DMP Electronics XR500N SERIES, XR500 SERIES, XR500E SERIES Installation Manual

INSTALLATION GUIDE

XR500 SERIES
CONTROL PANEL

MODEL XR500, XR500N, XR500E SERIES

CONTROL PANEL INSTALLATION GUIDE

FCC NOTICE

This equipment generates and uses radio frequency energy and, if not installed and used properly in strict accordance
with the manufacturer’s instructions, may cause interference with radio and television reception. It has been type tested

and found to comply with the limits for a Class A computing device in accordance with the specication in Subpart J

of Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference in a residential
installation. If this equipment does cause interference to radio or television reception, which can be determined by

turning the equipment o and on, the installer is encouraged to try to correct the interference by one or more of the

following measures:

Reorient the receiving antenna
Relocate the computer with respect to the receiver
Move the computer away from the receiver

Plug the compute into a dierent outlet so that computer and receiver are on dierent branch circuits

If necessary, the installer should consult the dealer or an experienced radio/television technician for additional suggestions.

The installer may nd the following booklet, prepared by the Federal Communications Commission, helpful:

“How to identify and Resolve Radio-TV Interference Problems.”

This booklet is available from the U.S. Government Printing Oce, Washington D.C. 20402

Stock No. 004-000-00345-4

© 2015 Digital Monitoring Products, Inc.

Information furnished by DMP is believed to be accurate and reliable.

This information is subject to change without notice.

TABLE OF CONTENTS

Product Specications Summary

1.1 Power Supply ......................................................................... 1

1.2 Communication ...................................................................... 1

1.3 Panel Zones ...........................................................................1

1.4 Keypad Bus ............................................................................ 1

1.5 LX-Bus™ ................................................................................ 1

1.6 Outputs ................................................................................. 1

1.7 Enclosure Specications .......................................................... 1

Panel Features

2.1 Description ............................................................................ 2

2.2 Zone Expansion ...................................................................... 2

2.3 Output Expansion ................................................................... 2

2.4 Central Station Communication ................................................ 2

2.5 Encrypted Communications (XR500N/XR500E only) .................. 2

2.6 Caution Notes ........................................................................ 2

2.7 Compliance Instructions .......................................................... 2

System Components

3.1 Description ............................................................................ 3

3.2 Wiring Diagram ...................................................................... 3

3.3 Lightning Protection ................................................................ 4

3.4 Accessory Devices .................................................................. 4

3.4 Accessory Devices (continued) ................................................ 5

3.4 Accessory Devices (continued) ................................................ 6

Installation

4.1 Mounting the Enclosure .......................................................... 6

4.2 Mounting Keypads and Zone Expansion Modules ....................... 8

4.3 Connecting LX-Bus and Keypad Bus Devices ............................. 8

4.4 Wireless Keypad Association .................................................... 8

Primary Power Supply

5.1 AC Terminals 1 and 2 .............................................................. 9

5.2 Transformer Types .................................................................. 9

5.3 J12 3-Pin Header for Transformer Types ................................... 9

Secondary Power Supply

6.1 Battery Terminals 3 and 4 ....................................................... 9

6.2 Earth Ground (GND) ............................................................... 9

6.3 Battery Only Restart ............................................................... 9

6.4 Battery Replacement Period .................................................. 10

6.5 Discharge/Recharge .............................................................. 10

6.6 Battery Supervision............................................................... 10

6.7 Battery Cuto ...................................................................... 10

6.8 XR500 Series Power Requirements ......................................... 11

6.9 Standby Battery Selection ..................................................... 13

Bell Output

7.1 Terminals 5 and 6 ................................................................. 14

Keypad Bus

8.1 Description .......................................................................... 14

8.2 Terminal 7 - RED .................................................................. 14

8.3 Terminal 8 - YELLOW ............................................................ 14

8.4 Terminal 9 - GREEN .............................................................. 14

8.5 Terminal 10 - BLACK ............................................................. 14

8.6 J8 Programming Connection .................................................. 14

8.7 OVC LED .............................................................................. 14

Smoke and Glassbreak Detector Output

9.1 Terminals 11 and 12 ............................................................. 14

9.2 Current Rating...................................................................... 14

Protection Zones

10.1 Terminals 13–24 ................................................................... 15

10.2 Operational Parameters ......................................................... 15

10.3 Zone Response Time ............................................................ 15

10.4 Keyswitch Arming Zone ......................................................... 15

Powered Zones for 2-Wire Smoke Detectors

11.1 Terminals 25–26 and 27–28 .................................................. 15

11.2 Compatible 2-Wire Smoke Detector Chart ............................... 16

XR500 Series Installation Guide Digital Monitoring Products

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TABLE OF CONTENTS

Dry Contact Relay Outputs

12.1 Description .......................................................................... 17

12.2 Contact Rating ..................................................................... 17

12.3 Model 431 Output Harness Wiring ......................................... 17

Annunciator Outputs

13.1 Description .......................................................................... 17

13.2 Model 300 Harness Wiring..................................................... 17

13.3 Model 860 Relay Module ....................................................... 17

J23 6-Pin Header

14.1 Description .......................................................................... 18

J22 LX-Bus Expansion Connector

15.1 Description .......................................................................... 18

15.2 J22 LX-Bus Header ............................................................... 18

15.3 LX-Bus Interface Cards ......................................................... 19

15.4 LX-Bus LEDs ......................................................................... 19

15.5 OVC LED .............................................................................. 19

J21 Serial Connector

16.1 Description .......................................................................... 19

16.2 Computer Connection to J21 ................................................. 19

16.3 Serial Connector LEDs ........................................................... 20

J1 Ethernet Connector (XR500N/XR500E only)

17.1 Description .......................................................................... 20

17.2 Ethernet LEDs ...................................................................... 20

J3 Telephone RJ Connector

18.1 Description .......................................................................... 20

18.2 J10 893A Connector ............................................................. 20

18.3 Notication .......................................................................... 20

18.4 Phone Line Monitor ............................................................... 20

18.5 FCC Registration ................................................................... 21

Reset and Tamper Headers

19.1 J16 Reset Header ................................................................. 22

19.2 J4 Tamper Header ................................................................ 22

Listed Compliance Specications

20.1 Introduction ......................................................................... 23

Universal Burglary Specications

21.1 Introduction ......................................................................... 23

21.2 Wiring ................................................................................. 23

21.3 Transformer ......................................................................... 23

21.4 Control Outside of Protected Area .......................................... 23

21.5 Police Station Phone Numbers ............................................... 23

21.6 Bypass Reports .................................................................... 23

21.7 System Maintenance ............................................................. 23

21.8 Listed Receivers ................................................................... 23

21.9 Power Supply Supervision ..................................................... 23

21.10 Wireless Tamper ................................................................... 23

21.11 Wireless External Contact ...................................................... 23

21.12 Wireless Supervision Time ..................................................... 23

21.13 Detect Wireless Jamming ...................................................... 23

21.14 Standby Batteries ................................................................. 23

Area Information

22.1 Ownership ........................................................................... 24

22.2 Annunciation ........................................................................ 24

22.3 Trouble Display..................................................................... 24

22.4 Closing Wait ......................................................................... 24

22.5 Local Bell Supervision ........................................................... 24

Household Burglar-Alarm System Units
ANSI/UL 1023

23.1 Audible Devices .................................................................... 24

23.2 Auxiliary Circuits ................................................................... 24

23.3 Bell Cuto ............................................................................ 24

23.4 Entry Delay .......................................................................... 24

23.5 Exit Delay ............................................................................ 24

23.6 Weekly Test ......................................................................... 24

23.7 Wireless Audible Annunciation Option .................................... 24

Digital Monitoring Products XR500 Series Installation Guide

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TABLE OF CONTENTS

Central-Station and Proprietary Burglar-Alarm Units
ANSI/UL 1610 AND ANSI/UL 1076

24.1 Opening/Closing Reports ....................................................... 25

24.2 Closing Wait ......................................................................... 25

24.3 Entry Delay .......................................................................... 25

24.4 Exit Delay ............................................................................ 25

24.5 Proprietary Dialer ................................................................. 25

24.6 DACT Central Station ............................................................ 25

24.7 Bell Cuto ............................................................................ 25

24.8 Standard or Encrypted Line Security ...................................... 25

24.9 Wireless Audible Annunciation Option .................................... 25

24.10 CELL Only, Standard or Encrypted Line Security ...................... 25

24.11 NET with CELL as Alternate Primary and Dialer Backup,

Standard or Encrypted Line Security ...................................... 26

24.12 NET with CELL as Backup and Adaptive Primary, Standard

or Encrypted Line Security .................................................... 26

Holdup Alarm Units
ANSI/UL 636

25.1 ANSI/UL 1610 Required ........................................................ 27

25.2 1100X/1100XH Wireless Receiver........................................... 27

25.3 Wireless Supervision Time ..................................................... 27

25.4 LED Display .......................................................................... 27

25.5 Jamming Detection ............................................................... 27

25.6 Local Alarm .......................................................................... 27

25.7 Message to Transmit ............................................................. 27

25.8 Wireless Audible Annunciation Option .................................... 27

Digital Burglar Alarm Communicator System Units
ANSI/UL 1635

26.1 System Trouble Display ......................................................... 27

26.2 Digital Dialer Telephone Number ............................................ 27

26.3 Test Time ............................................................................. 27

26.4 Closing Wait ......................................................................... 27

Police Station Connected and Local Burglar Alarm Units
ANSI/UL 365

27.1 System Trouble Display ......................................................... 27

27.2 Entry Delay .......................................................................... 27

27.3 Exit Delay ............................................................................ 27

27.4 Bell ..................................................................................... 28

27.5 Bell Cuto ............................................................................ 28

27.6 Automatic Bell Test ............................................................... 28

27.7 Standard or Encrypted Line Security ...................................... 28

27.8 Wireless Audible Annunciation Option .................................... 28

27.9 Model 463C, CELL Only, Standard or Encrypted Line Security ... 28

27.10 Model 463C, NET with CELL as Alternate Primary and

Dialer Backup, Standard or Encrypted Line Security ................ 29

27.11 Model 463C, NET with CELL as Backup and Adaptive Primary,

Standard or Encrypted Line Security ...................................... 29

Police Station Connected and Local Burglar Alarm Units
ANSI/UL 609

28.1 Mercantile ............................................................................ 30

28.2 Entry Delay .......................................................................... 30

28.3 Exit Delay ............................................................................ 30

28.4 Mercantile Safe and Vault ...................................................... 30

28.5 Bell ..................................................................................... 30

28.6 Bank Safe and Vault (XR500N/XR500E only) ........................... 30

28.7 Wireless Audible Annunciation Option .................................... 30

Access Control System Units
ANSI/UL 294

29.1 Panel Designation ................................................................. 31

29.2 Tamper Protection ................................................................ 31

29.3 Transformer ......................................................................... 31

29.4 Compatible Devices .............................................................. 31

XR500 Series Installation Guide Digital Monitoring Products

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TABLE OF CONTENTS

Universal Fire Alarm Specications

30.1 Introduction ......................................................................... 31

30.2 Wiring ................................................................................. 31

30.3 Transformer ......................................................................... 31

30.4 End-of-Line Resistor.............................................................. 31

30.5 System Trouble Display ......................................................... 31

30.6 Fire Display .......................................................................... 31

30.7 Police Station Phone Number................................................. 32

30.8 System Maintenance ............................................................. 32

30.9 Audible Alarm ....................................................................... 32

30.10 Fire Zone Programming ......................................................... 32

30.11 Class A Style D Zones ........................................................... 32

30.12 Listed Receivers ................................................................... 32

30.13 Standby Batteries ................................................................. 32

Control Units for Fire-Protective Signaling Systems
ANSI/UL 864, NFPA 72

31.1 Power Supply ....................................................................... 33

31.2 Zone Restoral Reports ........................................................... 33

31.3 Power Fail Delay ................................................................... 33

31.4 Sprinkler Supervisory ............................................................ 33

31.5 DACT Systems ...................................................................... 33

31.6 Local Protective Signaling Systems ......................................... 33

31.7 Remote Station Protective Signaling Systems .......................... 34

31.8 Fire Protective Signaling Systems using

Internet/Intranet/Cell Networks ............................................. 34

31.9 Combination Systems ........................................................... 34

31.10 Remote Annunciators ............................................................ 34

31.11 Notication Appliances .......................................................... 35

31.12 Cross Zoning ........................................................................ 35

31.13 Ground Fault ........................................................................ 35

31.14 Wireless Testing ................................................................... 35

31.15 Wireless Supervision ............................................................. 35

Household Fire Warning System Units
ANSI/UL 985, NFPA 72

32.1 Bell Output Denition ............................................................ 35

32.2 Audible Devices .................................................................... 35

32.3 Auxiliary Circuits ................................................................... 35

32.4 Bell Cuto ............................................................................ 35

32.5 Detect Wireless Jamming ...................................................... 35

32.6 Wireless Supervision Time ..................................................... 35

32.7 Wireless Fire Verication ....................................................... 35

California State Fire Marshal Specications

33.1 Bell Output Denition ............................................................ 35

New York City (FDNY) Specications

34.1 Introduction ......................................................................... 36

34.2 Network and Cellular Communication, Primary and Secondary . 36

34.3 Digital Dialer Primary and Network Secondary Communication . 36

34.3.1 Communication Programming ................................................ 36

34.4 Wiring ................................................................................. 36

34.5 Additional Requirements ....................................................... 36

False Alarm Reduction Programmable Options *

35.1 Shipping Defaults and Recommended Programming

for ANSI/SIA CP-01-2010 ...................................................... 37

False Alarm Reduction Programmable Options (continued)

35.2 Call Waiting .......................................................................... 38

35.3 Occupied Premise ................................................................. 38

35.4 Entry Delay .......................................................................... 38

35.5 Minimum Installation Requirements ....................................... 38

Wiring Diagrams

36.1 866 with NAC Extender ......................................................... 39

36.2 866 Class B Style W using Single Notication Appliance ........... 40

36.3 866 Class B Style W Multiple Notication Appliance Circuit ....... 41

36.4 866 Class B Style W Dual Notication Appliance Circuits .......... 42

36.5 865 Class B Style W using Single Notication Appliance ........... 43

36.6 865 Class B Style W Multiple Notication Appliance Circuit ....... 44

36.7 865 Class B Style W Dual Notication Appliance Circuits .......... 45

Digital Monitoring Products XR500 Series Installation Guide

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TABLE OF CONTENTS

36.8 865 Class A Style X using Single Notication Appliance ............ 46

36.9 867 Class B Style W using Single Notication Appliance ........... 47

36.10 867 Class B Style W Multiple Notication Appliance Circuit ....... 48

36.11 867 Class B Style W Multiple Notication Appliance Circuits ..... 49

36.12 Panel Slave Communicator for FACP using 630F Annunciator ... 50

36.13 Panel Slave Communicator for FACP using Outputs ................. 51

36.14 Dual Style D Zone Module Installation .................................... 52

36.15 Derived Channel Installation Using Bosch D8122 .................... 53

36.16 Rothenbuhler 5110 High Security Bell Wiring. .................... 54

36.17 LX-Bus™ Module Connection ................................................. 55

36.18 Model 860 Relay Module Connection ...................................... 56

36.19 Powered Burglary Devices ..................................................... 56

36.20 System Sensor 2-Wire Smoke Detectors ................................. 57

36.21 System Sensor i4 Series Smoke and CO Detectors

Using A Single COSMOD2W Module ....................................... 58

36.22 System Sensor i4 Series Smoke and CO Detectors

Using Multiple COSMOD2W Modules ...................................... 59

Revisions to This Document
Certications
Export Control

XR500 Series Installation Guide Digital Monitoring Products

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INTRODUCTION

Product Specications Summary

1.1 Power Supply

Transformer Input: Model 327, plug-in — Primary input: 120 VAC, 60 Hz, Secondary output: 16.5 VAC 50 VA

Model 322/323, wire-in — Primary input: 120 VAC, 60 Hz, Secondary output: 16 VAC 56 VA
Model 324/324P, wire-in — Primary input: 120 VAC, 60 Hz, Secondary output: 16 VAC 100 VA

Standby Battery: 12 Vdc, 1.0 Amps Max. charging current

Models 364, 365, 366, 368, or 369
Replace every 3 to 5 years

Auxiliary: 12 Vdc output at 1.5 Amp Max*

12 Vdc output at 325mA used with two Model 364 batteries in the Model 341 enclosure

Bell Output: 12 Vdc at 1.5 Amp Max*

All circuits are inherent Power Limited except the red battery wire and AC terminal.

* For Commercial Burglary and Fire installations, see the Compliance Instructions section. See section 5.3 J12
3-Pin Header for Transformer Types for panel output 2 Amp or 3 Amp current limitations.

1.2 Communication

• Built-in network communication to DMP Model SCS-1R or SCS-VR Receivers (XR500N/XR500E only)

• Built-in encrypted communication to DMP Model SCS-1R Receivers (XR500E only)

• Built-in dialer communication to DMP Model SCS-1R Receivers

• Optional cellular communication to DMP Model SCS-1R or SCS-VR Receivers

• Built-in Contact ID communication to DMP Model SCS-1R Receivers

• Optional 893A Dual Phone Line Module with phone line supervision

• Can operate as a local panel

1.3 Panel Zones

Eight 1k Ohm EOL burglary zones (zones 1 to 8)
Two 3.3k Ohm EOL powered zone with reset (zones 9 and 10)

1.4 Keypad Bus

You can connect up to a total of 16 of the following supervised keypads and expansion modules to the keypad bus:

• Alphanumeric keypads • Four- and/or single-zone expansion modules

• Single-zone detectors • Access control modules

• Wireless Keypads (maximum of 4)

1.5 LX-Bus™

You can connect the following devices to the LX-Bus™ provided on the panel or by the DMP 481, 462N, 462P, 463C
464-263C and 464-263H Interface Cards up to the maximum number of LX-Bus™ addresses. See Accessory Devices in
section 3.4.

• Sixteen-, eight-, four- and/or single-zone expansion modules • Graphic annunciator modules

• Model 521LX or 521LXT Smoke Detectors with CleanMe • Relay output expansion modules

• Model 2W-BLX or 2WT-BLX Smoke Detectors

1.6 Outputs

The XR500 Series provide two Single Pole, Double Throw (SPDT) relay outputs which require the installation of two
Model 305 relays, each rated 1 Amp at 30 Vdc resistive (power limited sources only). A Model 431 Output Harness is
required to use these outputs.

The XR500 Series panels also provide four open collector outputs rated for 50mA each. The open collector outputs
provide ground connection for a positive voltage source. A Model 300 Output Harness is required to use these
outputs.

1.7 Enclosure Specications

The XR500 Series panels are shipped in an enclosure with a transformer, End-of-Line resistors, battery leads, user’s
guide, and programming sheets.

Enclosure

Model

350 17.5”W x 13.5”H x 3.5”D Gray (G) or Red (R) 18-Gauge

350A 17.5”W x 13.5”H x 3.75”D Gray (G) 18-Gauge with 16-Gauge door

341 12.75”W x 6.55”H x 3.15”D Gray (G) 20-Gauge

352X 14.5”W x 32.0”H x 4.0”D Gray (G) 16-Gauge

XR500 Series Installation Guide Digital Monitoring Products

Size Color(s) Construction (Cold Rolled

Steel)

1

INTRODUCTION

Panel Features

2.1 Description

The DMP XR500 Series panel is a versatile 12 Vdc, combined access control, burglary, and re communicator panel

with battery backup. The XR500 Series provides eight on-board burglary zones and two on-board 12 Vdc Class B
powered zones. The powered zones have a reset capability to provide for 2-wire smoke detectors, relays, or other
latching devices. The XR500 Series can communicate to DMP SCS-1R or SCS-VR Receivers using digital dialer, cellular,
network, or Contact ID communication.

2.2 Zone Expansion

Up to 574 additional zones are available on the XR500 Series using DMP LCD keypad remote zone capability and zone
expansion modules. The panel keypad data bus supports up to sixteen supervised device addresses with each address
supporting up to four programmable expansion zones.

Up to 500 zones are available using the on board LX-Bus, Model 461 Interface Adaptor with 481, 462N, 462P, 463C,
464-263C and 464-263H Interface Cards, and any combination of single, four, eight, or 16-zone expansion modules
and single-zone LX-Bus™ detectors.

Note: Do not use shielded wire for LX-Bus or Keypad Bus circuits.

2.3 Output Expansion

In addition to the two SPDT relays and four programmable open collector outputs on the XR500 Series, you can also
connect up to 25 programmable Model 716 Output Expansion Modules to each LX-Bus. These modules can provide an
additional 500 programmable SPDT relays.

The XR500 Series provides 100 Output Schedules for programming the 716 to perform a variety of annunciation and
control functions. Also assign the 716 outputs to any panel Output Options such as Fire Alarm, Communication Fail,
or Phone Trouble Outputs. Refer to the 716 Installation Guide (LT-0183).

The LX-Bus™ also supports the Model 717 Graphic Annunciator Module. Each 717 module supplies 20 switched ground
outputs that follow the state of their assigned zones.

Note: The 717 supports the rst eight Keypad Bus addresses. To follow Keypad Bus addresses nine through 16, install

multiple 716 modules. Refer to the 717 Installation Guide (LT-0235) and 716 Installation Guide (LT-0183).

