Bosch DS7447E, DS7445I, DS7447, DS7400XI User Manual

Reference Guide

for the DS7400Xi (Ver. 4+)

Control/Communicator

Armed Status Power Fire

Perimeter Supervisory Bell Silenced Trouble

12345678

14 15

12 13

91011

TEST WEEKLY

1 23

456 789

Off

Perimeter

Only

Entry

Bypass

System

Reset

DS7445/DS7445i

Keypad Quick Reference Guide

Turning On (arming) your System using the DS7445/DS7445i

or DS7447/DS7447E Keypad

Normal Arming [PIN] + [On] Perimeter Arming, no entry delay [PIN] + [No Entry] +

[Perimeter Only] Perimeter Arming, with entry delay [PIN] + [Perimeter Only] Maximum Security Arming [PIN] + [No Entry] + [On] Custom Arming [PIN] + [#] [4] Set Delayed Arming [PIN] + [#] [9] [9] and enter

number of hours from

current time to the desired

arming time. Extend Automatic Arming [PIN] + [OFF] during pre-

arm time Force Arming Enter an arming

command followed by

[Bypass] Zone Bypass [PIN] + [Bypass] followed

by the Zone number.

[PIN] +[Bypass] [*] to clear

ALL Bypasses.

Armed Status Power Fire

TEST WEEKLY

1 23

456 789

Off

Perimeter

Only

Entry

Bypass

System

Reset

DS7447/DS7447E

Commands for other System Features

Chime Mode [PIN] + [#] [7] System Walk T est [PIN] + [#] [8] [1] Read Event History [PIN] + [#] [8] [9] Battery Test [PIN] + [System Reset] Communicator Test [PIN] + [#] [8] [2] Fire Reset [PIN] + [System Reset] Remote Program Dial-out [PIN] + [#][8] [3] Remote Program Answer [PIN] + [#] [8] [6] Battery/Sounder Test [PIN] + [#] [8] [5] Error Display [PIN] + [#] [8] [7] Error Display Reset [PIN] + [System Reset] Fire Walk Test [PIN] + [#] [9] [1] To Silence a Fire Trouble/Alarm [PIN] + [Off] To Clear a Fire Trouble Display [PIN] + [System Reset]

Access Control

Enter your [Access Control PIN] followed by [Off]

Turning Off (disarming) your System

Enter your [PIN] followed by [Off] NOTE: For additional information on operating this system, consult the DS7400Xi (Ver. 4+) User ’s Guide (P/N: 43851) and section 7

of this Reference Guide.

Table of Contents

Keypad Quick Reference Guide ........................................ 1

1.0 Specifications ............................................................. 4

1.1 Enclosure Housing ........................................................ 4

1.2 Temperature................................................................... 4

1.3 Power.............................................................................. 4

1.4 Outputs ........................................................................... 4

1.5 Zones.............................................................................. 4

1.6 Keypads.......................................................................... 4

1.7 Communicator ............................................................... 4

1.8 Partitions ........................................................................ 4

1.9 Users.............................................................................. 4

1.10 Lightning Protection ....................................................... 4

1.11 Burglar/Fire Zone Inputs ................................................ 4

1.12 Fire Signal Initiating Circuit (2-wire mode) ................... 4

1.13 Multiplex Bus Wiring Requirements .............................. 4

1.13.1 Multiplex Zone Loop Wiring ................................ 4

1.14 Option Bus Wiring Requirements ................................. 4

1.15 Max. Load Currents ........................................................ 5

1.16 Backup Battery Calculation ............................................ 5

1.17 Standby Current Load .................................................... 5

1.18 Options ........................................................................... 6

2.0 Enclosure Installation ............................................... 8

2.1 Install the Enclosure ...................................................... 8

2.2 Install the Control/Communicator ................................. 8

3.0 Control Terminal Wiring ......................................... 10

4.0 Hardware Layout Example .....................................11

5.0 System Worksheet ................................................... 12

6.0 Glossary ..................................................................... 19

6.1 General Control Programming .................................... 19

6.2 Zone Function Programming ...................................... 19

6.3 Zone Programming ...................................................... 20

6.4 Output Programming ................................................... 21

6.5 Partition Control Programming ................................... 21

6.6 Keypad Assignment Programming ............................. 22

6.7 Emergency Key Programming .................................... 22

6.8 Custom Arming Programming .................................... 22

6.9 Force Arming ................................................................ 2 2

6.10 Ground Fault Detect Programming ............................. 22

6.11 Commercial Fire Mode Programming ........................ 22

6.12 Open/Close Report Control Programming ................ 23

6.13 Report Programming ................................................... 23

6.14 Phone Number General Control Programming ......... 24

6.15 Phone Answering Programming ................................. 24

6.16 FCC Compliance Notice .............................................. 25

6.17 FCC Phone Connection Notice To Users................... 2 5

6.18 Canadian Dept. of Communications .......................... 25

6.19 For Installations in New Zealand ................................ 25

7.0 Operating Guide ...................................................... 26

7.1 Emergency Procedures ............................................... 26

7.1.1 Identifying Alarm Sounds ................................. 26

7.1.2 Silencing Alarms .............................................. 26

7.1.3 A Cautionary Note............................................ 26

7.1.4 Use Common Sense......................................... 26

7.1.5 Caution When Entering a Building ..................... 26

7.1.6 Fire Alarms...................................................... 26

7.2 Fire Reset/Fire Trouble ................................................ 26

7.2.1 Fire Reset........................................................ 26

7.2.2 Fire Trouble ..................................................... 26

7.2.3 Dirty Smoke ..................................................... 26

7.3 Emergency Keypad Alarms ......................................... 26

7.4 Fire Safety ..................................................................... 27

7.4.1 If Installed in Family Residences ....................... 27

7.4.2 Having and Practicing an Escape Plan .............. 27

7.4.3 Installation Considerations................................ 27

7.5 Personal Identification Numbers ................................ 28

7.5.1 General Information.......................................... 28

7.5.2 Programming PINs ............................................ 28

7.6 The Master Keypad ...................................................... 2 9

7.6.1 General Information.......................................... 29

7.6.2 Master Keypad Displays .................................. 29

7.6.3 Single Partition Mode ........................................ 29

7.6.4 Arming from the Master Keypad ....................... 29

7.6.5 Disarming from the Master Keypad................... 29

T o disarm all the Partitions to which you have access: ...... 29

7.7 Keypad Error Displays ................................................. 30

7.7.1 General Information.......................................... 30

7.7.2 System Faults .................................................. 30

7.7.3 Event History ................................................... 30

7.8 Testing Your System .................................................... 3 1

7.8.1 Zone (System Walk) Test ................................. 31

7.8.2 Battery T est s ................................................... 31

7.8.3 Communicator Test........................................... 31

7.8.4 Fire Walk Test .................................................. 31

8.0 How to Program the Control Panel ...................... 32

8.1 Entering the Programmer’s Mode ............................... 32

8.2 Reading Back a Program Address ............................. 32

8.3 Entering a Value in a Program Address ..................... 3 2

8.4 HEX values ................................................................... 3 2

8.5 Defaults ........................................................................ 32

8.6 Setting the Control to the Factory Default.................... 3 2

8.7 Exiting the Programmer’s Mode .................................. 32

9.0 Understanding the Programming Charts ............ 33

10.0 Programming............................................................ 34

10.1 General Control Programing:

Program Address (0000) ............................................. 34

10.2 Zone Function Programming: ..........................................

Program Addresses (0001-0030) ............................... 35

10.3 Zone Programming:

Program Addresses (0031-0278) ............................... 36

10.4 Zone Programming:

Zone Type Program Addresses (0415-0538) ............. 37

10.5 Zone Partition Assignment:

Program Addresses (0287-0410) ............................... 38

10.6 Zone Bypass Programming:

Program Addresses (2721-2724) ............................... 39

10.7 Output Programming:

Program Addresses (2734, 2735, 2736) .................... 41

10.8 Output Partition Assignment:

Program Addresses (2737-2738) ............................... 42

10.9 Partition Control Programming:

Program Address (3420) ............................................. 42

10.10 Quick Arm Control Programming:

Program Address (3477) ............................................. 43

10.11 Keypad Assignment Programming:

Program Addresses (3131-3138) ............................... 44

10.12 Keypad Partition Assignment:

Program Addresses (3139-3146) ............................... 44

10.13 Emergency Key Programming:

Program Addresses (3147-3148) ............................... 45

10.14 Custom Arming Programming:

Program Addresses (2725-2728) ............................... 45

10.15 Force Arming and Ground Fault Detect Programming:

Program Address (2732) ............................................. 47

10.16 Commercial Fire Mode Programming:

Program Address (2733) ............................................. 48

10.17 Open/Close Report Control Programming:

Program Address (3149) ............................................. 49

10.18 Open/Close & Zone Report Control Programming:

Program Address (3151) ............................................. 49

10.19 Report Control Programming:

Program Address (3152) ............................................. 49

10.20 Timer Programming:

Program Addresses (4028-4030, 4032-4033) .......... 50

10.21 AC Fail Report Delay Programming:

Program Address (4034) ............................................. 50

10.22 General Authority Programming:

Program Address (3421-3424) ................................... 51

10.23 Arming Warning Programming:

Program Addresses (3425-3428) ............................... 51

10.24 DS7412 RS232 Interface Control Programming:

Program Address (4019) ............................................. 52

10.25 DS7412 RS232 Interface Configuration Programming:

Program Address (4020) ............................................. 52

10.26 RS232 Carriage Return/Line Feed Control:

Program Address (4027) ............................................. 52

10.27 Report Programming:

Program Addresses (3207-3419) ............................... 53

10.28 Phone/DS7416i Routing Control:

Program Addresses (3153-3154) ............................... 55

10.29 Account Code Programming:

Program Addresses (3429-3459) ............................... 56

10.30 Phone Number General Control Programming:

Program Address (3155) ............................................. 57

10.31 Phone Number Format Programming:

Program Addresses (3156-3157) ............................... 57

10.31.1 Compatible Receivers ...................................... 58

10.32 Phone Answering Programming:

Program Address (3158) ............................................. 58

10.33 Pager Delay Time:

Program Address (4038) ............................................. 59

10.34 Programmer’s and Master Code Programming:

Program Addresses (7589-7592) ............................... 59

10.35 PIN Length Programming:

Program Address (3478) ............................................. 59

10.36 Octal Relay Module Output Programming .................. 6 0

10.36.1 Follow Action:

Program Addresses (2740-2771)..................... 60

10.36.2 Follow System Wide Event:

Program Addresses (2740-2771)..................... 61

10.36.3 Follow Function:

Program Addresses (2740-2771)..................... 62

10.36.4 Follow Zone:

Program Addresses (2740-2771)..................... 63

10.36.5 Octal Relay Module Output Partition Assignment:

Program Addresses (2844-2851)..................... 65

10.37 Output Function Programming:

Program Addresses (2772-2843) ............................... 66

10.37.1 Output Function Partition Assignment:

Program Addresses (2852-2863)..................... 67

10.38 Dual Phone Line/Bell Supervision Module Output Programming:

Program Address (4021) ............................................. 67

10.39 Call-Out Timer Programming:

Program Addresses (4022-4025) ............................... 68

10.40 Test Report and Remote Programmer Call-Out Programming:

Program Address (4026) ............................................. 68

10.41 Alpha Description Programming:

Program Addresses (0545-2720, 5001-6920) .......... 69

10.41.1 Alpha Description Programming:

A Worksheet ................................................... 70

10.42 Phone Number Programming:

Program Addresses (3159, 3175, 3191) .................... 74

10.42.1 Phone Number 1 Programming:

Program Address (3159) ................................. 74

10.42.2 Phone Number 2 Programming:

Program Address (3175) ................................. 74

10.42.3 Phone Number 3 Programming:

Program Address (3191) ................................. 74

11.0 Installation Guide for UL Listed Systems ............ 75

11.1 DS7400Xi UL Listings: ................................................ 7 5

1 1.1.1 UL System Configurations................................ 75

11.2 Installation Considerations ......................................... 76

11.3 Programming the DS7400Xi ....................................... 76

1 1.3.1 Household Fire Alarm Using Digital Alarm

Communicator Transmitter With Local Bell ........ 76

11.3.2 Grade A Household Burglary Alarm Using Digital Alarm Communicator Transmitter With Local Bell76

11.4 General System Requirements .................................. 76

11.4.1 Local Burglary Alarm ....................................... 77

11.4.2 Police Station Connection ................................. 77

11.4.3 Central Station Burglary Alarm and

Proprietary....................................................... 77

11.5 Commercial Fire Alarm ................................................ 77

11.6 Wiring and Programming Information for Installations

Using the Ademco AB-12 Bell/Housing ...................... 78

12.0 Report Programming .............................................. 79

12.1 4/2 Format .................................................................... 7 9

12.2 BFSK Format ................................................................ 8 0

12.3 Personal Dialing Format ............................................. 81

12.4 Pager Format ............................................................... 81

13.0 Report Programming - Values Sent ..................... 83

13.1 SIA Formats .................................................................. 8 3

13.2 CID Formats ................................................................. 85

14.0 Multiplex Zone Addressing Guide ........................ 86

15.0 Troubleshooting Guide ........................................... 87

15.1 Keypad Problems ........................................................ 87

15.2 Reporting Problems .................................................... 88

15.3 Zone Problems ............................................................ 88

15.4 General System Problems .......................................... 89

16.0 Program Addresses ................................................. 93

Index ................................................................................ 99

1.0 Specifications

1.1 Enclosure Housing

The standard enclosure is manufactured from 20 Guage (1.0 mm), cold-rolled steel, and measures 12.5 by 14.5 by 3 inch (31.8 by

36.8 by 7.6 cm) (HxWxD). A keyed lock is included, and this enclosure has provision for an optional tamper switch (required for commercial burglary applications) for monitoring the door.

