Bosch D9412GV2 User Manual 2

D9412GV2/D7412GV2

Program Entry Guide

Control Panels

D9412GV2/D7412GV2 | Program Entry Guide | EN | 2

Documentation Conventions

Type Styles Used in this Manual

To help identify important items in the text, the following type styles are used:

A thick border is used to indicate a main programming entry as seen in the Remote Programmer’s Display. It is used as a section heading and screen example. Shaded boxes indicate programmer prompts that are only available when Custom or View events are selected.

A dashed border indicates a sub entry under a main programming entry.

System Requirements

Minimum system requirements for Classification in accordance with ANSI/SIA CP-01-2000:

• UL Listed and Classified control unit

Model D9412GV2 or D7412GV2

• UL Listed and Classified keypad Model

D1256, D1257, D1260, D1255, D1255R, or D1255 RW

• UL Listed Local Bell

The minimum firmware requirements for SIA CP-01 compliance are:

Control Panel Firmware Version

D9412GV2 7.05 or later D7412GV2 7.05 or later

Trademarks

CoBox™ is a registered trademark of Lantronix®. Windows

Corporation in the United States or in other countries. Molex

Incorporated.

is a registered trademark of Microsoft

is a registered trademark of Molex

Prompt

Sub-Promp

Warnings, Cautions, and Notes

Throughout this document helpful tips and notes are presented concerning the entire application or programming the unit. They are displayed as follows:

Warning!

These warn of the possibility of physical damage to the operator, program and/or equipment. Use this when there is an increased risk of physical damage to the operator (severe injury or death) or equipment (destruction of physical components).

Caution

These caution the operator that physical damage to the program and/or equipment.

Important Notes

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These notes should be heeded for successful operation and programming.

D9412GV2/D7412GV2 | Program Entry Guide | Table of Contents EN | 3

2.10.1 Keypad (Command Center) Assignment..... 51

1.0 Introduction ......................................................5

1.1 Using this Program Entry Guide......................5

1.2 Product Handlers...............................................6

1.3 Guide to Programming Options.......................7

1.4 Programming the Control Panel with the

D5200 Programmer.........................................................7

1.5 Guide to UL 864 Programming

Requirements .....................................................8

2.0 GV2MAIN..........................................................11

2.1 Phone ................................................................11

2.2 Phone Parameters ..........................................12

2.2.1 Special Point/User Reporting.........................14

2.3 Routing..............................................................15

2.3.1 Called Party Disconnect .................................15

2.3.2 Route Number Groups: Which Has the

Highest Priority? ..............................................16

2.3.3 Programming Primary and Backup

Destinations......................................................16

2.3.4 Enhanced Routing...........................................16

2.3.5 Programming a Duplicate Report..................16

2.3.6 Routing Destination Communication

Failures .............................................................16

2.3.7 Message Prioritization within a Route

Number .............................................................16

2.3.8 Dialing Attempts...............................................16

2.4 Enhanced Routing...........................................24

2.4.1 Programming a Primary and Backup

Destination........................................................24

2.4.2 Programming a Duplicate Report..................24

2.4.3 Numeric Pager Capability...............................25

2.5 Power Supervision...........................................28

2.6 Printer Parameters ..........................................30

2.7 RPS Parameters..............................................32

2.7.1 Uploading and Downloading Reports...........32

2.7.2 Log Threshold Reports ...................................33

2.7.3 RPS Callback Reports ....................................33

2.8 Miscellaneous ..................................................35

2.9 Area Parameters..............................................36

2.9.1 Area Parameters..............................................36

2.9.2 Programming Account Numbers in

9000 Series Control Panels ...........................37

2.9.3 Shared-Area Characteristics..........................41

2.9.4 Bell Parameters ...............................................41

2.9.5 Open/Close Options........................................43

2.9.6 Arming Features ..............................................47

2.10 Keypad (Command Center)...........................51

2.10.2 Area Text.......................................................... 57

2.11 User Interface .................................................. 60

2.11.1 Commands....................................................... 60

2.11.2 Keypad Selections .......................................... 60

2.11.3 Access Control Functions.............................. 63

2.11.4 Authority Level Selections .............................67

2.11.5 Access Control Levels.................................... 76

2.11.6 SIA Duress Passcode Options...................... 77

2.12 Function List..................................................... 77

2.13 Relay Parameters ...........................................78

2.13.1 Area Relays .....................................................79

2.13.2 Panel-Wide Relays ......................................... 81

3.0 RADXUSR1/RADXUSR2 .............................. 84

3.1 Pass Code or Token Worksheet................... 84

3.1.1 User Groups..................................................... 84

3.1.2 Pass Codes...................................................... 84

3.1.3 User Group Window ....................................... 84

3.1.4 User Name....................................................... 84

3.1.5 Tokens and Cards........................................... 84

3.1.6 Reporting and Logging................................... 85

4.0 RADXPNTS ..................................................... 88

4.1 Point Index ....................................................... 88

4.2 Point Responses............................................. 92

4.2.1 Applications for Point Responses 9, D,

and E:................................................................ 92

4.2.2 Characteristics of a Fire Point:...................... 92

4.3 Point Assignments..........................................102

4.4 COMMAND 7 and COMMAND 9 ........... 104

5.0 RADXSKED................................................... 106

5.1 Windows......................................................... 106

5.1.1 Opening and Closing .................................... 106

5.1.2 User Group Windows ...................................113

5.1.3 Holiday Indexes for User Group

Windows......................................................... 115

5.2 Skeds .............................................................. 115

5.3 Holiday Indexes............................................. 124

5.3.1 Add/Change/Delete ......................................124

5.3.2 View Holidays ................................................125

6.0 GV2AUX......................................................... 126

6.1 Introduction ....................................................126

6.2 RPS and D5200 Handler Requirements....126

6.3 SDI Automation .............................................126

6.4 SDI RPS Parameters.................................... 128

6.4.1 User Interface Modifications for

COMMAND 43............................................... 128

6.4.2 Using an External Modem ...........................130

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6.5

Programming Path Numbers and IP

Addresses for Enhanced Communications135

6.6 SDI RPS/Enhanced Communications

Configuration..................................................138

6.7 Route Group Attempts ..................................139

6.8 Miscellaneous ................................................139

6.9 Cross Point Parameters ...............................142

7.0 RADXAXS ......................................................144

7.1 Door Profile.....................................................144

7.2 Strike Profile ...................................................147

7.3 Event Profile ...................................................148

8.0 SIA CP-01 Quick Reference ......................150

Programming Prompts Directory ..........................151

Figures

Figure 1: Pager Display Fields.....................................26

Figure 2: Account Number Entry .................................37

Figure 3: Softkey Locations on the D1260

Keypad.......................................................58

Figure 4: User Group 122 Example ............................85

Figure 5: Example Opening Window Timeline

(using two Opening Windows on

same day)................................................108

Figure 6: COMMAND 43 Flow Chart ........................129

igure 7: RPS IP Address Prompts.............................130

Figure 8: Com Port Selection within

HyperTerminal ........................................131

Figure 9: External Modem Connection.....................132

Figure 10: Path # IP Add1 to Add4 ...........................135

Figure 11: Poll Rate Timeline.....................................137

Tables

Table 1: Differences between the D9412GV2

and D7412GV2 ...........................................5

Table 2: Literature Referenced ................................5

Table 3: Product Handlers........................................6

Table 4: Programming Error Displays.....................7

Table 5: UL 864 Programming Requirements .......8

Table 6: UL 864 Programming

Recommendations ...................................10

Table 7: Modem IIIa

Data - User ID Numbers..........................13

Table 8: Modem IIIa

Data – Point Numbers .............................13

Table 9: D6000 User IDs and Zones ....................14

Table 10: Fire Reports...............................................18

Table 11: Burglar Reports.........................................18

Table 12: User Reports.............................................19

Communication Format

Table 13: Test Reports ............................................. 20

Table 14: Diagnostic Reports .................................. 20

Table 15: Relay Reports........................................... 21

Table 16: Auto-Function Reports ............................ 21

Table 17: RPS Reports............................................. 22

Table 18: Point Reports............................................ 22

Table 19: User Change Reports.............................. 23

Table 20: Access Reports........................................ 23

Table 21: Event Descriptions, Priorities, and

Numbers.................................................... 27

Table 22: Programming Four-Digit Account

Numbers.................................................... 37

Table 23: Programming Ten Digit Account

Numbers.................................................... 37

Table 24: Verify Time................................................ 39

Table 25: CF### Key Strokes.................................. 58

Table 26: CF### Custom Function Keystrokes .... 59

Table 27: Keypad Programming Choices.............. 60

Table 28: Authority Level Selections ...................... 67

Table 29: L## Secure Door-Door Mode

Definitions .................................................71

Table 30: BSFK User Code Report ........................ 85

Table 31: Bypassing a Point .................................... 99

Table 32: P### BFSK/Relay Codes/Relays ........ 103

Table 33: Point Text for Points 240 to 247 ..........104

Table 34: Window Selections ................................106

Table 35: Programming for Two Same Day

Opening Windows.................................. 109

Table 36: Programming to Link Two Days over

Midnight* .................................................109

Table 37: Programming Example: Linking Two

Closing Windows over Midnight........... 110

Table 38: Opening and Closing Windows

Worksheet ............................................... 112

Table 39: Opening and Closing Windows............ 112

Table 40: Normal Store Hours* ............................. 112

Table 41: Delivery Schedule* ................................113

Table 42: Monthly Auditor’s Schedule* ................ 113

Table 43: Cross Point Ranges Within Groups .... 143

Table 44: Effects of Programming on Custom Table 45: Programming the Control Panels for

Function Activation ................................ 145

SIA CP--01 Compliance........................ 150

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D9412GV2/D7412GV2 | Program Entry Guide | 1.0 Introduction EN | 5

1.0 Introduction

1.1 Using this Program Entry Guide

This guide is only for programming the D9412GV2 and D7412GV2 Control Panels.