2.4 Central Station Communication

You can program the XR500 Series panel for reporting to DMP SCS-1R or SCS-VR Receivers using digital dialer, cellular,
network, or Contact ID communication. The XR500 Series connects at the premises to a standard RJ31X or RJ38X
telephone jack. Use the DMP 893A Dual Phone Line Module when connecting the XR500 Series panel to two separate

phone lines in re or burglary applications.

2.5 Encrypted Communications (XR500N/XR500E only)

An XR500E panel communicates using AES encryption. If you currently have an XR500N panel installed, you may
contact DMP Customer Service with the panel serial number. The serial number(s) should be sent in writing via
e-mail or fax. A separate feature key is sent for each panel to activate encrypted communications using the Feature
Upgrade process. Encrypted communication cannot be enabled on a standard XR500 panel. For more information on
the Feature Upgrade process see the XR500 Series Programming Guide (LT-0679).

2.6 Caution Notes

Throughout this guide you will see caution notes containing information you need to know when installing the panel.
These cautions are indicated with a yield sign. Whenever you see a caution note, make sure you completely read
and understand its information. Failing to follow the caution note can cause damage to the equipment or improper
operation of one or more components in the system. See the example shown below.

Always ground the panel before applying power to any devices: The XR500 Series must be properly

grounded before connecting any devices or applying power to the panel. Proper grounding protects against
Electrostatic Discharge (ESD) that can damage system components.

2.7 Compliance Instructions

For applications that must conform to a local authorities installation standard or a National Recognized Testing

Laboratory certicated system, please see the Wiring Diagrams for Notication Appliances and the Listed Compliance
Specications section near the end of this guide for additional instructions.

Digital Monitoring Products XR500 Series Installation Guide

2

INTRODUCTION

System Components

3.1 Description

The DMP XR500 Series system is made up of an alarm panel with a built-in communicator, an enclosure, battery,
one 16.5 VAC transformer, and keypads. You can use up to sixteen supervised 32-character LCD keypads; network
communications and expansion interface cards; zone and output expansion modules; and initiating and indicating
circuit modules. You can also connect auxiliary devices to the panel’s output relays to expand the basic system
control capability. Combined current requirements of additional modules may require an auxiliary power supply.
Refer to the XR500 Series Power Requirements section in this guide when calculating power requirements.

3.2 Wiring Diagram

The XR500 Series diagram below shows some of the accessory modules you can connect for use in various
applications. A brief description of each module follows in section 3.4.

NFPA 72 OPERATING

INSTRUCTIONS

The operating instructions should be
located adjacent to the control unit or
keypad.

HOUSEHOLD FIRE WARNING

Recognized limited energy cable must
be used for connection of all initiating,
indicating, and supplementary devices.

Commercial and Residential Fire,
Burglar, Holdup, and Access Protected
Premise Unit

Bell

12 VDC
Minimum cutoff time 5 min.

1.5 Amp Max

The plug-in transformer shall plug
into a 120 VAC 60 Hz outlet not
controlled by a switch and all

18 gauge wire

conduit.

USE MARKING

shall run through

16 to

TYPES OF SERVICE

Suitable for Local, Police
Station Connect, Mercantile,
and Proprietary with 350A
Enclosure.

Central Station DACT service
may be provided using 350A
Attack Resistant enclosure.

Suitable for Proprietary, PPU,
other technologies, local.

Suitable for Signaling and
Remote Station PPU DACT
Service.

Suitable for manual fire alarm,
automatic fire alarm, sprinkler
supervisory, or water flow
alarm.

Suitable for Standard or
Encrypted Central Station with
NET or CELL communication.

Suitable for Bank Safe and
Vault Service with 350A
Enclosure.

Suitable for Household Fire
and Household Burglary.

Suitable for Coded and March
Time signaling.

SIA CP-01-2010 minimum
system is XR500, listed local
Bell, and off premise DACT
communication to an SCS-1R
receiver plus listed compatible
keypads as indicated in the
installation guide.

Maximum AC Wire distance
with 16 gauge wire: 70 feet
with 18 gauge wire: 40 feet

1k Ohm 1k Ohm 1k Ohm

Use Listed Power Supervision

s

s

16 to 18 gauge wire

RED

BLACK

Earth Ground

For Standard Line
Security burglary
applications use
Ademco Model
AB12M bell and bell
housing.

sss

Relay rated at 12 VDC.

J3

Phone Line

J12

50VA

Battery
Start

AC

1 2 3 4 5 6 7 8 10 11 12 13 14 15 16 17 18 199 20 21 22 23 24 25 26 27 28

Cold Water
Pipe Earth
Ground

Bell cutoff time
range is 5 to 99
minutes, non-coded.

s s

s s

DISARM

Intended Installation Environment - Indoor/Dry

THIS UNIT MAY BE PROGRAMMED TO USE AN ALARM VERIFICATION FEATURE THAT
RESULTS IN DELAY OF THE SYSTEM ALARM SIGNAL FROM THE INDICATED CIRCUITS.
THE TOTAL DELAY (CONTROL UNIT PLUS SMOKE DETECTORS) SHALL NOT EXCEED 60
SECONDS. NO OTHER SMOKE DETECTOR SHALL BE CONNECTED TO THESE CIRCUITS
UNLESS APPROVED BY THE LOCAL AUTHORITY HAVING JURISDICTION (AHJ).

WARNING

XR500 Series

Command Processor™

s

75VA

Activity LED

Power
LED

Link LED

J23

R
L
X

Panel

J1

Ethernet

J21

RS-232

J4

Tamper

s

s

J22
LX-Bus

J10

J8

PROG

+B BELL GND SMK GNDRED YEL GRN BLK Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Z9+ Z9– Z10+Z10–AC –B GND GND GNDGND

s

s

s

s

22 gauge minimum

22 gauge minimum

22 gauge minimum

22 gauge minimum

s s s s s

1.5k
Ohm

Bell

s

ARM

RED

YELLOW

Keyswitch Arming
can be connected
to any zone.

Smoke

Detector

1k Ohm

GREEN

BLACK

s

s

s

AC Wiring must be in conduit and exit
out the left side of the enclosure.

Wiring on terminals 5 through 22 must
exit right and maintain 1/4" separation
from the AC and battery positive wiring.

OVC

Output 1 Output 2

J2

K6 K7

Zone 1

SS

1k

1k

Ohm

Ohm

Minimum voltage on Auxiliary output to
process Sensor trips is 10.2 VDC.

1.5 Amp Max 10.2 VDC to 14.0 VDC
When using (2) Model 364 Batteries

325 mA Max 10.2 VDC to 14.0 VDC

BLACK
GREEN

YELLOW

RED

RED
RED

YELLOW

GREEN
BLACK

¼"

1.0k Ohm - DMP Model 311

3.3k Ohm - DMP Model 309

J11

3

10K Ohm - DMP Model 308

4
5
6

Out1 Out2

Outputs 3-6

Zone 2

Zone 3

Zone 4

SS

SS

SS

1k

1k

Ohm

Ohm

Ohm

Auxiliary/Smoke Power

Total current combined from

terminals 7, 11, 25, and 27

Total Combined Current from

terminals 7, 11, 25, and 27

s

Zone Expander

Model 714

7mA @ 12 VDC

Models 714-8, 714-16

20mA @ 12 VDC

1k Ohm 1k Ohm 1k Ohm

S SS SS S

WARNING: Incorrect
connections may cause
damage to the unit.

The total current combined from Auxiliary and Bell Power cannot
exceed:

Burglary/Access/Household Fire: 1.3 Amps with a 50 VA transformer,

1.0 Amp Max for Auxiliary Power

Commercial Fire: 1.2 Amps with a 56 VA transformer, .5 Amp Max for
Auxiliary Power and .7 Amp Max for Bell

Form C Relays (J2)

Output Color Code–Model 431 Harness
Output 2 N/O Orange/White
Output 2 Com White/Gray
Output 2 N/C Violet/White
Output 1 N/O Orange
Output 1 Com Gray
Output 1 N/C Violet

Annunciator Outputs (J11)

Output Color Code
Output 3 Red
Output 4 Yellow
Output 5 Green
Output 6 Black

Listed Resistors

J16

Reset

Zone9Zone

Zone 8

Zone 7

Zone 5

Zone 6

SS

SS

SS

1k

1k

Ohm

Zone
Expander
Model 711
7mA @ 12

VDC

S S

1k Ohm

SS

1k

1k

Ohm

Ohm

S S S S

3.3k

3.3k

Ohm

Ohm

Resistor

Resistor

= Supervised Circuit

s

NO

S1

ON

C

J1

NC

RELAY

Interface

RED

ON

Modul

READ LED

WIEGAND

734

YEL

XMT LED

GRN

DATA

e

PROG

J2

Piezo

J4

J5

VDC

S

1k Ohm

LC ASRED WHT GRN BLK Z1 Z2 Z3 Z4+Z4–RA GND GND

S

RED

KYPD IN

RED

KYPD OUT

RED

+ –

Zone Expander

(up to 8 zones)

Model 712-8

19mA @ 12

CAUTION: DO NOT USE LOOPED WIRE
UNDER TERMINALS. BREAK WIRE RUN TO
PROVIDE SUPERVISION OF CONNECTIONS.

10

J3

1

2

3

4 5 6 7

8

9

10

11 12 13 14

S S S S S S S S

3.3k Ohm 3.3k Ohm 3.3k Ohm 3.3k Ohm

Front and Rear
tamper protection
included with
Model 350A
Attack Resistant
Enclosure.

Front

Tamper

Rear

Tamper

Heat detectors, pull
stations, or any other
contact devices listed
for Fire Protective
Signaling can be
connected to zones
9 and 10.

Zones 9 and 10 and
Model 715 compatibility
identifier: A
Maximum operating
range: 9.7 VDC to

14.0 VDC.
Class B (Style A).

Zones 9, 10, and all
expanded zones are
suitable for Class B (as
applicable for the
initiating and signaling
line circuits per ANSI/UL
864 Table 48.2 or 48.3).
Installation limits under
local Authority Having
Jurisdiction (AHJ).

Using verification delays
on zones 9 and 10 is
optional. Use the
delays marked on the
smoke detectors.

Red
White (Data 1)
Green (Data 0)

Black

Card Reader

Orange
Yellow

Zone Expander

Model 715

7mA @ 12 VDC

Models 715-8, 715-16

20mA @ 12 VDC

Figure 1: XR500 Series Wiring Diagram

XR500 Series Installation Guide Digital Monitoring Products

3

INTRODUCTION

3.3 Lightning Protection

Metal Oxide Varistors and Transient Voltage Suppressors help protect against voltage surges on XR500 Series input
and output circuits. Additional surge protection is available by installing the DMP 370 or 370RJ Lightning Suppressors.

3.4 Accessory Devices

Interface Adaptor and Interface Cards

461 Interface Adaptor Card Allows you to connect two or more expansion interface cards to the XR500 Series

462P Printer Interface Card Allows you to connect the XR500 Series to any compatible serial printer providing the

464-263C/464-263H Cellular
Communicator Card

481 Expansion Interface Card Provides one LX-Bus for connecting up to 100 zone and output expansion modules.

Expansion Modules

710 Bus Splitter/Repeater Allows you to increase keypad or LX-Bus™ wiring distance to 2500 feet.
711 Single Point Zone Expanders Provides one Class B zone for connecting burglary devices.
714, 714-8, 714-16 Zone

Expanders
712-8 Zone Expander Provides Class B zones for connecting burglary devices.
715, 715-8, 715-16 Zone

Expanders
716 Output Expander Provides four Form C relays (SPDT) and four switched grounds (open collector) for use

717 Graphic Annunciator Module Provides 20 zone following annunciator outputs (open collector) for use in a variety of

734, 734N, 734N-WiFi Wiegand
Interface Modules*

DMP Two-Way Wireless Devices

1100X/1100XH Receiver Supports up to 500 devices in residential or commercial wireless operation.
1100R Repeater Provides additional range for wireless devices.
1101 Universal Transmitter Provides both internal and external contacts that may be used at the same time to

1102 Universal Transmitter Provides an external contact.
1103 Universal Transmitter Provides both internal and external contacts that may be used at the same time to

1106 Universal Transmitter Provides both internal and external contacts that may be used at the same time to

1107 Micro Window Transmitter* Provides a wireless window transmitter.
1114 Four-Zone Expander* Provides four wireless zones.
1115 Wireless Temperature

Sensor and Flood Detector*
1116 Relay Output* Provides one Form C relay.
1117 LED Annunciator* Provides a visual system status indicator.
1118 Remote Indicator Light* Provides a visual indication of a Panic situation.
1119 Door Sounder* Provides a battery powered sounder.
1121 PIR Motion Detector* Provides motion detection with pet immunity.

1126R PIR Motion Detector* Ceiling mount motion detector with panel programmable sensitivity and Disarm/Disable

1127C/1127W PIR Motion
Detector

1129 Glassbreak Detector* Detects the shattering of framed glass mounted in an outside wall and provides full-

* Security Device Only: This device has not been investigated and shall not be used in listed installations.

panel. The 461 is an expansion mother board that plugs into the panel J6 Interface
Connector and is required when using two or more Interface Cards. Use combinations
of Interface Cards for expanding zones, network interfacing, local printing, and
connecting wireless devices.

user with real-time event recording. The 462P also provides an LX-Bus™ for connecting
zone and output expansion modules.

Provides a fully supervised alarm communication path over the CDMA network or HSPA
+ network for XR500 Series panels. The 464-263C or 464-263H also provides an LX-Bus™
for connecting zone and output expansion modules to the panel.

Provides Class B zones for connecting burglary and non-powered re devices.

Provides 12 Vdc Class B powered zones for connecting smoke detectors, glassbreak
detectors, and other 2- or 4-wire devices.

in a variety of remote annunciation and control applications for use on the LX-Bus only.

remote annunciation and control applications for use on the LX-Bus only.
Provides system codeless entry, and arming and disarming using access control readers.

yield two individual reporting zones from one wireless transmitter.

yield two individual reporting zones from one wireless transmitter. Requires EOL
resistor for external contact. Provides Disarm/Disable functionality.

yield two individual reporting zones from one wireless transmitter.

Temperature and ood detector with an internal temperature sensor. Can be paired

with 470PB or T280R remote sensors.

functionality.
Wall mount motion detector with panel programmable sensitivity and Disarm/Disable

functionality.

pattern coverage and false-alarm immunity.

Digital Monitoring Products XR500 Series Installation Guide

4

INTRODUCTION

3.4 Accessory Devices (continued)

DMP Two-Way Wireless Devices (continued)

1131 Recessed Contact* Provides a recessed contact option for door or window applications.
1135 Wireless Siren* Provides a wireless siren.
1137 Wireless LED Emergency

Light
1139 Bill Trap* Provides a silent alarm option for retail and banking cash drawers.
1141 Wall Button* One button wall mounted wireless transmitter.
1142BC Two-button Hold-up

Belt Clip Transmitter
1142 Two-button Hold-up

Transmitter
1144-4 (Four-Button)*

1144-2 (Two-Button)*
1144-1 (One-Button)*

1164NS Wireless Commercial
Smoke

1165 Commercial Smoke
Detector

1183-135F Heat Detector Fixed temperature heat detector.
1183-135R Heat Detector Fixed temperature and rate-of-rise heat detector.
1184 Carbon Monoxide

Detector

Indicating and Initiating Devices

860 Relay Module* Provides dry relay contacts that are programmable and controlled from the DMP panel

865 Supervised Style W or X

Notication Circuit Module

866 Style W Notication Circuit

Module

867 Style W LX-Bus Notication

Circuit Module

869 Dual Class A Style D
Initiating Module

Accessory Modules and Keypads

893A Dual Phone Line Module Allows you to supervise two standard phone lines connected to an XR500 Series panel.

LCD keypads Allows you to control the panel from various remote locations. Connect up to sixteen

9000 Series Wireless keypads Allows you to control the panel from various remote locations. Connect up to four

9800 Series Wireless
Touchscreen keypads

Addressable Smoke Detectors

2W-BLX, 2WT-BLX Single-zone, addressable conventional smoke, smoke/heat detectors that connect to the

Graphic

* Security Device Only: This device has not been investigated and shall not be used in listed installations.

Provides path lighting in the event of an alarm or trouble such as Burglary Alarm Output
or can be activated simultaneously by the panel via the Trip with Panel Bell feature.

Provides two-button hold-up operation with a belt clip.

Provides permanently mounted under-the-counter two-button hold-up operation.

Key Fob transmitters designed to clip onto a key ring or lanyard.

Battery powered, wireless, low prole, photoelectric smoke detector.

Commercial smoke detector.

Carbon monoxide detector.

annunciator outputs. Includes one Form C (SPDT) relay rated 1 Amp @ 30 Vdc. Sockets
are provided to allow the addition of three Model 305 plug-in relays.

Provides supervised alarm current when using the XR500 Series panel bell output
and up to 5 Amps at 12 or 24 Vdc when using a listed auxiliary power supply. The 865
can supervise 2-wire or 4-wire style circuits for opens and shorts with individual LED
annunciation.

Provides supervised alarm current using the XR500 Series panel bell output and up to 5
Amps at 12 or 24 Vdc when using a listed auxiliary power supply. The 866 can supervise
2-wire Style W circuits for opens and shorts.

Provides supervised alarm current using the XR500 Series panel bell output and up to 5
Amps at 12 or 24 Vdc when using a listed auxiliary power supply. The 867 connects to the

XR500 Series panel LX-Bus™ and provides one 2-wire Style W notication circuit for open

and short conditions. Individual Bell Relay addresses Bell Ring styles.

Provides two Class A, Style D, 4-wire initiating zones for connecting waterow switches
and other non-powered re and burglary devices.

The 893A module monitors the main and backup phone lines for a sustained voltage drop
and alerts users when the phone line is bad.

supervised Model 630F Remote Fire Command Center, Model 7060, 7063, 7070, 7073,
7160, 7163, 7170, 7173 Thinline™ keypads, 7060A, 7063A, 7070A, 7073A Aqualite™
keypads, 7760 Clear Touch™ keypad, or 7872, 7873 Graphic Touchscreen keypads to the
keypad bus using terminals 7, 8, 9, and 10.

9060/9063 Wireless Keypads.
Allows you to control the panel from various remote locations. Connect up to four

keypads. 9862 Wireless Keypads.

LX-Bus. Includes drift compensation.

XR500 Series Installation Guide Digital Monitoring Products

5

INTRODUCTION

Installation

4.1 Mounting the Enclosure

The metal enclosure for the XR500 Series must be mounted in a secure, dry place to protect the panel from damage
due to tampering or the elements. It is not necessary to remove the XR500 Series PCB when installing the enclosure.
Figure 2 shows the mounting hole locations for the Model 350/350A Enclosures. Figure 3 shows the Model 341 Kiosk
Enclosure. Figure 4 shows the Model 352X panel cabinet and 352S shelf cabinet for multiple batteries.

The 350A Attack Resistant enclosure is factory shipped with one knockout on the top left of the enclosure. As
needed, additional knockouts or antenna exits may be added at the time of installation. See Figure 2 for the

positions on the enclosure that can be added. Each additional knockout must be lled with conduit.

Note: When using the XR500 Series panel for listed applications, use the Model 350, 349, 341, or 352S enclosure for

standby batteries. When using the 352X or 352S in listed applications, the enclosure must be surface mounted
on the wall.

Enclosure Mounting Holes

J3

Phone Line

Power
LED

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9– Z10+Z10–AC –B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Link LED

Activity LED

R
L
X

J4

Tamper

J22
LX-Bus

J10

J8

PROG

Output 1Output 2

XR500 Series Panel

OVC

J2

J11

3

K6 K7

4
5
6

Out1 Out2

Outputs 3-6

J1

Ethernet

J21

J23

RS-232

Interface

Card
Expansion
Connector

J16

Reset

J6

*

Pattern for

Accessory

Modules

*

Dual 1 3/4" and 1 3/8" Conduit Knockouts

* 350A Optional Knockout

Battery Shelf holds up to three 7 Ah Batteries

*

Figure 2: XR500 Series in Model 350 or 350A Enclosure

Front and

Rear Tamper

Switches for
350A Attack

Resistant

Enclosure

*

3-Hole

*

Digital Monitoring Products XR500 Series Installation Guide

6

PEMs for optional battery bracket

Lid Mounting Holes (4 places)

Lid Mounting Holes
(4 places)

J3

Phone Line

Battery
Start

AC

+B BELLGND SMK GNDRED YEL GRN BLK Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Z9+ Z9– Z10+Z10–AC –B GND GND GNDGND

1 2 3 4 5 6 7 8 10 11 12 13 14 15 16 17 18 199 20 21 22 23 24 25 26 27 28

XR500 Series Panel

Link LED

Activity LED

Ethernet

J23

Power

RS-232

R

LED

L
X

J21

J1

J22
LX-Bus

J10

J8

PROG

J4

Tamper

OVC

Output 1 Output 2

J2

K6 K7

Out1 Out2

INSTALLATION

J11

3
4
5
6

Outputs 3-6

Enclosure Mounting Holes (4 places)

J16

Reset

Figure 3: XR500 Series in Model 341 Enclosure

100 VA

Transformer

J3

Phone Line

Battery
Start

AC

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

J4

Tamper

J1

Ethernet

J21

J23

Power

RS-232

LED

J22
LX-Bus

J10

J8

PROG

+B BELLGND SMK GNDRED YEL GRNBLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9–Z10+ Z10–AC –B GND GND GNDGND

Mounting for one (1)

Zone Expansion Module.