1.2 Storage and Operating Temperature

• Temperature: +32°F to +120°F (0°C to +49°C)

NOTE: Fire Systems installed under NFPA-72 or UL Listed Fire

Systems require the use of 18 AWG or larger wire.

1.7 Communicator

Will report to two phone numbers with full single, double and backup reporting. Communicates in SIA (110 or 300 baud), 3/1, 3/1 Ext., 3/1 with Parity, 3/1 Ext. with Parity, 4/1, 4/2, BFSK, Contact ID, and Pager formats. FCC Registration Number is ESVUSA-75333-AL-E The ringer equivalence is 0.1B Commercial Fire CSFM Listing Number is 7165-1062:113 Residential Fire CSFM Listing Number is 7167-1062:114

1.3 Power

NOTE: The total current output capacity for all auxiliary devices,

including keypads and smoke detectors = 1.5 A standby,

2.5 A alarm. The following ratings are maximum values. The total combined output cannot exceed the maximum load current.

• Input power: 18 VAC, 50 VA, 50 Hz./60 Hz.

• Auxiliary power: 12 VDC, 1.0 A max.

• UL Listed Alarm Power Output: 12 VDC, 1.75 A max.

• Auxiliary power voltage range: 12 V special application

• Optional Standby battery (P334): 12 V, 7.0 Ah - 35 Ah max.

• Control panel current draw: 175 mA, Standby 250 mA, Alarm

1.4 Outputs

• Alarm Output: 12 VDC, 1.75 A output. Can be programmed

for steady or pulsed output.

• Programmable Solid state current sink (1.0 A max.). Shorts to

Aux. negative when activated. Connect device

Output 1*

• Programmable Solid state voltage source (500 mA max.). Can

Output 2*

* = Current draw should be subtracted from either maximum

auxiliary or maximum alarm current draw.

** = Not investigated to the requirements of UL294.

to Aux. power positive. Can be used for alarm, arming state, or access control.** This output is generally programmable.

be used for alarm, arming state, or access control.** This output is generally programmable. For use with such compatible devices as the Listed DS250 with a 4-wire base.

1.5 Zones

• 8 on-board zones. Up to 248 total zones with expansion modules.

• Zone Response Time: 300 ms.

1.8 Partitions

The system has the capacity for 8 independent partitions. One partition may be a common area.

1.9 Users

The DS7400Xi Ver 4+ system allows up to 200 individual users. Each user will have his own PIN number (the 4- or 6-digit code entered at the keypads) and his own authority level (to determine which functions he may perform).

1.10 Lightning Protection

MOVs and spark gaps provide protection from lightning surges and static discharges.

1.11 Burglar/Fire Zone Inputs

• Number of circuits: 8 Circuits on-board

• End-of-line resistor: 2.2 kΩ (P/N 25899, provided)

• Loop resistance tolerance: 60 ohms

1.12 Fire Signal Initiating Circuit (2-wire mode)

Fire circuit will work with 2- or 4-wire detectors and has optional alarm verification.

• Number of circuits: 8 Circuits on-board

• Type of circuit: Class B, latching

• End-of-line resistor: 2.2 kΩ (P/N 25899, provided)

• Supervisory current: 5.5 mA

• Maximum short circuit current: 22 mA

• Maximum line resistance: 60 ohms

• Circuit voltage range: 8.5 to 14.1 VDC

• Total detector standby current: 2.5 mA

1.6 Keypads

• Maximum # of keypads: 15 Keypads

• Maximum wire length each: 1000 feet (305 m)

• Maximum wire length total: 6000 feet (1830 m) in system

• Wire type: 4 conductor, unshielded, #22 AWG

(0.8 mm) “Telephone quad” or #18 AWG (1.0 mm) quad wiring can be home-run or daisy- chained.

NOTE: No more than 2 keypads (#22 AWG) or 3 keypads (#18

AWG) are recommended on any 1000 foot (305 m) run.

NOTE: Shared cable is not recommended for keypad, multiplex,

options bus, telephone, or siren wiring.

1.13 Multiplex Bus Wiring Requirements

NOTE: Do not use twisted-pair or shielded cable. Do not share

cable with the keypad lines.

• #22 AWG (0.8 mm). Up to 2000 feet (610 m) per system.

• #18 AWG (1.0 mm). Up to 5000 feet (1525 m) per system.

1.13.1 Multiplex Zone Loop Wiring

• Maximum wire length not to exceed 500 feet (150m) regardless of the wire gauge.

1.14 Option Bus Wiring Requirements

• Maximum wire length 1000 feet (305 m) per home-run.

1.15 Max. Load Currents

Max. Load Currents Standby Alarm

UL Installa tions 1.5 A 2.5 A

Maximum Current By Outpu t:

Not to excee d the maximum load currents listed above in Standby or Alarm Aux. Power & Keyp ad (Combine d) 1.0 A 1.0 A Option Power 1.0 A 1.0 A Bell Output X 1.75 A Programmable Output 2 500 mA 500 mA Loop Power + 500 mA 500 mA

1.16 Backup Battery Calculation

• The following table is used to calculate the standby battery capacity required by NFPA when using the DS7400Xi:

Device

Quantity

Standby Current

per Device

Total Standby

Current

(Quantity x Standby Current per Devic e)

Alarm Current

per Device

Total Alarm

Current

(Quantity x Alarm

Current per Devic e)

DS7400Xi (4+) Control Panel 1 175 mA 175 mA 250 mA 250 mA

DS7416i Advanced Radio Communications Module 127 mA 127 mA

DS7412 - RS232 Serial Interface Module 35 mA max. 35 mA max.

DS7420i -Dual Phone Line/Bell Supervision Module 20 mA 140 mA

DS7430 – Multiplex Expansion Module 65 mA 65 mA

DS7432 – 8-Input Remote Module 10 mA 10 mA

DS7433 – 8-Input Direct Module 65 mA 80 mA*

DS7436 – Dual Multiplex Expansion Module 130 mA 130 mA

DS7445/DS7445i Keypad 75 mA 75 mA

DS7447/ DS7447E Keypad 100 mA 100 mA

DS7448 Keypad 80 mA 100 mA

DS7450, DS7452, DS7455 Contact Points

DS7457 – Single Zone Multiplex Input Module

350 μA 350 μA

DS7460 – Dual Zone Module 1 mA 1 mA

DS7465 – Input/Output Module 1 mA 1 mA

DS7480 – Bell Supervision Module 7 mA 50 mA

DS7481 – Single Phone Line Monitor 20 mA 20 mA

DS7488 – Octal Relay Module** 10 mA + 40 mA** 10 mA + 40 mA**

DS7489 – Solid State Output Module 10 mA 750 mA max.***

MX280 Series Multiplex Smoke Detectors

MX540 (DS7473) PIR D etector

500 μA 800 μA

560 μA 800 μA

MX835 TriTech® PIR/Microwave Detector 6 mA 35 mA

MX775 (DS7470) PIR D etector MX794 (DS7474) PIR D etector MX934 (DS7471) PIR D etector MX938 (DS7472) PIR D etector

200 μA 800 μA 200 μA 200 μA

MX950 (DS7476) TriTech® PIR/Microwave Detector 6 mA 35 mA

RF3222 Wireless Receivers 30 mA 30 mA

2-Wire Smoke Detectors 4-Wire Smoke Detectors

Bells, Horns, etc.

Other Sensors

Other

Grand Total

* = Add 15 mA for each additional zone in alarm. ** = When calculating Standby and Alarm Current for the Octal Relay Module, use 10 mA plus 40 mA for each activated relay. *** = Maximum current draw if using the DS7400Xi Panel power supply. Total of all outputs cannot exceed 750 mA.

1.17 Standby Current Load

• Battery Ah - (20% Storage + 0.375 Ah Alarm)

• The following table is the derated battery divided by hours minus the control standby (175 mA):

Rechargeable

Battery Size

7 Ah 1.0 A 470 mA X X X X X

8 Ah 1.2 A 580 mA X X X X X 14 Ah 1.5 A 1.1 A 270 mA X X X X 15 Ah 1.5 A 1.2 A 300 mA X X X X

17.2 Ah 1.5 A 1.5 A 380 mA 100 mA X X X 21 Ah 1.5 A 1.5 A 500 mA 16 0 mA 100 mA X X 28 Ah 1.5 A 1.5 A 740 mA 28 0 mA 190 mA 130 mA 100 mA 30 Ah 1.5 A 1.5 A 800 mA 31 0 mA 210 mA 150 mA 120 mA 35 Ah 1.5 A 1.5 A 970 mA 40 0 mA 280 mA 200 mA 170 mA

Max. Standby

for 4 hours

Max. Standby

for 8 hours

Max. Standby

for 24 hours

Max. S tandby

for 48 hours

Max. Standby

for 60 hours

Max. Standby

for 72 hour s

Max. Standby

for 80 hours

1.18 Options

• DS7412: RS232 Serial Interface module. The DS7412 module allows the panel to send event information, in an ASCII format, directly to a serial printer or computer. In addition, the interface allows the direct connection of a computer to the panel for programming via the WDSRP programming software.

• Current Draw= 25 mA; 35 mA with LEDs on.

• DS7416i: Advanced Radio Communications Module provides a means of communicating alarm and supervision signals using the Motient radio network. This can

be a replacement for, or a complement to, the standard digital communicator.

• Current draw = 127 mA Standby and Alarm.

• DS7420i: Dual Phone Line/Bell Supervision Module (1 per system). The DS7420i allows the control to be used in NFPA 72 installations. It provides two supervised 12.0 VDC signaling outputs, one Class A (Style D) input zone, and dual phone line transmission and supervision.

• Current Draw = 20 mA Standby; 140 mA Alarm.

• DS7430: Multiplex Expansion Module (1 per system). The DS7430 provides a two-wire multiplex bus for the connection of additional remote zones. It also supplies up to 200 mA for 4-wire multiplex devices such as the DS7432.

• Current Draw = 65 mA, Standby; 65 mA, Alarm.

• DS7432: 8-Input Remote Module (up to 30 per system. Requires a DS7430 or DS7436 Multiplex Expansion Module). The DS7432 provides a means of monitoring conventional Normally Open or Normally Closed contacts. It reports their status to the control panel as multiplex addresses. It occupies eight multiplex zones on the system and can monitor up to eight separate loops. It will support 4-wire smoke detectors.

• Current Draw = 10 mA; Standby. 10 mA, Alarm.

• DS7433: 8-Input Direct Module (1 per system. Can not be used with the DS7430 or DS7436 Multiplex Expansion Modules). The DS7433 provides a means of expanding the system to include eight additional hard-wired zones. Each zone can support up to twenty 2-wire smoke detectors (can also support 4-wire smoke detectors).

• Current Draw = 65 mA, Standby; 80 mA, Alarm.

Add 15 mA for each additional zone in alarm.

• DS7436: Multiplex Expansion Module. (1 per system.) The DS7436 provides two two-wire multiplex buses for the connection of up to 120 remote points. It also supplies 200 mA per bus.

• Current Draw = 130 mA, Standby or Alarm.

• DS7445/DS7445i: Control Station. (15 Keypads max. per system). The DS7445/DS7445i is an LED keypad which has LEDs representing the first 8 zones of the system. It displays information on various control panel functions. A built in sounder is used as an interior warning device and to annunciate keystroke entries.

• Current Draw = 75 mA, Standby; 75 mA, Alarm.

• DS7447/DS7447E: Control Station. (15 Keypads max. per system) The DS7447/DS7447E is an Alpha-Numeric LCD keypad. It displays information on various control panel functions. A built-in sounder is used as an interior warning device and to annunciate keystroke entries.

• Current Draw = 100 mA, Standby; 100 mA, Alarm.

• Keypad Access Output: The DS7447/DS7447E Alpha Keypad will provide a ten (10) second access relay output if equipped with the optional K800 Relay. The relay will energize at the keypad if the user has a master, unlimited, general, or access PIN. The output will change only if the user has access to the partition assigned to the keypad. See the DS7445/DS7447

Keypad Installation Instructions (P/N: 22235) or the DS7445/DS7445i/DS7447E Installation Instructions (P/N: 4998138630) for wiring information.