Although this guide specifically refers to the D9412GV2 Control Panels, it can be used for programming the D7412GV2 Control Panels. Differences between the D9412GV2 and D7412GV2 are shown in

Table 1: Differences between the D9412GV2

Features D9412GV2

Access Control

Expanded users Passcodes

Cards/tokens Passcode-protected

custom functions Number of printers 3 1 Number of points 246 75 Number of relays 128 64

Table 1.

and D7412GV2

D7412GV 2

Eight

Two Doors

Doors

249 996

99 396

16 4

Table 2: Literature Referenced

Document Name Part Number

D1255 Installation Instructions

D1256/D1257 Installation

74-06819-000 74-06925-000

Instructions D1255RBD1256RBD1257RB

F01U011791

Installation Instructions D1260 Installation Guide

D1260 Owner’s Manual D5200 Programmer Operation

48101 50410 74-06176-000

Manual D6500 Report Directory

Conettix D6600/6100

74-04651-001 4998122702

Receiver/Gateway Program Entry Guide

Conettix D6600/6100

4998122703

Receiver/Gateway Computer Interface Manual

D720 Series Installation Guide D9210B Operation and

74-06918-000 32206

Installation Guide D9210B Program Entry Guide

D9210B Program Record Sheet

D9412GV2/D7412GV2 Operation

32207 32208 F01U003641

and Installation Guide D9412GV2/D7412GV2 Program

F01U003635

Record Sheet RPS Installation and Operation

4998141259

Guide

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D9412GV2/D7412GV2 | Program Entry Guide | 1.0 Introduction EN | 6

1.2 Product Handlers

Programming the 9000GV2 Series requires multiple product handlers. The availability of each handler is indicated in versions.

Although the handlers shown in functions operate. For example, the RADXUSR1 Handler programs users 000 through 124. Even though the handler allows you to program users 100 through 124, the D7412GV2 does not allow the activation of these users.

Table 3: Product Handlers

Product Handler

GV2MAIN V1.03 and above

RADXUSR1 V1.06 and above

RADXUSR2 V1.05 and above

RADXPNTS V1.08 and above

RADXSKED V1.04 and above

GV2AUX V1.03 and above

RADXAXS V1.06 and above

Table 3. Refer to the specific control panel’s release notes to determine the most current handler

Table 3 can be used to program any of the new control panels, not all of the

Compatible

Function D9412GV2 D7412GV2

Versions

Covers Panel-Wide, Area, Keypad

9 9 Function List, User Interface, and Relay programming modules.

Covers passcode and token

9 9 programming for users 000 through 124 (users 000 through 099 for the D7412GV2).

Covers passcode and token

N/A

programming for Users 125 through

249. Covers Point Index and Point

9 9 Assignment programming for all points.

Covers Open/Close Windows, User

9 9 Access Windows, Skeds, and Holiday Index programming modules.

Covers SDI Automation, SDI RPS

9 9 Parameters, Enhanced Communication Parameters, Route Group Attempts, Miscellaneous, and Cross Point Parameters.

Covers the programming parameters

9 9 for installed D9210B Door Controllers. The program entry guide and program record sheet for this handler come with the D9210B Access Control Module.

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1.3 Guide to Programming Options

This guide is set up in a specific order. Related program entries are grouped together in modules as they appear in the specific product handlers. The handler and the programming module are listed at the top of each page to help you find specific programming prompts.

This guide shows the programming options for each product handler. Each option is listed with:

The Program Item Prompt: Each prompt is

•

shown as it appears in the D5200 Programmer

To acquire an update for your D5200 Programmer, call the Bosch Security Systems, Inc. Handler Update System at (800) 657-4584. Make a separate phone call for each handler.

Use an analog telephone line with the D5200. The D5200 dials only pulses.

Refer to Section 10 Updating Handlers in the D5200 Programmer Operation Manual (P/N: 74-06176-000-B) for details on updating handlers.

[refer to the D5200 Programmer Operation

•

Manual.(P/N: 74-06176-000)] or the Remote Programming Software (RPS). Refer to the RPS Installation and Operation Guide (P/N:

4998141259). For space considerations, some prompts must be abbreviated in the Programmer display. In these cases, the meaning of the prompt is explained below the prompt

Program Entry Default Setting: Because

•

defaults are set for the typical installation, programming each prompt might not be necessary. Review the default entries in the program record sheet shipped with the control panel to determine which prompts must be programmed.

Program Entry Selections: Only the selections

•

listed can be used for a particular program item.

•

Program Entry Description: Describes the various entry selections. Read the descriptions carefully to avoid improperly programmed equipment.

•

Custom Programming: Select custom programming (Yes or No) to expand programming modules within the D5200. Programming Custom as Yes allows parameters for special applications to be visible in the programmer.

1.4 Programming the Control Panel

To connect the D5200 Programmer to the control panel:

1. Close the reset switch, located in the upper

right corner of the control panel and labeled S1 Reset, to place the D9412GV2 or D7412GV2 Control Panel in the standby mode.

2. Connect the Molex® connector at one end of

the cord to the connector labeled PROG on the PCB and PROG CONN on the faceplate.

To retrieve the current control panel configuration,

•

press the [RECV (COPY)] key on the D5200 at the NEWRECORD prompt. Refer to the D5200 Programmer Operation Manual (P/N: 74-06176-

000) for detailed information. To write new configuration information for the

•

control panel, press the [SEND (LOAD)] key at the NEWRECORD prompt. Refer to the D5200 Programmer Operation Manual (P/N: 74-06176-

000) for detailed information. To disconnect the D5200:

•

1. Disconnect the the Molex® connector.

2. Open the reset switch.

When the reset switch is opened, the control panel reboots and resumes normal operation within 5 to 25 sec.

with the D5200 Programmer

Caution: Do not connect the D5200 to

the PROG connector without closing the reset switch. Doing so causes SDI ## TROUBLE and CALL FOR SERVICE to display on the keypads. Door controllers also activate, depending upon the SDI failure DIP switch setting.

Table 4: Programming Error Displays

Display Description

INCOMPATIBLE PANEL

CHECK CORD/RESET PIN

You are connected to the wrong control panel or using the wrong handler. Check the faceplate for the model number and the handler title.

Check the cord and the reset pin

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1.5 Guide to UL 864 Programming Requirements

This section identifies the programming requirements you must make in order to comply with UL 864 Commercial Fire applications.

NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION, AND OTHER INVOLVED PARTIES

This product incorporates field-programmable software. In order for the product to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, you must limit certain programming features or options to specific values. Refer to Table 5.

Table 5: UL 864 Programming Requirements

Product Feature/Option

Permitted in UL 864? (Y/N)

If using two phone lines:

Phone 1 through 4 Yes 24 characters

Phone Supervision Yes 0 to 240 sec 10 to 200 sec 14 Alarm On Fail No Yes / No Set to No 14 Buzz On Fail Yes Yes / No Set to Yes 15 Two Phone Lines Yes Yes / No

Expand Test Report Yes Yes/No Set to Yes 15 Fire Reports Yes Yes / No Set to Yes 18 R# Fire Supervisory

Required Yes/No Set to Yes 18 (Table 10)

Missing Test Reports Yes Yes / No Set to Yes 19 AC Fail Report Yes Yes / No Set to Yes 20 (Table 14) AC Restoral Report Yes Yes / No Set to Yes 20 (Table 14) Battery Missing Report Yes Yes / No Set to Yes 20 (Table 14) Low Battery Report Yes Yes / No Set to Yes 20 (Table 14) Battery Restoral Report Yes Yes / No Set to Yes 20 (Table 14) RG#1 Primary SDI Yes Yes / No Set to Yes 25 RG#1 Backup SDI Yes Yes / No Set to Yes 25 R# Service Start Report Required Yes / No Set to Yes 22 (Table 18) R# Service End Report Required Yes / No Set to Yes 22 (Table 18) R# Fire Walk St Report Required Yes / No Set to Yes 22 (Table 18) R# Fire Walk End Report Required Yes / No Set to Yes 22 (Table 18) R# Walk Test St Report Required Yes / No Set to Yes 22 (Table 18) R# Walk Test End Report Required Yes / No Set to Yes 22 (Table 18) RG #1 Primary Device N/A 1 to 4 Must have 1 to 4 25 RG #1 Backup Device N/A 1 to 4 Must have 1 to 4 25 AC Fail Time Yes 1 to 90 Enter 61 28 AC Fail Display Yes 10 to 300 sec 10 to 200 sec 29 AC Tag Along Yes Yes / No Set to Yes 30 AC/Battery Buzz Yes Yes / No Set to Yes 30 Bat Fail/Res Rpt Yes Yes / No Set to Yes 30

Possible Settings

Settings Permitted in UL 864

Program a valid phone number

Set to Yes when using PSTN communications.