Mounting
Plate

XR500 Series

Command Processor™

Panel

Output 1Output 2

J2

J11

3

K6 K7

4
5
6

Out1 Out2

Outputs 3-6

Interface

Expansion
Connector

J16

Reset

Dual 1/2" and 3/4" Conduit Knockouts

J6

Card

Battery Shelf

Figure 4: XR500 Series in Model 352X Enclosure and Separate 352S Enclosure with Shelves

XR500 Series Installation Guide Digital Monitoring Products

7

INSTALLATION

RCV

4.2 Mounting Keypads and Zone Expansion Modules

DMP LCD keypads have removable covers that allow you to easily mount the keypad to a wall or other at surface

using the screw holes on each corner of the base. Before mounting the base, connect the keypad wire harness leads
to the keypad cable from the panel and to any device wiring run to that location. Then attach the harness to the pin
connector on the PC board, mount the base, and install the keypad cover making sure all of the keys extend through
their respective holes.

For mounting keypads on solid walls, or for applications where conduit is required, use the Model 695 1-1/2” deep or
the Model 696 1/2” deep backboxes.

The DMP 711, 712-8, 714, 715, 716, and 717 modules are each contained in molded plastic housings with removable
covers. The base provides you with mounting holes for installing the unit to a wall, switch plate, or other surface.

4.3 Connecting LX-Bus and Keypad Bus Devices

Several factors determine the DMP LX-Bus™ and keypad bus performance characteristics: the wire length and gauge
used, the number of devices connected, and the voltage at each device. When planning an LX-Bus™ and keypad bus
installation, keep in mind the following information:

1. DMP recommends using 18 or 22-gauge unshielded wire for all keypad and LX-Bus circuits. Do not use twisted

pair or shielded wire for LX-Bus and keypad bus data circuits.

2. On keypad bus circuits, to maintain auxiliary power integrity when using 22-gauge wire do not exceed 500
feet. When using 18-gauge wire do not exceed 1,000 feet. To increase the wire length or to add devices, install
an additional power supply that is listed for Fire Protective Signaling, power limited, and regulated (12 Vdc
nominal) with battery backup.

Note: Each panel allows a specic number of supervised keypads. Add additional keypads in the unsupervised
mode. Refer to the panel installation guide for the specic number of supervised keypads allowed.

3. Maximum distance for any one bus circuit (length of wire) is 2,500 feet regardless of the wire gauge. This
distance can be in the form of one long wire run or multiple branches with all wiring totaling no more than
2,500 feet. As wire distance from the panel increases, DC voltage on the wire decreases. Maximum number of

LX-Bus devices on the rst 2,500 foot circuit is 40 devices.

4. Maximum voltage drop between the panel (or auxiliary power supply) and any device is 2.0 Vdc. If the voltage
at any device is less than the required level, add an auxiliary power supply at the end of the circuit. When
voltage is too low, the devices cannot operate properly.

For additional information refer to the LX-Bus/Keypad Bus Wiring Application Note (LT-2031).

Expansion Interface Cards (Models 481, 462N, 462P, 463C, 464-263C and 464-263H)

The LX-Bus provided on these cards requires only a 4-wire cable between the card and any devices connected to the
bus. You can connect devices (zone or output expansion modules) together on the same cable or provide separate
runs back to the card. Each LX-Bus provides up to 100 zones or outputs.

4.4 Wireless Keypad Association

Enable Wireless Keypad Association operation on both the keypad and panel.
To enable association operation in the keypad, access the Installer Options Menu (3577

(INST)) and select RF Survey). The keypad logo LEDs turn on Red until association is

J8

XMIT

Programming

successful.
To enable association operation in the XR500 panel, reset panel 3 times within 12

seconds. Allow the keypad bus Transmit/Receive LEDs to turn back on between each
reset.

Figure 5: Keypad Bus LEDs

For 60 seconds the panel listens for wireless keypads that are in the Installer Options
Menu (3577 CMD) and have not been programmed, or associated into another panel. Those keypads are assigned to

the rst open device position automatically based upon the order in which they are detected. The keypad logo turns

Green to indicate it has been associated with the panel.

Digital Monitoring Products XR500 Series Installation Guide

8

INSTALLATION

Primary Power Supply

5.1 AC Terminals 1 and 2

Connect the transformer wires to terminals 1 and 2 on the panel. Use no more than 70 ft. of 16 gauge or 40 ft. of 18
gauge wire between the transformer and the XR500 Series.

Always ground the panel before applying power to any devices: The XR500 Series must be properly

grounded before connecting any devices or applying power to the panel. Proper grounding protects against
Electrostatic Discharge (ESD) that can damage system components. See the Earth ground section.

5.2 Transformer Types

Use Model 327 (16.5 VAC 50 VA) plug-in or Model 322/323 (16 VAC 56 VA), or 324/324P (16 VAC 100 VA) wire-in
transformer. Use Model 322/323 or 324/324P wire-in transformers when required by the Authority Having Jurisdiction
(AHJ).

The transformer must be connected to an unswitched 120 VAC 60 Hz electrical outlet with at least .87A of

available current. Never share the transformer output with any other equipment.

5.3 J12 3-Pin Header for Transformer Types

Place the jumper on the left two pins labeled 50VA for a Maximum 2 Amp (Bell+Aux+Smoke=2 Amp) when using the
Model 322/323 56VA, or 327 50VA plug-in transformer (default).

Place the jumper on the right two pins labeled 75VA for a Maximum 3 Amp (Bell+Aux+Smoke=3 Amp) when using the
Model 324/324P 100 VA wire-in transformer.

Note: For UL Commercial Fire installations, refer to the Universal Fire Alarm Specications, Transformer section, for

more information.

Secondary Power Supply

To AC

Panel Red and
Black Battery Cables

Battery
Start

AC

1234

14 AWG to
Earth Ground

XR550

Panel

+BAC –B

To Bell
Circuit

BELLGND

56

6.1 Battery Terminals 3 and 4

Connect the black battery lead to the negative battery
terminal. The negative terminal connects to the enclosure
ground internally through the XR500 Series circuit board.
Connect the red battery lead to the battery positive
terminal. Observe polarity when connecting the battery.

You can add a second battery in parallel using the DMP
Model 318 Dual Battery Harness. DMP requires each battery

318 Battery
Harness

Battery

PTC

318 Battery
Harness

PTC

Red

Red

Black

Black

be separated by a PTC in the battery harness wiring to
protect each battery from a reversal or short within the

Battery

Battery

circuit. See Figure 6.

For listed installations, all batteries shall be installed
in a DMP Model 350 or Model 352S enclosure and all wiring shall run through conduit. The enclosure shall be
installed to the left of the XR500 Series enclosure to ensure Battery and AC wire separation.

Use sealed lead-acid batteries only: Use the DMP Model 364 (12 Vdc 1.3Ah), DMP Model 365 (12 Vdc 9
Ah), Model 366 (12 Vdc 18 Ah), Model 368 (12 Vdc 5.0 Ah), or Model 369 (12 Vdc 7 Ah) sealed lead-acid
rechargeable battery. Batteries supplied by DMP have been tested to ensure proper charging with DMP
products.

GEL CELL BATTERIES CANNOT BE USED WITH THE XR500 SERIES PANEL.

6.2 Earth Ground (GND)

To provide proper transient suppression, XR500 Series panel terminal 4 must be connected to earth ground using
14 gauge or larger wire. DMP recommends connecting to a cold water pipe, ground rod, or building ground only. Do
not connect to an electrical ground or conduit, sprinkler or gas pipes, or to a telephone company ground.

6.3 Battery Only Restart

When powering up the XR500 Series panel without AC power, briey short across the battery start pads to pull in
the battery cuto relay. The leads need a momentary short only. Once the relay has pulled in, the battery voltage
holds it in that condition. If the XR500 Series panel is powered up with an AC transformer, the battery cuto relay is

pulled in automatically. For more information refer to Figure 1.

XR500 Series Installation Guide Digital Monitoring Products

9

INSTALLATION

6.4 Battery Replacement Period

DMP recommends replacing the battery every 3 to 5 years under normal use.

6.5 Discharge/Recharge

The XR500 Series battery charging circuit oat charges at 13.9 Vdc at a maximum current of 1.0 Amps using a
50 VA or 56 VA transformer. Listed below are the various battery voltage level conditions:

Battery Trouble: Below 11.9 Vdc

Battery Cuto: Below 10.2 Vdc

Battery Restored: Above 12.6 Vdc

6.6 Battery Supervision

The XR500 Series tests the battery when AC power is present. The test is done every three minutes and lasts for ve

seconds. During the test, the panel places a load on the battery; if the battery voltage falls below 11.9 Vdc a low
battery is detected. If AC power is not present, a low battery is detected any time the battery voltage falls below

11.9 Vdc.

If a low battery is detected with AC power present, the test repeats every two minutes until the battery charges
above 12.6 Vdc indicating the battery has restored voltage. If a weak battery is replaced with a fully charged
battery, the restored battery will not be detected until the next two minute test is completed.

6.7 Battery Cuto

The panel disconnects the battery any time the battery voltage drops below 10.2 Vdc. This prevents battery deep
discharge damage.

Digital Monitoring Products XR500 Series Installation Guide

10

INSTALLATION

6.8 XR500 Series Power Requirements

During AC power failure, the XR500 Series panel and all connected auxiliary devices draw their power from the battery.
All devices must be taken into consideration when calculating the battery standby capacity. The following table lists
the XR500 Series panel power requirements. You must add the additional current draw of keypads, zone expansion
modules, smoke detector output, and any other auxiliary devices used in the system for the total current required. The
total is then multiplied by the number of standby hours required to calculate the total ampere-hours required.

Standby Battery Power Calculations Standby Current Alarm Current

XR500 Series Control Panel

Relay Outputs 1-2 (ON)
Switch Grounds 3-6 (ON)
Active Zones 1-8
Active Zones 9-10
2-Wire Smoke Detectors

Qty 1_
Qty ______
Qty ______
Qty ______
Qty ______
Qty ______

Panel Bell Output

893A Dual Phone Line Module Qty ______ x 12mA ______ Qty ______ x 50mA ______

461 Interface Adaptor Card 7mA ______ 7mA ______

462N Network Interface Card Qty ______ x 50mA ______ Qty ______ x 50mA ______

462P Printer Interface Card Qty ______ x 50mA ______ Qty ______ x 50mA ______

463C CDMA Cellular Communicator

464-263C CDMA Cellular Communicator

464-263H HSPA+ Cellular Communicator

Qty ______ x 22mA ______ Qty ______ x 22mA ______

Qty ______ x 15mA ______ Qty ______ x 48mA ______

Qty ______ x 15mA ______ Qty ______ x 48mA ______

481 Expansion Interface Card Qty ______ x 15mA ______ Qty ______ x 15mA ______

1100X Wireless Receiver Qty ______ x 46mA ______ Qty ______ x 46mA ______

1100XH Wireless High Power Receiver Qty ______ x 160mA ______ Qty ______ x 160mA ______

860 Relay Output Module (one relay active)

Qty ______ x 34mA

All four relays active

865 Style Y or Z Notication Module Qty ______ x 26mA ______ Qty ______ x 85mA ______

866 Style W Notication Module Qty ______ x 45mA ______ Qty ______ x 76mA ______

867 LX-Bus Style W Notication Module Qty ______ x 30mA ______ Qty ______ x 86mA ______

869 Dual Style D Initiating Module Qty ______ x 25mA ______ Qty ______ x 75mA ______

630F Remote Fire Command Center Qty ______ x 63mA ______ Qty ______ x 92mA ______

7060/7160 Thinline/7060A Aqualite Keypad Qty ______ x 72mA ______ Qty ______ x 80mA ______

7063/7163 Thinline/7063A Aqualite Keypad Qty ______ x 85mA ______ Qty ______ x 100mA ______

7070/7170 Thinline/7070A Aqualite Keypad

Qty ______ x 72mA

Active Zones (EOL Installed)

7073/7173 Thinline/7073A Aqualite Keypad

Qty ______ x 85mA

Active Zones (EOL Installed)

7872 Graphic Touchscreen Keypad

Active Zones (EOL Installed)

7873 Graphic Touchscreen Keypad

Active Zones (EOL Installed)

734 Wiegand Interface Module

Active Zones (EOL Installed)

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Annunciator (ON)

x 180mA

30mA

5mA

1.6mA

4mA

0.1mA

138mA

1.6mA

1.6mA

145mA

1.6mA

143mA

1.6mA

15mA

1.6mA

180 mA
______
______
______
______
______

______
______

______
______

______
______

______
______

______
______

______
______

Qty 1_
Qty ______
Qty ______
Qty ______
Qty ______
Qty ______

x 180mA

30mA

5mA

2mA*
30mA

0.1mA

1500mA

Qty ______ x 34mA

138mA

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______
Qty ______

x
x
x

87mA

2mA*

100mA

2mA*

215mA

2.0mA

243mA

2.0mA

15mA

2mA*
20mA

180 mA

______
______
______
______
______
______mA

______
______

______
______

______
______

______
______

______
______

______
______
______

734N Wiegand Interface Module
Active Zones (EOL Installed)

Annunciator (ON)

Wiegand Reader

734N-WiFi Wiegand Interface Module
Active Zones (EOL Installed)

Annunciator (ON)

Wiegand Reader

Qty ______
Qty ______

Qty ______

Qty ______
Qty ______

Qty ______

x

146mA

x

x

200mA

x

146mA

x

x

200mA

1.6mA

1.6mA

______
______

______

______
______

______

Qty ______
Qty ______
Qty ______
Qty ______

Qty ______
Qty ______
Qty ______
Qty ______

x
x
x
x

x
x
x
x

148mA

2mA*
20mA

200mA

148mA

2mA*
20mA

200mA

______
______
______
______

______
______
______
______

Copy Sub-Totals to next page Sub-Total Standby ______mA Sub-Total Alarm ______mA
*Based on 10% of active zones in alarm.

XR500 Series Installation Guide Digital Monitoring Products

11

INSTALLATION

Standby Battery Power Calculations Standby Current Alarm Current

736P POPIT Interface Module

Radionics Popex, POPITs, OctoPOPITs

738A Ademco Wireless Interface Module Qty ______ x 75mA ______ Qty ______ x 75mA ______

710 Bus Splitter/Repeater Module Qty ______ x 32mA ______ Qty ______ x 32mA ______

711 Zone Expansion Module

Active Zone (EOL Installed)

714 Zone Expansion Module

Active Zones (EOL Installed)

712-8 Zone Expansion Module

Active Zones (EOL Installed)

714-8, 714-16 Zone Expansion Module

Active Zones (EOL Installed)

715 Zone Expansion Module

Active Zones (EOL Installed)
2-Wire Smokes

715-8, 715-16 Zone Expansion Modules

Active Zones (EOL Installed)
2-Wire Smokes

716 Output Expansion Module

Active Form C Relays

717 Graphic Annunciator Module

Annunciator Outputs

521LX, 521LXT Smoke Detectors Qty ______ x 8.8mA ______ Qty ______ x 28mA* ______

2W-BLX, 2WT-BLX Smoke Detectors Qty ______ x 11mA ______ Qty ______ x 31mA* ______

COSMOD2W Module

COSMO-2W Smoke and CO Detectors

572 Indicator LED Qty ______ x 20mA ______ Qty ______ x 20mA ______

Aux. Powered Devices on Terminals 7 and 11

Other than Keypads and LX-Bus Modules

Sub-Totals this page only Sub-Total Standby ______ mA Sub-Total Alarm ______mA
Sub-Totals from previous page Sub-Total Standby ______ mA Sub-Total Alarm ______mA

*Based on 10% of active zones in alarm Total Standby ______ mA Total Alarm ______mA

# For systems that are not central station monitored, multiply alarm current by 12.

Total Standby ______ mA x number of Standby Hours needed

Qty_______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______
Qty ______

Qty ______
Qty ______
Qty ______

___mA

1.6mA

1.6mA

1.6mA

1.6mA

x
x
x

x
x
x

25mA

11mA

7mA

17mA

20mA

7mA

4mA

.1mA

20mA

4mA

.1mA

______
______

______
______

______
______

______
______

______
______

______
______
______

______
______
______

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______xx

Qty ______
Qty ______
Qty ______

Qty ______
Qty ______
Qty ______

Qty ______ x 13mA ______ Qty ______

Qty ______xx

Qty ______ x 10mA ______ Qty ______

Qty ______xx

Qty ______
Qty ______xx

45mA

1mA

______
______

Qty ______
Qty ______xx

______mA ______mA

Total Alarm

______ =
______ mA

_______ mA-hours

+ _______ mA-hours

Total

_______ mA-hours
X .001
= _______ Amp-hrs Required

___mA

x
x

30mA*

x

x
x

30mA*

x

174mA*#

50mA*#

25mA

11mA

2mA*

7mA

2mA*

17mA

2mA*

20mA
2mA*

7mA

.1mA

20mA

.1mA

13mA
12mA

10mA

1mA

______
______

______
______

______
______

______
______

______
______

______
______
______

______
______
______

______
______

______
______

______
______

Refer to section 6.9 for standby battery selection.

Digital Monitoring Products XR500 Series Installation Guide

12

INSTALLATION

6.9 Standby Battery Selection

To choose the type and number of batteries needed for 24, 60, or 72 hours of standby power based on the Amp Hours
Required calculation from section 6.8 XR500 Series Power Requirements, perform the following:

1. Select the desired standby hours required from the table below: 24, 60, or 72 hours

2. Select the desired battery size: Model 368 (12 Vdc 5.0 Ah), Model 369 (12 Vdc 7 Ah),

Model 365 (12 Vdc 9 Ah), Model 366 (12 Vdc 18 Ah), or Model 364 (12 Vdc 1.3 Ah) when used in the
Model 341 enclosure.

3. Select a Max. Ah Available number that is just greater than the number calculated in Amp Hours Required.

4. Install the number of batteries shown in the corresponding No. of Batteries required column.
Example: If the Amp Hours Required calculation equals 22 Ah for 24 hours of standby time and 4.5 Ah batteries are

desired, install six (6) Model 368 (12 Vdc, 5.0 Ah) batteries.

Note: You can use a Model 327 Plug-in 50 VA or Model 322/323 Wire-in 56 VA with up to 36 Ah of batteries. The Model

324/324P Wire-in 100 VA Transformer may be used with any of the battery choices listed below.
For listed installations, all batteries shall be installed in a DMP Model 341, 349, 350 or 352S enclosure and all wiring
shall run through conduit. The enclosure shall be installed to the left of the XR500 Series enclosure to ensure Battery
and AC wire separation.

24 hours of standby power

5.0 Ah Batteries 7 Ah Batteries

Max. Ah

Available

8 2 6 1 6 1 8 1 16 1
12 3 12 2 13 2 16 2 32 2
16 4 18 3 20 3 24 3 48 3
20 5 24 4 27 4 32 4
24 6 31 5 34 5 40 5
28 7 37 6 41 6
32 8 43 7
36 9
40 10

60 hours of standby power

7 Ah Batteries 7.7 Ah Batteries 9 Ah Batteries 18 Ah Batteries

Max. Ah

Available

13 2 14 2 17 2 17 1
20 3 22 3 26 3 34 2
27 4 29 4 34 4 52 3
33 5 37 5 43 5 69 4
40 6 44 6 52 6
47 7 52 7 61 7
54 8 59 8 69 8
60 9 67 9
67 10

72 hours of standby power

9 Ah Batteries 18 Ah Batteries

Max. Ah

Available

16 2 16 1
25 3 33 2
33 4 50 3
42 5 67 4
50 6
59 7
67 8

Note: If the Amp Hours Required calculation is greater than any Max. Ah Available number shown on a table, then

No. of

Batteries

No. of

Batteries

No. of

Batteries

add power supply(s) to power some system devices allowing the Amp Hours Required calculation to be
reduced. See the 710 Bus Splitter/Repeater Installation Guide (LT-0310).

Max. Ah

Available

Note: 48 hours is the typical battery recharge time for any of the Number of Batteries

shown in this section.

Max. Ah

Available

Max. Ah

Available

Note: 72 hours is the typical battery recharge time required for any of the Number of

Batteries shown in this section.

No. of

Batteries

No. of

Batteries

No. of

Batteries

7.7 Ah Batteries

Max. Ah

Available

Max. Ah

Available

No. of

Batteries

No. of

Batteries

9 Ah Batteries 18 Ah Batteries

Max. Ah

Available

Max. Ah

Available

Note: 48 hours is the typical battery

recharge time for any of the Number of
Batteries shown in this section.