• DS7448: Control Station. (15 Keypads max. per system) The DS7448 is a four-wire LCD annunciator keypad. It has a Silence key and a Reset key used for controlling annunciator and control panel operation, a Keylock Switch that can be used to lock out the annunciator to prevent unwanted silencing or resetting of the control panel, and a two-line, 16-character Display capable of showing all messages normally displayed on a DS7447/ DS7447E keypad.

• Current Draw = 80 mA, Standby; 100 mA, Alarm

• DS7450: Flush Mount Single Multiplex Contact Point (requires a DS7430 Multiplex Expansion Module). The DS7450 is intended as a replacement for conventional dry contacts, and to report an actual multiplex address to the control panel. Occupies 1 zone.

• Current Draw = 350 μA, Standby; 350 μA, Alarm.

• DS7452: Surface Mount Single Multiplex Contact Point (requires a DS7430 Multiplex Expansion Module). The DS7452 is intended as a replacement for conventional dry contacts, and to report an actual multiplex address to the control panel. Occupies 1 zone.

• Current Draw = 350 μA, Standby; 350 μA, Alarm.

• DS7455: Surface Mount Single Multiplex Contact Point (requires a DS7430 Multiplex Expansion Module). The DS7455 is intended as a replacement for conventional dry contacts, and to report an actual multiplex address to the control panel. Occupies 1 zone.

• Current Draw = 350 µA, Standby; 350 µA, Alarm.

• DS7457: Single Zone Multiplex Input Module (requires a DS7430 Multiplex Expansion Module). The DS7457 provides a means of monitoring conventionally Normally Open or Normally Closed contacts. It reports their status to the control panel as multiplex addresses. It occupies one multiplex zone on the system and can monitor one loop. It also includes a tamper loop.

• Current Draw = 350 μA, Standby; 350 μA, Alarm.

• DS7460: Dual Zone Module (up to 60 per system. Requires a DS7430 Multiplex Expansion Module). The DS7460 provides a means of monitoring conventional Normally Open or Normally Closed contacts. It reports their status to the control panel as multiplex addresses. It occupies two multiplex zones on the system and can monitor up to two separate loops.

• Current Draw = 1 mA, Standby; 1 mA, Alarm.

• DS7465: Input/Output Module (up to 60 per system. Requires a DS7430 Multiplex Expansion Module). The DS7465 provides a Form “C” relay that may be programmed to activate on system events, and an input loop to monitor conventional Normally Open or Normally Closed contacts. It reports their status to the control panel as multiplex addresses.

• Current Draw = 1 mA Standby; 1 mA with relay

energized.

• Occupies 2 zones.

• DS7480: Bell Supervision Module (1 per system). The DS7480 provides a means of monitoring bells. It provides a supervised (polarity reversing) output relay to activate the bell. It also provides a Form “C” Bell Fault Output to be connected to the control panel.

• Current Draw = 7 mA @ 12 VDC, Standby; 50 mA

@ 12 VDC, Alarm.

• DS7481: Single Phone Line Monitor (1 per system). The DS7481 provides a means of monitoring a single phone line for fault conditions. When a fault is detected, the DS7481 automatically closes its Normally Open relay contacts to provide a means of signaling the fault.

• Current Draw = 20 mA, Standby; 20 mA, Alarm.

• DS7488: Octal Relay Module (2 per system). The DS7488 provides 8 Form “C” relay outputs for addition to the system. The outputs are fully programmable and can be activated by system events. Each output operates individually of the other 7 outputs for complete flexibility.

• Current Draw = 10 mA + 40 mA for each relay

when energized.

• DS7489: Solid State Output Module (2 per system). The DS7489 is a Solid State Octal Driver Module that provides 8 open collector transistor outputs. The outputs are fully programmable and can be activated by system events. Each output operates individually of the other 7 outputs for complete flexibility. The DS7489 Module has not been investigated by Underwriters Laboratories, Inc.

• Current Draw = 10mA.

• Outputs: Provides a current sink (the output shorts

to common (-) when activated). The maximum current draw for all 8 outputs combined cannot exceed 750 mA.

• DS9484: The DS9484 is a Remote Notification Appliance Circuit (NAC) Power Supply designed to add four additional NACs (NFPA 72 Class B, Style Y) to a Fire Alarm Control Panel (FACP). When connected to the Options Bus of the DS7400Xi, it can provide intelligent control of its individual outputs. It supplies 6 A of NAC power through four circuits to drive horn strobe loads. It is UL Listed as a fire accessory for use in Commercial fire applications and as a continuous-load power supply for auxiliary devices.

• Current Draw = 150 mA, Standby; 6 A maximum, Alarm

• MX280: Multiplexed Photoelectric Smoke Detector (up to 120 detectors may be used per system. Requires a DS7430 and occupies one multiplex zone). Detects smoke and automatically determines the detector’s sensitivity using the Detection Systems “Chamber Check” feature.

• Current Draw = 500 μA, Standby; 560 μA, Alarm.

• MX280TH: Multiplexed Photoelectric Smoke Detector with a 135°F heat sensor (up to 120 detectors may be used per system. Requires a DS7430 and occupies one multiplex zone). Detects smoke and is equiped with a 135°F heat sensor for high temperature alarms. The Detection Systems “Chamber Check” feature automatically determines the detector’s sensitivity.

• Current Draw = 500 μA, Standby; 560 μA, Alarm.

• MX280THL: Multiplexed Photoelectric Smoke Detector with a 135°F heat sensor and a 45°F freeze alarm (up to 60 detectors may be used per system. Requires a DS7430 and occupies two multiplex zones). Detects smoke and is equiped with a 135°F heat sensor for high temperature alarms and a 45°F sensor for freeze alarms. Freeze alarms are reported separately from smoke and high temperature alarms. The Detection Systems “Chamber Check” feature automatically determines the detector’s sensitivity.

• Current Draw = 500 μA, Standby; 560 μA, Alarm.

• MX540: Multiplexed Passive Infrared (PIR) Intrusion Detector (DS7473) with a standard range of 40 by 50 feet (12 by 15 meters). Requires a DS7430 and occupies one multiplex zone.

• Current Draw = 200 μA, Standby; 2 mA, Alarm.

• MX835 TriTech Microwave/PIR Intrusion Detector with “Pet

Avoidance” technology and a standard range of 35 by 35 feet (10.7m by 10.7 m). Requires a DS7430 and occupies one multiplex zone.

• Current Draw = 6 mA, Standby; 35 mA in “Trouble” and Walk Test mode.

• MX775 Multiplex Passive Infrared (PIR) Intrusion Detector with (DS7470) a standard range of 50 by 50 feet (15 m by 15 m). Requires a DS7430 and occupies one multiplex zone.

• Current Draw = 200 μA, Standby; 2 mA in Walk

Test mode.

• MX794 The MX794 is a Long Range Multiplex PIR intrusion (DS7474) Detector with Self-test. The standard ranges are 80 ft. by 50 ft. (24.0 m by 15.0 m) and 200 ft. by 10 ft. (61.0 m by 3.1 m). Requires a DS7430 and occupies one multiplex zone.

• Current Draw = 800 μA, Standby; 2 mA, Alarm.

• MX934 Multiplex Passive Infrared (PIR) intrusion detector with (DS7471) a standard range of 35 by 35 feet (10.7 m by

10.7 m). Requires a DS7430 and occupies one multiplex zone.

• Current Draw = 200 μA, Standby; 2 mA in Walk

Test mode.

• MX938 360° Ceiling Mount Multiplex PIR Intrusion Detector (DS7472) with a 60 foot (18.3 m) diameter range. Requires a DS7430 and occupies one multiplex zone.

• Current Draw = 200 μA, Standby; 2.5 mA in Walk

Test mode.

• MX950 Multiplex TriTech Microwave/PIR Intrusion Detector (DS7476) with motion monitor and antimask features and with a standard range of 50 by 50 feet (15 m by 15 m). Requires a DS7430 and occupies one multiplex zone.

• Current Draw = 6 mA, Standby; 35 mA in “Trouble”

and Walk Test mode.

• RF3222: 120-zone Wireless Receiver. (up to two receivers

per system. Requires use of a DS7430 or DS7436 Multiplex Expansion Module.) See the DS7400Xi (4+) Wireless Reference Guide (P/N: 44575) for more information.

• Current Draw = 30 mA

The control/communicator is also available in three package formats. The packages include the following:

• DS7400XiF: DS7400Xi in large red enclosure manufactured

from 18 Guage (1.2 mm), cold-rolled steel, measuring 15.0 by 20.75 by 4.25 inch (38.1 by 52.7 by 10.8 cm) (HxWxD).

• DS7400XiFCP: DS7400XiF package with: DS7420i, DS7447/

DS7447E and a AE-TR16

• DS7400XiCC: DS7400Xi in an Attack Enclosure.

2.0 Enclosure Installation

The DS7400Xi control/communicator and the enclosure are shipped together. The control, however, still needs to be installed into the enclosure. Hardware for mounting the enclosure to a wall, and the control to the enclosure is located in its own hardware pack.

2.1 Install the Enclosure

• Use the enclosure as a template and mark the top mounting holes on the mounting surface.

• Pre-start the mounting screws for these two holes. Slide the enclosure onto these mounting screws so that the screws move up into the thinner section of the holes. Tighten the screws.

• Screw in the remaining two screws in either set of bottom mounting holes.

• Knock out the desired wire entrances on the enclosure.

2.2 Install the Control/Communicator

The control is static sensitive. Make sure you touch earth ground before handling the control. This will discharge any static electricity in your body. Example: Run the ground wire to the enclosure before handling the control. Then keep holding the ground wire while installing the control.

• Insert the three support posts into the control retainer holes as shown in the diagram.

• Slide the top of the control into the retainer tabs (the slots under the top frame).

• Once in the retainer tabs, the control will rest on the three support posts.

• Secure the bottom of the enclosure by screwing the bottom three holes through the support posts and through to the control retainer holes.

Once the control is installed, be sure to connect its ground wire to the top hinge of the enclosure (the unpainted tab).

When installing a UL Listed system, refer to Section 1 1.0, Installation Guide for UL Listed Systems.

t f

Wiring

he Battery Terminals and Wires are NOT Power Lim ited.

A ¼ in. (6.4 m m) spacing must be maintained between he battery terminals, battery wiring and all other wiring. Battery wirin g m ay not share the same conduit, conduit ittings or conduit knock-outs with other wiring.

Option or Keypad Wires

¼ in. (6.4 mm) Minimum

Battery Wir es

Output or Zone Wires

To ensure proper spacing secure wires using Tie-Wraps or similar device s

Only required if external batteries are used

3.0 Control Terminal Wiring

Before servicing, remove all power including the transformer, battery and phone line. A complete functional test

WARNING

CAUTION

1 2 3 4 5 6

is required after any programming.

Incorrect connections may result in damage to the unit.

System is Power Limited except for battery t erm inals. All wiring entering this enclosure must be power limited.

A/C Power Indica tion LED

EARTH GROUND:

a good earth ground such as a cold water pipe and also connected to the cabinet cover, using the supplied wire jumper.

A/C INPUT: Use U. L. listed, 18 VAC 50

VA, class 2 transformer. Model TR-1850 requires 50/60 Hz. unswitched dedicated

outlet - do not share.

ALARM O UTPUT:

–

Provides 12 VDC, spec ial application, up to

1.75 A for powering bells, siren drivers, etc.

Function programmed in address 2734.

Must be connected to

–+AUXILIARY POWER:

Provides 12 VDC, spec ial application, up to

1.0 A for powering detectors.

OPTION BUS:

Used for options such as the DS7416i

Communications Module, the DS7420i Dual

Phone Line Module, etc.

Also for keypads #11 - #15. For Commercial Fire Mode: Option Bus wiring should be in conduit if run ouside the enclosure.

KEYPAD BUS*:

Up to 15 keypads** may be used. Can be “home-run” or

“daisy-chained.”

PHONE LIN E:

TTHRHR

RBGYGBSR

TYPICAL BURGLAR AND FIRE WIRING

Loop +Zone

Input

Z– L+

Typical burglar

alarm loop wiring

Loop +Zone

Input

Z– L+

Typical 2-wire

smoke detector

wiring

(for a list of compatible 2-wire smoke detectors,

see Technical Service

Note P/N 27685)

Zone

or PO2

Input

Z– L+

in out

Super v is io n Re la y

(e.g. Detec tio n Sys tems’

Typical 4-wire smoke

detector wiring.

For example:

Detection Systems’

DS250 in an MB4W base.

Power

Alarm

Power

Alarm

End-of-Line

EOL200)

–

Aux. Power (—) (terminal 5 or 7)

–

Loop +

An appropriate two pole disconnect device must be installed by qualified service personnel, as part of the building installation.

CAUTION

Danger of explosion if battery is incorrectly replaced.

Replace with the same or equivalent type

CAUTION

recommended by th e manufacturer.

Dispose of used batteries according to the

manufacturer's instructions.

PROGRAMMABLE OUTPUTS:

PO1 shorts to aux. power negative when activ ated, PO1 can sink up to 1.0 A. PO1 function programmed in address 2735.