Refer to Page:

11 to 12

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Table 5: UL 864 Programming Requirements (continued)

Product Feature/Option

Area 1 Area On

Permitted in UL 864? (Y/N)

Required to

Possible Settings

Settings Permitted in UL 864

Refer to Page:

Yes / No Set to Yes 36 send system status reports

A# Delay Res Yes Yes / No Set to Yes 38 Verify Time Yes 10 to 60 sec 60 sec 38 Area # Fire Time Yes 1 to 90 min 5 min (check with AHJ) 42 CC# Supervised Yes Yes / No Set to Yes 51 CC# Trouble Tone Yes Yes / No Set to Yes 54 CC# Scroll Lock Yes Yes / No Set to Yes 56 Remote Program

Disable /

Blank, E, or P Set to P 65 Enable

A# Fire Bell Yes

A,B,C, 1 to 128,

Program with a relay 79

Blank

A# Reset Sensors Yes

A,B,C, 1 to 128,

Program with a relay 79

Blank

U### Area # Auth Yes 1 to 8, Blank

Program an Authority

Level for the Fire Area

U### Passcode Yes

3-, 4-, 5-, or 6-digit

passcode

Must program at least one passcode

P## Silent Bell No Yes / No Set to No 94 P## Invisible Pt No Yes / No Set to No 95 P## Local While

No Yes / No Set to No 97

Disarmed P## Local While Armed No Yes / No Set to No 98 P## Disable Rst No Yes / No Set to No 98 P## Bypassable No Yes / No Set to No 99 P## Swinger Byps No Yes / No Set to No 100 P## Fire Point Yes Yes / No Set to Yes 101 P## Resettable Yes Yes / No As required 101 Sked## Function Code Required 1 to 11, 13 to 28 Sked Function Code 9 116 Sked## Defer Test No Yes / No Set to No 118 Sked## Hourly Test

No Yes / No Set to No 118

(Report?) Sked## Time Enter valid time 00:00 to 23:59 00:00 to 23:59 123 Sked## Date No mm/dd Set to No 123 Sked## Sunday Yes Yes / No Set to Yes 123 Sked## Monday Yes Yes / No Set to Yes 123 Sked## Tuesday Yes Yes / No Set to Yes 123 Sked## Wednesday Yes Yes / No Set to Yes 123 Sked## Thursday Yes Yes / No Set to Yes 123 Sked## Friday Yes Yes / No Set to Yes 123 Sked## Saturday Yes Yes / No Set to Yes 123 Sked## Xept On Holiday No Yes / No Set to No 124

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Table 5: UL 864 Programming Requirements (continued)

Product Feature/Option

Permitted in UL 864? (Y/N)

Possible Settings

Settings Permitted in UL 864

Refer to Page:

For IP Communications to a D6600 Receiver

Enhanced Comm Yes Yes / No Set to Yes 135 Path1 IP Add1 (2, 3 or 4) Yes 000 to 255

Program a valid IP

135 − 136

address Path 1 Poll Rate Yes 0, 5 to 65535 sec Program as necessary 136 Path 1 Ack Wait Yes 0, 5 to 65535 sec Program as necessary 137 Path 1 Retry Count Yes 0 to 255 Program as necessary 138 9133 Supervision Yes Yes / No Set to Yes 139

The following programmable parameters are recommended by Bosch when installing a commercial fire alarm system. Always check with your local Authority Having Jurisdiction.

Table 6: UL 864 Programming Recommendations

Prompt Possible Settings Recommendation

Phone Line Fail Report Yes / No Yes Phone Line Restoral Report Yes / No Yes Fire Walk Start Report Yes / No Yes Fire Walk End Report Yes / No Yes Cancel Report Yes / No Yes CC# Scope

Panel Wide, Account Wide, Area

Do not program No Keypad

Wide, Custom, No Keypad CC# EnhancCmdCtr Yes / No Set to Yes, if applicable CC# Menu Key Lock Yes / No If using D1256RB, set to No Reset Sensors Disable/Enable/Passcode Protect Enable Fire Test Disable / Enable / Passcode Protect Enable L## Reset Sensors Disable / Enable

If Reset Sensor is set to Passcode Protect, set this to Enable

L## Fire Test Disable / Enable

If Fire Test is set to Passcode

Protect, set this to Enable U### User Group Blank, 1 to 8 Program as blank P## Ring Til Rst Yes / No

May be required for Waterflow,

otherwise No P## Cross Point Yes / No Set to No for Fire devices. D# Fire Unlock Yes / No No

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D9412GV2/D7412GV2 | Program Entry Guide | 2.0 GV2MAIN EN | 11

This is the telephone number the control panel dials

2.0 GV2MAIN

Use GV2MAIN programming module to define the operating characteristics that affect panel-wide functions. This module has nine programming categories:

•

Phone Phone Parameters

•

Routing

•

Enhanced Communications

•

Area Parameters

•

Keypad

•

User Interface

•

Function List

•

Relay Parameters.

•

2.1 Phone

The control panel can dial as many as four different telephone numbers when sending event reports. All telephone numbers use the same receiver format. Refer to Section information about event report routing and communication protocols.

2.3 Routing on page 15 for

When using PSTN telephone lines, program two telephone numbers to meet UL 864 requirements.

to contact the central station receiver when sending event reports. This number is Phone 1 referred to in the prompts in Section

2.3 Routing on page 15.

The control panel is programmed with a 7-sec dial tone detect period. When a dial tone is detected or the waiting period ends, the control panel begins to dial. To extend the dial tone detect period, place a D before the phone number. To insert a pause during or after dialing, use C in the number sequence. For example, if the control panel hangs up before it hears the Modem IIIa

ACK tone from the D6500 or D6600, program extra Cs after the phone number. The control panel waits on line for three extra seconds for each C programmed.

Enter up to 24 of the characters shown in the Phone 1 table to define dialing characteristics.

Using both phone-data entry lines: The first line of the phone number data entry line must be filled (twelve characters) before you press [ENTER] to move to the second line. If you enter characters on the second line, and the first line has less than twelve characters, the second line clears when you press [ENTER].

For SIA CP-01 Compliance Call Waiting Disable

If the telephone system at the installation site uses the Call Waiting feature, ensure that the backup telephone reporting number is programmed to

Phone 1

Default: Blank

Selection:

0 to 9 Numbers 0 through 9

C 3-sec pause

D 7-sec dial-tone detection

# or * Used for the same purpose as

Blank Control panel dials no phone number.

Up to 24 characters (do not enter [SPACE])

pressing this key on a telephone keypad when manually dialing. For example, an asterisk (*) may be needed to access your long distance service. Do not use these characters when pulse dialing.

Programming this item Blank does not disable phone routing. To disable

disable Call Waiting. If you program the primary phone number with a

sequence to temporarily disable Call Waiting (typically *70 pause, but verify with the phone service provider) followed by the phone number, you should program the backup phone number without the Call Waiting cancel sequence. If the subscriber cancels Call Waiting without notifying their alarm installing company, the control panel can still send reports using the backup number.

Dialing a Call Waiting sequence on a non-Call Waiting line prevents the system from dialing the central station receiver successfully.

Example: If the central station telephone number is 555-1234, and the backup Route Group destination is Phone 2, program Phone 2 with the following sequence: 70C5551234.

reporting to this phone, refer to

Section

2.3 Routing on page 15.

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D9412GV2/D7412GV2 | Program Entry Guide | 2.0 GV2MAIN EN | 12

Phone 2

2.2 Phone Parameters

The program items in this category describe panel-

Default: Blank

Selection:

Up to 24 characters (do not enter [SPACE])

wide characteristics for telephone dialing, receiver format, and supervision.

Modem Format

Refer to the explanation of Phone 1. This number is Phone 2, referred to in the prompts in Section Routing.