No. of

Batteries

No. of

Batteries

Max. Ah

Available

No. of

Batteries

XR500 Series Installation Guide Digital Monitoring Products

13

INSTALLATION

Bell Output

7.1 Terminals 5 and 6

Terminal 5 supplies positive 12 Vdc to power alarm bells or horns. This output can be steady, pulsed, or temporal

depending upon the Bell Action specied in Bell Options. Terminal 6 is the ground reference for the bell circuit. This

supervised output detects 1k Ohms or less as normal. The indicating appliance can supply this resistance. If using a
horn or siren, a 1k Ohm 1/2 W EOL resistor (provided) should be added across the bell circuit to provide supervision.

See the Notication Appliance section for a list of approved notication appliances and the Wiring Diagrams for

connections.

Keypad Bus

8.1 Description

XR500 Series panel terminals 7, 8, 9, and 10 are for the keypad bus. You can connect up to sixteen supervised
keypads and multiple unsupervised keypads to the XR500 Series. In addition to DMP LCD keypads, you can also

connect any combination of zone expansion modules to the data bus. Refer to the specic device installation sheet

for the maximum number of Keypad Bus devices.
Refer to the section titled LX-Bus for complete information about the LX-Bus 4-pin header and expansion slot.
Note: Do not use shielded wire for LX-Bus/Keypad Bus circuits.

8.2 Terminal 7 - RED

This terminal supplies positive 12 Vdc Regulated to power DMP LCD keypads and zone expansion modules. Terminal 7
also supplies power for any auxiliary device. The ground reference for terminal 7 is terminal 10.

The output current is shared with the smoke power output on terminal 11 and Zones 9 and 10. Current draw for all
connected devices must not exceed the panel maximum current rating. See Power Supply in the Compliance section

for maximum current in a re listed application.

8.3 Terminal 8 - YELLOW

Terminal 8 receives data from keypads and zone expansion modules. It cannot be used for any other purpose.

8.4 Terminal 9 - GREEN

Terminal 9 transmits data to keypads and zone expansion modules. It cannot be used for any other purpose.

8.5 Terminal 10 - BLACK

Terminal 10 is the ground reference for DMP LCD keypads, zone expansion modules, and all auxiliary devices being
powered by terminal 7.

8.6 J8 Programming Connection

A 4-pin header (J8) is provided to connect a keypad when using a DMP Model 330 Programming Cable. This provides a
quick and easy connection for panel programming.

You may also use the J8 Programming Header to connect Keypad Bus devices. This is an alternative to connecting
keypad bus devices to terminals 7, 8, 9, and 10.

8.7 OVC LED

The Overcurrent LED (OVC) lights Red when the devices connected to the Keypad Bus and LX-Bus(es) draw more
current than the panel is rated for. The OVC is located above Outputs 1 and 2 on the panel and turns a steady Red
when lit. When the OVC LED lights Red, the LX-Bus(es) and Keypad bus are shut down.

Smoke and Glassbreak Detector Output

9.1 Terminals 11 and 12

Terminal 11 supplies positive 12 Vdc Regulated to power 4-wire smoke detectors and other powered devices. This

output can be turned o by the user for 5 seconds using the Sensor Reset User Menu option to allow latched devices

to reset. Terminal 12 is the ground reference for terminal 11.

9.2 Current Rating

The Output current from terminal 11 is shared with terminals 7, 25, and 27.

The total current draw of all devices powered from the panel must be included with terminal 11

calculations and must not exceed the maximum output rating.

Digital Monitoring Products XR500 Series Installation Guide

14

INSTALLATION

1K Ohm
Normally

Closed

1K Ohm

Normally Open

1K Ohm

Combination Normally Open

and Normally Closed

Protection Zones

10.1 Terminals 13–24

Zones 1 to 8 (terminals 13 to 24) on the XR500 Series panel are all grounded burglary zones. For programming
purposes, the zone numbers are 1 through 8. Listed below are terminal 13 to 24 connection functions.

Terminal Function Terminal Function

13 Zone 1 voltage sensing 19 Zone 5 voltage sensing
14 Ground for Zones 1 and 2 20 Ground for Zones 5 and 6
15 Zone 2 voltage sensing 21 Zone 6 voltage sensing
16 Zone 3 voltage sensing 22 Zone 7 voltage sensing
17 Ground for Zones 3 and 4 23 Ground for Zones 7 and 8
18 Zone 4 voltage sensing 24 Zone 8 voltage sensing

The voltage sensing terminal measures the voltage across a 1k Ohm End-of-Line resistor to ground. Use DMP Model
311 1k Ohm resistors. Dry contact sensing devices can be used in series (normally-closed) or in parallel (normally­open) with any of the burglary protection zones.

Figure 6: Protection Zone Wiring

10.2 Operational Parameters

Each protection zone detects three conditions: Open, Normal, and Short. Listed below are voltage and resistance
parameters for each condition:

Condition Resistance on zone Voltage on positive terminal

Open over 1300 ohms over 2.0 Vdc
Normal 600 to 1300 ohms 1.2 to 2.0 Vdc
Short under 600 ohms under 1.2 Vdc

10.3 Zone Response Time

A condition must be present on a zone for 500 milliseconds before it is detected by the XR500 Series panel. Ensure
detection devices used on the protec tion zones are rated for use with this delay. Zones 1-10 can also be programmed
for a fast response delay of 160 milliseconds.

10.4 Keyswitch Arming Zone

Using a keyswitch on an Arming type zone allows you to arm and disarm selected areas without having to enter a
user code.

Powered Zones for 2-Wire Smoke Detectors

11.1 Terminals 25–26 and 27–28

Panel terminals 25 through 28 provide two resettable Class B, Style A, 2-wire powered zones. For programming
purposes the zone numbers are 9 and 10.

Note: The maximum wire length for either zone 9 or zone 10 is 3000 feet using 18 AWG or 1000 feet using 22 AWG.

The maximum voltage is 14 Vdc and the maximum normal standby current is 1.25mA DC. The maximum line
impedance is 100 Ohms. The maximum short circuit current is 56mA.

When using all other zone expansion modules, use listed Model 309 EOL resistors. The compatibility identier

for the zones is A.

Note: Do not mix detectors from dierent manufacturers on the same zone.

Caution: Performing a Sensor Reset momentarily drops power to the devices on Terminal 11 (SMK), Zones 9

and 10. The panel views these zones (9 and 10) as “Open” while the power is absent.

XR500 Series Installation Guide Digital Monitoring Products

15

INSTALLATION

11.2 Compatible 2-Wire Smoke Detector Chart

Manufacturer Model Detector

ID

Hochiki

EST

SLR-835B-2

SLR-835BH-2

521B, 521BXT,

521NB, 521NBXT

HD-6 N/A 8-35 14

S09A 6.5-20 12

Base Base IDDC

Voltage

Range

Detectors

(12V/24V)

System Sensor 2W-B, 2WT-B A 8.5-35 10

System Sensor 2WTA-B A (*) 8.5-35 12

System Sensor 2WTR-B A (*) 8.5-35 1

System Sensor 1151, 2151 A

B110PL,

B401

8.5-35 10

COSMO-2W

System Sensor

(using

A 8.5-35 12

COSMOD2W)

(*) = Must be used in conjunction with System Sensor Polarity Reversal Module model RRS-M0D.

Figure 7: Compatible 2-Wire Smoke Detectors

# of

Zone

Expansion

Modules

715, 715-8,

715-16

715, 715-8,

715-16

715, 715-8,

715-16

715, 715-8,

715-16

715, 715-8,

715-16

715, 715-8,

715-16

714, 714-8,

714-16,

715, 715-8,

715-16

Panel

Zones

9 & 10

9 & 10

9 & 10

9 & 10

9 & 10

9 & 10

1-10

Digital Monitoring Products XR500 Series Installation Guide

16

INSTALLATION

Dry Contact Relay Outputs

12.1 Description

The XR500 Series panel provides two programmable auxiliary SPDT relays when equipped with two DMP Model 305
relays in sockets K6 (Output 1) and K7 (Output 2) and a Model 431 Output Harness on the J2 6-pin Header. Each relay
provides one SPDT set of contacts that can be operated by any of the functions listed below:

1) Activation by zone condition: Steady, Pulsing, Momentary, and Follow

2) Activation by 24-hour 7-day schedule: One on and one o time a day for each relay

3) Manual activation from the DMP LCD keypad menu

4) Communication failure 8) Exit and Entry timers

5) Armed area annunciation 9) System Ready

6) Fire Alarm, Fire Trouble or Supervisory 10) Late to Close

7) Ambush Alarm

Refer to the XR500 Series Programming Guide (LT-0679) for specic information.

12.2 Contact Rating

The Model 305 relay contacts are rated for 1 Amp at 30 Vdc (allows .35 power factor). Connect auxiliary power
to the Relay Output 1 common terminal by installing the gray harness wire to terminal 7. Current draw for all
connected devices must not exceed the panel maximum current rating.

12.3 Model 431 Output Harness Wiring

The relay contacts are accessible by installing the DMP 431 Output Harness on the 6-pin header labeled J2. Output
2 uses the top three prongs, and Output 1 uses the bottom three prongs. The wire harness and contact locations are
shown below:

Contact Color

Output 1 normally closed Violet
Output 1 common Gray
Output 1 normally open Orange
Output 2 normally closed Violet with white stripe
Output 2 common White with gray stripe
Output 2 normally open Orange with white stripe

The relay contacts must be connected to devices located within the same room as the XR500 Series panel.

Annunciator Outputs

13.1 Description

The four programmable annunciator outputs can be programmed to indicate the activity of the panel zones or
conditions occurring on the system. Annunciator outputs do not provide a voltage but instead switch-to-ground a
voltage from another source. The outputs can respond to any of the conditions listed in the Description section for
Dry Contact Relays. Maximum voltage is 30 Vdc @ 50mA.

13.2 Model 300 Harness Wiring

Access the open collector outputs by installing DMP 300 Harness on the 4-pin header labeled J11. The output
locations are shown below. For listed applications, devices connected to the outputs must be located within the
same room as the panel.

Output Color Wire Output Color Wire

3 Red 1 5 Green 3
4 Yellow 2 6 Black 4

13.3 Model 860 Relay Module

Connect a Model 860 Relay Module to the J11 on the XR500 Series panel to provide relays for outputs 3-6. Use these
relays for electrical isolation between the alarm panel and other systems or for switching voltage to control various
functions. Power is supplied to the relay coils from a single wire connected to the panel auxiliary power terminal 7.
The module includes one relay and provides three additional sockets for expansion of up to four relays. Mount the

860 inside the panel enclosure using the 3-hole pattern and plastic standos. Refer to the 860 Module Install Sheet

(LT-0484) as needed.
Relay Contact Rating: 1 Amp at 30 Vdc (allows .35 power factor)

XR500 Series Installation Guide Digital Monitoring Products

17

INSTALLATION

J23 6-Pin Header

14.1 Description

The XR500 Series panel supports RS-232, LX-Bus, and DMP Wireless operation. Only one operation can function at a
time. Install a jumper on one pair of J23 headers to indicate how the panel is programmed to operate. Refer to the

table below when installing a jumper on J23. When a jumper is installed or moved on the 6-pin header, briey reset

the panel using the J16 jumper to activate the selected operation.

Note: Only one operation, RS-232, LX-Bus, or DMP Wireless can function at a time.

J23 6-Pin Header

Letter Operation

R Standard RS-232
L LX-Bus
X 1100 Series DMP Wireless

J23

R

L
X

J21

RS-232

J22
LX

LEDs
Xmit
Rec

Overcurrent

(OVC) LED

Figure 8: J23 6-Pin Header

J22 LX-Bus Expansion Connector

15.1 Description

The XR500 Series panel supports up to 500 wireless bus zones or up to ve LX-Bus circuits. Each Interface card
LX-Bus circuit provides 100 expansion zones. The maximum number of LX-Bus zones available on a fully populated
panel is 500. Use LX-Bus J22 Header for 100 zones. Install a single Interface Card Connector on the board to support

100 additional zones for a total of 200 zones. To install up to ve Interface Cards install a Model 461 Interface

Adaptor Card.

15.2 J22 LX-Bus Header

Note: Only one connector, J21 or J22 can function at a time. Either use J21 to connect a serial device for PC Log

Reporting, or use J22 to connect an LX-Bus or DMP Wireless device. Operation is determined by where you
install the jumper on the J23 6-Pin header. See the Connecting LX-Bus and Keypad Bus Devices section for
maximum wiring distances.
For each connection, respect wire colors when connecting devices and use all four wires. After placing the

jumper on the J23 6-Pin header to enable the required operation, briey reset the panel using the J16 jumper

to activate operation.

Wireless Bus Operation: Place a jumper on the two pins next to the letter “X” on the J23 6-Pin header. When
using J22 as a wireless bus, connect a DMP Model 300 4-wire Harness to the J22 4-pin header labeled LX. Connect
the other end to the J3 header on the 1100X or 1100XH Wireless Receiver. This provides up to 500 wireless zones
numbered 500 to 999. Refer to the 1100X Wireless Receiver Install Guide (LT-0708) or the 1100XH Wireless Receiver
Install Guide (LT-0970).

LX-Bus Operation: Place a jumper on the two pins next to the letter “L” on the J23 6-Pin header. When using J22 as

an LX-Bus, connect a DMP Model 300 4-wire Harness to the J22 4-pin header labeled LX. This provides the rst 100

LX-Bus zones numbered 500-599. No LX-Bus Interface Card is required.

Note: Do NOT use shielded wire when using the J22 LX-Bus Header.

RS-232 Operation: Place a jumper on the two pins next to the letter “R” on the J23 6-Pin header and refer to J21

Serial Connector.

Digital Monitoring Products XR500 Series Installation Guide

18

INSTALLATION

15.3 LX-Bus Interface Cards

You can add one Interface Card (Model 481, 462N, 462P, 463C, 464-263C or 464-263H) to the XR500 Series using
J6 Interface Card Connector located on the board right edge. To add more than one Interface Card install a 461
Interface Adaptor Card using J6 Interface Card Connector on the board right edge. The 461 Adaptor Card allows up

to ve Interface Cards to be installed. Refer to the 461 Installation Sheet (LT-0736). Each Interface card provides up

to 100 LX-Bus Zones. Refer to the following tables to identify zone locations and numbers relative to J22 operation.

J22 LX-Bus Enabled

(Set J23 to “L”)

One Interface Card

461 Adaptor Card and

Multiple Interface Cards

LX-Bus Zone Numbers LX-Bus Zone Numbers LX-Bus Zone Numbers

1 500-599 2 600-699 2 (A) 600-699

AND

OR

3 (B) 700-799
4 (C) 800-899
5 (D) 900-999

J22

LX-Bus

NOT

Enabled

(J23

NOT set

to “L”)

One Interface Card

LX-Bus Zone Numbers LX-Bus Zone Numbers

1 500-599 1 (A) 500-599

461 Adaptor Card and

Multiple Interface Cards

OR

2 (B) 600-699
3 (C) 700-799
4 (D) 800-899
5 (E) 900-999

15.4 LX-Bus LEDs

The two LEDs, located near the bottom-right corner of J21 indicate data transmission and receipt. The top LED

ashes green to indicate the panel is transmitting LX-Bus data. The bottom LED ashes yellow to indicate the panel

is receiving LX-Bus data.

15.5 OVC LED

The Overcurrent LED (OVC) lights Red when the devices connected to the Keypad Bus and LX-Bus(es) draw more
current than the panel is rated for. The OVC is located above Outputs 1 and 2 on the panel and turns a steady Red
when lit. When the OVC LED lights Red, the LX-Bus(es) and Keypad bus shut down.

J21 Serial Connector

16.1 Description

Note: Only one connector, J21 or J22 can function at a time. Either use J21 to connect a serial device for PC Log

Reporting, or use J22 to connect a DMP Wireless device or an LX-Bus device. Operation is determined by where
you install the jumper on the J23 6-Pin header. The maximum line impedance is 100 Ohms.

To enable J21 to operate in RS-232 mode, place a jumper on the two pins next to the letter “R” on the J23 6-Pin

header and briey reset the panel using the J16 jumper to activate the selected operation. Panel programming using

Remote Link™ can be set up through a direct connection to a computer. The Serial Connector allows the following
operation options.

XR500 Panel XR500N/XR500E Panel

PC Log Reports PC Log Reports

Remote Link™

Programming

J23

R

L

X

16.2 Computer Connection to J21

Use a straight through RS-232 Serial cable with a DB-9 female connector on one end and a DB-9 male connector on
the other end. Plug the DB-9 male connector end of the cable onto the XR500 Series panel J21 RS-232 connector.
Plug the DB-9 female connector end of the cable onto the DB-9 male connector located at the back of the computer.
Program the XR500 Series panel as needed then disconnect the computer.

J21

RS-232

DB-9 Female Connector

Serial Data Xmit LED
Serial Data Rec(eive) LED

J22

Figure 9: J21 Serial Connection

XR500 Series Installation Guide Digital Monitoring Products

19

INSTALLATION

16.3 Serial Connector LEDs

The two LEDs, located near the bottom-right corner of J21 indicate data transmission and receipt. The top LED

ashes green to indicate the panel is transmitting serial data. The bottom LED ashes yellow to indicate the panel is

receiving serial data.

J1 Ethernet Connector (XR500N/XR500E only)

17.1 Description

The J1 Ethernet Connector is available on the XR500N/XR500E Network version to connect directly to an Ethernet
network using a standard patch cable. The maximum impedance is 100 Ohms.

17.2 Ethernet LEDs

The two LEDs, located to the left of J1 Ethernet Connector, indicate network
connection. The top, Link LED lights up green to indicate a valid receive

connection from the host network. The bottom, Activity LED ashes yellow to

indicate messages are being sent and received.

Link LED

Activity LED

Figure 10: J1 Header and LEDs

J1

ETHERNET

J3 Telephone RJ Connector

18.1 Description

Connect the panel to the public telephone network by installing a DMP 356 RJ Cable between the panel J3 connector
and the RJ31X or RJ38X phone block. The maximum impedance is 100 Ohms. CAUTION - To reduce the risk of re,
use only No. 26 AWG or larger telecommunication line cord, such as DMP Model 356 Series Phone Cords.

18.2 J10 893A Connector

Connect an 893A Dual Phone Line Module to J10 on the XR500 Series. Refer to the 893A Installation Sheet (LT-0135)
for complete information.

18.3 Notication

The user must not repair registered terminal equipment. In case of trouble, immediately unplug the device from the
telephone jack. The factory warranty provides for repairs. Registered terminal equipment may not be used on party
lines or in connection with coin telephones. No tify the telephone company with the following information:

a. The particular line(s) where the service is connected
b. The FCC registration number as listed in Section 18.5
c. The ringer equivalence
d. The device make, model, and serial number

18.4 Phone Line Monitor

The XR500 Series panel has a built-in telephone monitor that monitors the phone line voltage to verify the

connection to the central oce. Figure 11 and the table below identify the phone block pin layout, wire numbers,

and colors.

Wire Number Wire Color

1 Gray
2 Orange
3 Black
4 Red
5 Green
6 Yellow
7 Blue
8 Brown

The wires on the RJ31 that feed pins 4 and 5 should be the ONLY wires on the D-marc. All other house phone wiring
should be tied to pins 1 and 8 coming back from the RJ31.
Dial tone must come into RJ31X on pins 4 and 5 and go back to house phones from pins 1 and 8. Follow these steps
to determine if panel is seizing the line:

1. Unplug phone cord from RJ31X

2. Place butt-set on pins 4 and 5

3. Listen for dial tone. With dial tone present, lift either wire from pins 1 or 8

4. Listen for dial tone again. If the dial tone is present, RJ31X wiring is correct. If no dial tone is present, the
RJ31X wiring is backwards. Rewire so dial tone is coming IN on 4 and 5.If you still have trouble with the phone
line, you may need to replace the RJ cord. If the dial tone is still not present, swap out the RJ31X phone block.

To Telephone

Line

To Premise

Phone

Ring Tip

54

6

3

7

2

8

Ring 1

Tip 1

Figure 11: Phone Jack Wiring

RJ31X or RJ38X
Phone Block

1

Digital Monitoring Products XR500 Series Installation Guide

20

INSTALLATION

18.5 FCC Registration

The Model XR500 Series complies with Part 68 of the FCC rules and the requirements adopted by the ACTA. On the

outside of the enclosure of this equipment is a label that contains, among other information, a product identier in

the format US:CCKAL00BXR500. If requested this number must be provided to the telephone company.
A plug and jack used to connect this equipment to the premises wiring and telephone network must comply with the

applicable FCC Part 68 rules and requirements adopted by the ACTA. See installation instructions for details.
The Ringer Equivalence Number (REN) is used to determine the number of devices that may be connected to a

telephone line. xcessive RENs on a telephone line may result in the devices not ringing in response to an incoming

call. In most but not all areas, the sum of RENs should not exceed ve (5.0). To be certain of the number of devices

that may be connected to a line, as determined by the total RENs, contact the local telephone company.
If the XR500 Series causes harm to the telephone network, the telephone company will notify you in advance that

temporary discontinuance of service may be required. But if advance notice isn’t practical, the telephone company

will notify the customer as soon as possible. Also, you will be advised of your right to le a complaint with the FCC if

you believe it is necessary.

The telephone company may make changes in its facilities, equipment, operations or procedures that could aect

the operation of the equipment. If this happens the telephone company will provide advance notice in order for you

to make necessary modications to maintain uninterrupted service.