PO2 supplies 12 V and up to 500 mA when activated. PO2 function programmed in address 2736.

ZONES 1-8: Zones 1-8 are intended for connection of Normally

Open or Normally Closed alarm contacts. They may also be used for compatible 2-wire smoke detectors. These zones require a

2.21kΩ resistor (P/N 25899) at the end of the loop. Power is momentarily removed from L+ after a [PIN] + [System Reset] or during a fire verification. Zone 1-8 assignments are programmed in address 0031-0038.

PO1 PO2

1–

L+

2– 3– 5– 6– 7– 8–4–

L+ L+ L+

9 10 1 12 13 14 15 16

Keypad

(#1 - #10)

Keypad

(#1 - #10)

* = Maximum wire length each: 1000 ft. (305 m).

Maximum wire length total in system: 6000 ft. (1830 m) when using #22 AWG (0.8 mm) or #18 AWG (1.0 mm) cable.

** = Keypads #1 - #10 connect to the Keypad Bus and keypads #11 - #15

connect to the Option Bus.

NOTE

17 18 19 20 21 22 23 24 25 26 27 28 29 30

Shared cable is not recommended for keypad, multiplex, options bus, telephone, or siren wiring.

4.0 Hardware Layout Example

DS7416i Communications Module

Keypads #11 - #15 must be connected to the Options Bus. Keypads #1 - #10 must

be connected to the Keypad Bus .

Armed Statu s Power Fire

1 23

456 789

1 23 456

789

1 23

456 789

1 23 456

789

Off

Perimeter

Only

Entry

Bypass

System Reset

Off

Perimeter

Only

Entry

Bypass

System Reset

Off

Perimeter

Only

Entry

Bypass

System Reset

Off

Perimeter

Only

Entry

Bypass

System Reset

DS7447/DS7447E and DS7445/DS7445i

Keypads

Armed Status Power Fire

Armed

Statu s

Status

Power

Fire

Armed

Status

Statu s Power

Power

Fire

Armed

Statu s

Status

Power

Fire

1 23

456 789

Perim eter

Peri meter

Supervis ory

Supervisory

Bell Silenced

Trouble

1 23

456

456 789

789

Peri meter

Perim eter

Supervisory

Supervis ory Bell Silenced

Bell Silenced

Trouble

1 23

1 23 456

456 789

789

Perim eter

Peri meter

Supervis ory

Supervisory

Bell Silenced

Trouble

1 23

1 23 456

456 789

789

123456 78

1234567 8 910111213

TEST WEEKLY

1234567 8

123456 78

910111213141516

TEST WEEKLY

123456 78

1234567 8

12 1314 15 16

91011

TEST WEEKLY

0 0

On Off

Perim eter

Only

Entry

Bypas s

Syst em Reset

14 1516

Off

Perimeter

Perim eter Only

Only

No No

Entry

Bypass

System

Syst e m

Rese t

Reset

Off

Perim eter

Perimeter

Only

No No

Entry

Bypass

Syst e m

System

Reset

Rese t

Off

Perimeter

Perim eter Only

Only

No No Entry Entry

Bypass

System

Syst e m

Rese t

Reset

Note :

R B G Y

DS7430

+–+–

Power Bus

DS7400Xi

Option

Bus

Battery

–

Bell Output

–

Auxiliary

Output

–

DS7420i Dual Phone

Line/Be ll Supervision

RTRT TTRR TRTR

–+––

1 121 314 1516 1718 1920 2122 2324 2526 2728

Module

DS7488 Octal

Relay Board

Battery Battery

Ensure at least 1/4" separation

between battery wires and all other cabling.

+–+

–

12345678

POWER BUS

+–+

–

12345678

POWER BUS

+–+

–

1234567 8

POWER BUS

+–+–

1234567 8

POWER BUS

DS7432 8-Input

Remote Modules

Dry contact inputs

1234

BUS

123

47kΩ

EOL

DS7450/ 52 Se ri es Co nt act s , DS74 60 In pu t Mod ule

DS7465 Input/Output Modules, MX540, MX775,

MX794, MX835, MX934, MX938, and MX950 mo tio

detectors and MX280 Series Smoke Detectors

RF3222 120-Zone

Wireless Receivers

Wireless Senso rs

• Up to 15 keypads may be used. Keypads #1 - #10 connect to the Keypad Bus and keypads #11 - #15 connect to the Option Bus. One keypad must be designated as keypad #1 and connect ed to the Keyp ad Bus. See th e DS7447/DS7447E, D S7445/DS7445i, and D S7448 Installati on I nstructions for f ur t her details.

• A DS7420i (Dual Phone Line/Bell Supervision Module) may be connected to the Control Panel, and placed within the enclosure. Connect to the Options Bus of the control panel. See the DS7420i Installation Instructions for further details.

• Up to 2 DS7488s (Octal Relay Modules) may be connected to the Control Panel, and placed within the enclosure. Connect to the Options Bus of the Control Panel. This provides an additional 8 Form “C” relay outputs for the Control Panel. See the DS7488 Installation Instruct ions for further detai ls .

• A DS7430 or a DS7436 (Multiplex Expansion Module) may be connected to the control panel via the expansion port. This will allow for th e connection of additional zones via the Options Bus. See t he D S7430 or DS7436 Installation Instructions fo r furthe r details.

• Up to 30 DS74 32s (8-Input Remote Modules) may be connected to the DS 7430 or DS7436. Connect to the Power and Bus Terminals of the Multiplex Expansion Module. This allows for a means of addressing up to 240 input loops of conventional contacts t o the Control Panel. See the DS7432 Instal lat ion Instruct ion s for further details.

• Up to 2 RF3222 (120-Zone Wireless Receivers) may be connected to the DS7430 or DS7436. Connect to the Power and Bus terminals of the Multiplex Expansion Module. This allows for the monitoring of wireless detectors.

• A DS7416i Advanced Radio Co mmunications Module may be connected to the Control Panel via the Options Bus. This allows for connection to a radio network.

• Up to 248 zones are available for the connecti on of Sing le, Multiple , Input/ Ou tput, and Multiplex devices. Up to 112 wireless zones (137-248) are also available.

5.0 System Worksheet

Account Number Informatio

Name Contact Person Address Voice Phone Number Panel Phone Number City, State, Zip Panel Answers P hone Armed Disarmed

AC Voltage VAC Battery Voltage VDC AUX Current A Battery Standby Ah Bell Current A Control Panel Transformer Telephone Jack Telephone On Same Line as P a nel Earth Ground Co nne ct ion Alarm Sounder (s)

Equipment Locati on and Notes

Misc . Notes

____________________________________________________________________________________ ____________________________________________________________________________________ ____________________________________________________________________________________ ____________________________________________________________________________________ ____________________________________________________________________________________ ____________________________________________________________________________________ ____________________________________________________________________________________ ____________________________________________________________________________________

Keypad Location and Notes

Location Belongs Master/

Keypad # 1 Kitchen 2 Master

Location Belongs Master/ Location Belongs Master/

to Partition Standard to Partition Standard

Keypad # 1 Keypad # 9 Keypad # 2 Keypad # 10 Keypad # 3 Keypad # 11

Example

to Partition Standard

Keypad # 4 Keypad # 12 Keypad # 5 Keypad # 13 Keypad # 6 Keypad # 14 Keypad # 7 Keypad # 15 Keypad # 8

5.0 System Worksheet (continued)

Personal Identification Number Informatio

PIN Worksheet

Example

PIN Information

Us e r Pin # A u th . P a rti- Na me

002 1001 6 1, 2, 4 James L.

Level tions

PIN Information

User Pin # Auth. Parti- Name

Level tions

001 002 003 004 005 006 007 008

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

PIN Information

User Pin # Auth. Parti- Name

Level tions

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

PIN Info r m a tion

User Pin # Auth. Parti- Name

Level tions

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

5.0 System Worksheet (continued)

Personal Identification Number Informatio

PIN Worksheet

PIN Information

User Pin # Auth. Parti- Name

Level tions

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

128 129

130 131 132

PIN Information

User Pin # Auth. Parti- Name

Level tions

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

PIN Information

User Pin # Auth. Parti- Nam

Level tions

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

133 167

5.0 System Worksheet (continued)

Zone Location and Notes Worksheet

Type * Zone/Output Partition & Location Function #

Zone # 1

Zn Funct. 1

Example

Zone Location and Notes

* = SZ: Single Zone Input

MZ: Multiple Zone Input IO: DS7465

(see section 10.3)

2, KitchenSZ

Type * Zone/Outpu t Partition & Location Function #

Zone # 1 Zone # 2 Zone # 3 Zone # 4 Zone # 5 Zone # 6 Zone # 7 Zone # 8 Zone # 9 Zone # 10 Zone # 11 Zone # 12 Zone # 13 Zone # 14

Type * Zone/Output Partition & Locatio Function #

Zone # 31 Zone # 32 Zone # 33 Zone # 34 Zone # 35 Zone # 36 Zone # 37 Zone # 38 Zone # 39 Zone # 40 Zone # 41 Zone # 42 Zone # 43

Zone # 44 Zone # 15 Zone # 16 Zone # 17 Zone # 18 Zone # 19 Zone # 20 Zone # 21 Zone # 22 Zone # 23 Zone # 24 Zone # 25 Zone # 26 Zone # 27 Zone # 28 Zone # 29 Zone # 30

Zone # 45

Zone # 46

Zone # 47

Zone # 48

Zone # 49

Zone # 50

Zone # 51

Zone # 52

Zone # 53

Zone # 54

Zone # 55

Zone # 56

Zone # 57

Zone # 58

Zone # 59

Zone # 60

5.0 System Worksheet (continued)

Zone Location and Notes Worksheet

6.0 Glossary

6.1 General Control Programming

• Normal Arming - [PIN] + [On]: If programmed, arms the entire

system while allowing entry delays for entry/exit zones.

• Perimeter Instant Arming - [PIN] + [No Entry] [Perimeter Only]: If programmed, arms only the perimeter of the system and does not allow entry delays for entry/exit zones.

• Perimeter Arming - [PIN] + [Perimeter Only]: If programmed, arms only the perimeter of the system while allowing entry delays for entry/exit zones.

• Custom Arming - [PIN] + [#] [4]: If programmed, allows custom arming of the system and bypasses the zone functions specified in data addresses 2725-2728.

• Maximum Security Arming - [PIN] + [No Entry] [On]: If programmed, arms the entire system and does not allow an entry delay for entry/exit zones.

• General Authority by Partition

A general (level 2) authority can be programmed to have armonly authority; arm and bypass authority; arm and disarm authority; or arm, disarm, and bypass authority by partition. This is done at addresses 3421-3424.

- Arm-only access by partition allows someone with a General

Authority to arm zones in a partition he can not disarm.

- This level can still be used to arm, disarm, and bypass zones

in the other partitions that it has access to.

• Closing Ring-Back: If programmed, the keypad sounders and Bell will activate for 2 seconds after the system is armed and the closing report is successfully sent. This requires Closing RingBack and Closing Report to be programmed.

- If a closing report is not programmed, the control will test for a

dial tone when the system is armed. If the test passes, the system will arm normally. If the test fails, the system will arm, but will indicate a trouble condition.

- The DS7447/DS7447E keypad will display “Communication

Err” after [#] [8] [7] is entered.

• Siren on Comm. Fail for Silent Zone: If programmed, a silent zone will sound the alarm outputs if the zone is in an alarm condition and the system fails to communicate with the central station.

• Restore when Sounders Silence: If programmed, a zone sends a restoral report and is ready to activate again only after the burglary bell cut-off time expires or the bells are silenced.

- The zone can alarm multiple times per armed period.

• Restore when Zone Restores: If programmed, a zone sends a restoral report and is ready to activate again as soon as it physically restores.

- This zone can alarm multiple times per armed period.

• Restore when System Disarms: If programmed, a zone sends a restoral report when the system is disarmed.

- It can only alarm once per armed period.

• Allow Swinger Shunts: If programmed, a zone can only alarm or trouble up to three times per armed period. After the third alarm or trouble, the zone will be bypassed and a bypass report will be sent.

NOTE: Swinger Shunts are not allowed on UL Certificated

Installations.

6.2 Zone Function Programming

• Zone Function

A Zone Function is the description of how a particular zone will behave (e.g. steady alarm output, bypassing allowed, alarm on short, trouble on open, perimeter instant).

- There are many possible zone functions. Up to 30 different zone functions are allowed per control.

- Zone functions may be custom made as needed.

- Each zone must be programmed as a specific zone function. Any number and combination of zones may be programmed as particular zone functions.

- Program zone functions at addresses 0001-0030.

• Invisible Alarms : This is a zone programmed not to have an alarm output or an alarm display at any keypad when activated. An alarm signal will be sent, but the DS7447/DS7447E keypad display will read “Not Ready” while this zone is violated.

- Invisible Alarm zones are recommended for holdup alarms.

• Silent Alarms: This is a zone programmed to activate the visual display at the keypad, but not audible signals.

- If this zone is also an entry zone, an entry tone will sound when

this zone is activated.