Phone 3

2.3

Default: Yes

Selection:

Yes or No

Yes Modem IIIa2 Communication

Format: Reports identify points as

Default: Blank

Selection:

Up to 24 characters (do not enter [SPACE])

001 through 247 and pass-code User ID codes as 000 through 249 at the D6500 or D6600 Receiver (unless Point/User Flag is programmed Yes;

Refer to the explanation of Phone 1. This number is Phone 3, referred to in the prompts in Section

Section

2.3 Routing.

Phone 4

Default: Blank

Selection:

Refer to the explanation of Phone 1. This number is Phone 4, referred to in the prompts in Section Routing.

Up to 24 characters (do not enter [SPACE])

2.3

No BFSK (2300 Hz or 1400 Hz

Central Station Receiver Format for Transmission of Reports: Modem format provides many reporting

advantages over the BFSK format. Refer to the D6500 Report Directory (P/N: 74-04651-001) for

refer to the Point/User Flag prompt in this section). When reporting point events, Modem IIIa

Communication Format also sends point text to the D6500 or D6600 as programmed in Point Assignments.

acknowledgment tone).

more information about the effect of reporting formats.

Modem Format must be set to Yes when sending events over a network to a D6600 Receiver.

If Modem Format is No, assign a number to identify Duress Reports in BFSK Duress Code (page 15).

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D9412GV2/D7412GV2 | Program Entry Guide | 2.0 GV2MAIN EN | 13

Point/User Flag

Default: Yes

Selection:

Yes The control panel sends a flag with

No The control panel does not send the

This program item determines how point and User ID numbers are presented at the D6500 or D6600 display, printer, and computer RS-232 output.

When Modem Format is Yes, the control panel sends expanded Bosch Modem IIIa Format reports to the D6500 or D6600. If your central station data files are not set up for point and User ID number reporting, you can use this program item to convert these numbers to COMEX Reports.

When Modem Format is Yes, the control panel sends expanded Bosch Modem IIIa Format Reports to the receiver. Point/User Flag affects Bosch Modem IIIa data as shown in Systems, Inc. D6500 or D6600 Receiver adds the leading zero in the User ID number with Point/User Flag programmed No.

Yes or No

each report telling the D6500 or D6600 to convert point numbers and User ID numbers to COMEX format. Refer to

Table 7 and Table 8 for conversion information. When this parameter is programmed Yes, points and User ID numbers are converted, regardless of the programming of the D6500 or D6600 Receiver for output to the computer system. Refer to Appendix C in the

Conettix D6600/D6100 Receiver/Gateway Computer Interface Manual (P/N: 4998122703).

flag. The D6500 or D6600 outputs point numbers as 001 to 247 (rather than 100 to 732) and User ID numbers as 000 to 249 (rather than 000 to F08), as indicated in

Table 8.

and

Communication

Communication Format

Table 7

Communication

Table 7. The Bosch Security

Table 7: Modem IIIa2 Communication Format

Data - User ID Numbers

Point/User Flag NO

Point/User Flag YES

000 000 001 to 005 001 to 005 006 to 013 601 to 608 014 to 021 701 to 708 022 to 029 801 to 808 030 to 037 B01 to B08 038 to 045 C01 to C08 046 to 053 D01 to D08 054 to 061 E01 to E08 062 to 069 F01 to F08 070 to 249 000

Table 8: Modem IIIa2 Communication Format

Data – Point Numbers

Point/User Flag NO

Point/User Flag YES

001 to 008 100 to 800 009 to 024 101 to 116 025 to 040 201 to 216 041 to 056 301 to 316 057 to 072 401 to 416 073 to 088 501 to 516 089 to 104 601 to 616 105 to 120 701 to 716 121 to 136 801 to 816 153 to 168 217 to 232 169 to 184 317 to 332 185 to 200 417 to 432 201 to 216 517 to 532 217 to 232 617 to 632 233 – 247 717 to 731

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2.2.1 Special Point/User Reporting

Phone Supv Time

Independent Zone Control Notice: When using Independent Zone Controls (IZC) to send Opening/Closing Reports by point, do not duplicate reporting independent point numbers with User ID Reports (refer to Section

Worksheet

on page 84). For example: If an IZC is

3.1 Pass Code or Token

connected to Point 8, do not use User ID 8. D6000: Opening/Closing User ID numbers are

identified at the receiver as ZONEs (same identification as independent points). Refer to

Table

Table 9: D6000 User IDs and Zones

User ID Number

1 B 91 1 2 C 92 2 3 D 93 3 4 E 04 4 5 F 95 5 6 6 96 0 7 7 8 8

Zone

User ID Number

Zone

D6500 or D6600 Receiving BFSK Format:

Opening/closing User ID numbers are identified at the receiver as ZN (same identification as independent points). The ZN numbers are based on the tens digit of the User ID number. This applies only for Users 000 through 099. Users 100 through 249 do not report in BFSK format.

DTMF Dialing

Default: Yes

Selection:

Yes Dials the programmed phone

No Pulse dialing only.

Use dual-tone multi-frequency (DTMF) to dial the central station receiver phone number(s) for event reports, or to dial the remote programming software (RPS).

Yes or No

number(s) using DTMF.

Default: Blank

Selection:

Blank or 10 to 240

Blank No phone line supervision.

10 to 240 Enter the number of seconds (in 10

sec increments) you wish to wait before indicating trouble. After a faulted phone line restores, it takes the same amount of time to start restoral responses.

Phone line trouble responses: Keypads display SERVC PH LINE # to indicate which phone line failed. The keypad initiates a trouble tone if Buzz on Fail is Yes and CC Trouble Tone is Yes.

With dual phone lines (using the D928 Module), the restored phone line handles all messages regardless of the phone line’s number.

Phone, Trouble, and Restoral Events report when they occur. They report also when a Diagnostic Report is initiated from a keypad or by a Sked.

To meet UL 864 requirements, set this parameter to a non-zero value.

Alarm On Fail

Default: No

Selection:

Yes Generate alarm responses when a

No Phone failures report as trouble

Yes or No

phone line fails.

responses for Area 1 or the account number associated with Area 1.

To meet UL 864 requirements, set this parameter to No.

Phone Supv Time must be programmed to use this feature.

Phone Failure Alarm Responses: The Alarm Bell relay for Area 1 activates. All Phone Event messages report as Area 1 and the account number for Area 1.

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Buzz on Fail

Expand Test Rpt

Default: No

Selection:

Yes or No

Yes Generate panel-wide trouble tones

and display PHONE FAIL # at keypads when a Phone Fail Event occurs.

No Does not generate trouble tones at

keypads when a Phone Fail Event occurs. PHONE FAIL # still displays.

To meet UL 864 requirements, set this parameter to Yes.

Phone Supv Time must be programmed to use this feature.

When Buzz on Fail is Yes, users can disable the resulting trouble tone on individual keypads by setting

CC# Trouble Tone to No.

Two Phone Lines

Default: No

Selection:

Yes or No

Yes The D928 Dual Phone Line Module

is installed. The LEDs on the D928 light to indicate primary or secondary line trouble and COMM FAIL.

No D928 Dual Phone Line Module is not

installed.

When using two telephone lines, set this parameter to Yes to meet UL 864 requirements.

Program Phone Supv Time when using two phone lines.

BFSK Duress Code

Default: 0

Selection:

If Duress Enable in Area Parameters is Yes and Modem Format in Phone Parameters is No, you

must program a number to identify Duress Reports at the central station.

0 to 9

Default: No

Selection:

Yes or No

Yes Off-normal events listed in Routing

Group Test Reports are reported to the central station.

No Off-normal conditions for the events

listed in the Routing Group Test Reports at test time are not reported.

Use this program item to add system event information to scheduled Test Reports. Refer to

Section

5.2 Skeds on page 115.

This parameter relates to Sked Function Code 9 (Test Report) because it allows a Sked to send Expanded Test Report information. Expand Test Rpt does not affect Sked Function Codes 28 (Expanded Off-Normal Test Report) and 29 (Non-Expanded Off-Normal Test Report).

2.3 Routing

Use routing to select full or partial groups of events that report to up to four different destinations. Routing includes choosing the most important destination (route number), reporting the events to a single or multiple destination, and selecting a backup destination if the events fail.

2.3.1 Called Party Disconnect

Telephone companies provide called party 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. D9412GV2/D7412GV2 firmware allows for called party disconnect by adding a 35-sec onhook interval to the dial-tone detect function. If the control panel does not detect a dial tone in 7 sec, it puts the phone line on hook for 35 sec to activate called party disconnect. The phone line goes off hook and begins a 7-sec 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. After ten attempts, the control panel enters communications failure and Comm Fail Route # appears on the keypads.

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2.3.2 Route Number Groups: Which Has the Highest Priority?

To program a group, first choose a route number. The lower the route number, the higher priority that group has (for example, events reported for Route 1 have a higher priority than Routes 2, 3, or 4 if each group tries to send a message at the same time). The priority of the route numbers becomes important when programming duplicate reports or choosing the events you want to report first regardless of the number of events that must report to multiple groups. Route 1 group primary device is the first destination the control panel attempts to dial if an event in that group must be reported. If the control panel is idle, any event generated for any group starts a dialing sequence.