If trouble is experienced with the Model XR500 Series, for repair or warranty information, please contact DMP at
the address and telephone number listed on the back of this document. If the equipment is causing harm to the
telephone network, the telephone company may request that you disconnect the equipment until the problem is
resolved.

If your premises has specially wired alarm equipment connected to the telephone line, ensure the installation of the
XR500 Series does not disable your alarm equipment. If you have questions about what will disable alarm equipment,

consult your telephone company or a qualied installer.

Caution: To ensure proper operation, this equipment must be installed according to the installation instructions in
this manual. To verify that the equipment is operating properly and can successfully report an alarm, this equipment
must be tested immediately after installation, and periodically thereafter, according to the test instructions in this

document and the XR500 Series Programming Guide (LT-0679). Additionally, verication of Line Seize capability

should be made immediately after installation, and periodically thereafter, in order to ensure that this equipment
can initiate a call even when other equipment (telephone, answering system, computer modem, etc.) connected to
the same line is in use.

XR500 Series Installation Guide Digital Monitoring Products

21

INSTALLATION

92

Reset and Tamper Headers

19.1 J16 Reset Header

The reset header is located just above the terminal strip on the right side of the circuit board and is used to reset

the XR500 Series microprocessor. To reset the panel when rst installing the system, install the reset jumper before

applying power to the panel. After connecting the AC and battery, remove the reset jumper.

To reset the panel while the system is operational, for example, prior to reprogramming, install the reset jumper
without powering down the system. Remove the reset jumper after one or two seconds.

After resetting the panel, begin programming within 30 minutes. If you wait longer than 30 minutes, you must reset
the panel again.

J3

Phone Line

Link LED

Activity LED

J23

Power

R

LED

L
X

Battery
Start

+B BELL GND SMK GNDREDYEL GRNBLK Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Z9+Z9– Z10+ Z10–AC –B GND GND GNDGND

AC

12345678 10 11 12 13 14 15 16 17 18 19

Tamper

J1

Ethernet

J21

RS-232

J22
LX-Bus

J4

J10

J8

PROG

OVC

Output 1Output 2

J2

K6 K7

Out1Out2

Outputs 3-6

Momentarily place the Reset
jumper over both of the J16
pins to reset the panel.

J11

3
4
5
6

02122232425262728

J6

Interface

Card
Expansion
Connector

J16

Reset

Figure 12: XR500 Series Panel Showing the Reset Jumper

19.2 J4 Tamper Header

The J4 header is for use with the optional DMP 306 Tamper Harness. The harness connects to one or more tamper
switches mounted inside the panel enclosure to supervise against unauthorized enclosure opening or removal. Refer
to the wiring diagram on the enclosure door for correct tamper switch wiring.

How the Tamper Works

If the enclosure is opened or removed while one or more of the system areas are armed, a panel tamper alarm is
indicated. If all areas are disarmed, a panel tamper trouble is indicated.

Digital Monitoring Products XR500 Series Installation Guide

22

COMPLIANCE

Listed Compliance Specications

20.1 Introduction

For applications that must conform to a local authorities installation standard or a National Recognized Testing

Laboratory certicated system, please see the following sections.

Universal Burglary Specications

21.1 Introduction

The programming and installation specications contained in this section must be completed when installing the
XR500 Series panel in accordance with any of the burglary standards. Additional specications may be required by a

particular standard. See the XR500 Series Programming Guide (LT-0679).

21.2 Wiring

All wiring must be in accordance with NEC, ANSI/NFPA 70, ANSI/UL 681, and ANSI/UL 827 for all burglary
installations. All transformer wires must be installed in conduit.

21.3 Transformer

The total combined Auxiliary and Bell outputs cannot exceed 1.3 Amps with a 50 VA Transformer. The total combined
Auxiliary and Bell outputs cannot exceed 1.9 Amps with a 56 VA Transformer.

21.4 Control Outside of Protected Area

A Potter EVD or Sentrol 5402 should be used in place of a lined cabinet when the panel is installed outside of the
protected area. Front and rear tamper switches are required. Refer to the system wiring diagram.

21.5 Police Station Phone Numbers

The digital dialer telephone number programmed for communication must not be a police station phone number.

21.6 Bypass Reports

The Bypass Reports option must be programmed as YES for all listed burglary applications.

21.7 System Maintenance

To ensure continuous satisfactory operation of any alarm system, proper installation and regular maintenance by

the installing alarm company and frequent testing by the end user is essential. Oering a maintenance program and

acquainting the user with the correct procedures for system use and testing is also the responsibility of the installing
alarm company.

21.8 Listed Receivers

Operation has been veried with the DMP SCS-VR and SCS-1R receivers and any Central Station Receiver that accepts

industry standard Contact ID (DTMF) format. It is the installer’s responsibility to verify compatibility between the
panel and the receiver used during installation. The installer shall verify the compatibility of the receiver and the
system on a yearly basis.

21.9 Power Supply Supervision

For commercial burglary applications the power supply for all local bells shall be under 24-hour protection. Refer to
the Secondary Power Supply section in this document.

21.10 Wireless Tamper

The Zone Information Disarmed Open Message to Transmit must be programmed Trouble (T). (Not applicable to ANSI/
UL 1023).

21.11 Wireless External Contact

When used, the External Contact of 1101 or 1102 must be programmed Normally Closed.

21.12 Wireless Supervision Time

The Zone Information Supervision Time cannot be set to 0 (zero).

21.13 Detect Wireless Jamming

The Detect Wireless Jamming option must be programmed YES. (Not applicable to ANSI/UL 1023).

21.14 Standby Batteries

Use battery Models 365 (12 Vdc 9Ah), 366 (12 Vdc 18Ah), 368 (12 Vdc 5.0Ah), and 369 (12 Vdc 7Ah) with the XR500
panel when installed in the 341, 350, 350A, or 352 enclosures. The Model 364 (12Vdc 1.3Ah) battery is for use with
the XR500 panel when using the 341 enclosure with the optional 341B Battery Bracket. The Model 364 battery is
rated for 4 hours of standby time.

XR500 Series Installation Guide Digital Monitoring Products

23

COMPLIANCE

Area Information

22.1 Ownership

The control unit system shall be under one ownership.

22.2 Annunciation

The System shall be installed so that when arming any area from any keypad, the local bell shall annunciate.

22.3 Trouble Display

The Status List programming shall be set to annunciate all trouble messages at all keypads.

22.4 Closing Wait

The Closing Wait option must be programmed YES.

22.5 Local Bell Supervision

When a local bell is employed, the power supply for the bell shall be under 24-hour protection. Proper personnel for
maintenance or security of the system shall be able to disarm that area.

Household Burglar-Alarm System Units

ANSI/UL 1023

23.1 Audible Devices

At least one listed audible device (Ademco AB12M) rated to operate over the voltage rate of 11.7 Vdc to 12.8 Vdc
and rated at 85 DB minimum must be used.

23.2 Auxiliary Circuits

At least one burglary alarm initiating device shall be used on the system. If the voltage for the device is applied
by the control unit the burglary alarm initiating device shall be rated to operate over the range of 11.5 Vdc to

12.7 Vdc.

23.3 Bell Cuto

The Bell Cuto time cannot be less than ve minutes.

23.4 Entry Delay

The maximum entry delay used must not be more than 45 seconds.

23.5 Exit Delay

The maximum exit delay used must not be more than 60 seconds.

23.6 Weekly Test

The product should be tested weekly.

23.7 Wireless Audible Annunciation Option

The Wireless Audible option must be selected as DAY for residential applications.

Digital Monitoring Products XR500 Series Installation Guide

24

COMPLIANCE

Central-Station and Proprietary Burglar-Alarm Units

ANSI/UL 1610 AND ANSI/UL 1076

24.1 Opening/Closing Reports

The Opening/Closing Reports option must be programmed as YES.

24.2 Closing Wait

The Closing Wait option must be programmed YES.

24.3 Entry Delay

The maximum entry delay used must not be more than 60 seconds when using Model 350A or 350H Attack Resistant
Housing.

24.4 Exit Delay

The maximum exit delay used must not be more than 60 seconds.

24.5 Proprietary Dialer

The Model XR500 Series provides proprietary service when congured as a digital dialer.

24.6 DACT Central Station

DACT Central Station service can be provided under by adding an Ademco AB12M bell and bell housing and placing
the Model XR500 Series panel into Model 350A or 350H Attack Resistant Housing.

24.7 Bell Cuto

The Bell Cuto time cannot be less than 15 minutes.

24.8 Standard or Encrypted Line Security

Standard Line Security is provided when congured as a Path 1 NET system using an XR500N panel. The NET Check-in

time must be set to 03 minutes or RND. When programmed for Standard Line Security, Exit Time Restart is disabled.
When a dialer is required for 06 minute check-in time, an attack resistant enclosure (DMP Model 350A or 350H) is
required. When the check-in time is set to a number less than 200 seconds, an attack resistant enclosure is not
required.

To provide Encrypted Line security, install an XR500E panel.

For Encrypted Line security operation, communication between the Premise and Supervising Station provides 128 bit
encryption when using an XR500E panel.

The XR500 Series Protected Premises Control Unit is suitable for Standard Line Security service when congured for
NET communication with SCS-1R receiving system. This conguration is approved for the following:

AMCX - Central Station Alarm Units
APOU - Proprietary Alarm Units

24.9 Wireless Audible Annunciation Option

The Wireless Audible option must be selected as ANY for commercial applications.

24.10 CELL Only, Standard or Encrypted Line Security

Standard or Encrypted Line Security is provided when programmed using Model 463C, 464-263C or 464-263H for CELL
with no backup. XR500 cellular communication is used as primary with a 3 minute check-in when armed or disarmed.

Path 1 programming

Comm Type: = CELL Checkin: = 3 minute

Path Type: = Primary Fail Time: = 3 minute

Encrypt: = NO or YES* Test Rpt: = NO

Sub Code: = NO or YES

*For Encrypted Line Security, program a Passphrase in Network Options.

XR500 Series Installation Guide Digital Monitoring Products

25

COMPLIANCE

24.11 NET with CELL as Alternate Primary and Dialer Backup, Standard or Encrypted Line Security

Standard or Encrypted Line Security is provided using NET communication with Model 463C, 464-263C or 464-263H
for CELL as an alternate primary and with digital dialer as a backup. XR500 network communication is used as
primary with a 6 minute check-in when armed, and a random check-in over a 60 minute period when disarmed. CELL
is the backup path and set to daily test. Should the NET primary path become disabled, CELL adapts the same check­in time programmed for the primary communication and becomes an alternate primary path. The dialer path is used
as the backup if both NET and CELL fail to receive acknowledgement from the receiver.

This method of operation causes the CELL alternate primary to adapt to the 6 minute NET primary check-in rate
when the NET primary is unavailable maintaining line supervision and precludes the need for a central station runner
to respond to the NET primary failure.

Path 1 programming Path 2 programming Path 3 programming

Comm Type: = NET Comm Type: = CELL Comm Type: = DD
Path Type: = Primary Path Type: = Backup

(operates as alternate

primary)
Test Rpt: = NO Test Rpt: = YES Test Rpt: = YES
Checkin: = 6 minute, or RND

(random)
Fail Time: = 6 minute, or RND

(random)
Encrypt: = NO or YES* Encrypt: = NO or YES*
Sub Code: = YES Sub Code: = Shared

*For Encrypted Line Security, program a Passphrase in Network Options.

Test Freq: = Daily Test Freq: = Daily

Checkin: = ADAPT Duplicate Alarms: =

Path Type: = Backup
(operates as second
method)

YES

24.12 NET with CELL as Backup and Adaptive Primary, Standard or Encrypted Line Security

Standard or Encrypted Line Security is provided when programmed using NET communication and Model 463C,
464-263C or 464-263H for CELL as backup and as needed adapts and takes over as primary. XR500 network
communication is used as primary with a 6 minute check-in when armed, and a random check-in over a 60 minute
period when disarmed. CELL is the backup path and set to daily test. Should the primary path become disabled, the
CELL adapts to a special 3 minute check-in time and because of that check-in rate becomes the primary without the
requirement of an additional backup. This method of operation causes the CELL backup to adapt to the 3 minute
check-in rate when the NET primary is unavailable becoming a standalone primary without the need for a backup.
This maintains line supervision and precludes the need for a central station runner to respond to the NET primary
failure.

Path 1 programming Path 2 programming

Comm Type: = NET Comm Type: = CELL
Path Type: = Primary Path Type: = Backup (operates as second

method)
Test Rpt: = NO Test Rpt: = YES
Checkin: = 6 minute, or RND

(random)
Fail Time: = 6 minute, or RND

(random)
Encrypt: = NO or YES* Encrypt: = NO or YES*
Sub Code: = YES Duplicate Alarms: = YES

*For Encrypted Line Security, program a Passphrase in Network Options.

Test Freq: = Daily

Checkin: = ADAPT3

Sub Code: = Shared

Digital Monitoring Products XR500 Series Installation Guide

26

COMPLIANCE

Holdup Alarm Units

ANSI/UL 636

25.1 ANSI/UL 1610 Required

The programming and installation specications contained in this section must be completed in addition to
ANSI/UL 1610 Specications when installing a Model 1142 with a Model XR500 Series panel.

25.2 1100X/1100XH Wireless Receiver

The Model 1100X/1100XH Wireless Receiver in conjunction with the Model 1142 Holdup Alarm Transmitter must be
installed in the system.

25.3 Wireless Supervision Time

The Zone Information Supervision Time must be a maximum of 240 minutes.

25.4 LED Display

The LED Operation option display must be set to NO when using a Model 1142 Holdup Alarm Transmitter.

25.5 Jamming Detection

The Detect Wireless Jamming option must be set to YES.

25.6 Local Alarm

The Bell Action for a PN (Panic) type zone must be programmed as N (None).

25.7 Message to Transmit

The Armed Open and Armed Short messages for a PN (Panic) type zone must be programmed to A (Alarm).

25.8 Wireless Audible Annunciation Option

The Wireless Audible option must be selected as ANY for commercial applications.

Digital Burglar Alarm Communicator System Units

ANSI/UL 1635

26.1 System Trouble Display

The Status List Display must include at least one keypad that displays system monitor troubles.

26.2 Digital Dialer Telephone Number

Both programmed telephone numbers must begin with a P.

26.3 Test Time

The Test Time option must be programmed so that the XR500 Series sends a report once every 24 hours.

26.4 Closing Wait

The Closing Wait option must be programmed YES.

Police Station Connected and Local Burglar Alarm Units

ANSI/UL 365

27.1 System Trouble Display

The Status List Display must include at least one keypad that displays system monitor troubles.

27.2 Entry Delay

The maximum entry delay used must not be more than 60 seconds when using Model 350A or 350H Attack housing.

27.3 Exit Delay

The maximum exit delay used must not be more than 60 seconds.

XR500 Series Installation Guide Digital Monitoring Products

27

COMPLIANCE

27.4 Bell

A local audible signal appliance must be used such as Ademco AB12M bell and bell housing.

The alarm housing for a mercantile alarm system without a remote alarm transmission connection shall be mounted
on the outside of the building, visible from a public street or highway. It shall be accessible for examination and
repair. It shall also be located not more than four stories above the street level unless:

a) A second alarm sounding device and housing, intended for outside service, is mounted adjacent to the premises

or area of the building in which the alarm system is installed or

b) A second alarm sounding device, intended for inside service, is mounted within the premises.

In either case, the outside alarm sounding device and housing may be mounted as high as the seventh oor.

27.5 Bell Cuto

The Bell Cuto time cannot be less than 15 minutes.

27.6 Automatic Bell Test

The Automatic Bell Test option must be programmed as YES.

27.7 Standard or Encrypted Line Security

Standard Line Security is provided when congured as a Path 1 NET system using an XR500N panel or an XR500 panel

with an iCOM™ Network Alarm Router. The NET Check-in time must be set to 06 minutes or RND When programmed
for Standard Line Security, Exit Time Restart is disabled. When a dialer is required for 06 minute check-in time, an
attack resistant enclosure (DMP Model 350A) is required. When the check-in time is set to a number less than 200
seconds, an attack resistant enclosure is not required.

To provide Encrypted Line security, install an XR500E panel or an XR500 panel with an iCOM-E™ Encrypted Network
Alarm Router.

For Encrypted Line security operation, communication between the Premise and Supervising Station provides 128 bit
encryption when using an XR500E panel or an XR500 panel with an iCOM-E Encrypted Network Alarm Router.

27.8 Wireless Audible Annunciation Option

The Wireless Audible option must be selected as ANY for commercial applications.

27.9 Model 463C, CELL Only, Standard or Encrypted Line Security

Standard or Encrypted Line Security is provided when programmed using CELL with no backup. XR500 cellular
communication is used as primary with a 3 minute check-in when armed or disarmed.

Path 1 programming

Comm Type: = CELL Checkin: = 3 minute

Path Type: = Primary Fail Time: = 3 minute

Encrypt: = NO or YES* Test Rpt: = NO

Sub Code: = NO or YES

*For Encrypted Line Security, program a Passphrase in Network Options.

Digital Monitoring Products XR500 Series Installation Guide

28

COMPLIANCE

27.10 Model 463C, NET with CELL as Alternate Primary and Dialer Backup, Standard or Encrypted Line Security

Standard or Encrypted Line Security is provided using NET communication with CELL as an alternate primary and
with digital dialer as a backup. XR500 network communication is used as primary with a 6 minute check-in when
armed, and a random check-in over a 60 minute period when disarmed. CELL is the backup path and set to daily
test. Should the NET primary path become disabled, CELL adapts the same check-in time programmed for the
primary communication and becomes an alternate primary path. The dialer path is used as the backup if both NET
and CELL fail to receive acknowledgement from the receiver.

This method of operation causes the CELL alternate primary to adapt to the 6 minute NET primary check-in rate
when the NET primary is unavailable maintaining line supervision and precludes the need for a central station runner
to respond to the NET primary failure.

Path 1 programming Path 2 programming Path 3 programming

Comm Type: = NET Comm Type: = CELL Comm Type: = DD
Path Type: = Primary Path Type: = Backup

(operates as alternate

primary)
Test Rpt: = NO Test Rpt: = YES Test Rpt: = YES
Checkin: = 6 minute, or RND

(random)
Fail Time: = 6 minute, or RND

(random)
Encrypt: = NO or YES* Encrypt: = NO or YES*
Sub Code: = YES Sub Code: = Shared

*For Encrypted Line Security, program a Passphrase in Network Options.

Test Freq: = Daily Test Freq: = Daily

Checkin: = ADAPT Duplicate Alarms: =

Path Type: = Backup
(operates as second
method)

YES

27.11 Model 463C, NET with CELL as Backup and Adaptive Primary, Standard or Encrypted Line Security

Standard or Encrypted Line Security is provided when programmed using NET communication and CELL as backup
and as needed adapts and takes over as primary. XR500 network communication is used as primary with a 6 minute
check-in when armed, and a random check-in over a 60 minute period when disarmed. CELL is the backup path and
set to daily test. Should the primary path become disabled, the CELL adapts to a special 3 minute check-in time and
because of that check-in rate becomes the primary without the requirement of an additional backup. This method
of operation causes the CELL backup to adapt to the 3 minute check-in rate when the NET primary is unavailable
becoming a standalone primary without the need for a backup. This maintains line supervision and precludes the
need for a central station runner to respond to the NET primary failure.

Path 1 programming Path 2 programming

Comm Type: = NET Comm Type: = CELL
Path Type: = Primary Path Type: = Backup (operates as second

method)
Test Rpt: = NO Test Rpt: = YES
Checkin: = 6 minute, or RND

(random)
Fail Time: = 6 minute, or RND

(random)
Encrypt: = NO or YES* Encrypt: = NO or YES*
Sub Code: = YES Duplicate Alarms: = YES

*For Encrypted Line Security, program a Passphrase in Network Options.

Test Freq: = Daily

Checkin: = ADAPT3

Sub Code: = Shared

XR500 Series Installation Guide Digital Monitoring Products

29

COMPLIANCE

Police Station Connected and Local Burglar Alarm Units

ANSI/UL 609

28.1 Mercantile

For Mercantile and Police Station Connect operation the Model XR500 Series must be mounted in an Attack Resistant
Housing, (DMP Model 350A or 350H).

28.2 Entry Delay

The maximum entry delay used must not be more than 60 seconds when using the Model 350A or 350H housing.

28.3 Exit Delay

The maximum exit delay used must not be more than 60 seconds.

28.4 Mercantile Safe and Vault

When the DMP Model 350A or 350H Attack housing is used, the XR500 Series provides operation as a mercantile
safe and vault alarm. Bell Supervision and wiring must be in accordance with ANSI/UL 681. When the XR500 Series
is mounted outside the safe or vault, tamper protection and the Sentrol Model 5402 or Potter EVD listed vibration
detectors should be used.

28.5 Bell

A local audible signal appliance must be used such as Ademco AB12M bell and bell housing.

In a mercantile burglar alarm system, a mercantile alarm sounding device located within a building but outside the
protected area, is acceptable, provided it is rated for outside service and alarm conditions are transmitted to:

a) The dispatch location of the law enforcement agency having jurisdiction over the protected property or
b) A central station or residential monitoring station complying with the Standard for Central Station Alarm

Services, UL 827.