• Bypassing Allowed: This is a zone programmed to allow bypassing (shunting). This is done using the bypass command or the force-arming sequence.

• Alarm on Short: This is a zone programmed to activate an alarm when its loop is shorted.

• Alarm on Open : This is a zone programmed to activate an alarm when its loop is opened.

• Trouble on Open: This is a zone programmed to activate a trouble when its loop is opened and the system is disarmed.

- If the system is armed, this zone will activate an alarm if shorted

or opened.

- For 24-hour zones, regardless of the arming state of the panel,

this always remains as a Trouble on Open.

• Trouble on Short: This is a zone programmed to activate a trouble when its loop is shorted and the system is disarmed.

- If the system is armed, this zone will activate an alarm if shorted

or opened.

- For 24-hour zones, regardless of the arming state of the panel,

this always remains as a Trouble on Short.

• Interior Delayed : This is a zone programmed to be ignored during the entry/exit delay period. If it is violated when the system is armed, it will activate a delay for the programmed entry delay time. The keypad pre-alert sounders will activate and the system may be disarmed during this delay period. If the system is not disarmed during this delay period, this zone will activate an alarm. This zone is bypassed by Perimeter Instant or Perimeter Armed.

• Perimeter Instant : This is a zone programmed to activate an alarm even during the entry/exit delay period.

• 24-Hour: This is a zone programmed to activate when its loop is faulted, even if the system is disarmed.

• Entry/Exit Delay #1: This is a zone programmed to be ignored during the entry/exit delay period.

- If it is violated while the system is armed, it will activate a delay

for the amount of time programmed for entry delay time #1 (address 4028). The keypad pre-alert sounders will activate and the system may be disarmed during this delay period.

- If the system is not disarmed during the entry period, this zone

will activate an alarm.

• Entry/Exit Delay #2: This is a zone programmed to behave identical to the Entry/Exit Delay #1 zone function except that it uses entry delay time #2 (address 4029).

NOTE: If both entry delays have been activated, the control will

use the shorter entry delay.

• Entry/Exit Delay Cancel Zone Functions

Entry/Exit Delay Cancel 1 and Entry/Exit Delay Cancel 2 Zone Functions cause the exit delay to expire as soon as the premises is vacated.

- If a zone is programmed as an Entry/Exit Delay Cancel zone,

and it is activated during the exit delay , the exit delay will expire as soon as the zone has been restored.

- Entry/Exit Delay Cancel 1 follows entry delay 1.

- Entry/Exit Delay Cancel 2 follows entry delay 2.

• Interior Entry/Exit Follower: This is a zone programmed to be ignored during an entry/exit delay and then become an interior instant zone.

- If this zone is violated while the system is armed and no entry/

exit zones have been violated, it will activate an alarm.

- If this zone is violated after an entry/exit delay zone is violated,

it will follow that entry/exit delay time.

- This zone is bypassed by Perimeter Instant or Perimeter

arming.

• Interior Home/Away: This is a zone programmed to become an interior instant zone if the system is armed and an entry/exit delay zone is violated during the exit delay time.

- If the system is armed and an entry/exit delay zone is not

violated, this zone will be bypassed.

- This zone is bypassed by Perimeter Instant or Perimeter

arming.

• Interior Instant: This is a zone programmed to activate an alarm even during the entry/exit delay periods.

- It is bypassed by Perimeter Instant or Perimeter arming.

• Day Monitor: This is a zone programmed to be a perimeter instant zone when the system is armed.

- When the system is disarmed, any violation of this zone will

activate the keypad sounders which will sound continuously until a disarm command sequence is entered.

- The alarm outputs for this zone will not activate and there will

be no report for this zone when the system is disarmed.

• Keyswitch Input: This is a zone programmed to allow the system to be armed or disarmed using a Normally Open momentary keyswitch.

- Outputs for keyswitch LEDs and sounders are available using

the programmable outputs or the Octal relay outputs.

- An output is needed for each LED and sounder.

- A keyswitch will only control the partition that these zones are

assigned to unless programmed as a master, then it will control all at once. See Program Address 0001, Data Digit 1.

- Keyswitches and keypads may be used in the same partition,

if desired.

• Fire Zone: This is a zone programmed to activate if the system is armed or disarmed.

- It can be silenced (not reset) by entering a valid [PIN] + [Off].

- The display will indicate a Fire Alarm for this zone on all

keypads in every partition.

- A fire reset command must be entered after silencing the

alarm to re-enable this zone.

- If this zone is programmed for trouble and the loop opens, the

DS7447/DS7447E keypad will display “Fire Trouble” for this zone and the keypad sounders will beep once every ten

seconds.

- If the system is a combination fire and burglar alarm, the fire alarm has priority over the burglar alarm.

• Fire Zone with V erification: This zone is identical to a Fire Zone except that after the first alarm, it will perform a fire reset and then wait up to two minutes for a second alarm.

- If a second alarm occurs within this two minute period, the

system will indicate a fire alarm.

- If there is no second alarm within this two minute period, the

control panel will reset back to its normal condition.

NOTE: Use of this control’s alarm verification feature is not per-

mitted for applications in the state of California.

• Water Flow Zone: This is a zone programmed to operate like a Fire Zone, but is specifically intended for water flow switches.

- An optional retard timer can be programmed to compensate

for changes in water pressure. If the timer is used, the water flow zone must be activated for the complete time period; an alarm will be initiated at the end of the timer period.

- The maximum combined water flow delay of the control panel

and the device must not exceed two minutes.

NOTE: Any zone can be a water flow zone, but only zones 1

through 4 may be programmed as delayed water flow zones.

• Supervisory Zone: This is a zone programmed to accommodate shut-off valves.

- It will indicate a supervisory condition at the keypads when

activated.

6.3 Zone Programming

• Zone

A Zone is an input to the DS7400Xi Control/Communicator.

- There are 8 hardwired zones on the main circuit board.

- Additional zones may be added by using the DS7433 (8 zone

expansion module), the DS7430 (multiplex loop module), and/ or other modules.

• Single Zone Input : This is an individual zone such as the onboard zones and multiplex contact zones.

• Multiple Zone Input : This is a zone connected to one of the 8Input Modules (DS7432 or DS7433) or to a Dual Zone Module (DS7460).

- The inputs are programmed separately (see the separate

Programming Addresses Worksheet, P/N: 29802).

- When using the Dual Zone Module (DS7460), loop A is always

programmed as an odd numbered program address (ending in 1, 3, 5, 7, or 9). Loop B is the even numbered program address that follows loop A.

• DS7465: This is the input zone or the output relay on a DS7465. The odd numbered zone is programmed for the input zone function and the even numbered zone is programmed for the output function.

• Multiplex Smoke: This is a multiplexed input zone (zones 9-

248) that is used with a MX280 series smoke detector. This zone must have a Zone Function of Fire Zone and Trouble on Open applied to the multiplex smoke zone.

• Multiplex Smoke with Low Temperature: This zone is used with the MX280 series smoke detectors with a low temperature alarm. Making this selection requires the programming of two zones as follows:

- Smoke alarm. This must be the odd numbered zone of the zone pair required for these devices. The zone must be programmed with a zone function that is set for Fire Zone and Trouble on Open.

- Low Temperature Alarm. This must be the even numbered zone of the zone pair required for these devices. This zone must be programmed with a zone function that is set as Supervisory and Trouble on Open.

6.4 Output Programming

• Latch on Any Zone Alarm: This is an output programmed to activate upon any zone alarm (including invisible zones) and will latch until the system has been disarmed.

- If this output is programmed to respond only to a fire zone, it

will remain latched until the fire reset command is performed.

• ON during Entry Pre-Alert: This is an output programmed to activate when an entry/exit zone is violated while the system is armed.

- It will remain activated until the system is disarmed, or until

the entry delay time has expired.

• ON for 10 seconds after [PIN] + [System Reset] is entered: This is an output programmed to activate for 10 seconds after the fire reset command is entered at the keypad or if a Fire Zone with Verification activates.

- This output is intended to be used to power 4-wire smoke

detectors or any other device that requires a power interruption to reset an alarm condition.

NOTE: When Programmable Output 2 is programmed this way,

it will normally supply auxiliary power and will turn OFF for 10 seconds when the fire reset command is entered.

• ON when System is Armed: This is an output programmed to activate when the system is armed.

- It will remain activated until the system is disarmed.

• Ground Start: This is an output programmed to activate for 3 seconds when the phone line is seized. It is intended for use with ground start phone systems that require a momentary short to ground to obtain a dial tone.

- Connect a separate 12 VDC, DPDT relay.

- Connect both relay contact commons to ground, and connect

the Normally Open of each contact to terminal positions 13 and 16 (one to terminal 13, the other to 16) of the DS7400Xi.

- This output follows all partitions regardless of how data digit 2

of the output programming address is programmed.

- Not intended for UL Listed systems. Not for use with phone

line monitors.

• System Status (ready to arm): This is an output programmed to follow the Status LED of the keypad.

- It will activate when the system is ready to arm with no zones

violated.

• Zone Alarm: This is an output programmed to activate when a zone is in an alarm condition.

- It will remain activated until the system is disarmed or the bell

cut-off time expires.

- This output is intended to activate alarm bells and sirens.

- This will not activate from Silent or Invisible Zones.

• Zone Alarm Delayed by 20 sec.: This is an output programmed to wait 20 seconds after a zone enters an alarm condition to activate.

- It will remain activated until the system is disarmed or the bell

cut-off time expires.

- This output is intended to activate alarm bells and sirens, but provides a delay to allow the user to silence the system before it activates.

• Output Functions

Output Functions can be programmed to follow system events or to follow one or two specific zones in a “cross-matrix” fashion (see Input/Output Cross-Matrixing).

- These Output Functions can be programmed to control Octal Relay outputs or Multiplex Bus outputs.

- Output Functions are programmed in addresses 2772-2843.

• Input/Output Cross Matrixing

Input/Output Cross Matrixing allows Output Functions to follow the status of specific input zones (zones 1 through 248 only).

- Outputs can be programmed to follow any combination of one or two zones, open or closed, with the system armed or disarmed.

- If programmed to latch, the output will latch until a valid PIN is entered at the keypad.

• Keypad Sounder Output: This is an output programmed to follow the keypad sounder.

- It activates during the entry pre-alert and during any day monitor

alarm. It does not follow momentary keypad beeps such as keystrokes, chimes, etc.

• Access Output : This is an output programmed to activate for 10 seconds when an access control PIN is entered at the keypad.

- Not UL Listed for Access Control (UL294).

• Panic/Duress Output : All outputs, including the three on-board

outputs, the Octal Relays, and the Output Functions, support a Panic/Duress function. This output will follow Duress activations, Keypad Emergency Keys B and C, and Invisible and Silent Zone alarms. It will only be reset by a user acknowledgement and will not reset after the burglary bell time-out occurs. Duress activations will latch until acknowledged by a user.

• Multiplex Bus Outputs

The DS7400Xi supports up to 60 DS7465 Input/Output Modules.

- These modules are connected to the multiplex bus and provide

one input loop and one Form “C” output relay.

- The input loop operates the same as all other multiplex inputs.

- The output loop can be programmed to follow Output

Functions.

- Multiplex Bus outputs can be bypassed using the bypass

function. If an output zone is bypassed while it is ON, it will turn OFF. The bypass will not be removed when the system is armed and then disarmed; it must be cancelled by entering the bypass command again or by cancelling all bypasses.

NOTE: DS7465 Module outputs will not pulse, even if programmed

to do so.

• Octal Relay Modules (DS7488)

The DS7400Xi can support two Octal Relay Modules.

- Each relay can be programmed to follow system-wide events

or Output Functions as described above.

• Solid State Output Modules (DS7489)

The DS7400Xi can support two Solid State Output Modules.

- Each output can be programmed to follow system-wide events

or Output Functions as described above.

6.5 Partition Control Programming

• Partition Control Programming: Up to eight partitions may be used. They are assigned (program address 3420) in order.

- For example: When using only one partition, it is partition one. When using three partitions, they are partitions one, two, and three.

- Partitioning allows the system to act as up to 8 different systems.

- Zones, keypads, outputs, and other items may be assigned to particular partitions.

- Access to partitions may be through each partition’s keypad or through a Master keypad (see the User’s Guide P/N: 43851 for more details).

• Common Area: Partition 1 can be programmed as a common area, that is, common to other partitions. This allows it to be used in an installation with one common entry area such as a foyer or vestibule.

- When Partition 1 is programmed as a common area, it will

only arm when all the partitions it is common to are armed.

- The common area will disarm when any of the partitions it is

common to are disarmed - only if the user has access to the common area.

- When using a common area, a Master keypad should be used

and assigned to the common area (see keypad assignment programming).

Key.

- If programmed, the key will activate a supplementary or an auxiliary type alarm when pressed for 2 seconds.

- It may be programmed for a silent, steady, or pulsed alarm.

• Panic Key: The emergency key (key C) at the bottom right of the keypad entry area is the Panic Key.

- If programmed, the key will activate a panic alarm when

pressed for 2 seconds; nothing will display at the keypad to indicate an alarm.