2.3.3 Programming Primary and Backup Destinations

Each route number has an R# Primary Device and an R# Backup Device. In typical applications where two phone numbers are programmed, the R# Primary Device destination is the phone number that the route group attempts to dial first. If the R# Primary Device destination does not connect to the central station receiver after two dialing attempts, the control panel dials the R# Backup Device destination.

You can also program the control panel so that the R# Primary Device or the R# Backup Device uses an SDI device, such as a D4020 Network Interface Module.

2.3.4 Enhanced Routing

The D9412GV2 and D7412GV2 allow events to be sent to up to four additional SDI Paths. The network interface module (NIM) connects directly to the SDI Bus and occupies SDI Address 88. For additional information regarding the specific programming requirements for enhanced communications, refer to

Section Section Addresses for Enhanced Communications

2.4 Enhanced Routing on page 24 and

6.5 Programming Path Numbers and IP

on page

135.

2.3.5 Programming a Duplicate Report

Select Yes for each available route number to allow an event within a group to send a report to multiple groups. For instance, if fire alarms are programmed for Route Group 1 and Route Group 2, a fire alarm sends a report first to Route Group 1, followed by a duplicate report to Route Group 2.

2.3.6 Routing Destination Communication Failures

When the R# Primary Device fails to connect with the central station after one or two attempts (refer to RG# 1 Attempt in

Route Group Attempts on page

139), it then attempts to connect with the R# Backup

Device (phone number or SDI Path). The central station receives the original event with a COMM FAIL PHONE# = (1, 2, 3, or 4) event modifier, if the R# Primary Device destination is a phone number.

If the R# Primary Device is an SDI Path, the central station receives the original event with a COMM FAIL RG# SDI## (SDI 88 + Path 1, SDI 89 = Path 2, SDI 90 = Path 3, SDI 91 = Path 4) event modifier. When all attempts to both the R# Primary Device and R# Backup Device fail, a Comm Fail RG# Event is generated. Comm Restore Events are not generated.

2.3.7 Message Prioritization within a Route Number

The D9412GV2/D7412GV2 Control Panels meet the digital reporting requirements for UL 864. Fire Alarm Events have the highest priority and reports are sent first for each group. Other events are sent in the following order: Panic, Duress, Medical, Intrusion Alarm, Supervisory, and all troubles and restorals.

To comply with NFPA and UL 864 , program Route 1 to send a report of only Fire Alarm Events to ensure the fastest reporting time.

2.3.8 Dialing Attempts

The control panel makes up to ten dialing attempts using the primary and backup devices within a route group. If unsuccessful, it sends a Comm Fail Report. The dialing attempts occur in the following sequence:

1. Primary device

2. Primary device

3. Backup device

4. Backup device

5. Primary device

6. Backup device

7. Primary device

8. Backup device

9. Primary device

10. Backup device

When only one destination is programmed, the control panel makes ten attempts to contact that destination. Each group takes approximately 10 min to go into Comm Fail.

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Route #

Default: 1

Selection:

1 to 4

1 First group sent

2 Second group sent

3 Third group sent

4 Fourth group sent

Enter the number specifying the route group to program. The route represents the group you wish to send a group of reports. Group 1 is the first group to send a report and Group 4 is the last group to send a report. Each group has a primary and a backup device. The primary device is the first (most important) destination used to reach the programmed route within this group. The backup device is used if the primary device fails.

R# Primary Device

Default: Blank

Selection:

1 Phone 1 or SDI Path 1 is this

2 Phone 2 or SDI Path 2 is this

3 Phone 3 or SDI Path 3 is this

4 Phone 4 or SDI Path 4 is this

Enter the number specifying the primary device.

Blank, 1 to 4

group’s primary destination.

To meet UL 864 requirements for Central Station and Remote Station applications, program a Primary Device.

R# Backup Device

Default: Blank

Selection:

Blank, 1 to 4

1 Phone 1 or SDI Path 1 is this

group’s backup destination if the primary destination fails.

2 Phone 2 or SDI Path 2 is this

group’s backup destination if the primary destination fails.

3 Phone 3 or SDI Path 3 is this

group’s backup destination if the primary destination fails.

4 Phone 4 or SDI Path 4 is this

group’s backup destination if the primary destination fails.

To meet UL 864 requirements for Central Station and Remote Station applications, program a Backup Device.

Enter the number specifying the backup device. The backup device is used when the primary device fails to reach the programmed destination.

View Events?

Default: No

Selection:

Yes Access each routing group and

No Continue programming without

The D5200 Programmer reveals the following subprompts. Leaving View Events? as No allows the user to ignore a large area of programming that might not need to be changed.

Yes or No

program individual events for this route group only (D5200).

viewing individual groups.

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Fire Reports Burglar Reports

To meet UL 864 requirements for Central Station and Remote Station applications, enable Fire Reports.

Selecting Yes enables a report to be sent when the event occurs.

Table 10: Fire Reports

Report

Selection

Report Description

R# Fire Alarm Yes, No Fire Event R# Fire

Restore

Yes, No

Fire restoral from alarm

(Alarm) R# Fire

Yes, No Missing Fire point

Missing R# Fire

Yes, No Fire trouble

Trouble R# Fire

Yes, No Fire supervision

Supervis R# Fire

Restore (T/M/S)

R# Fire

Yes, No

Fire restoral from trouble, missing, or bypass

Yes, No Canceled fire alarm

Cancel R# Fire Sup

Miss R# Fire Supv



Rest

Yes, No

Fire supervisory missing

Restorals from Fire Supervision



This event is not reported when using BFSK format.

Select Yes to send a report when the event occurs.

Table 11: Burglar Reports

Report Selections Report Description

R# Alarm Yes, No Burglar Alarm Event R# Burg

Restore

Yes, No

Non-fire restoral from trouble, missing, or

supervisory R# Duress Yes, No Duress R# Missing

Yes, No Missing Alarm point

Alarm R# Usr Code

Yes, No User code tamper

Tmpr R# Trouble

Yes, No Trouble Event

Rpt R# Missing Missing Trouble

Yes, No

Trbl Event R# Non Fire

Suprv R# Pt Bus

Yes, No

Non-fire Supervision

Event

Yes, No Point bus failure

Fail R# Pt Bus

Rstl R# Non Fire Canceled non-fire

Yes, No

Restoral of point bus

after failure

Cncl alarm R# Alarm

Restore R# Sup

Yes, No

Non-fire restoral from

alarm

Yes, No Supervisory missing Missing R# Unverified



Evt

Yes, No

Unverified Events for Cross Points



R# Unverified Evt is not reported when using BFSK format. Additionally, this event does not produce a corresponding Restoral event.

R# Unverified Evt is sent when a single point programmed in Cross Point Group faults into an alarm condition, then restores before the Cross Point Time elapses.

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R# Unverified Evt encompasses both Fire and Non-fire points, but is not related to the A# Verify Time used for smoke detectors.

The 9000GV2 Series control panels log a Ground Fault Event as Trouble Point 256.

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Restoral Reports are not sent if the control panel resets after a point is bypassed and then unbypassed. This is true for both Fire and Non-fire points.

User Reports

Selecting Yes enables a report to be sent when the event occurs.

Table 12: User Reports

Report Report Description

R# Point Bypass

R# Forced Point

R# Point Open

R# Point Close

R# Forced Arm

R# Fail To Open

R# Fail To Close

R# Ext Clos Tm

R# Opening Rpt

R# Forced Close

R# Closing Rpt

R# FC Perim Inst

R# FC Perim Forced Close Delay Perimeter Delay

R# Perim Inst Arm

R# Perim Perimeter Delay Delay Arm Armed Event

R# Send User Text

Selection s

Yes, No Point Bypass Event

Yes, No Forced Point Event

Yes, No Point Opening Event

Yes, No Point Closing Event

Yes, No Point Force Armed

Yes, No Fail to Open Event

Yes, No Fail to Close Event

Yes, No

Extend Close Time Event

Yes, No Opening Events

Yes, No

Point Forced Close Event

Yes, No Closing Events

Yes, No

Forced Close Perimeter Instant Armed Event

Yes, No

Armed Event

Yes, No

Perimeter Instant Armed Event

Yes, No

Yes, No User text

Sending Test Reports Automatic: To send a single Test Report (R# Test

Report) automatically, enable Sked Function Code #9 (Test Report) in the Skeds section of the program. Refer to

Manual: To send a single Test Report manually, enter [COMMAND][4][3] at the keypad. Refer to the

To expand this Test Report to include any off-normal point condition or other off-normal system conditions, Expand Test Rpt (refer to page programmed Yes. Refer to the footnotes with

included in an expanded test report. Additionally, the expanded test report includes Summary Fire Supervisory, Summary Fire Fault, Summary Controlled Point Fault, and Summary Point Device Fault conditions.