In a mercantile burglar alarm system, an alarm sounding device located within the area of greatest protection, or
outside the area of greatest protection but within an area protected by an alarm system and that shares a common
control unit with the system installed in the area of greatest protection, is acceptable provided it is rated for inside
service and alarm conditions are transmitted to:

a) The dispatch location of the law enforcement agency having jurisdiction over the protected property or
b) A central station or residential monitoring station complying with the Standard for Central Station Alarm

Services, UL 827.

An inside sounding device shall be mounted at least 10 feet (3.05 m) above the oor or at the surface of the ceiling.
When there is xed construction within the area that could provide access for an intruder, the alarm sounding
device shall also be mounted at least 4 feet (1.2 m), as measured horizontally, away from the edges of the xed

construction or at least 10 feet (3.05 m) above it so as to minimize access by an intruder.

28.6 Bank Safe and Vault (XR500N/XR500E only)

The Bank Safe and Vault option must be programmed as YES. The 72 hour battery standby must be provided. A
Rothenbuhler Model 5110 High Security Bell must be used.

28.7 Wireless Audible Annunciation Option

The Wireless Audible option must be selected as ANY for commercial applications.

Digital Monitoring Products XR500 Series Installation Guide

30

COMPLIANCE

Access Control System Units

ANSI/UL 294

29.1 Panel Designation

The XR500 Series panels are designated stand alone units.

29.2 Tamper Protection

For listed Access Control installations, a tamper switch must be used.

29.3 Transformer

The total combined Auxiliary and Bell outputs cannot exceed 1.3 Amps with a 50 VA Transformer. The total combined
Auxiliary and Bell outputs cannot exceed 1.9 Amps with a 56 VA Transformer.

29.4 Compatible Devices

The following devices are compatible with the XR500 Series panels.

Access Control

734/734N/734N-WIFI* Wiegand

Interface Module

OP-08CB Motion Detector Infrared sensor

PB-2 REX Button* Exit control push button

PP-6005B Proxpoint Plus® Reader Proximity reader

MP-5365 Miniprox® Reader Slimline proximity reader

PR-5455 ProxPro® II Reader Long range reader with sounder

MX-5375 Maxi-Prox™ Reader Long range reader compatible with 1351 Prox Pass

* This device has not been investigated and shall not be used in listed
installations.

Proximity reader connector

Universal Fire Alarm Specications

30.1 Introduction

The programming and installation specications contained in this section must be completed when installing the
Model XR500 Series in accordance with any of the ANSI/UL or NFPA re standards. Additional specications may be

required by a particular standard. See the XR500 Series Programming Guide (LT-0679).

30.2 Wiring

All wiring must be in accordance with NEC, ANSI/NFPA 70.

30.3 Transformer

Use the Model 322/323 wire-in 16 VAC 56 VA or Model 324/324P wire-in transformer mounted within 20 feet of the
panel and connected by conduit.

For UL Commercial Fire installations, the total current combined from Auxiliary and Bell Power cannot exceed: 1.2
Amps with a 56 or 100 VA transformer; .5 Amp Max for Auxiliary Power and .7 Amp Max for Bell

For UL Residential Fire installations, the total combined Auxiliary and Bell outputs cannot exceed 1.3 Amps with a 50
VA Transformer. The total current combined from Auxiliary and Bell Power cannot exceed: 1.9 Amps with a 56 VA or
100 VA transformer

30.4 End-of-Line Resistor

The DMP Model 310 1k Ohm EOL resistor should be used on all 1k Ohm EOL re zones.

30.5 System Trouble Display

The Status List Display must include at least one keypad that displays system monitor troubles.

30.6 Fire Display

The Status List Display must include at least one keypad that displays troubles and alarms on re type zones.

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30.7 Police Station Phone Number

The digital dialer telephone number programmed for communication must not be a police station phone number,

unless that phone number is specically provided for that purpose.

30.8 System Maintenance

To ensure continuous satisfactory operation of any alarm system, proper installation and regular maintenance by

the installing alarm company and frequent testing by the end user is essential. Oering a maintenance program and

acquainting the user with the correct procedures for system use and testing is also the responsibility of the installing
alarm company.

30.9 Audible Alarm

Fire Type zones must be programmed to activate an audible alarm. The Bell Action for Fire Type zones must not be
programmed as N (None).

30.10 Fire Zone Programming

If a retard delay is used on a waterow zone, it cannot exceed 90 seconds and any retard delay in the waterow

initiating devices must be subtracted from the 90 seconds al lowed. The retard delay should not be used on a zone
with smoke detectors.

30.11 Class A Style D Zones

If required, the DMP 869 Dual Style D Initiating Module provides for connection of two Class A Style D zones to the
Model XR500 Series. See the 869 Installation Guide (LT-0186) and this guide for wiring information.

30.12 Listed Receivers

Operation has been veried with the DMP SCS-VR and SCS-1R receivers and any Central Station Receiver that accepts

industry standard Contact ID (DTMF) format. It is the installer’s responsibility to verify compatibility between the
panel and the receiver used during installation. The installer shall verify the compatibility of the receiver and the
system on a yearly basis.

30.13 Standby Batteries

For UL listed applications, the panel must have 24 hour battery standby operation. The Model 364 battery should not

be used for re installations.

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Control Units for Fire-Protective Signaling Systems

ANSI/UL 864, NFPA 72

31.1 Power Supply

For listed Commercial Fire installations, the 50 VA Plug-in transformer cannot be used.
The total combined current from Terminals 7, 11, 25, and 27 cannot exceed 1.2 Amps.

31.2 Zone Restoral Reports

The Restoral Reports option must be selected as YES or Disarm.

31.3 Power Fail Delay

The Power Fail Delay option must be selected as required by the service of the panel. For Central Station service:
6-12, for Remote Station service: 12-15.

31.4 Sprinkler Supervisory

Any zone used for sprinkler supervisory must be programmed with “SPRINKLR XXX” as the zone name. The last three
characters in the zone name may be assigned a number to identify the zone. The Model 893A Dual Phone Line Module
must be used on all sprinkler supervisory systems.

31.5 DACT Systems

A DACT system may be congured as one of the following:

Path 1 Type DD Primary and Path 2 Type DD Backup
Path 1 Type DD Primary and Path 2 Type CELL Backup
Path 1 Type DD Primary and Path 2 Type NET Backup

Path 1 Type DD Primary and Path 2 Type DD Backup

Use two telephone lines and the Model 893A Dual Phone Line Module to provide two phone line connections to the

system. Two dierent telephone numbers must be programmed for digital communication. Do not connect to ground

start or party lines.

Path 1 Programming Path 2 Programming

Comm Type = DD Comm Type = DD
Path Type = Primary Path Type = Backup
Test Rpt = Yes Test Rpt = Yes
Test Freq = 1 Dy Test Freq = 1 Dy
893A = Yes

Path 1 Type DD Primary and Path 2 Type CELL Backup

Path 1 Programming Path 2 Programming

Comm Type = DD Comm Type = CELL
Path Type = Primary Path Type = Backup
Test Rpt = Yes Test Rpt = Yes
Test Freq = 1 Dy Test Freq = 1 Dy

Receiver IP Address
First GPRS APN

Path 1 Type DD Primary and Path 2 Type NET Backup

Path 1 Programming Path 2 Programming

Comm Type = DD Comm Type = NET
Path Type = Primary Path Type = Backup
Test Rpt = Yes Test Rpt = Yes
Test Freq = 1 Dy Test Freq = 1 Dy

Receiver IP Address

31.6 Local Protective Signaling Systems

The DMP Model 865, 866, or 867 Notication Circuit Module must be used on the bell circuit for detection of shorts
and grounds. Any burglary or other o premises communication must be done with the Model 893A Dual Phone Line
Module. For local commercial re installations, the 893A is required.

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COMPLIANCE

31.7 Remote Station Protective Signaling Systems

You must provide 60 hours of standby battery. See section 6.9 in this guide for standby battery calculations. Two
Radionics Model D127 Reversing Relay Modules provide two reversing polarity telephone connections. See the D127
Installation Instruction sheet for wiring details. A DMP Model 893A is used to provide two line dialer communication.

31.8 Fire Protective Signaling Systems using Internet/Intranet/Cell Networks

An Other Transmission Technologies system as dened in UL 864 9th Edition, Section 40.7 may be congured as

NET Primary using a hardwire IP network or CELL Primary using a Model 463C CDMA Cellular Communicator with or

without a backup path. The system may be congured as one of the following:

Path 1 Type NET or CELL Primary with no Backup

Path 1 Programming

Comm Type = NET or CELL Checkin Min = 5
Path Type = Primary Failtime Min = 5
Test Rpt = No Sub Code = Yes
Checkin = Yes Send Comm Trbl = Yes

Path 1 Type NET Primary and Path 2 Type DD Backup

Path 1 Programming Path 2 Programming

Comm Type = NET Comm Type = DD
Path Type = Primary Path Type = Backup
Test Rpt = Yes Test Rpt = Yes
Test Freq = 1 Dy Test Freq = 1 Dy
Send Comm Trbl = Yes Send Comm Trbl = Yes
Comm Path Trbl = Yes (Status List Programming)

Path 1 Type NET Primary and Path 2 Type CELL Backup

Path 1 Programming Path 2 Programming

Comm Type = NET Comm Type = CELL
Path Type = Primary Path Type = Backup
Test Rpt = Yes Test Rpt = Yes
Test Freq = 1 Dy Test Freq = 1 Dy
Send Comm Trbl = Yes Send Comm Trbl = Yes
Comm Path Trbl = Yes (Status List Programming)

Path 1 Type CELL Primary and Path 2 Type NET Backup

Path 1 Programming Path 2 Programming

Comm Type = CELL Comm Type = NET
Path Type = Primary Path Type = Backup
Test Rpt = Yes Test Rpt = Yes
Test Freq = 1 Dy Test Freq = 1 Dy
Send Comm Trbl = Yes Send Comm Trbl = Yes
Comm Path Trbl = Yes (Status List Programming)

31.9 Combination Systems

For combination re and burglary systems, powered burglary devices (PIR, Glassbreak, etc.) must be powered from a

separate listed power supply (DMP Model 505-12). This requirement is not needed for non-powered burglary devices
(door contacts, etc.) which only connect to the zone input of zone expanders or keypads. Refer to Powered Burglary
Devices later in this document.

For combination re and burglary systems, burglary sounding devices such as sirens and bells must be energized

using panel relays, 860 relays, or 716 relays. Programming the output to activate the relay must occur using the
Burglary Bell Output option in Area Information or by the Alarm Action output option of Zone Information. The
Burglary Bell Action option of the panel Bell Options must be programmed as None.

31.10 Remote Annunciators

At least one Model 630F Remote Annunciator must be used on the system. All re alarms, re troubles and

supervisory alarms or troubles must be annunciated only on the 630F. All burglary alarms or troubles must only be

annunciated on non-re keypads. See Status List options of the XR500 Series Programming Guide (LT-0679).

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31.11 Notication Appliances

The following table indicates the approved notication appliances that can be used with the XR500 Series system.

Wheelock Model No. Description Max No. of Appliances using 56 VA/100 VA

MT-12/24 Multi-tone Horn 8
MB-G6-12 Bell, 6 inch 16
MB-G10-12 Bell, 10 inch 16
ST Series Strobe, 15/75 candela 5
HS Series Horn Strobe, 15/75 candela 5
SM-12/24-R Sync Module, Single circuit
DSM-12/24-R Sync Module, Dual circuit

31.12 Cross Zoning

When using cross zoning, there must be a minimum of two detectors installed in each protected space and the detector
installation spacing must be 0.7 times the linear spacing in accordance with National Fire Alarm Code, NFPA 72.

31.13 Ground Fault

For supervised circuits, ground fault is detected at 0 (zero) Ohms.

31.14 Wireless Testing

When using the 1100X or 1100XH Wireless Receiver for Fire Protective Signaling, after all transmitters are in
position, the WLS option of the panel’s Walk Test must be operated and all transmitters programmed for Fire (FI) or
Supervisory (SV) must show that their checkin message was received.

31.15 Wireless Supervision

When using the 1103 Universal Transmitter for Fire Protective Signaling, supervision time must be set for 3 minutes.
Supervision time cannot be set to 0 (zero).

Household Fire Warning System Units

ANSI/UL 985, NFPA 72

32.1 Bell Output Denition

The Model XR500 Series panel Bell Output must be programmed to operate steady on burglary alarms and pulsed or

temporal on re alarms.

32.2 Audible Devices

At least one listed audible device rated to operate over the voltage rate of 11.7 Vdc to 12.8 Vdc and rated at 85 DB
minimum must be used.

32.3 Auxiliary Circuits

At least one re alarm initiating device shall be used on the system. If the voltage for the device is applied by the
control unit the re alarm initiating device shall be rated to operate over the range of 11.5 Vdc to 12.7 Vdc.

32.4 Bell Cuto

The Bell Cuto time cannot be less than ve minutes.

32.5 Detect Wireless Jamming

The Detect Wireless Jamming option must be programmed YES.

32.6 Wireless Supervision Time

The Zone Information Supervision Time must be 240 minutes.

32.7 Wireless Fire Verication

When used, the Model 1161 and 1162 wireless smoke detectors must not be programmed as Fire Verication (FV)

zone type.

California State Fire Marshal Specications

33.1 Bell Output Denition

The Model XR500 Series panel Bell Output must be programmed to operate steady on burglary alarms and pulsed,

temporal, or California School Code on re alarms.

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New York City (FDNY) Specications

34.1 Introduction

The programming specications contained in section 34.2 or 34.3 must be completed when installing the XR500
Series panel for New York City (FDNY) re alarm installations for IP communication applications. Refer to the FDNY
Certicate of Approval #6123 or #6145 for the complete conditions of approval.

Note: Fire alarm installations that use two digital dialer telephone lines do not need to comply with these two
sections.

34.2 Network and Cellular Communication, Primary and Secondary

When installed as a central station Internet (Network) communicator or slave transmitter both primary
and secondary channels of communication shall be required and shall meet the conditions below. Network
communication shall be used as primary channel of communication with Central Station and a 463C Cellular
Communicator shall be used as the secondary channel of communication or in reverse order: 463C Cellular
Communicator as primary and Network connection as the secondary channel.

Path 1 Type NET Primary and Path 2 Type CELL Backup Programming

Path 1 Programming Path 2 Programming

Comm Type = NET Comm Type = CELL
Path Type = Primary Path Type = Backup
Checkin Min = 5 Checkin Min = 5
Failtime Min = 5 Failtime Min = 5
Test Rpt = Yes Test Rpt = Yes
Test Freq = 1 Dy Test Freq = 1 Dy
Send Comm Trbl = Yes Send Comm Trbl = Yes
Comm Path Trbl = Yes (Status List Programming)

Path 1 Type CELL Primary and Path 2 Type NET Backup Programming

Path 1 Programming Path 2 Programming

Comm Type = CELL Comm Type = NET
Path Type = Primary Path Type = Backup
Checkin Min = 5 Checkin Min = 5
Failtime Min = 5 Failtime Min = 5
Test Rpt = Yes Test Rpt = Yes
Test Freq = 1 Dy Test Freq = 1 Dy
Send Comm Trbl = Yes Send Comm Trbl = Yes
Comm Path Trbl = Yes (Status List Programming)

34.3 Digital Dialer Primary and Network Secondary Communication

When used with a central oce communicator or a transmitter, the installation and operation of the equipment and

devices shall comply with 3RCNY 17-01. The installation shall employ the digital dialer as the primary communicator
(using telephone line) with network IP communication as backup or secondary means of communication. It shall
have the capability of transmitting separate and distinct signals to indicate manual pull station alarm, automatic

detection alarm, sprinkler waterow alarm, supervisory signal indications and trouble indications.

34.3.1 Communication Programming

For digital dialer communication with supervised network backup, program the following:

PRIMARY COMM TYPE = DD
FIRST PHONE NUMBER = Central Station Receiver Phone Number
BACKUP COMM TYPE = NET
RECEIVER
ALARMS = YES

34.4 Wiring

All wiring must be in accordance with NEC, ANSI, and NFPA 70. All network cabling must be installed in accordance
with NFPA 70 for communication circuits.

34.5 Additional Requirements

Program and install the equipment to comply with NFPA basic re requirements. Refer to the Universal Fire Alarm
Specications and ANSI/UL 864 NFPA 72 Specications in this document.

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False Alarm Reduction Programmable Options *

35.1 Shipping Defaults and Recommended Programming for ANSI/SIA CP-01-2010

SIA CP-01 FEATURE

PARAGRAPH # AND

DESCRIPTION

4.2.2.1 Exit Time 15.2 Exit Delay

4.2.2.2 Progress
Annunciation

4.2.2.3 Exit Time Restart 15.2 Exit Delay Required Option

4.2.2.5 Auto Stay Arm on
Unvacated Premises

4.2.4.4 Exit Time and
Progress Annunciation/
Disable - for Remote Arm

4.2.3.1 Entry Delay(s) 8.3 Entry Delay

4.2.5.1 Abort Window –
for Non-Fire Zones

4.2.5.1 Abort Window
Time – for Non-Fire
Zones

4.2.5.1.2 Abort
Annunciation

4.2.5.4.1 Cancel
Annunciation

4.2.6.1 & 4.2.6.2 Duress
Feature

4.3.1 Cross Zoning 16.22 Cross Zone Required Option

4.3.1 Programmable
Cross Zoning Time

4.3.2 Swinger Shutdown

4.3.2 Swinger Shutdown
Disable

4.3.3 Fire Alarm

Verication

4.5 Call Waiting Cancel

4.6.3 System Test 17.5 Walk Test Allowed

4.6.5 Communications 17.5 Walk Test Not Allowed N/A N/A N/a

* Programming at installation may be subordinate to other listed requirements for the intended application.
** For listed Installations, combined Entry Delay and Transmit Delay should not exceed 1 minute.

DMP XR500
PROGRAMMING
GUIDE LT-0679

REQUIREMENT RANGE

SHIPPING

DEFAULT

SECTION #

Required
(Programmable)

15.2 Exit Delay Allowed

33.3 Occupied Premise

- See XR500 Install
Guide (LT-0681)

Not Available on
Remote Arming

3.7 Transmit Delay Required Option

3.7 Transmit Delay

3.7 Transmit Delay Required Option

Always Enabled - Not
Programmable

User Code + 1 =
Ambush Code Not
Available

8.4 Cross Zone Time Allowed 4 sec. - 250 sec. 4 Seconds

8.7 Swinger Bypass
Trips

16.16 Swinger Bypass Allowed

16.4 Zone Type Required Option FV Type Zone No

3.19 Telephone
Number

Required Option
(except for
remote arming)

Allowed Option

Required
(Programmable)

Required
(Programmable

Required Option

Allowed Option

Required
(Programmable)

Required Option

45 sec. - 250 sec.

Individual keypads
may be disabled per
zone

For re-entry during
exit time

Area 1 = Perimeter
Area 2 = Interior

Progress Annunciation
Always disabled for
Remote Arming

30 sec. – 240 Sec. **

Disable by zone or
zone type

15 sec. - 45 sec. **

Annunciate that no
alarm was transmitted
(S45)

Annunciate that
a Cancel was
transmitted (S49)

No 1 + derivative of
another user code/no
duplicates with other
user codes

Yes/No Zone
Programming

1-6 trips 2 trips 2 trips

For non-police
response zones

Include *70P in
Telephone Number

Test all protection
devices

60
Seconds

All
keypads
enabled

Enabled Enabled

Enabled

Not
Available

30
Seconds

Enabled
NT DY EX
Zone

30
Seconds

Yes Yes

Always
Enabled

Code +1
Always
Disabled

No

Yes Enabled (all zones)

Disabled

N/A N/A

60 Seconds

All keypads enabled

Enabled for Residential
Applications

Remote Arming not
allowed for CP-01
installations.

At least 30 Seconds **

Enabled

At least 15 Seconds **

Yes

Not Programmable

Enabled using two or
more programmed
zones

Per walk path in
protected premises

Yes as required (unless
sensors can self verify)

Enabled if user has
call waiting

RECOMMENDED

PROGRAMMING*

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37

WIRING DIAGRAMS

False Alarm Reduction Programmable Options (continued)

35.2 Call Waiting

The Call Waiting default setting is disabled. To cancel the Call Waiting feature, program * (star) 7 0 P (pause), the

standard telephone code prex that cancels call waiting, into the telephone number string. Cancel Call Waiting for

telephone lines that have Call Waiting operational on the telephone line. See the XR500 Series Programming Guide
(LT-0679).

Caution: A call waiting cancel programmed on a non-call waiting telephone line, would prevent

communication to the central station.

35.3 Occupied Premise

When only two areas are used, and area one is named Perimeter, and area two is named Interior, and no exit type
zone transition occurs during the exit delay because the premise continues to be occupied, the Interior area will
automatically disarm at the end of the exit delay.

35.4 Entry Delay

Only use Entry Delay 1. Do not use Entry Delay 2, 3, or 4. See the XR500 Series Programming Guide (LT-0679).

35.5 Minimum Installation Requirements

SIA CP-01-2010 minimum system installation requirements include an XR500, a listed local Bell, and o premise

DACT communication to an SCS-1R receiver plus one of the following compatible keypads.