- It may be programmed for a silent, steady, or pulsed alarm.

NOTE: The Special Emergency Key and the Panic Key will gen-

erate the alarm sounders only in the partition of the keypad that activated that Key.

6.8 Custom Arming Programming

• Custom Arming - [PIN ] + [#] [4]: If programmed, the [PIN] + [#] + [4] command sequence may be used to custom arm the system by arming only certain zone functions.

- For example: All interior zones plus some perimeter zones

may be bypassed while leaving some of the perimeter armed.

6.6 Keypad Assignment Programming

• Keypad Assignment: The keypad type and the partition it is assigned to must be programmed.

- Each program address (3131-3138) programs the keypad

type for two keypads. For example: for address 3131, data digit 1 is for keypad 1, data digit 2 is for keypad 2.

- Each program address (3139-3146) programs the partition

assignment for two keypads. For example: for address 3139, data digit 1is for the partition assignment of keypad 1, data digit 2 is for the partition assignment of keypad 2.

- Users must have access to the partition the keypad is assigned

to in order to use the keypad.

• Master Keypad Programming : A Master keypad can be used to access all the partitions.

- It will display the arm/disarm status of all the partitions and

can be used to individually control each partition (see section

7.6).

- A Master keypad can be assigned to any of the partitions.

- Any number of the 15 allowable keypads can be a Master

keypad.

- When using the common area, it is suggested that a Master

keypad be used and that it is assigned to the common area.

6.7 Emergency Key Programming

NOTE: Do not label these keys if they are unprogrammed. Only

the “A” key may be programmed and labeled as the Fire key. These keys are not intended to substitute for Listed manual pull boxes.

• Fire Key: The emergency key (key A) at the bottom left of the keypad entry area is the Fire Key. If programmed, the key will activate a fire alarm when pressed for 2 seconds.

- It may be programmed for a steady or pulsed alarm.

NOTE: The Fire Key will generate the fire alarm sounders in the

partition that activated the Fire Key. Any other partitions in use will only have their keypad sounders activated. All keypad displays will be the same.

• Special Emergency Key: The emergency key (key B) at the bottom center of the keypad entry area is the Special Emergency

6.9 Force Arming

• Force Arming: If programmed, allows violated zones to be force armed. When force arming, the user must enter the usual arming command followed by the [Bypass] key. This automatically bypasses zones that are violated and programmed as bypassable.

- Fire zones, supervisory zones, keyswitch zones, waterflow

zones, and non-bypassable zones can not be force armed.

- Not available in UL Listed systems.

- See Program Address 2732.

6.10 Ground Fault Detect Programming

• Ground Fault: If programmed, this function will allow the system to detect ground faults. This function is required for fire panels and will be forced on when the panel is in the commercial fire mode.

- See Program Address 2732.

6.11 Commercial Fire Mode Programming

NOTE: In a system that includes both fire alarm and burglar alarm

devices, the system must produce distinct sounds for fire and burglar alarm conditions either by using different indicating appliances or by using distinct cadences for the same appliance.

• Commercial Fire Mode : When in Commercial Fire Mode, the control panel will perform some functions (e.g. communications) differently to conform with commercial fire regulations.

- See Commercial Fire Mode Programming, program address

2733.

• Water Flow Zone Delay: This is the amount of time a water flow zone must be violated before the control panel will initiate an alarm.

- The delay is necessary to accommodate normal changes in

water pressure.

- If the water flow initiating device incorporates its own time

delay, do not program the control panel unit to exceed 120 seconds combined time delay.

• Pulsing Fire Zone: This is a zone programmed to output a pulse for a fire alarm in the normal manner (one second ON, one second OFF).

• California March Time: This is a zone programmed to output a pulse for a fire alarm in the California Time cadence (ten 1/2 second pulses, followed by one second of quiet time).

• T emporal: This is a zone programmed to output a pulse for a fire alarm in the Temporal cadence (three 1/2 second pulses, followed by one second of quiet time).

• Single Keypad Use: The keypad should be used on the keypad bus and be mounted to the front of the control enclosure OR if within the same room as the control equipment with the wire run in conduit (or equivalently protected against mechanical injury) within 20 ft. (6.1 m) of the control equipment.

- This keypad should be assigned as address 1.

• Multiple Keypad Use: One keypad only must be used on the option bus, at any address from 11 - 14, and must meet the following requirements:

- The keypad must be mounted to the front of the control

enclosure OR mounted within the same room as the control equipment and the wire is run in conduit (or equivalently protected against mechanical injury) within 20 ft. (6.1 m) of the control equipment.

- All other keypads should be connected to the keypad bus and

may be placed as needed (within the noted wiring limitations in the installation manual).

- One keypad must be assigned as address 1.

6.12 Open/Close Report Control Programming

• Open and Close Reports: If programmed, these reports are sent when the system is armed or disarmed. They may be sent independently for the opening and closing of each partition, or the first partition to open and the last partition to close may send the reports.

• Send T rouble at Close for Bypassed Zones: If programmed, a trouble report will be sent for each zone bypassed when the system is armed.

• Alternate between both Phone Numbers: If programmed, open and close reports will be sent to phone number one first. If phone number one does not pick-up, the control panel will alternate to phone number two. If phone number two does not pick-up, the control panel will alternate back to phone number one. It will alternate between both phone numbers until successful.

6.13 Report Programming

• Reports: For pulse formats, reports are programmed by entering data in the reporting and extended digits. The report will send the data programmed for each event. For SIA and Contact ID, the report formats are fixed and may be activated by placing a 1 in the reporting digit.

- To disable a report, enter a 0 in the reporting digit.

- To send the Man No. along with Open and Close reports,

program an "F" (enter [*] [5] at the keypad) in the extended digit.

• Keypad Fire Alarm: This report is sent when a fire alarm has been activated by the “A” emergency key.

• Keypad Fire Restoral: This report is sent when a keypad fire alarm has been restored using the [System Reset] command.

• Keypad Emergency Alarm: This report is sent when an emergency alarm has been activated using the “B” emergency key.

• Keypad Panic: This report is sent when an emergency alarm has been activated using the “C” emergency key.

• Keypad T amper: For keypads fitted with a wall tamper switch, this report is sent when the keypad is removed from the wall.

• Keypad Tamper Restoral: For keypads fitted with a wall tamper switch, this report is sent when the keypad is properly replaced on the wall after experiencing a tamper condition.

• Zone Function Alarm: An alarm report is sent when a zone alarm occurs. Alarm reports are enabled by zone function. Program this report for any zone functions you wish to send an alarm report about. For local zones (no reports), do not program an alarm report. The zone number will automatically be sent for this report in SIA or Contact ID format.

• Zone Function Restoral: This report is sent when the zone alarm and trouble conditions are cleared. The zone number will automatically be sent for this report in SIA or Contact ID format.

• Zone Function Trouble: This report is sent when a zone trouble condition occurs. This can be an open circuit, if the zone is programmed for “trouble on open”, a multiplex tamper switch being activated, or a multiplex zone not communicating with the control panel. The zone number will automatically be sent for this report in SIA or Contact ID format.

• Zone Function Bypass: This report is sent when a zone is bypassed. (Note: Fire zones can never be bypassed.) Zone bypass reports for non-24 hour zones are sent with the closing report. Bypass reports for 24 hour zones are sent when the zone is bypassed. If a zone is force armed, the bypass report is sent with the partial close report. If a 24 hour or non-24 hour zone is custom armed, the bypass report is sent with the partial close report.

• Zone Function Bypass Restoral: This report is sent when the zone bypass is cleared. For non-24 hour zones the bypass restoral is sent with the open report. Bypass restoral reports for 24 hour zones are sent when the zone is manually restored. The bypass restoral report for a zone that was force armed is sent when the zone is restored. If a 24 hour or non-24 hour zone was custom armed, the bypass restoral is sent with the open report.

• Open: This report is sent when the system has been disarmed. In SIA or Contact ID formats, the user number for the person who disarmed the system will be sent with this report. To send the user number along with an Open report in other formats, program the extended digit of the report as *5. In Contact ID format, the partition number will also be sent along with this report. The Open report will only be sent if a Close report was sent previously.

• Close: This report is sent when the system has been armed. In SIA or Contact ID formats, the user number for the person who armed the system will be sent with this report. To send the user number along with a Close report in other formats, program the extended digit of the report as *5. In Contact ID format, the partition number will also be sent along with this report.

• Duress: This report is sent when the system is disarmed using a duress code. The user number is not sent with this report.

• Partial Close: This report is sent when the system is armed partially, or force armed.

• First Open After Alarm : This report is sent when the system is disarmed after an alarm has occurred.

• Low Battery: This report is sent when a low battery condition occurs.

• Battery Restoral: This report is sent when a low battery condition restores.

• AC Fail: This report is sent when an AC failure condition occurs. This report may be delayed in address 4034.

• A/C Failure Report Delay

The A/C power loss report can be programmed to delay for up to 254 minutes (see address 4034). (The same delay would also apply to the A/C restoral report.)

- If another report is sent during this delay period, the A/C fail

report will be sent along with this report.

- If the A/C power restores during this delay period, the A/C loss

report will not be sent.

- Programming address 4034 as FF causes the report to be

sent at a random interval of at least 15 minutes, but no more than 2 hours after the A/C failure occurs.

• AC Restoral: This report is sent when an AC failure condition restores.

• Communicator Test/System Normal : This report is sent at the 24-hour check-in time if there is not a control trouble, an active fire alarm that has not been acknowledged, a fire trouble, or a supervisory condition. Note: To send a Communicator Test even if one of these conditions exists, program the Communicator Test/System Off Normal.

• Remote Program Successful: This report is sent after a Remote Program session, if the session was terminated properly.

• Remote Program Unsuccessful: This report is sent after a Remote Program session, if some error has occurred or the session did not terminate properly.

• Local Program Successful: This report is sent when local programmer’s mode is exited and there is no error associated with the programming.

• Local Program Unsuccessful: This report is sent when local programmer’s mode is exited and there has been some error associated with the programming.

• System Trouble: This report is sent when a control trouble condition occurs.

• System Trouble Restoral: This report is sent when all system trouble conditions restore.

• Communicator Test/System Off Normal : This report is sent at the 24-hour check-in time if there is a control trouble, an active fire alarm that has not been acknowledged, a fire trouble, or a supervisory condition.

• Exit Error: This report is sent if an exit error occurs. An exit error occurs when an entry/exit zone is still violated at the end of the exit delay. If this happens, the entry delay will begin and any output programmed to activate an alarm will energize. If the system is not disarmed before the entry delay expires, an alarm report for the effected zone will be sent and the Exit Error report will be sent. If this report is not programmed, the control will not sound the exit error warning.

• Recent Closing: This report is sent, along with any alarm reports, when there is an alarm within the first five minutes after the system has been armed.

• System Walk Test: This report is sent when a system test has been started ([#] [8] [1] key sequence). Zone reports are sent during a system test.

• System Walk Test Restoral: This report is sent when the system test has been completed or has timed-out.

• Fire Walk Test: This report is sent when a Fire Walk Test has been started ([#] [9] [1] key sequence). Zone reports are not sent during a Fire Walk Test.

• Fire Walk Test Restoral: This report is sent when the Fire Walk Test has been completed or has timed-out.

• Mux. Smoke Low Temperature Report: This supervisory report is sent when a MX280 Series smoke detector with a low temperature feature detects a temperature of 45°F (7.5°C) or less for a period of 30 minutes or more.

• Mux. Smoke Low Temperature Restoral: This report is sent when a MX280 Series smoke detector with a low temperature alarm determines that the temperature has risen above 45°F (7.5°C).

• Dirty Chamber Report: This report is sent when a MX280 Series smoke detector fails to pass the “Chamber Check®” sensitivity test.

• Dirty Chamber Restoral : This report is sent when a MX280 Series smoke detector has been returned to normal operation after service.

6.14 Phone Number General Control

Programming

• Enable Remote Programmer Callback : If programmed, when the remote programmer tries to initiate a session with the panel, the panel will hang up and call the remote programmer phone number.

- Ensures the correct remote programmer is initiating the call.

• Dial Pulse on all Phone Numbers: If programmed, the panel will dial phone number 1, 2, and the remote programmer phone number 3 using the pulse format.

• Dial Tone on all Phone Numbers: If programmed, the panel will dial phone number 1, 2, and the remote programmer phone number 3 using the tone format.

6.15 Phone Answering Programming

• Answering Machine Bypass : This feature allows the panel to answer incoming calls when answering machines are used. If the line rings, stops ringing, then rings again within one minute, the panel will seize the phone line on the first ring.

• Phone Answering Programming: The panel can be programmed to answer the phone after a selected number of rings for remote programming access. It can also be programmed to answer the phone after a different number of rings when in armed or disarmed states.

- This can be used to call the panel location and determine its

arming state.

6.16 FCC Compliance Notice

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

• Re-orient or relocate the receiving antenna.

• Increase the separation between the equipment and the receiver.

• Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

• Consult the dealer or an experienced radio/TV technician for help.