The control panel can generate an Expanded OffNormal Test Report by using Sked Function Code 28 or a Non-Expanded Off-Normal Test Report using Sked Function Code 29. To generate this event, one or more points must be in an off-normal state at the time the Sked executes. Expanded Off-Normal Test Reports include the Off Normal Test Report Event as well as a panel-wide summary of off-normal point and system conditions. Non-Expanded Off-Normal Test Report Events are sent only when a point is in the offnormal state but sends only the Off-Normal Test Report Event.

Sending Status Reports Automatic: To send a Status Report automatically

that includes the events shown in the footnotes in Table 13, enable Sked Function Code #10 in the Skeds section of the program.

Manual: To send a Status Report manually that includes the events shown in the footnotes in

the Sending off-normal conditions as a Status Report

following a Test Report is required by some automation systems. Sending off-normal conditions as a Non-status Report that follows a Test Report is required for other automation systems.

An off-normal condition is any point that is missing, trouble, supervisory, or in alarm. Also, points not

Test Reports

To meet UL 864 requirements for Central Station and Remote Station applications, enable Test Reports.

Table 13.

prompt on page 63. Send Report

12) must be

Table

on page 20 for a list of event types that are

Table

, enter [COMMAND][4][2] at the keypad. Refer to

prompt on page 63. Send Report

cleared at the keypad report as off-normal.

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Table 13: Test Reports

Report

Selections Report

Description

R# S: Alarm R# S: Trouble R# S:

Supervised R# Status

Yes, No Status Alarm

Yes, No Status Trouble

Yes, No Status Supervised

Yes, No Status

Report R# S: Open R# S: Close

Yes, No Status Open

Yes, No Status Close R# Test Report Yes, No Test R# S: Perim

Inst R# S: Perim

Delay R# S: Fire

Supv R# S: Fire

Alarm

Yes, No

Status Perimeter Instant Arm

Status Perimeter Delay Arm

Status Fire Supervision

Status Fire Alarm

Report R# S: Fire Trbl2Yes, No Status Fire Trouble R# S: Msng

Fire R# S:

MsngBurgTr R# S:

MsngBurgAl R# S:

FireSpMsng

Yes, No Status Fire Missing

Yes, No

Status Burg

Missing Trouble

Status Burg

Missing Alarm

Status Fire

Supervision

Missing R# S:

SuperMsng

Yes, No

Status Non-fire

Supervision

Missing R# S:

DrLeftOpen

1 Information about this condition is sent with a Status

Report.

Information about this condition is sent as S: Trouble Event with a Status Report.

Information about this condition is sent as S: Alarm

Event with a Status Report.

Yes, No

Status Door Left

Open

Selecting Yes enables sending a report when the event occurs. If the off-normal state of the events indicated by footnote 1 in exists, the events report when a Test Report is enabled and Expanded Test Rpt is programmed Yes. Refer to the Test Reports sub-prompt in

Section

Table 14: Diagnostic Reports

Report

R# SDI Dev Fail

R# SDI Dev Restl Yes, No

R# Watchdog Rset Yes, No

R# ParaChksmFail Yes, No

R# Reboot Yes, No Reboot Event R# Ph Line Fail

R# Ph Line Rstl Yes, No

R# AC Fail

R# AC Restorl

R# Batt Missing

R# Battery Low

R# Battery Rstl

R# Rt Comm Fail

Diag Reports

Table 14 on page 20 still

2.3.8 Dialing Attempts on page 16.

Selections Report

Description

SDI device failure

Restoral of SDI device failure

Watchdog Reset Event

Parameter checksum failure

Failure of phone line

Restoral of phone line after failure

Failure of AC power to control panel

Restoral of AC power to control panel after failure

Battery Missing Detection Event

Low battery power

Restoral of battery power to control panel after Missing or Low Event

Failure to send report to

1, 2

Yes, No



1, 2



Yes, No

specific route

R# Rt Comm Rstl Yes, No

Restoral of communication to specific route after a failure

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Table 14: Diagnostic Reports (Continued)

When activating an on-board relay using remote automation software, the

Report Selections

Report Description

R# Checksum Fail Yes, No

Checksum Fail Event

R# Network Fail

Yes, No

Failure of

D9412GV2 and D7412GV2 Control Panels log and print the resulting event as:

Relay 250 (Relay A) Relay 251 (Relay B) Relay 252 (Relay C)

network

R# Network Rest

Yes, No

Restoral of

network

R# Network Cond

Yes, No

Condition of

network

1 This event is included in the Expanded Test Report

when an off-normal condition exists..

2 To meet UL 864 requirements for Central Station and

Remote Station applications, enable AC Fail, Battery Missing, Low Battery, Battery Restoral, and AC Restoral reports.

3 This event covers Comm Fail Route Group and Comm

Fail Phone. If enabled, both events are sent; if disabled, neither event is sent

This event is reserved for future use.

Enable Rt Comm Fail and Rt Comm Restore in only one route group.

Relay Reports

The following prompts support customized routing of Auto Function Reports. Selecting Yes enables a report to be sent when the event occurs.

Table 16: Auto-Function Reports

Report Selections Report Description

R# Sked Sked Executed Executed Event

R# Sked Changed

R# Execute Fail to Execute Fail Event

Selecting Yes enables sending a report when the RPS Passcode Event occurs.

AutoFunc Reports

Yes, No

RPS Reports

Sked Changed Event

RPS Access Fail can indicate a wrong

Selecting Yes enables sending a report when the event occurs.

Table 15: Relay Reports

Report Selections

Report Description

R# Sensor Reset

Yes, No

Sensor Reset Event

RPS passcode when communicating with the control panel or a valid RPS session terminated by a means other than a Good-bye or Reset-bye command. Remote Reset indicates a Reset-bye command issued from RPS; Bad Call to RPS indicates the control panel called RPS but was unable to connect.

R# Relay Set Yes, No Relay Set Event R# Relay

Yes, No Relay Reset Event

Reset

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Table 17: RPS Reports

Point Reports

Report Selections Report Description

R# Log Threshold

R# Log Overflow

R# Para Changed

R# RPS OK Yes, No

Yes, No

Event log threshold reached

Log is full, old events are overwritten

RPS Parameter Change Event

Successful RPS Access Event

R# RPS Fail Yes, No

Failed Access RPS Event

R# Remote

Yes, No Remote Reset Event

Reset R# Program

OK R# Program

Fail

Yes, No

Successful Local Programming Event

Failed Local Programming Event

Selecting Yes enables a report to be sent when the event occurs.

Table 18: Point Reports

Report Selections

Report Description

R# Service Start Yes, No

Reorts Service Walk Test Start Event

R# Service End Yes, No

Service Walk Test End Event

R# Fire Walk St Yes, No

Fire Walk Start Event

R# Fire Walk End Yes, No

Fire Walk End Event

R# Walk Test St Yes, No

Walk Test Start Event for Walk Test and Invisible Walk Test

R# Walk Test End Yes, No

Walk Test End Event for Walk Test and Invisible Walk Test

R# Extra Point Yes, No

Extra Point Event

R# Send Point



Text R# RF Low Bat Yes, No

Yes, No Point Text

Low battery conditions for RF points

R# RF Low Bat Res

Yes, No

Low battery restoral conditions for RF points



Point text is always transmitted when using

network applications.

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User Chng Reports Access Reports

Selecting Yes enables a report to be sent when the event occurs.

Table 19: User Change Reports

Report Selections

Report Description

R# Date

Yes, No Date Change Event

Changed R# Time

Yes, No Time Change Event

Changed R# Delete



User R# User Code

Chg R# Area

Watch R# Card

Assigned R# Change

Level

Yes, No

Delete User Code Event

User Passcode Add or Change Event

Start and end of area watch

Card Assigned to User Event

Access Control Level Change Event



With R# Delete User Events, the control panel

always uses the account number from Area 1.

Selecting Yes enables a report to be sent when the event occurs.

Access Granted, No Entry, Request to Enter (RTE) and Request to Exit (REX) Events can be enabled or disabled by each D9210B.

Table 20: Access Reports

Report Selections Report Description

R# Access Access Granted

Yes, No

Granted Event

Yes, No R# No Entry No Entry Event

R# Door Lt Door Left Open

Yes, No

Open Event R# Cycle

Yes, No Open Door Event

Door R# Door

Yes, No Unlock Door Event

Unlocked R# Door

Yes, No Secure Door Event

Secure R# Door

Yes, No RTE or REX Event

Request R# Door

Yes, No Locked Door Event

Locked

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2.4 Enhanced Routing

Enhanced routing allows the control panels to determine if events are routed over standard telephone lines or a local-area network (LAN) or wide-area network (WAN). Sending events over a LAN or WAN requires a network interface module (NIM), such as the DX4020 or the D9133TTL-E.

Refer to Section 6.5 Programming Path

Numbers and IP Addresses for Enhanced Communications on page

135 for details on Enhanced Communications Route path programming.

Enhanced routing also enables and disables the ability of the control panel to send events to a numeric pager.