630F Fire Command™ Center
7060, 7063, 7070, or 7073 Thinline™ keypads
7060A, 7063A, 7070A, or 7073A Aqualite™ keypads
7160, 7163, 7170, or 7173 Thinline™ keypads

Digital Monitoring Products XR500 Series Installation Guide

38

36.1 866 with NAC Extender

WIRING DIAGRAMS

Wiring Diagrams

To panel terminal 7

To panel terminal 10

DMP Model 866

45mA @ 12 VDC

The 866 Notification

Appliance Circuit

Module in alarm draws

up to 31mA through
its Terminal 3 Alarm

Input and 45mA from

its Terminal 1 Aux

Power Input.

See the 866

Installation (LT-0059)

To panel zone

Normal/Silence Switch

1 AUX PWR
2 GND
3 Alarm In
4 Bell PWR In
5 Bell Out +
6 Bell Out ­7 Bell Trouble
8 Bell Trouble

Normal/Silence Switch

1 AUX PWR
2 GND
3 Alarm In
4 Bell PWR In
5 Bell Out +
6 Bell Out ­7 Bell Trouble
8 Bell Trouble

Model 310

1K EOL

Note: Terminals 3
and 4 jumper together
to supply Bell Power
from the panel

To panel alarm output

To panel zone

Model 310

1K EOL

PowerPath NAC Extender

Models

PS-8

PS-8E

PS-6

PS-6E

See PowerPath installation for

detailed connection

instructions

The Bell Output programming for Fire type zones must be set to Steady

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39

WIRING DIAGRAMS

36.2 866 Class B Style W using Single Notication Appliance

DMP Model 866

45mA @ 12 VDC

The 866 Notification

Appliance Circuit

Module in alarm draws

up to 31mA through

its Terminal 3 Alarm

Input and 45mA from

its Terminal 1 Aux

Power Input.

MAIN BACKUP

J4

J5

K2

–

DS1

Buzzer

F2

J1

P3

F1

J2

K1

P10

+

1 AUX PWR
2 GND
3 Alarm In
4 Bell PWR In
5 Bell Out +
6 Bell Out ­7 Bell Trouble
8 Bell Trouble

PANEL

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Normal/Silence Switch

J4

Tamper

XR500 Series Command

J1

Ethernet

J21

J23

Power LED

R

RS-232

L
X

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

Regulated

12 VDC

J22
LX-Bus

J10

J8

PROG

Processor™ Panel

Output 2

Output 1

J2

Out2

K6 K7

J11

3
4
5
6

Model 310

1K EOL

Note: Terminals 3 and 4 jumper together
to supply Bell Power from the panel

Only one notification appliance may be used when
not using a sync module.

The Bell Output programming for Fire type
zones must be set to Temporal.

J6 Interface

Card

Expansion

Connector

The maximum

voltage drop

between the panel
Bell Output and the
Model 308 EOL is 1

VDC when a

separate power

supply is not used.

Model 308

10K EOL

Listed, Polarized

Notification Appliance

See the Notification Appliance section

for a list of appliances.

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40

WIRING DIAGRAMS

36.3 866 Class B Style W Multiple Notication Appliance Circuit

MAIN BACKUP

K2

–

DMP Model 866

45mA @ 12 VDC

The Model 866

Notification Appliance

Circuit Module in

alarm draws up to

31mA through

Terminal 3 Alarm
Input and 45mA from
Terminal 1 Aux Power

Input.

F2

J4

J1

F1

J2

J5

K1

+

DS1

Buzzer

1 AUX PWR
2 GND
3 Alarm In
4 Bell PWR In
5 Bell Out +
6 Bell Out ­7 Bell Trouble
8 Bell Trouble

SM-12/24 Module

PANEL

P3

J12

P10

Battery
Start

Normal/Silence Switch

J3

Phone Line

75VA

50VA

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Regulated

12 VDC

Power LED

J23

R
L
X

Model 310

The Bell Output

programming for Fire

type zones must be set

Tamper

J1

Ethernet

J21

RS-232

J22
LX-Bus

J10

J8

PROG

1K EOL

to Steady.

J4

XR500 Series Command

Processor™ Panel

Output 2

Output 1

J2

Out2

K6 K7

Auxiliary Power Supply must be regulated, power
limited, and listed for Fire Protective Signaling
Service. Power Supplies must have battery backup.

Note: If an auxiliary power supply is not used,
terminals 3 and 4 can be jumpered together to
supply Bell Power from the panel.

When using a separate power supply, the
maximum current is 3 Amps.

505-12 Power

Green

LED
AC

AC

J11

3
4
5
6

Supply

Red
LED
DC

+ BAT -

Battery

AC

J3J2

Start

Trouble

12 VDC @ 5 Amps

Batt

Trouble

J4

J6 Interface

Card
Expansion
Connector

J6

+ DC -

The Auxiliary Power Supply and Notification Circuit
Module trouble contact zone must be programmed
as a Supervisory Type zone and must be selected
for display in the keypad status list.

Sync module required when
using multiple notification
appliances

Model 308

10K EOL

The maximum voltage drop

Polarized Notification

Appliances

between the panel Bell Output and

the Model 308 is 1 VDC when a

separate power supply is not used.
See the Notification Appliance
section for a list of appliances.

XR500 Series Installation Guide Digital Monitoring Products

41

WIRING DIAGRAMS

36.4 866 Class B Style W Dual Notication Appliance Circuits

Ethernet

J21

RS-232

J4

Tamper

XR500 Series Command

J1

J22
LX-Bus

J10

J8

PROG

Processor™ Panel

Output 2

Output 1

J2

K6 K7

J11

Out2

3
4
5
6

MAIN BACKUP

J4

J5

K2

–

DS1

Buzzer

PANEL

F2

J1

P3

F1

J2

K1

P10

+

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Regulated

12 VDC

J23

Power LED

R
L
X

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

J6 Interface

Card
Expansion
Connector

DMP Model 865

26mA @ 12 VDC

The Model 865

Notification Appliance

Circuit Module in

alarm draws up to

59mA through its
Terminal 3 Alarm

Input and 26mA from

the Terminal 1

Aux Power Input.

Sync module required when
using multiple notification
appliances

Normal

S1

Bell

J2

Silence

CR6
CR5

J1

1

AUX PWR

2

GND

Alarm In

3

Bell Out A -

Bell Out B ­Bell Trouble

Bell Trouble

4
5
6
7
8

9
10
11

Bell PWR In +

Bell PWR In -

Bell Out A +

Bell Out B +

DSM-12/24 Module

MINUS 2MINUS 1+OUT 1 +IN 1 +IN 2-AUD+AUD +OUT 2

TRBL
GND
FAULT

Model 310

1K EOL

When using a separate

power supply, the

maximum current is 3

Amps.

The Bell Output

programming for Fire

type zones must be set

to Steady.

Auxiliary Power Supply must be regulated, power
limited, and listed for Fire Protective Signaling
Service. Power Supplies must have battery backup.

Note: If an auxiliary power supply is not used,
terminals 3 and 4 can be jumpered together to
supply Bell Power from the panel.

505-12 Power

Supply

Green

Red

LED

LED

AC

DC

AC

J3J2

+ BAT -

Battery

Start

AC

Trouble

12 VDC @ 5 Amps

Batt

Trouble

J4

J6

+ DC -

The Auxiliary Power Supply and Notification
Circuit Module trouble contact zone must be
programmed as a Supervisory Type zone and
must be selected for display in the keypad
status list.

Model 308

10K EOL

The maximum voltage drop

between the panel Bell Output and

the Model 308 is 1 VDC when a

separate power supply is not used.

Model 308

10K EOL

See the Notification Appliance section for a list of appliances.

Polarized Notification Appliances

Digital Monitoring Products XR500 Series Installation Guide

42

WIRING DIAGRAMS

36.5 865 Class B Style W using Single Notication Appliance

J1

Ethernet

J21

RS-232

J22
LX-Bus

J10

1K EOL

PROG

Tamper

J8

J4

XR500 Series Command

Processor™ Panel

Output 2

Output 1

J2

K6 K7

Out2

J11

3
4
5
6

The Bell Output programming for Fire

type zones must be set to Temporal.

Note: Terminals 3 and 4 jumper together to
supply Bell Power from the panel.

MAIN BACKUP

J4

J5

K2

–

DS1

Buzzer

DMP Model 865

26mA @ 12 VDC

The Model 865

Notification Appliance

Circuit Module in

alarm draws up to

59mA through its
Terminal 3 Alarm

Input and 26mA from

the Terminal 1

Aux Power Input.

PANEL

F2

J1

P3

F1

J2

K1

P10

+

AUX PWR

Alarm In

Bell PWR In +

Bell PWR In -

Bell Out A +

Bell Out A -

Bell Out B +

Bell Out B ­Bell Trouble

Bell Trouble

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Regulated

12 VDC

Normal

S1

Bell

J2

Silence

TRBL

CR6

GND

CR5

FAULT

J1

1
2

GND

Power LED

J23

R
L
X

Model 310

3
4
5
6
7
8

9
10
11

J6 Interface

Card
Expansion
Connector

Model 308

10K EOL

The maximum voltage drop

between the panel Bell Output and

the Model 308 is 1 VDC when a

separate power supply is not used.

Listed Polarized Notification

Appliance

See the Notification Appliance
section for a list of appliances.

XR500 Series Installation Guide Digital Monitoring Products

43

WIRING DIAGRAMS

36.6 865 Class B Style W Multiple Notication Appliance Circuit

Ethernet

J21

RS-232

J4

Tamper

XR500 Series Command

J1

J22
LX-Bus

J10

J8

PROG

Processor™ Panel

Output 2

Output 1

J2

Out2

K6 K7

J11

3
4
5
6

MAIN BACKUP

J4

J5

K2

–

DS1

Buzzer

PANEL

F2

J1

P3

F1

J2

K1

P10

+

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Power LED

J23

R
L
X

J6 Interface

Card

Expansion

Connector

DMP Model 865

26mA @ 12 VDC

The Model 865

Notification Appliance

Circuit Module in

alarm draws up to

59mA through its
Terminal 3 Alarm

Input and 26mA from

the Terminal 1

Aux Power Input.

Sync module required when
using multiple notification
appliances

S1

J2

CR6
CR5

1

AUX PWR

2

GND

Alarm In

3

Bell Out A -

Bell Out B ­Bell Trouble

Bell Trouble

4
5
6
7
8

9
10
11

Bell PWR In +

Bell PWR In -

Bell Out A +

Bell Out B +

SM-12/24 Module

Regulated

12 VDC

Normal

Bell
Silence

TRBL
GND
FAULT

J1

Model 310

1K EOL

The Bell Output

programming for Fire

type zones must be set

to Steady.

When using a separate power supply, the
maximum current is 3 Amps.

Auxiliary Power Supply must be regulated, power
limited, and listed for Fire Protective Signaling
Service. Power Supplies must have battery backup.

Note: If an auxiliary power supply is not used,
terminals 3 and 4 can be jumpered together to
supply Bell Power from the panel.

505-12 Power

Supply

Green

Red

LED

LED

AC

DC

AC

J3J2

+ BAT -

Battery

Start

AC

Trouble

12 VDC @ 5 Amps

Batt

Trouble

J4

J6

+ DC -

The Auxiliary Power Supply and Notification
Circuit Module trouble contact zone must be
programmed as a Supervisory Type zone and
must be selected for display in the keypad
status list.

Model 308

10K EOL

The maximum voltage drop

between the panel Bell Output and

Polarized Notification Appliances

See the Notification Appliance section for a list of appliances.

the Model 308 is 1 VDC when a

separate power supply is not used.

Digital Monitoring Products XR500 Series Installation Guide

44

WIRING DIAGRAMS

36.7 865 Class B Style W Dual Notication Appliance Circuits

Ethernet

J21

RS-232

J4

Tamper

XR500 Series Command

Output 1

K6 K7

Output 2

J2

Processor™ Panel

J11

Out2

3
4
5
6

J1

J22
LX-Bus

J10

J8

PROG

MAIN BACKUP

J4

J5

K2

–

DS1

Buzzer

PANEL

F2

J1

P3

F1

J2

K1

P10

+

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Regulated

J23

Power LED

R
L
X

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

12 VDC

J6 Interface

Card
Expansion
Connector

DMP Model 865

26mA @ 12 VDC

The Model 865

Notification Appliance

Circuit Module in

alarm draws up to

59mA through its

Terminal 3 Alarm

Input and 26mA from

the Terminal 1

Aux Power Input.

Sync module required when
using multiple notification
appliances

Normal

S1

Bell

J2

Silence

CR6
CR5

J1

1

AUX PWR

2

GND

Alarm In

3

Bell Out A +

Bell Out A -

Bell Out B +

Bell Out B ­Bell Trouble

Bell Trouble

4
5
6
7
8

9
10
11

Bell PWR In +

Bell PWR In -

DSM-12/24 Module

MINUS 2MINUS 1+OUT 1 +IN 1 +IN 2-AUD+AUD +OUT 2

TRBL
GND
FAULT

Model 310

1K EOL

When using a separate

power supply, the

maximum current is 3

Amps.

The Bell Output

programming for Fire

type zones must be set

to Steady.

Auxiliary Power Supply must be regulated, power
limited, and listed for Fire Protective Signaling
Service. Power Supplies must have battery backup.

Note: If an auxiliary power supply is not used,
terminals 3 and 4 can be jumpered together to
supply Bell Power from the panel.

505-12 Power

Supply

Green

Red

LED

LED

AC

DC

AC

J3J2

+ BAT -

Battery

Start

AC

Trouble

12 VDC @ 5 Amps

Batt

Trouble

J4

J6

+ DC -

The Auxiliary Power Supply and Notification
Circuit Module trouble contact zone must be
programmed as a Supervisory Type zone and
must be selected for display in the keypad
status list.

Model 308

10K EOL

The maximum voltage drop

between the panel Bell Output and

the Model 308 is 1 VDC when a

separate power supply is not used.

Model 308

10K EOL

See the Notification Appliance section for a list of appliances.

Polarized Notification Appliances

XR500 Series Installation Guide Digital Monitoring Products

45

WIRING DIAGRAMS

Module in alarm dr

36.8 865 Class A Style X using Single Notication Appliance

J1

Ethernet

J21

RS-232

J22
LX-Bus

J10

1K EOL

PROG

Tamper

J8

J4

XR500 Series Command

Processor™ Panel

Output 2

Output 1

J2

K6 K7

Out2

J11

3
4
5
6

Note: Terminals 3 and 4 jumper together
to supply Bell Power from the panel

Terminals 2 and 5 jumper together to
provide Ground from the panel

Only one notification appliance may be used
when not using a sync module.

The Bell Output programming for Fire type
zones must be set to Temporal.

MAIN BACKUP

J4

J5

K2

–

DS1

Buzzer

DMP Model 865

26mA @ 12 VDC

The 865 Notification

Appliance Circuit

aws

up to 59mA through

its Terminal 3 Alarm

Input and 26mA from

the Terminal 1

Aux Power Input.

PANEL

F2

J1

P3

F1

J2

K1

P10

+

AUX PWR

Alarm In

Bell PWR In +

Bell PWR In -

Bell Out A +

Bell Out A -

Bell Out B +

Bell Out B ­Bell Trouble

Bell Trouble

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Regulated

12 VDC

Normal

S1

Bell

J2

Silence

TRBL

CR6

GND

CR5

FAULT

J1

1
2

GND

Power LED

J23

R
L
X

Model 310

3
4
5
6
7
8

9
10
11

J6 Interface

Card
Expansion
Connector

Digital Monitoring Products XR500 Series Installation Guide

46

Listed, Polarized

Notification Appliance

See the Notification Appliance section

for a list of appliances.

WIRING DIAGRAMS

36.9 867 Class B Style W using Single Notication Appliance

J1

Ethernet

J21

J22
LX-Bus

J10

PROG

Tamper

J8

J4

XR500 Series Command

Processor™ Panel

Output 2

Output 1

J2

Out2

K6 K7

3
4
5
6

J11

MAIN BACKUP

PANEL

F2

J4

J1

P3

F1

J2

J5

K1

K2

P10

+

–

DS1

Buzzer

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Power LED

J23

R

RS-232

L
X

J6 Interface

Card
Expansion
Connector

DMP Model 867

30mA @ 12 VDC

The 867 must have its

own independent

address ranging from

500 to 999. A

Supervisory zone must

be programmed into the

XR500 Series to properly

supervise each module.

Bell Relay
Address
Supervisory
Address

Normal/Silence Switch

Ground Fault LED

Bell Trouble LED

Bell In + 1

Bell In - 2

Bell Out + 3

Bell Out - 4

Bell Trouble 5

Bell Trouble 6

PWR Mon. 7

Mon. RTN 8

TENS ONES

TENS ONES

LX-Bus Wiring

Model 308

10K EOL

Model 310

1K EOL

Bell Ring Style (Temporal)

Power Supply Monitor LED
Data LED

Listed, Polarized

Notification Appliances

See the Notification Appliance section

for a list of appliances.

Only one notification appliance may be

used when not using a sync module.

Auxiliary Power Supply must be Listed for Fire
Protective Signaling Service. Power Supplies
must have battery backup.

505-12 Power

Supply

Green

Red

LED

LED

AC

DC

AC

J3J2

+ BAT -

Battery

Start

Trouble

AC

12 VDC @ 5 Amps

Batt

Trouble

J4

The Auxiliary Power Supply and Notification
Circuit Module trouble contact zone must be
programmed as a Supervisory Type zone and
must be selected for display in the keypad

status list.

J6

+ DC -

XR500 Series Installation Guide Digital Monitoring Products

47

WIRING DIAGRAMS

36.10 867 Class B Style W Multiple Notication Appliance Circuit

Ethernet

J21

RS-232

J4

Tamper

XR500 Series Command

Processor™ Panel

J1

J22
LX-Bus

J10

PROG

Output 1

J8

Output 2

J2

Out2

K6 K7

J11

3
4
5
6

MAIN BACKUP

PANEL

F2

J4

J1

P3

F1

J2

J5

K1

K2

P10

+

–

DS1

Buzzer

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Power LED

J23

R

L

X

J6 Interface

Card
Expansion
Connector

DMP Model 867

30mA @ 12 VDC

The 867 must have its

own independent

address ranging from

500 to 999. A

Supervisory zone must

be programmed into the

panel to properly

supervise each module.

Bell Relay
Address
Supervisory
Address

Normal/Silence Switch

Ground Fault LED

Bell Trouble LED

Bell In + 1

Bell In - 2

Bell Out + 3

Bell Out - 4

Bell Trouble 5

Bell Trouble 6

PWR Mon. 7

Mon. RTN 8

TENS ONES

TENS ONES

LX-Bus Wiring

Model 310

1K EOL

Bell Ring Style (Steady)

Power Supply Monitor LED
Data LED

SM-12/24 Module

Sync module required when using multiple notification appliances

Auxiliary Power Supply must be Listed for Fire
Protective Signaling Service. Power Supplies
must have battery backup.

When using an SM Sync Module, the
maximum current is 3 Amps.

505-12 Power

Supply

Green

Red

LED

LED

AC

DC

AC

J3J2

+ BAT -

Battery

Start

Trouble

AC

12 VDC @ 5 Amps

Batt

Trouble

J4

+ DC -

The Auxiliary Power Supply and Notification
Circuit Module trouble contact zone must be
programmed as a Supervisory Type zone and
must be selected for display in the keypad
status list.

J6

Model 308

10K EOL

Listed, Polarized

Notification Appliances

See the Notification Appliance

section for a list of appliances.

Digital Monitoring Products XR500 Series Installation Guide

48

WIRING DIAGRAMS

36.11 867 Class B Style W Multiple Notication Appliance Circuits

J1

Ethernet

J21

J22
LX-Bus

J10

PROG

Tamper

J8

J4

XR500 Series Command

Processor™ Panel

Output 2

Output 1

J2

Out2

K6 K7

3
4
5
6

J11

MAIN BACKUP

PANEL

F2

J4

J1

P3

F1

J2

J5

K1

K2

P10

+

–

DS1

Buzzer

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Power LED

J23

R

RS-232

L
X

J6 Interface

Card
Expansion
Connector

DMP Model 867

30mA @ 12 VDC

The 867 must have its

own independent

address ranging from

500 to 999. A

Supervisory zone must

be programmed into the

panel to properly

supervise each module.

Bell Relay
Address
Supervisory
Address

Sync module required when using
multiple notification appliances

Normal/Silence Switch

Ground Fault LED

Bell Trouble LED

Bell In + 1

Bell In - 2

Bell Out + 3

Bell Out - 4

Bell Trouble 5

Bell Trouble 6

PWR Mon. 7

Mon. RTN 8

TENS ONES

TENS ONES

LX-Bus Wiring

Model 310

1K EOL

Bell Ring Style (Steady)

Power Supply Monitor LED
Data LED

DSM-12/24 Module

MINUS 2MINUS 1+OUT 1 +IN 1 +IN 2-AUD+AUD +OUT 2

Auxiliary Power Supply must be Listed for Fire
Protective Signaling Service. Power Supplies
must have battery backup.

When using an DSM Sync Module, the
maximum current is 3 Amps.