6.17 FCC Phone Connection Notice To Users

This control complies with Part 68 of the FCC rules. On the inside of the enclosure is a label that contains, among

other information, the FCC Registration Number and the Ringer Equivalence Number (REN) for this equipment. You must, upon request, provide this information to your local telephone company.

The REN is useful to determine the quantity of devices that may be connected to your telephone line and still have all of those devices ring when your telephone number is called. In most, but not all areas, the sum of the REN's of all devices connected to one line should not exceed five (5.0). To be certain of the number of devices that you may connect to your line, you may want to contact your local telephone company to determine the maximum REN for your local calling area.

This equipment may not be used on coin service provided by the telephone company. This control should not be connected to party lines.

Should this equipment cause harm to the telephone network, the telephone company may discontinue your service temporarily. If possible, they will notify you in advance. But if advanced notice isn’t practical, you will be notified as soon as possible. You will be informed of your right to file a complaint with the FCC. The telephone company may make changes in its facilities, equipment, operations, or procedures that could affect the proper functioning of your equipment.

If they do, you will be notified in advance to give you an opportunity to maintain uninterrupted telephone service.

If you experience trouble with this equipment, please contact the manufacturer for information on obtaining service or repairs.

The telephone company may ask that you disconnect this equipment from the network until the problem has been corrected or until you are sure that the equipment is not malfunctioning. The repairs to this equipment must be made by the manufacturer and not the user.

To guard against accidental disconnection, there is ample room to mount the Telco jack to the inside of the Control cabinet.

The operation of this Control may also be affected if events such as accidents or acts of God cause an interruption in telephone service.

6.18 Canadian Dept. of Communications

General Installation Requirements: Notice: The Canadian

Department of Communications label identifies certified equipment. This certification means that the equipment meets certain telecommunications network, protective, operational, and safety requirements. The Department does not guarantee the equipment will operate to the user’s satisfaction.

Before installing this equipment, users should ensure that it is permissible to be connected to the facilities of the local telecommunications company. The equipment must also be installed using an acceptable method of connection. In some cases, the company’s inside wiring associated with a single line individual service may be extended by means of a certified connector assembly (telephone extension cord). The customer should be aware that compliance with the above conditions may not prevent degradation of service in some situations.

Repairs to certified equipment should be made by an authorized Canadian maintenance facility designated by the supplier. Any repairs or alterations made by the user to this equipment, or equipment malfunctions, may give the telecommunications company cause to request the user to disconnect the equipment.

Users should ensure, for their own protection, that the electrical ground connections of the power utility , telephone lines, and internal metallic water pipe system, if present, are connected together. This precaution may be particularly important in rural areas.

Users should not attempt to make such connections themselves, but should contact the appropriate electric inspection authority, or electrician, as appropriate.

Terminal Requirements: The Load Number (LN) assigned to each terminal device denotes the percentage of the total load to be connected to a telephone loop which is used by the device, to prevent overloading. The termination on a loop may consist of any combination of devices subject only to the requirement that the total of the Load Numbers of all the devices does not exceed 100. The Load Number of the DS7400Xi is 2.

RFI Requirements: This Class A digital apparatus meets all requirements of the Canadian Interference-Causing Equipment Regulations. [Cet appareil numerique de la classe A respecte toutes les exigences du Reglement sur le material broilleur du Canada.]

6.19 For Installations in New Zealand

Two-wire Connection:

The operation of this equipment on the same line as telephones or other equipment with audible warning devices or automatic ring detectors will give rise to bell tinkle or noise and may cause false tripping of the ring detector. Should such problems occur, the user is not to contact Telecom Faults Service.

7.0 Operating Guide

Armed Statu s Power Fire

1 23 456 789

Entry

System

Reset

Bypass

Only

Perim eter

Off

ABC

1 23

456 789

Entr y

System

Reset

Bypass

Only

Perimeter

Off

TEST WEEKLY

12345678 91011121314

15 16

Armed Statu s Power Fire

Perimeter Supervisory Bell Silenced Trouble

For additional information on operating this system, consult the DS7400Xi (Ver. 4+) User’s Guide (P/N: 43851) and the front cover of this Reference Guide.

7.1 Emergency Procedures

7.1.1 Identifying Alarm Sounds

Your alarm system may be programmed for a steady alarm sound or a pulsed alarm sound. It is important to learn the difference between a fire alarm sound and an intrusion alarm sound before you are confronted with an actual emergency.

7.1.2 Silencing Alarms

All alarms can be silenced with any PIN that has disarm privileges. Entering your [PIN]+ [Off] will silence the alarm and turn off (disarm) the control.

7.1.3 A Cautionary Note

How you respond to an alarm will depend, mostly, on the type and time of the alarm. You should seek the advice of your installing company as they install your system, not later (e.g. after an alarm) to develop a response plan.

7.1.4 Use Common Sense

Above all else, common sense should prevail. If there is any threat or hint of danger to yourself or others on the premises, such as in the event of a fire alarm, everyone should be instructed to leave the premises immediately. Do not enter the premises unless accompanied by the appropriate Emergency Services’ personnel, or after they have given the OK to enter.

7.1.5 Caution When Entering a Building

If the bells and sirens are on and/or the red Armed Light is flashing with the DS7447/DS7447E display reading “Zone Alarm” or the DS7445/DS7445i having its zone LEDs flashing, then the keypad is signaling that an alarm has occurred. The keypad will also issue a pulsed tone during the entry delay instead of the usual steady tone.

If the alarm has not been previously investigated, do not enter the building unless accompanied by the appropriate Emergency Services’ personnel.

7.1.6 Fire Alarms

Fire Alarms are silenced using the same procedure as intrusion alarms: a [PIN] (with disarm privileges) plus the [Off] key.

The Fire Alarm system is not reset until alarms at smoke detectors are cleared by using the [System Reset] command. The Fire Alarm system will not be functional until this procedure has been followed. See the “Fire Reset” section, 7.2.

7.2 Fire Reset/Fire Trouble

7.2.1 Fire Reset

During a fire alarm, exit the premises immediately. When you have determined there is no fire, you may silence the bells/sirens before you initiate the [System Reset] command: [PIN] + [System Reset]. Before the [System Reset] command is used, determine which smoke detector has alarmed so the monitoring company may verify its operation.

NOTE: To use the System Reset command sequence, your PIN

must have disarm privileges. The System Reset command will perform a fire reset, a battery test, and will clear all system troubles.

NOTE: If the System Reset command has not been performed

after 24 hours of the Fire Alarm, the keypad will sound and it will display “Fire Alarm Not Reset.” If the sounders have been silenced and the system has been reset properly, this warning will not occur.

7.2.2 Fire Trouble

A Fire Trouble message with a zone number signifies a problem with the fire system, such as a break in the wiring that monitors smoke detectors. A Fire Trouble message with no zone number indicates a ground fault if the unit is in the commercial fire mode.

A Fire Trouble will be indicated by a short beep from the keypad sounders every 10 seconds. The DS7447/DS7447E will display “Fire Trouble” followed by the zones in a trouble condition. The DS7445/DS7445i will turn the Fire and Trouble Lights on steady and will light the corresponding zone LEDs.

Notify your installing company immediately if the Fire Trouble message is displayed.

The Fire Trouble beep can be silenced with any [PIN] plus the [Off] key. After problems have been remedied, a [PIN] plus the [Off] key should again be entered to clear the “Fire Trouble” display.

7.2.3 Dirty Smoke

A Dirty Smoke display , followed by a zone number and accomp anied by a beep every ten seconds indicates that the smoke detector for that zone requires cleaning or replacement. The smoke detector will also give a Dirty indication by flashing its LED once per second. The Dirty Smoke beep can be silenced by any [PIN] plus the [Off] key .

Notify your installing company immediately if the Dirty Smoke message is displayed.

7.3 Emergency Keypad Alarms

The Emergency Alarm Keys [A], [B], and [C] may generate Fire, Special Emergency, and Panic Alarms if programmed by the installer. Ask your installing company to explain the function of these keys.

When using the Emergency Keys, they must be pressed for two seconds to generate an alarm.

NOTE: If the Emergency Alarm Keys are to be used, they should be labeled to signify their functions.

The A key should be labeled as the Fire key. This is the only key that may be designated as the Fire key. The B key should be labeled as the Special Emergency key. The C key should be labeled as the Panic key.

Use the Disarming Command Sequence to cancel or silence these alarms.

7.4 Fire

Safety

No fire detection device or system should be considered 100% foolproof.

This fire alarm system can provide early warning of a developing fire. Such a system, however, does not ensure protection against property damage or loss of life resulting from a fire. Any fire alarm system may fail to warn for any number of reasons (e.g. smoke not reaching a detector that is behind a closed door). When considering detectors for residential applications, refer to NFPA Standard 72, “The National Fire Alarm Code.” This standard is available at a nominal cost from: The National Fire Protection Association, Batterymarch Park, Quincy, MA 02269.

7.4.1 If Installed in Family Residences

Adherence to the NFPA Standard 72 can lead to reasonable fire safety when the following items are practiced:

• Minimize hazards: Avoid the three traditional fire killers: smoking in bed, leaving children home alone, and cleaning with flammable liquids.

• Providing a fire warning system: Most fire deaths occur in the home, the majority, during sleeping hours. The minimum level of protection requires smoke detectors to be installed outside of each separate sleeping area and on each additional story of the dwelling.

For added early warning protection, it is recommended that detectors be installed in all separated areas including the basement, bedrooms, dining room, utility room, furnace room, and hallways.

7.4.2 Having and Practicing an Escape Plan

A fire warning may be wasted unless the family has planned in advance for a rapid and safe exit from the building.

• Draw a floor plan of the entire house showing two exits from each bedroom and two from the house. Since stairwells and hallways may be blocked during a fire, the plan should provide

exits from bedroom windows.

Make copies of the plan and practice it with all family members.

• Pre-arrange a meeting place outside and away from the residence. Once out of the building, all occupants should immediately go to the pre-selected location to be accounted for.

• Provide a barricade between family members and fire, smoke, and toxic gases (e.g. close all bedroom doors before retiring).

• Children should be instructed on opening their bedroom windows and exiting safely from the building. If exiting is not possible, they should be taught to stay at the open window and shout for help until it arrives.

• In the event of a fire alarm after retiring, wake the children by shouting to them from behind your closed door. Tell them to keep their bedroom doors closed.

• If the top of your bedroom door is uncomfortably hot, do not open it. There is most likely fire, intolerable heat, or smoke on the other side. Shout to all family members to keep their bedroom doors closed and to exit the building via alternate routes.

• If the top of the door is not uncomfortably hot, brace the bottom of the door with your foot, and the top with one hand, then open the door about one inch. Be prepared to slam the door shut if there is any pressure against the door or if any hot air rushes in.

• If there is no evidence of excessive heat or pressure, leave the room and close the door behind you. Shout appropriate instructions to all family members and immediately leave the building via the pre-planned routes. If heavy smoke is present, drop to your hands and knees, or crawl to remain below the smoke level.

7.4.3 Installation Considerations

Proper location of detection devices is one of the most critical factors in a fire alarm system.

The following are some general considerations:

• Smoke detectors should not be installed in “dead air” spaces or close to ventilating or air conditioning outlets because smoke may be circulated away from the detector. Locations near air inlets should be favored.

• Avoid areas subject to normal smoke concentrations such as kitchens, garages, or near fireplaces.

• Do not install smoke detectors where normal area temperatures are above 100° F (38° C) or below 32° F (0° C).

• Areas of high humidity and dust concentrations should be avoided.

• The edge of ceiling mounted detectors should be no closer than 4 inches (10 cm) from any wall.

• Place the top edge of wall mounted detectors between 4 and 12 inches (10 to 30 cm) from the ceiling.

7.5 Personal Identification Numbers

7.5.1 General Information

A PIN (Personal Identification Number) is the 4- or 6-digit code users must enter at the keypad to gain access to the system. Your system has the capability to assign up to 200 PINs, each four or six digits long. A PIN may be assigned to each User Number.

PINs should never be programmed with common sequences such as 1 2 3 4, 1 1 1 1, or 2 4 6 8 because they are easily violated.

A User Number is the number that identifies each person using the system. There are 200 possible User Numbers available for use (001 through 200).

Each User Number can have only one PIN assigned to it.

Attempting to assign the same PIN to multiple User Numbers will result in the three-beep error tone, and the entry will not be made.

User Number 001 is designated as a Master code. It can be used to add, delete, or change other PINs. It will always have access to all partitions regardless of how it is programmed.

User Number 001 is shipped from the factory with the PIN of 1 2 3

4. If your system has been reprogrammed for 6-digit PINs, the PIN for User Number 001 will be 123456. This PIN should be changed

to one of your personal preference and must be programmed as a Master code.

A Master code is one of the available authority levels which can be assigned to a user to determine which functions that user will be able to perform. The available authority levels are:

0 = Master: Can enter all commands, add or change PINs

in assigned partitions, change the time and date, bypass, arm, disarm, perform system tests, system reset and view history. User Number 001 must have the Master authority level. Any or all PINs can behave as a Master code.