If the installation does not require these applications, skip this section.

With enhanced routing, whether you use standard telephone lines or a NIM, you can program the control panel to send full or partial groups of events to as many as four different destinations. Routing includes:

•

Choosing the most important destination Sending events to a single destination or to

•

multiple destinations

•

Selecting a backup destination if events fail.

2.4.1 Programming a Primary and Backup Destination

Each route number has an R# Primary Device and an R# Backup Device. With enhanced communications, the R# Primary Device destination can be either the phone number or the path number

Section 2.4 Enhanced Routing on page 24 determines the route groups and which destinations within the route groups use network interface modules (NIMs) for reporting purposes. A single NIM can send events to as many as four different destinations.

For example, if you want to send events using Route Group 1 over a LAN or WAN as your primary destination, and you use a standard telephone line as your backup destination, program the following sections:

•

Routing (Section

1. Select Route Group 1

2. Program a 1 for Primary Destination

3. Program a 1 for Backup Destination

4. Enable all applicable events to be included in

2.3 Routing on page 15)

Route Group 1.

Phone (Section

•

1. Select Phone 1.

2. Program Phone 1 with the applicable central

2.1 Phone on page 11)

station receiver phone number.

Enhanced Routing (Section

•

Routing

1. Enter Yes for RG1 Primary SDI (Tells the

on page 24)

2.4 Enhanced

control panel to send the events to the network interface module (NIM) using IP Address 1)

2. Enter No for RG1 Backup SDI (Tells the

control panel to use the phone line to send events if the primary destination fails after one or two attempts)

Because you are using an SDI Path to send events, you must also program the applicable items in

Section Addresses for Enhanced Communications

page

6.5 Programming Path Numbers and IP

135.

for the SDI device, to which the route group first attempts to send the event. If the R# Primary Device destination fails to connect to the central station receiver after one or two attempts (refer to RG# 1 Attempt), the control panel attempts to connect with the R# Backup Device destination.

2.4.2 Programming a Duplicate Report

To send an event within a group to multiple groups, program the event as Yes for each route number available. For example, programming fire alarms for Route Group 1 and Route Group 2 sends a fire alarm report first to Route Group 1, followed by a duplicate report to Route Group 2.

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UL 864 Enhanced Communication Path Report Prioritization:

To ensure that high priority events such as Fire Alarms are reported before any other queued event reports, use Route Groups 1 and 2. The lower numbered route groups are higher priority than the higher numbered route groups. For example, the following route groups are listed from highest priority to lowest priority: RG1RG2RG3RG4.

UL 864 Enhanced Communication Path Supervision:

RG# Primary Pager

Default: No

Selection:

This parameter determines if this route group sends events to a numeric pager. To send events to a

The poll rate entry for the backup SDI path might need to increase because of heavy traffic on the network or excessive signals generated at the same time. All Comm prompts must be set to No.

Yes or No

numeric pager, a phone number must also be

To detect and locally annunciate a break

programmed in the route group’s primary destination.

in an Enhanced Communication Path in less than 200 sec, program no more than two Enhanced Communication Paths in no more than two Route Groups. Use the following settings for both Enhanced Communication Paths:

If programming the control panel to dial a numeric pager, choose its route group carefully. Place events being sent to a central station in a route group class with a lower number than the numbers of the events in the route group for the numeric

Path # Poll Rate: 75 sec

Path # ACK Wait: 13 sec

pager.

2.4.3 Numeric Pager Capability

Path # Retry Count: 5

If the External Modem feature is used,

RG# Primary SDI and RG# Backup SDI must be set to No. The control

panel supports either enhanced communication or external modem, but not both at the same time.

RG# Primary SDI

The D9412GV2 and D7412GV2 Control Panels can send most events to a numeric pager. Any time an event is generated and routed to a numeric pager, the control panel calls the numeric pager once for each message in the queue. To enable the pager, program the primary phone number and the backup phone number to the numeric pager’s phone number in any of the four route groups. Then select which events to route to the numeric pager within the selected route group.

Default: No

Selection:

Yes or No

Up to four event fields can be shown in the pager message. Refer to

Figure 1.

This parameter determines if the primary destination for Route Group 1 (2, 3, or 4) is sent to the NIM

RG# Backup SDI

Default: No

Selection:

This parameter determines if the backup destination for Route Group 1 (2, 3, or 4) is sent to the NIM.

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Yes or No

To completely disable Enhanced Routing over an SDI path, RG# Primary

SDI, RG# Backup SDI, and Enhanced Comm prompts must be set to No.

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Figure 1: Pager Display Fields

A user might not want all four fields to show in the pager message. Entering “*” characters in the phone number allows the user to select the number of fields

[1234-001-011-008]

to show in the pager message. To limit the number of fields shown in the pager message, enter the appropriate number of “*” characters in the phone

1 2

1 - Account number (1234) 2 - Event policy (001) 3 - Event number (011, Fire Alarm Event) 4 - User number, point number, or relay number

(008)

The account number must contain four numeric digits. No alpha characters (B to

Programming the Pager Phone Number

To program the pager phone number, enter the number used to reach the pager, followed by pauses. Entering C creates a 3-sec pause (example: 5552341CCC.)

Experiment with the number of pauses you add after the page phone number. Each pause equals 3 sec.

F) are allowed when using the numeric pager.

number as shown below:

•

Zero “*” characters in phone number: Shows all four fields.

•

One “*” character in phone number: Shows first field only.

•

Two “*” characters in phone number: Shows first two fields.

•

Three “*” characters in phone number: Shows first three fields.

•

Four or more “*” characters in phone number: Shows all four fields.

For example, the phone number 2773074***CC (seven digit pager phone number followed by three asterisks and two pauses) produces the following pager display: [1234-001-011] (three fields display at the pager).

Table 21 shows the description of each event, its priority, and event number.

Try calling the pager yourself first and listening to the length of time it takes to get a beep allowing you to enter touch-tone information. This length is what you must program after the pager’s phone number in

Section

2.1 Phone on page 11 If you need a longer

pause, enter D after the number. Each D equals 7 sec.

Using “#” characters in the phone number affects the event’s display on the pager:

•

No “#” characters in phone number: Dashes appear in the display [1234-001-011-008].

•

One “#” character in phone number: Dashes are replaced by zeros [1234000100110008].

•

Two or more “#” characters in phone number: Dashes appear in the display [1234-001-011008].

For example, if the phone number 2773074#CC (seven-digit pager phone number followed by “#” and two pauses) is programmed, the pager message appears as follows: [1234000100110008] (dashes are replaced by zeros).

If the “#” is not placed in the phone number, the message appears as follows: [1234-001-011-008]

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Table 21: Event Descriptions, Priorities, and

Numbers

Table 21: Event Descriptions, Priorities, and

Numbers (Continued)

Event Description

Event Priorit y

Event Number

Fire Alarm 001 011 Fire Restoral (after Alarm,

005 014

Supervision) Fire Missing 005 013 Fire Trouble 005 012 Fire Supervision 005 124 Fire Restoral (after Tbl, Msg,

005 015

Bypass) Fire Cancel 004 027 Fire Supervision Missing 005 146 Fire Supervision Restore 005 123 Alarm Report 003 016 Burg Restore 006 018 Duress 002 004 Missing Alarm 006 019 User Code Tamper 008 055 Trouble Report 006 017 Missing Trouble 008 020 Non-Fire Supervision 006 078 Point Bus Fail 006 024 Point Bus Restoral 006 091 Non-Fire Cancel 004 045 Alarm Restore 006 026 Supervision Missing 008 147 Unverified Event 006 169 Point Bypass/Command Bypass 007 007 Forced Point 007 008 Point Opening 008 021 Point Closing 008 022 Was Force Armed 007 034 Fail To Open 008 040 Fail To Close 008 041 Extend Close Time 008 044 Opening Report 008 047 Forced Close 007 048 Closing Report 008 050

Event Description

Forced Close Perim Instant 007 084 Forced Close Perim Delay 007 085 Perimeter Instant Armed 008 088 Perimeter Delay Armed 008 089 Send User Text n/a n/a S: Alarm n/a n/a S: Trouble n/a n/a S: Supervision n/a n/a Status Report 008 035 S: Open n/a n/a S: Close n/a n/a Test Report 008 051 S: Perimeter Instant n/a n/a S: Perimeter Delay n/a n/a S: Fire Supervision n/a n/a S: Fire Alarm n/a n/a S: Fire Trouble n/a n/a S: Missing Fire (Trouble) n/a n/a S: Missing Burglary ((Trouble) n/a n/a S: Missing Burglary (Alarm) n/a n/a S: Fire Supervision Missing n/a n/a S: Burglary Supervision Missing n/a n/a S: Door Left Open n/a n/a SDI Device Failure* 004 070 SDI Device Restoral* 008 071 Watchdog Reset 004 077 Parameter Checksum Fail n/a n/a Reboot 008 082 Phone Line Fail 004 068 Phone Line Restoral 008 069 AC Failure 004 072 AC Restoral 008 073 Battery Missing 004 074 Battery Low 004 075 Battery Restoral 008 076 Route Comm Fail 004 066 Route Comm Restore 008 067 Checksum Fail n/a n/a Sensor Reset 007 031 Relay Set 007 032 Relay Reset 007 033 Sked Executed 007 057 Sked Changed 007 058 Fail to Execute 008 151 Event Log Threshold 008 052 Event Log Overflow 008 053

* SDI Device number is not reported when using pager

format.

