DSC HS2016, HS2016-4, HS2128 E, HS2128, HS2032 Reference Manual

PowerSeries Neo Alarm Controller

Reference Manual

Models:

HS2016-4/HS2016/HS2032/HS2064/HS2064 E/

HS2128/HS2128 E

WARNING: This manual contains information on limitations regarding product use and function and information on the lim­itations as to liability of the manufacturer. The entire manual should be carefully read.

Safety Instructions for Service Personnel

Warning: When using equipment connected to the telephone network, always follow the basic safety instructions provided
with this product. Save these instructions for future reference. Inform the end-user of the safety precautions that must be
observed when operating this equipment.

Before Installing The Equipment

Ensure your package includes the following items:

l Installation and User manuals, including the SAFETY INSTRUCTIONS.

READ and SAVE these instructions!

Follow all WARNINGS AND INSTRUCTIONS specified within this document and/or on the equipment.

l HS2016-4/HS2016/2032/2064/2128 alarm controller
l Power Supply, direct plug-in
l Mounting hardware

Selecting A Suitable Location For The Alarm Controller

Use the following list as a guide to find a suitable location to install this equipment:

l Locate near a telephone socket and power outlet.
l Select a location free from vibration and shock.
l Place alarm controller on a flat, stable surface and follow the installation instructions.

Do NOT locate t his product where people may walk on the secondary circuit cable(s).

Do NOT connect alarm controller to electrical t he same circuit as largeappliances.

Do NOT select a location that exposes your alarm controller to direct sunlight, excessive heat, moisture, vapors, chemicals or dust.

Do NOT inst all t his equipment near water. (e.g., bath tub, kitchen/laundry sink, wet basement, near a swimming pool).

Do NOT inst all t his equipment and accessories inareas where risk of explosion exists.

Do NOT connect this equipment to electrical outlets controlled by wall switches or automatic timers.

AVOID interference sources.

AVOID installing equipment near heaters, air conditioners, ventilators, and refrigerators.

AVOID locating equipment close to or on top of large metal objects (e.g., wall studs).

See "Locating Detectors and Escape Plan" on page 221 for information on locating smoke and CO detectors.

SAFETY Precautions Required During Installation

l NEVER install this equipment and/or telephone wiring during a lightning storm.
l NEVER touch uninsulated telephone wires or terminals unless the telephone line has been disconnected at the net-

work interface.

l Position cables so that accidents can not occur. Connected cables must NOT be subject to excessive mechanical

strain.

l Use only the power supply provided with this equipment. Use of unauthorized power supplies may cause damage.
l For direct plug-in versions, use the transformer supplied with the device.

WARNING: THIS EQUIPMENT HAS NO MAINS ON/OFF SWITCH. THE PLUG OF THE DIRECT PLUG-IN POWER SUPPLY IS INTENDED
TO SERVE AS THE DISCONNECTING DEVICE IF THE EQUIPMENT MUST BE QUICKLY DISCONNECTED. IT IS IMPERATIVE T HAT
ACCESS TO THE MAINS PLUG AND ASSOCIATED MAINS SOCKET/OUTLET IS NEVER OBSTRUCTED.

IMPORTANT NOTE FOR NORTHAMERICA!

This alarm system must be installed and used within an environment that provides the pollution degree max 2 and over­voltages category II NON-HAZARDOUS LOCATIONS, indoor only. The equipment is DIRECT PLUG-IN (external trans­former) and is designed to be installed, serviced and/or repaired by service persons only; [service person is defined as a per­son having the appropriate technical training and experience necessary to be aware of hazards to which that person may be
exposed in performing a task and of measures to minimize the risks to that person or other persons]. This equipment has no
mains on/off switch; if the equipment must be quickly disconnected, the plug of the direct plug-in power supply is intended to
serve as the disconnecting device; it is imperative that access to the mains plug and associated mains socket/outlet, is never
obstructed. There are no parts replaceable by the end-user within this equipment. The wiring (cables) used for installation of
the alarm system and accessories, shall be insulated with PVC, TFE, PTFE, FEP, Neoprene or Polyamide.

(a) The equipment enclosure must be secured to the building structure before operation.

(b) Internal wiring must be routed in a manner that prevents:

- Excessive strain or loosening of wire on terminal connections;

- 2 -

- Damage of conductor insulation

(c) Disposal of used batteries must be made in accordance with local waste recovery and recycling regulations.