1 = Unlimited: Can enter all commands, bypass, arm,

disarm, system reset and perform system tests. It can not change PINs.

2 = General: Can bypass, arm and disarm. It can not change

PINs, system reset, enter [#] [7] or any of the [#] [8] functions.

3 = Arm Only: Can arm the system with [PIN] + [ON] arming

sequence only. It can not perform any other functions, including disarming.

4 = Temporary: Valid only for a specified time (the PIN will

disappear upon expiration date). It can arm and disarm the system, but can not perform any other functions. If this is done from a Master keypad, you must be in Single Partition Mode. If access is assigned to more than one partition, you must enter a Temporary PIN expiration date for all assigned partitions (see Changing the Expiration Date for Temporary PINs).

5 = Duress: When the system is disarmed using the duress

code, a silent report is sent to your monitoring service. The Duress code is intended to be used when the user is forced to disarm the system.

6 = Access Code: When a PIN with an Access Code is entered,

any output programmed for Access Output (i.e. door strikes) will pulse on for 10 seconds (works when the system is armed or disarmed).

7.5.2 Programming PINs

PINs can only be added, changed, or removed in Master Programming Mode, so they are not programmable from an RF (wireless) keypad.

You should write down your entries before you enter the Master Code Programming Mode and have them with you as you begin programming. Make your entries promptly. If a long delay occurs in your entries, the 3-beep error tone occurs and exits you from the programming mode.

It is recommended that all PIN programming procedures be performed at a DS7447/DS7447E keypad since this keypad will provided visual prompts throughout the programming sequence. No visual clues will be given from a D7445/DS7445i keypad. When the programming sequence is successfully completed, both the DS7447/DS7447E and DS7445/DS7445i keypads will signal the seccessful completion with a long beep.

To add or change a PIN:

• Enter Master Programming Mode (press [Master PIN] + [#] [0]).

• Enter a 0 for PIN Setup programming (press [0]).

• Enter the User Number (enter a 3-digit number from 001 to 200).

• Enter the Authority Level (enter a number from 0 to 6).

• Enter the Area(s) (Partitions) to which this user will have access (press [1], [2], [3], [4], [5], [6], [7], and/or [8] followed by [#]).

• Enter the PIN (enter any 4- or 6-digit number; do not press [#]).

• Enter the PIN again followed by [#].

To set the expiration date for an existing Temporary PIN:

• Enter Master Programming Mode (press [Master PIN] + [#] [0]).

• Enter a 3 for Date of Code Expiration Setup programming (press [3]).

• Enter the Expiration Month (press [0] [1] for January through [1] [2] for December).

• Enter the Expiration Day (press [0] [1] through [3] [1]). The Tem-

porary PIN will expire at Midnight on the day selected.

• Enter the Year (enter the last two digits of the year followed by [#]).

NOTE: Entering the command sequence [Master Code] [#] [0] [3]

[#] will cause the DS7447/DS7447E keypad to read back the temporary code expiration date.

To remove a PIN:

• Enter Master Programming Mode (press [Master PIN] + [#] [0]).

• Enter a 0 for PIN Setup programming (press [0]).

• Enter the User number of the PIN to be cancelled, followed by [#] (enter a 3-digit number from 001 to 200, then press [#]).

NOTE: User Number 001 can not be disabled in this manner.

A a

7.6 The Master Keypad

7.6.1 General Information

Your system may include a Master keypad. A Master keypad is a DS7447/DS7447E keypad programmed to give a user access to all the partitions the user has access to, not just the partition in which the Master keypad is located. This is different from a Standard keypad in that Standard keypads only give access to the single partition in which they are located. Commands entered at the Master keypad will affect all the partitions to which the user has access. If this is not desirable, the Master keypad can also be used to control each partition individually; this is called Single Partition Mode. Single Partition Mode allows a user to control any or all of the partitions the user has access to on an individual (oneby-one) basis (see section 7.6.3 for more information on Single Partition Mode).

NOTE: In order to use the Master keypad, your PIN must be

assigned to the partition in which the Master keypad is located.

7.6.2 Master Keypad Displays

Master keypad displays will differ slightly from Standard keypads. The Master keypad display will scroll the Status of each partition, followed by the partition number. For example, if all partitions are armed, the Master keypad will scroll through the following displays:

rmed rea 1

Armed area 2

Armed area 3

Armed area 4

Armed area 5

Armed area 6

Armed area 7

If only partitions 1, 2, 3, 4, 6, and 8 are armed, the Master keypad will scroll through the following displays:

rmed rea 1

Armed area 2

Armed area 3

Armed area 4

Ready to Arm

area 5

Armed area 6

Ready to Arm

area 7

Displays for partitions that are Not Ready will display in the same manner. The chart at the bottom of this page will help you understand what each LED function of the Master keypad represents.

7.6.3 Single Partition Mode

Single Partition Mode is used to control partitions on a “one at a time/one by one” basis from the Master keypad.

To enter the Single Partition Mode, enter your [PIN], then press the [#] key twice. This will call up the first partition you have access to. Enter the command sequence you wish for this partition. You do not need to use your PIN again. To move on to the next partition you have access to, press the [#] key twice.

T o exit the Single Partition Mode, hold the [*] key down for 2 seconds. The system will also automatically drop out of Single Partition Mode after 40 seconds without a keypad entry.

Example of accessing Single Partition Mode

• Enter your [PIN], followed by the [#] key twice: [1] [2] [3] [4] [#] [#].

Arme area

• The first partition you have access to will be displayed: “Ready

to Arm. Cafeteria.”

• Complete the command sequence (in this case arming) you wish for this partition: [#] [On].

• Move to the next partition you have access to by pressing the [#] key twice: [#] [#].

• The next partition you have access to will be displayed: “Ready

to Arm. Office.”

• Complete the command sequence you wish for this partition.

• After you have completed all the command sequences for the partitions you have access to, exit Single Partition Mode by pressing the [*] key for two seconds.

7.6.4 Arming from the Master Keypad

To arm all the Partitions to which you have access:

• [PIN] + any Arming Command Sequence. This will arm all the

partitions to which you have access even if they are already armed.

To arm only some of the Partitions to which you have access:

• [PIN] + [#] + [#]. This puts you into Single Partition Mode.

• The first partition to which you have access is displayed: “Ready to Arm. Cafeteria.”

• Enter the Arming Command Sequence you want for this partition.

• [#] + [#] opens the next partition to which you have access.

• The next partition to which you have access is displayed: “Ready to Arm. Office.”

• Enter the Arming Command Sequence you want for this partition.

• After arming any or all partitions to which you have access, you may exit Single Partition Mode by holding the [*] key for at least two seconds. The system will also drop out of Single Partition Mode after 40 seconds without a keypad entry.

7.6.5 Disarming from the Master Keypad

To disarm all the Partitions to which you have access:

• [PIN] + [Off]. This will disarm all the partitions to which you have access even if they are already disarmed.

To disarm only some of the Partitions to which you have access:

• [PIN] + [#] + [#]. This puts you into Single Partition Mode.

• The first partition to which you have access is displayed: “Armed. Cafeteria.”

• If you wish to disarm this partition, enter [Off]. If not, go to the next step.

• [#] + [#] opens the next partition to which you have access.

• The next partition to which you have access is displayed: “Armed. Office.”

• If you wish to disarm this partition, enter [Off]. If not, go to the next step.

• After disarming any or all partitions to which you have access, you may exit Single Partition Mode by holding the [*] key for at

LED Off Flashing On

Armed

(red)

Status

(green)

Power

(green)

All partitions are disarmed. One or more partitions are armed, or

an alarm ha s occurred.

Not ready to arm (if the Armed LED is

One or more zones are bypassed. All partitions are ready to arm.

On, all partitions are armed).

The Control Panel has lost all power;

no AC or b attery.

Control Panel problems exist.

See Err or Di s pla ys.

All Partitions are armed, and no

alarms have occurred.

Normal Operation.

The Control Panel is running on AC

power with no problems,

Fire

There are no fire alarms. A fire zone is in alarm. A fire trouble condition exists.

(red)

least two seconds. The system will also drop out of Single Par-

]

[#] [8] [7] will display [#] [8] [9] will

display

RAM Fault System Fault 01 ROM Fault System Fault 02 EEPROM Fault System Fault 03 Ground Fault System Fault 04 2Ph/Bell Fault = loss of communication to

DS7420i

System Fault 10

Line 1 Fault = DS7420I phone line 1 fault System Fault 11 Line 2 Fault = DS7420I phone line 2 fault System Fault 12 Bell Fault = DS7420i bell circuit fault System Fault 13 Aux. Relay Fault = DS7420I auxiliary relay

fault

System Fault 14

Oct. Relay Fault = loss of communication to DS7488

System Fault 20

Reserved for older panels System Fault 50 AR IB Queue Full = modem buffer full System Fault 51 AR Host Down = network data switch down System Fault 52 AR Unreg. Modem = modem not registered System Fault 53 AR Power Fail = power source below

defined threshold

System Fault 54

AR Network Lost = loss of network System Fault 55 AR Modem HW Err = modem hardware

error

System Fault 56

AR Modem SW Err = modem software error

System Fault 57

AR Opt. Bus Err = loss of communications to ARDIS module

System Fault 58

AR Corrupt MSG = message error System Fault 59

tition Mode after 40 seconds without a keypad entry.

7.7 Keypad Error Displays

7.7.1 General Information

DS7445/DS7445i: DS7447/DS7447E:

DS7445/DS7445i: DS7447/DS7447E: DS7445/DS7445i: DS7447/DS7447E: DS7445/DS7445i: DS7447/DS7447E: DS7445/DS7445i: DS7447/DS7447E: DS7445/DS7445i: DS7447/DS7447E: DS7445/DS7445i: DS7447/DS7447E:

DS7445/DS7445i: DS7447/DS7447E: DS7445/DS7445i: DS7447/DS7447E:

Error Displays can only be read when the control is disarmed. Some Control Panel Errors, such as battery trouble and any RF troubles, will cause the keypad sounders to beep every 10 seconds. The keypad sounders may be silenced for 4 hours by entering:

The sounders will continue to resound until the problem is fixed.

To Clear a display, enter:

NOTE: System faults may be read from any keypad because they

7.7.2 System Faults

System faults are designated as follows:

Display Meaning

Power LED flashing

Control Trouble Ente r #87

LED 1 On

AC Power Failure

LED 2 On

Battery Tro uble*

LED 3 On

Communicator Er r* *

LED 4 On

System Fault

LED 5 On

Keypad Fault

LED 6 On

Keypad Tam per

LED 7 On

Multiplex Bus

LED 8 On

Aux. Powe r Faul t

not applicable

Zone Tr ou bl e

not applicable

Dirty Chamber

There is an E rror Message. To display the message, enter [PIN] + [# [8] [7]. There is a po we r fa i lu r e, and t h e panel is operating on backup battery power. If the system has just been through a power failure, wait at least two hours for the battery to rechar g e, the enter [PIN] + [System Reset] to perform a battery test, The communicator failed to communicate with the Central Station. Internal error in the control circuitry or optional circuitry. See System Faults. One of the keypads is not responding to the Control Panel. One of the keypad housings has been op ened. The multiplex bus is defe c tive or has been shorted. The auxiliary power has been shorted. One of the zones is not responding to the Control Panel. This may also be displ ayed during power -u p; i f so, ignore it. Indicates a problem with an RF (wireless) zone. One of the multiplex smoke detectors has failed the sensitivity test and may require cleaning or replacement. The keypad beep may be cleared by entering [PIN] + [Off].

[PIN] + [Off].

[PIN] + [System Reset].

Clear the Error Display only on the advice of your installing company or if you are certain the problem has been remedied.

are system-wide. All other Error Displays are limited to the partition the standard keypad is in. If you are on a Master keypad, you may read Error Displays one partition at a time.

7.7.3 Event History

The History Buffer stores the last 400 events in memory. The DS7447/DS7447E can display all of these events. If this test is performed from a Master keypad, it must be in Single Partition Mode. The DS7445/DS7445i will only display those zones (1-8) that have alarmed since the last Event History Readback. The RF3341 cannot display history events.

To readback the Event History Buffer:

• Press [PIN] + [#] [8] [9]. On a DS7447/DS7447E keypad, the last event to take place will be displayed. On a DS7445/DS7445i keypad, the zone LEDs for any zones that have alarmed since the last Event History Readback in that partition will flash.

• Scroll through the events using the [9], [6], and [#] keys as follows: To begin scrolling back through the events, press the [#] key. The [#] key will scroll you back through the history line by line. The [9] key will scroll you back in reverse chronological order by event. A [6] will scroll you back up through the events (toward the most recent) by event. Each event consists of two or three lines or display screens. The first line/screen will be the event title and user. The second line/ screen will be the date of the event or the change being made. If there is a third line/screen, it will be the date of the change.

NOTE: When performing this from a Master keypad, each partition

will display its own history.

• T o exit the Event History Mode, press the [*] key or wait 20 seconds and the keypad will exit automatically.

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