Event Priorit y

Event Number

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Table 21: Event Descriptions, Priorities, and

Numbers, continued

Event Description

Parameters Changed 008 054 RPS Access OK 008 064 RPS Access Fail 008 065 Remote Reset 008 079 Program Access OK n/a n/a Program Access Fail n/a n/a Service Start 008 029 Service End 008 030 Fire Walk Start 008 036 Fire Walk End 008 037 Walk Test Start 008 038 Walk Test End 008 039 Extra Point 008 023 Send Point Text n/a n/a RF Low Battery 006 093 RF Battery Restore 006 094 Date Changed 008 059 Time Changed 008 060 Delete User 008 090 User Code Change 008 056 Area Watch 008 042 Card Assigned 008 110 Change Level 007 061 Access Granted 008 003 No Entry 008 115 Door Left Open 008 116 Cycle Door 008 112 Door Unlocked 008 113 Door Secure 008 114 Door Request 008 117 Door Locked 008 145 User Alarm COMMAND 7 002 005 User Alarm COMMAND 9 002 006

Event Priorit y

Event Number

2.5 Power Supervision

AC Fail Time

Default: 1

Selection:

Program the amount of time that AC power must be off before the control panel responds to the AC failure. The response to restoral of AC power is delayed for the same amount of time. The control panel always monitors AC. The response to this prompt is the actuation of the relay programmed in the Panel-Wide Relays prompt AC Failure (refer to

Section

the AC Fail report enabled by the AC Fail/Res Rpt prompt. Local annunciation of an AC failuter is controlled by the AC Fail Display prompt.

When you program AC Fail Time, if the second digit is:

•

1, 3, 5, 7, or 9 (such as 3, 5, 11, 13, 15, 21, and so on): The AC Fail Time interval is in minutes.

•

2, 4, 6, 8, or 0 (such as 2, 4, 6, 10, 12, 20, 22,

1 to 90 (Blank and 0 are invalid)

2.13.2 Panel-Wide Relays on page 81) and

UL 864 requirements, Section 50.2.1.b states: “A trouble signal shall be transmitted for remote station, central station, and proprietary-type protected premises units after a delay of between 60 and 180 min.

Exception: Products are not prohibited from providing capability of selecting that the primary power failure trouble signal transmission be delayed other time periods, including no delay,provided the 60 – 180 min delay is also included.”

To meet UL 864 requirements, program AC Fail Time with 61, 63, 65, ... (odd numbered values), and 89. Always check with the Authority Having Jurisdiction for local requirements.

and so on): The AC Fail Time interval is in seconds.

For the following items to be true, AC Fail/Res Rpt must be programmed as Yes and AC Tag Along must be programmed as No.

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When you program AC Fail Time, if the second digit is:

1, 3, or 5 (such as 3, 5, 11, 13, 15, 21, and so

•

on): The AC Fail Time interval is in minutes and an AC Fail Event is sent after the loss of AC for this amount of time. No additional AC Fail Events are sent after 6 hours or 12 hours.

•

2, 4, or 6 (such as 2, 4, 6, 12, 14, 16, 22, 24, 26, and so on): The AC Fail Time interval is in

seconds and an AC Fail Event is sent after the loss of AC for this amount of time. No additional AC Fail Events are sent after 6 hours or 12 hours.

•

7 (such as 7, 17, 27, 37, and so on): The AC Fail Time interval is in minutes and an AC Fail Event is sent after the loss of AC for this amount of time. An additional AC Fail Event is sent after 6 hours if the AC Fail condition is still present.

•

8 (such as 8, 18, 28, 38, and so on): The AC Fail Time interval is in seconds and an AC Fail Event is sent after the loss of AC for this amount of time.

•

7 (such as 7, 17, 27, 37, and so on): The AC Fail Time interval is in minutes. An AC Fail Event is only sent after 6 hours if the AC Fail condition is still present.

•

8 (such as 8, 18, 28, 38, and so on): The AC Fail Time interval is in seconds. An AC Fail Event is only sent after 6 hours if the AC Fail condition is still present.

•

9 (such as 9, 19, 29, 39, and so on): The AC Fail Time interval is in minutes. An AC Fail Event is only sent after 12 hours if the AC Fail condition is still present.

•

0 (such as 10, 20, 30, and so on): The AC Fail Time interval is in seconds. An AC Fail Event is sent after 12 hours only if the AC Fail condition is still present.

To eliminate AC Reporting, AC Tag Along and AC Fail/Res Rpt must be programmed as No and the second digit of the AC Fail Time must be a 1, 2, 3, 4, 5, or 6.

AC Fail Display

An additional AC Fail Event is sent after 6 hours if the AC Fail condition is still present.

•

9 (such as 9, 19, 29, 39, and so on): The AC Fail Time interval is in minutes and an AC Fail Event is sent after the loss of AC for this amount of time. An additional AC Fail Event is sent after 12 hours if the AC Fail condition is still present.

•

0 (such as 10, 20, 30, and so on): The AC Fail Time interval is in seconds and an AC Fail Event is sent after the loss of AC for this amount of time. An additional AC Fail Event is sent after 12 hours if the AC Fail condition is still present.

For the following items to be true, AC Fail/Res Rpt must be programmed as No and AC Tag Along must

Default: 60 sec

Selection:

10 to 300 sec (in 5-sec increments)

Program the length of time the AC power must be off before the message SERVC AC FAIL shows on the keypads. The response to restoral of AC power is delayed for the same amount of time.

AC Fail/Res Rpt

Default: No

Selection:

Yes Send AC Fail and AC Restoral

Yes or No

Reports.

also be programmed as No. When you program AC Fail Time, if the second digit

is:

•

1, 3, or 5 (such as 3, 5, 11, 13, 15, 21, and so on): The AC Fail Time interval is in minutes. No

AC Fail or AC Restoral Events are sent.

•

2, 4, or 6 (such as 2, 4, 6, 12, 14, 16, 22, 24, 26,

No Does not send AC Fail and AC

Restoral Reports.

AC Power Supervision Reports are sent to the central station and local printer at the time programmed for AC Fail Time.

and so on): The AC Fail Time interval is in seconds. No AC Fail or AC Restoral Events are sent.

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AC Tag Along

Bat Fail/Res Rpt

Default: Yes

Selection:

Yes or No

Yes Send AC messages as tag along

events.

No Do not send AC messages as tag

along events.

Send AC Reports only if any other event occurs while AC is off-normal.

If AC Tag Along is set to Yes and a subsequent event is generated, the AC Fail Event is sent first, before sending any subsequent events.

AC Tag Along is required for NFPA and UL 864 Commercial Fire systems. Be sure to program AC Fail/Res Rpt as

No if AC Tag Along is programmed Yes.

AC/Battery Buzz

Default: No

Selection:

Yes Initiates panel-wide trouble tone at

No Does not initiate panel-wide trouble

Initiates a panel-wide trouble tone at keypads when AC fails or battery is low or missing. This program item does not prevent the SERVC AC FAIL or SERVC BATT LOW displays.

Yes or No

all keypads.

tone at keypads

To comply with NFPA standards and UL 864 requirements for Commercial Fire systems, program this item as Yes.

If annunciating panel-wide troubles at a keypad with CC# Scope set to Panel

Wide is undesirable, set CC# Trouble Tone to No. Refer to Section 2.10

Keypad (Command Center) on page 51 for keypad configurations.

Default: Yes

Selection:

Battery Failure and Restoral Reports are

Yes

Yes or No

sent to the central station. They are routed to the telephone number programmed for Power/Phone Events.

Modem Report s

Missing or shorted

Discharged below 12.1

BATTERY MISSING

BATTERY LOW

VDC

BFSK Report s

Missing, shorted low battery

TROUBLE ZONE 9

No Battery Failure and Restoral Reports are not

sent to the central station.

To comply with NFPA standards and UL 864 requirements for Commercial Fire systems, program this item as Yes.

2.6 Printer Parameters

Up to three D9131A Parallel Printer Interface Modules can be connected to the D9412GV2’s (one printer for the D7412GV2’s) SDI bus. Each printer is identified by an address of 17, 18, or 19. Options are available for Routing Reports and area assignments.

Printer Address

Default: 17

Selection:

Enter the printer address you are programming.

P## Area Assign

Default: 1

Selection:

Assign an area to the printer programmed in Printer Address.

17, 18, or 19 (only 17 is available for the D7412GV2)

1 to 8

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