505-12 Power

Supply

Green

Red

LED

LED

AC

DC

AC

J3J2

+ BAT -

Battery

Start

Trouble

AC

12 VDC @ 5 Amps

Batt

Trouble

J4

+ DC -

The Auxiliary Power Supply and Notification
Circuit Module trouble contact zone must be
programmed as a Supervisory Type zone and
must be selected for display in the keypad

status list.

Model 308

10K EOL

J6

Model 308

10K EOL

Listed, Polarized Notification Appliances

See the Notification Appliance section

for a list of appliances.

XR500 Series Installation Guide Digital Monitoring Products

49

WIRING DIAGRAMS

36.12 Panel Slave Communicator for FACP using 630F Annunciator

XR100/XR500 Series

Command Processor™ Panel

Slave Communicator for FACP

using 630F Annunciator for

local annunciation for slave

Output 1

Output 2

J2

Out2

K6 K7

J11

3
4
5
6

Battery
Start

J1

J22
LX-Bus

J10

PROG

Tamper

J8

J4

J3

Phone Line

Ethernet

J21

Power LED

AC

+B BELL GND SMK GNDRED YEL GRN BLK Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

J23

RS-232

To 322/323

1 2 3 4 5 6 7 8 10 11 12 13 14 15 16 17 18 199 20 21 22 23 24 25 26 27 28

transformer

Must be connected

to same circuit

as FACP

Model 311

1K EOL

Standy

Batteries

POWER

TROUBLE

ALARM

SILENCE

RESET

ENABLE

TEST

DRILL

Fire Command Center

ABC DEF GHI JKL

1 2 3 4

MNO PQR STU VWX

5 6 7 8

YX

9 0

630F Annunciator

Program forFire Protective Signaling communication to the
Central Station.

Program Fire Alarm zone as type FI and set Fire Panel Slave
Input option as YES.

Program General Trouble zone as type FI.

Program Supervisory zone as type SV and set the Latch
Supervisory option in System Options as NO.

Main Fire Alarm

Fire Alarm

Form C alarm contacts activate
short on General Fire Alarm.

General Trouble

Form C trouble contacts activate
open on General Trouble.
General Trouble must not be
used to indicate AC power fail
unless it can be delayed at least
1 hour.

Supervisory

Form C contacts activate short on
Supervisory condition.

Control Panel (FACP)

COMMAND

Normally Open

{

Normally Closed

Normally Open

{

Normally Closed

Normally Open

{

Normally Closed

Program Bell Options
fire type as None.

Zone 3

Common

Common

1.0k Ohm

Zone 4

Common

1k Ohm EOL

1.0k Ohm

Zone 6

Digital Monitoring Products XR500 Series Installation Guide

50

WIRING DIAGRAMS

92

36.13 Panel Slave Communicator for FACP using Outputs

XR500 Series

Command Processor™ Panel

J1

J22
LX-Bus

J10

PROG

Tamper

J8

J4

Communication Fail

Output 1 must be programmed
as a Comm Fail output in Output
Options.

Fire Trouble

Output 2 must be programmed
as a Fire Trouble output in
Output Options.

Output 1

Output 2

J2

K6 K7

Out2Out1

FACP EOL

Battery
Start

J3

Phone Line

J12

75VA

50VA

Power LED

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9- Z10+ Z10-AC -B GND GND GNDGND

AC

J23

Ethernet

J21

RS-232

FACP EOL

To 322/323/324/324P

transformer

Must be connected

to same circuit

as FACP

Standy

Batteries

Program at least one Device in Device Setup as a Fire Type although a keypad is
not actually connected.

Program for Fire Protective Signaling communication to the Central Station.

Program Fire Alarm zone as type FI and set Fire Panel Slave Input option as YES.

Program General Trouble zone as type FI.

Program Supervisory zone as type SV and set the Latch Supervisory option in
System Options as NO.

12345678 10 11 12 13 14 15 16 17 18 19

Program Bell Options

Model 311

1K EOL

fire type as None.

Main Fire Alarm

Fire Alarm

Form C alarm contacts activate
short on General Fire Alarm.

General Trouble

Form C trouble contacts activate
open on General Trouble.
General Trouble must not be
used to indicate AC power fail
unless it can be delayed at least
1 hour.

Supervisory

Form C contacts activate short on
Supervisory condition.

Control Panel (FACP)

Normally Open

{
{
{

Common

Normally Closed

Normally Open

Common

Normally Closed

Normally Open

Common

Normally Closed

Normally Open

Common

Normally Closed

02122232425262728

Must be
installed
in conduit
and located
within 20 feet.

Zone 3

1.0k Ohm

Zone 4

1k Ohm EOL

1.0k Ohm

Zone 6

Communication Fail

Program FACP Zone Input to
indicate a communication trouble
locally.

Fire Trouble

Program FACP Zone Input to
indicate a trouble locally.

XR500 Series Installation Guide Digital Monitoring Products

FACP Zone Input

{

FACP Zone Input

{

Slave Communication Trouble

Slave General Fire Trouble

51

WIRING DIAGRAMS

36.14 Dual Style D Zone Module Installation

Dual Style D Initiating Module

DMP Model 869

25mA Standby, 75mA Alarm

@ 12 VDC

Model 869

GND
Fault A

A1

Zone A

A1
A2
A2

Zone A

GND

Aux Power

Zone B

B1

Zone B

B1

B2

B2

J3

J4

Tamper

XR500 Series

J12

75VA

50VA

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLK Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Z9+ Z9– Z10+ Z10–AC –B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122 23 24 25 26 27 28

J23

R
L
X

J1

J21

RS-232

J22

J10

J8

SS S S

Regulated

12 VDC

S

S
S

S

S

S
S

S

Heat Detectors, manual pull stations, or any other
listed shorting device. Unlimited number of units.

Command Processor™

Panel

J2

K6 K7

J11

S = Supervised Circuit

J6

Interface

Card
Expansion
Connector

J16

Reset

GND
Fault B

Digital Monitoring Products XR500 Series Installation Guide

52

WIRING DIAGRAMS

36.15 Derived Channel Installation Using Bosch D8122

XR500 Series Command Processor™ Panel

Telco Jack

J3

Phone Line

J12

75VA

50VA

Battery
Start

AC

+B BELL GND SMK GNDRED YEL GRN BLK Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Z9+ Z9– Z10+Z10–AC –B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122 23 24 25 26 27 28

P1

J23

R
L
X

J4

Tamper

J1

J21

J22

J10

J8

PROG

Form C Dry Contact Relays (J2)

Output Color Code–Model 431 Harness
Output 2 N/O Orange/White
Output 2 Com White/Gray
Output 2 N/C Violet/White
Output 1 N/O Orange
Output 1 Com Gray
Output 1 N/C Violet

Output Header J2 for K6 and K7 Dry Contact
Relays. All outputs must be connected to devices
located within the same room as the panel.

J2

K6

J11

K7

J6

Interface

Card

Expansion

Connector

J16

Reset

+ 12V

Zone 1
Zone 2
Zone 3
Zone 4
Zone 5

COMM

P2

Panel Terminal 7 Wire

Panel Common Wire

1 2 3

JP4

1 2 3

JP3

1 2 3

JP1

1 2 3

JP2

1 2 3 4 5 6 7 8

SW1 (MSB) SW2 (LSB)

OPEN

1 2 3 4 5 6 7 8

OPEN

Output 2 Common Wire

Output 1 Common Wire

J2

J1

+12 VDC Out

CONT OUT

D8122

Interfacing D8122 to the XR500 Series Panels

The D8122 may only be used in conjunction with telephone systems that support Derived Channel network.
For installation instructions, see the Derived Channel STUD8121A/D8122 Operation and Installation Guide.

• For Standard Line Security applications, the panel must be installed and programmed to meet burglary
alarm system requirements.

• The panel must be installed and programmed for reporting all alarm conditions through the integral
DACT or network connection to the same central station that monitors the D8122.

• The D8122 must be installed in the same enclosure as the XR500 Series panel using the supplied
mounting hardware. Refer to the STUD8121A/D8122 Operation and Installation Guide.

• Derived Channel Communication is not applicable for ULC Canadian Installations.

XR500 Series Installation Guide Digital Monitoring Products

53

WIRING DIAGRAMS

36.16 Rothenbuhler 5110 High Security Bell Wiring.

J6

Card

Interface

Expansion

Connector

Panel

XR500 Series

Command Processor™

the control panel.

J2 Output Header

within the same room as

All outputs must be located

J4

Tamper

J1

J21

RS-232

J22

J2

J10

J11

J16

Reset

K6 K7

S = Supervised Circuit

Harness

Model 431 Output

308

10K EOL

DMP Model

10K EOL

DMP Model 308

SS

Output 1 Common

Output 2 Common

J23

L

X

R

K3

75VA

J3

50VA

J12

Battery

Start

+B BELL GND SMK GNDRED YEL GRN BLK Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Z9+ Z9– Z10+Z10–AC –B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122 23 24 25 26 27 28

AC

High Security Bell

Rothenbuhler 5110

Output 2 N/C

Silence

Red LED

Green LED

Output 1 N/C

BLI

BLO

Test

Common

+ 12 VDC

Digital Monitoring Products XR500 Series Installation Guide

54

36.17 LX-Bus™ Module Connection

LX-Bus Expansion

Interface Card

DMP Models 481, 462N,

462P, or 464-263H.

Each LX-Bus Module must
have its own independent

S

S

S

S

address ranging from 00 to

99. A Supervisory zone must
be programmed into the
XR500 Series to properly
supervise each module.

S

S

S

S

WIRING DIAGRAMS

Red

Yellow

Green

LX-Bus™ Wiring

To additional LX-Bus Modules

Black

= Supervised Circuit

S

S

S

S

Open Collector

Annunciator Outputs

Optional LED wiring 50mA at
50 VDC resistive

S

Relay 1

Relay 2

Relay 3

Relay 4

Form C Contacts

Typical

Normally Closed
Common
Normally Open

Model 716 Output

Expander Module

13m at 12 VDC

Optional LED wiring 50mA at
50 VDC resistive

Model 717 Graphic

Annunciator

Module

10m at 12 VDC

XR500 Series Installation Guide Digital Monitoring Products

55

WIRING DIAGRAMS

Bat
Start

36.18 Model 860 Relay Module Connection

J3

J12

75VA

50VA

J23

RS-232

R
L
X

tery

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9– Z10+Z10–AC –B GND GND GNDGND

J4

Tamper

J1

J21

J2 Output Header

All outputs must be located

within the same room as

the control panel.

J22

J10

J2

K6 K7

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

36.19 Powered Burglary Devices

XR500 Series

Command Processor™

Panel

J11

J6

Interface

Card
Expansion
Connector

J16

Reset

Harness

Assembly

Relay contact rating:
1 Amp @ 30 VDC, resistive

RED
YEL
GRN
BL K

4-wire

Model 860

Relay Module

1
2

Relay 1

3

{

4

J2

Relay 2

{

Relay 3

{

Relay 4

{

+12 VDC

N/C
Common
N/O

J3

J4

Tamper

XR500 Series

J12

Battery
Start

75VA

50VA

R
L
X

J21

J23

RS-232

J22

J10

J8

J1

AC

+B BELL GND SMK GNDRED YEL GRN BLKZ1Z2Z3Z4Z5Z6Z7Z8 Z9+ Z9– Z10+Z10–AC –B GND GND GNDGND

12345678 10 11 12 13 14 15 16 17 18 199202122232425262728

Red

Yellow

Green

Black

7060 Keypad

Command Processor™

Panel

J2

K6 K7

Yellow

Green

J11

KYPD LX

J2

TENS ONES

TXD

Red

Black

J3

Z1+

Z1-

Z2+

RED

YEL

GRN

BLK

J5

Z2-

Z3+

Z3-

Z4+

Z4-

J7

J6

Interface

Card
Expansion
Connector

J16

Reset

Z5+

Z5-

Z6+

Z6-

Z7+

Z7-

Z8+

Z8-

Zone Expander

Z9+

Z9-

Z10+

Z10-

Z11+

Z11-

Z12+

Z12-

J12J10

J14

Z13+

Z13-

Z14+

Z14-

Z15+

Z15-

Z16+

Z16-

12 VDC

Zone

Connection

PIR or

Glassbreak

+–

+–

505-12 Power

Supply

EOL

1k

Digital Monitoring Products XR500 Series Installation Guide

56

WIRING DIAGRAMS

36.20 System Sensor 2-Wire Smoke Detectors

to transformer

J3

Phone Line

Link LED

Power LED

J1

Ethernet

J4

Tamper

XR500 Series Panel

J21

J23

R
L
X

RS-232

J22
LX-Bus

J10

PROG

Output 1 Output 2

K6 K7

J8

OVC

J2

Out1 Out2

J11

3
4
5
6

Outputs 3-6

Battery
Start

AC

Power
LED

+B BELL GND SMK GNDRED YEL GRN BLK Z1 Z2 Z3 Z4 Z5 Z6 Z7 Z8 Z9+ Z9– Z10+Z10–AC –B GND GND GNDGND

1 2 3 4 5 6 7 8 10 11 12 13 14 15 16 17 18 199 20 21 22 23 24 25 26 27 28

TEMPORAL

PURPLE

BLACK

RED

SYSTEM SENSOR REVERSING

RELAY/SYNCHRONIZATION

T+

470 Ohm or

(2) 1k in Parallel

PWR +
PWR ­OUT +
OUT ­IN +
IN -

RRS-MOD

MODULE

3.3K

Z10+

Z10-

2W-MOD2

SYSTEM SENSOR LOOP

TEST & MAINTENANCE MODULE

12
11
10

9
8
7

1
2
3
4
5
6

SMK

GND

IN+

IN-

J6

Interface

Card
Expansion
Connector

J16

Reset

Orange

Yellow

Brown

White

3.9K EOL

SYSTEM SENSOR 2WTA-B or 2WTR-B

RA

-

+

+

+

RA

-

SMOKE DETECTORS

RA

-

+

+

+

RA

-

XR500 Series Installation Guide Digital Monitoring Products

57

WIRING DIAGRAMS

36.21 System Sensor i4 Series Smoke and CO Detectors Using A Single COSMOD2W Module

See i4 Series Interface Module Installation and Maintenance Instructions for additional information.

To Panel SMK or Optional Power Supply
To GND from Panel or Power Supply

Program Smoke zone

as type Fire (FI)

Program Maintenance zone

as type Auxiliary (AUX)**

Program CO zone as type

Emergency (EM) and

To Panel or Zone Expander
To Panel or Zone Expander GND

To Panel or Zone Expander Zone
To Panel or Zone Expander GND

To Panel or Zone Expander Zone
To Panel or Zone Expander GND

include CO in Zone name.

** The COSMOD2W sends a smoke maintenance inquiry to the
smoke detectors every 24 hours. If a response indicating a
maintenance condition is received, such as the detector
needs cleaning, the maintenance zone will indicate a
trouble condition.

The CO detector reports any maintenace conditions on the
Emergency zone.

To next

Install 3.9K EOL Resistor

at last detector

(supplied with

COSMOD2W)

To silence detectors

perform a Sensor Reset

COSMO-2W. Up
to 12 detectors

can be installed

for each

COSMOD2W

*

Zone EOL

Power In +
Power In -

Smoke +
Smoke -

Maint +
Maint ­CO Alarm +
CO Alarm -

COSMOD2W

Zone EOL

Zone EOL

IDC +
IDC -

Loop Style D wiring

To detector (+)

To detector (-)

COSMO-2W

*Optional Power Supply connection

J1

Power Supply

+ DC —

***

716

Output Expander

E

T

N

S

8

7

9

6

0

5

1

4

Rotary

2

3

Switches

8

7

9

6

0

5

1

4

2

3

ONE

S

TXD

K1

K2

K3

K4

To Panel
LX-Bus

N/C to COSMOD2W
Power In (+) (Violet)

To COSMOD2W Power In (-)

To 716 Output Common (Gray)

If using optional Power supply, program Output

Options Fire Output for the 716 relay to provide

Sensor Reset capability.

*** Listed for Fire Applications, output limited power, regulated

Digital Monitoring Products XR500 Series Installation Guide

58

WIRING DIAGRAMS

Connect the Bell In

Connect the CO Trigger

36.22 System Sensor i4 Series Smoke and CO Detectors Using Multiple COSMOD2W Modules

See i4 Series Interface Module Installation and Maintenance Instructions for additional information.

N/O to CO Trigger
Common

N/O to Bell In

RELAY

To Panel power SMK terminal

If installing multiple COSMOD2W Interface
modules, connect the Bell In terminal to a N/O
relay output to turn on ALL COSMOD2W smoke
detector sounders during a fire alarm. Connect
the Output Common to the panel SMK or
optional Power Supply positive terminal (+). In
Bell Options, program Bell Output for the relay
output number. Program the Bell Output Bell
Action as Temporal (T).

Common

or Optional Power Supply

Power In +
Power In -

Smoke +
Smoke -

Maint +
Maint ­CO Alarm +
CO Alarm -

CO Trigger

COSMOD2W

Zone EOL

Zone EOL

IDC +
IDC -

Bell In

To turn on ALL CO detector sounders installed
on multiple COSMOD2W modules during a CO
alarm, connect the CO Trigger to a N/O relay
output. Connect the Output Common to the
panel SMK or optional Power Supply positive
terminal (+). In Zone Information Alarm Action,
program each COSMOD2W Emergency Zone
(CO Alarm) for the COSMO-2W to turn on the
relay output Steady (STD) when the zone is in a
shorted condition.

Power In +
Power In -

Smoke +
Smoke -

Maint +
Maint ­CO Alarm +
CO Alarm -

CO Trigger

COSMOD2W

Zone EOL

Zone EOL

IDC +
IDC -

Bell In

XR500 Series Installation Guide Digital Monitoring Products

59

REVISIONS

Revisions to This Document

This section explains the changes that were made to this document during this revision. This section lists the
version, section number with heading, and a quick summary of the change.

Version Section Number and Heading Summary of Changes

1.29 11.2 Compatible 2-Wire Smoke Updated to current devices
Detector Chart

36.21 System Sensor i4 Series Smoke Added Wiring Diagram
and CO Detectors Using A Single
COSMOD2W Module

36.22 System Sensor i4 Series Smoke Added Wiring Diagram
and CO Detectors Using Multiple
COSMOD2W Modules

1.28 1.5 LX-Bus Added Model 2W-BLX and 2WT-BLX Smoke Detector references

3.4 Accessory Devices Added Model 2W-BLX and 2WT-BLX Smoke Detector references

6.8 XR500 Series Power Requirements Added Model 2W-BLX and 2WT-BLX Smoke Detector references

1.27 Complete Guide Added 464 Series References

3.4 Accessory Devices Updated for current product

6.8 XR500 Series Power Requirements Updated for current product

24.10 CELL Only, Standard or Added 464-263C, 464-263H
Encrypted Line Security

24.11 NET with CELL as Alternate Added 464-263C, 464-263H
Primary and Dialer Backup,
Standard or Encrypted
Line Security

24.12 NET with CELL as Backup and Added 464-263C, 464-263H
Adaptive Primary, Standard or
Encrypted Line Security

1.26 6.1 Battery Terminal 3 and 4 Updating model 368

6.9 Standby Battery Selection Updating model 368

21.14 Standby Batteries Updating mosel 368

1.25 21.8 Listed Receivers Claried listed receivers for contact ID

30.12 Listed Receivers Claried listed receivers for contact ID

Listings and Approvals Added California Stare re Marshal (CSFM)

1.24 3.2 Wiring Diagram Add 734 to Wiring Diagram

32.6 Wireless External Contact Removed 1101, 1102, and 1105 section

Digital Monitoring Products XR500 Series Installation Guide

60

XR500 Series Installation Guide Digital Monitoring Products

61

Certications

California State Fire Marshal (CSFM)

ANSI/SIA CP-01-2010 False Alarm Reduction

FCC Part 15

FCC Part 68 Registration ID CCKAL00BXR500

NIST Validated XR500E Encrypted Command

Processor Panel Certificate #130

New York City (FDNY COA #6167)

ANSI/UL 294 Access Control System Units
ANSI/UL 365 Police Connected Burglar
ANSI/UL 609 Local Burglar
ANSI/UL 1023 Household Burglar
ANSI/UL 1076 Proprietary Burglar
ANSI/UL 1610 Central Station Burglar
ANSI/UL 1635 Digital Burglar
ANSI/UL 2017 General Purpose Signaling

Devices and Systems
ANSI/UL 985 Household Fire Warning
ANSI/UL 864 Fire Protective Signaling 9th

Edition
Compatible with Devices listed for

ANSI/UL 268 Smoke-Automatic Fire
Detectors

ANSI/UL 346 Waterow Indicators for Fire

Protective Signaling Systems
ANSI/UL 636 Holdup Alarm Units and
Systems Accessory

UL Bank, Safe, and Vault

UL Standard Line Security

UL Encrypted Standard Line Security

Export Control

The XR500E uses AES encryption and any export beyond

the United States must be in accordance with Export
Administration Regulations.

17261

800-641-4282

www.dmp.com

Designed, Engineered and

Assembled in the USA.

INTRUSION • FIRE • ACCESS • NETWORKS

2500 North Partnership Boulevard

Springfield, Missouri 65803-8877

LT-0681 1.30 © 2017 Digital Monitoring Products, Inc.