC, 7 Ah batteries using the
D122 Dual Battery Harness or two D1218 (12.0 VDC, 17.2 or 18 Ah) batteries
using a D122.
Current
Control Panel: Idle 225 mA; Alarm 300 mA
Requirements
Refer to the Current Rating Chart for Standby Battery Calculations section in the D9412GV3/D7412GV3 Approved
Applications Compliance Guide (P/N: F01U143069) for the current draw requirements of other system components.
Power
Outputs*
All external connections are power-limited except battery terminals.
Continuous
Power
Terminals 3,
24, and 32
1.4 A maximum at 12.0 VDC nominal (continuous supply) total for all devices and
outputs supplied at Terminals 3, 24, and 32 and at the accessory and
programming connectors.
Outputs
Alarm Power
Output
Terminals 6
and 7
2.0 A maximum at 12.0 VDC nominal output. Output can be steady or one of
three pulsed patterns depending on programming. Refer to Relays in the
D9412GV3/D7412GV3 Program Entry Guide (P/N: F01U170807).
1.4 A maximum at 12.0 VDC nominal output. Continuous output is interrupted by
Sensor Reset or alarm verification depending on programming. Refer to Relays
in the D9412GV3/D7412GV3 Program Entry Guide (P/N: F01U170807).
Switched Aux
Power
Terminal 8
Fire and
Fire/Burglary
Systems
To comply with UL 985 and 864 listing standards for fire alarm systems (effective March 1, 1989),
the total combined continuous and alarm current draw for the system during alarm conditions must
be limited to 1.4 A provided by the primary power supply (rectified AC). If current draw for the
system exceeds 1.4 A, remove connected devices until the current draw falls below 1.4 A. Then,
connect the removed devices to a D8132 Battery Charger Module or to an external power supply
(refer to Figure 29 on page 58).
*For UL 864 applications, refer to Table 3 on page 11 for compatible devices.
Minimum
Operating
Voltage
10.2 VDC
SDI Bus
SDI Bus A (+):
SDI Bus B (-):
Connection:
Two Telco
lines:
9 VDC 4572 m (15000 ft) maximum
9 VDC 4572 m (15000 ft) maximum
RJ31X or RJ38X jack can connect the control panels.
Bosch Security Systems, Inc. D928 Dual Phone Line Module required for two phone line service.
Supervision supplied by the control panel.
Telephone
Connections
Battery
Discharge
Cycle
13.9 VDC
13.8 VDC
12.1 VDC
10.2 VDC
10.0 VDC
AC ON
Charging float level.
Charging status LED on.
Discharge/
Recharge
Schedule
Low Battery and AC Fail Reports if programmed. Low Battery LED on.
Minimum operational voltage
Battery load shed (processing functions continue if AC is present).
Load shed relay resets, battery charging begins, Battery Trouble and AC
Restoral Reports sent.
Recharge
Cycle
13.7 VDC
13.9 VDC
Battery Restoral Report sent, Low Battery LED off.
Charging status LED off, battery float charged.
Environmental
Temperature:
0°C to +50°C (+32°F to +122°F)
Relative
Maximum 93% non-condensing
Humidity:
Arming
Stations
Point
D720/D720B Keypads, D1255/D1255B/D1255RB Keypads, D1256/D1256RB Fire Keypads; D1257/D1257RB Fire
Alarm Annunciators; D1260/D1260B Keypads; Keyswitch
On-board
Open
Greater than 3.7 VDC, but less than 5.0 VDC.
Greater than 2.0 VDC, but less than 3.0 VDC.
Greater than 0.0 VDC, but less than 1.3 VDC.
Thresholds
Points 1 to 8
Normal
Short
Compatible
Enclosures
D8103 Universal Enclosure, D8109 Fire Enclosure, D8108A Attack Resistant Enclosure, BATB-40 Battery Box
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D9412GV3/D7412GV3 | Operation and Installation Guide | Notes
.
Notes
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Bosch Security Systems, Inc.
130 Perinton Parkway
Fairport, NY 14450
USA
© Bosch Security Systems, Inc., 2010
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