(d) Before servicing, DISCONNECT the power and telephone connection.

(e) DO NOT route any wiring over circuit boards.

(f) The installer is responsible to ensure that a readily accessible disconnect device is incorporated in the building for per­manently connected installations.

The power supply must be Class II, FAIL SAFE with double or reinforced insulation between the PRIMARY and
SECONDARY CIRCUIT/ENCLOSURE and be an approved type acceptable to the local authorities. All national wiring rules
must be observed.

IMPORTANT NOTE FORINTERNATIONALMARKET (EU, AUS, NZ)!

This alarm system must be installed and used within an environment that provides the pollution degree max 2 and over­voltages category II NON-HAZARDOUS LOCATIONS, indoor only. The equipment is DIRECT PLUG-IN (external trans­former) and is designed to be installed, serviced and/or repaired by service persons only; [service person is defined as a per­son having the appropriate technical training and experience necessary to be aware of hazards to which that person may be
exposed in performing a task and of measures to minimize the risks to that person or other persons]. This equipment has no
mains on/off switch; if the equipment must be quickly disconnected, the plug of the direct plug-in power supply is intended to
serve as the disconnecting device; it is imperative that access to the mains plug and associated mains socket/outlet, is never
obstructed. There are no parts replaceable by the end-user within this equipment. The wiring (cables) used for installation of
the alarm system and accessories, shall be insulated with PVC, TFE, PTFE, FEP, Neoprene or Polyamide This equipment is
stationary-fixed and must be installed by Service Persons only (Service Person is defined as a person having the appro­priate technical training and experience necessary to be aware of hazards to which that person may be exposed in per­forming a task and of measures to minimize the risks to that person or other persons). It must be installed and used within an
environment that provides the pollution degree max 2, over voltages category II, in non-hazardous, indoor locations only.
When using equipment connected to the mains and/or to the telecommunication network, there are basic safety instructions
that should always be followed. Refer to the safety instructions provided with this product and save them for future reference.
To reduce the risk of fire, electric shock and/or injury, observe the following: Do not attempt to service this product yourself.
Opening or removing the cover may expose you to dangerous voltage or other risk. Refer servicing to qualified service per­sons. Never open the device yourself. Use authorized accessories only with this equipment. DO NOT leave and/or deposit
ANY object on the top of the cabinet of this equipment! The cabinet as it is installed on the wall is not designed to support
any supplementary weight! Do not spill any liquids on the cabinet. Do not touch the equipment and its connected cables dur­ing an electrical storm; there may be a risk of electric shock. Never touch uninsulated wires or terminals unless the equip­ment has been disconnected from the mains supply and from the telecommunication network! Ensure that cables are
positioned so that accidents cannot occur. Connected cables must not be subject to excessive mechanical strain. Do not
spill any type of liquid on the equipment. Do not use the Alarm system to report a gas leak if the system is near a leak. Do not
subject the connected cables to an excessive mechanical strain. These safety instructions should not prevent you from con­tacting the distributor and/or the manufacturer to obtain any further clarification and/or answers to your concerns.

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Contents

Section 1: Introduction 6

1.1 About the System 6

Section 2: Installation 10

2.1 Overview of Installation Process 10

2.2 Alarm Controller Installation 10

2.3 Wiring 11

2.4 Installing Modules 16

Section 3: Configuration 27

3.1 Basic Configuration Steps 27

3.2 Using the Keypad 27

3.3 Enrollment 28

3.4 Working with Partitions 30

3.5 Trouble Indicators 31

3.6 Keypad Partition Setup 31

3.7 Alternate Communicator Setup 33

3.8 Local Firmware Upgrade 34

3.9 Testing the System 34

Section 4: System Operation 35

4.1 Arming and Disarming 35

4.2 Partition vs. Global Keypad 35

4.3 Labels 36

4.4 Annunciation 37

4.5 Keypad Function Keys 37

4.6 Language Selection 40

4.7 [*] Commands 40

4.8 SMS Command and Control 54

4.9 Visual Verification 54

Section 5: Programming 56

5.1 How to Program 56

5.2 Programming Methods 56

5.3 Programming Descriptions 61

Section 6: Programming Worksheets 123

6.1 Label Programming 123

6.2 Zone Setup 127

6.3 System Times 129

6.4 Access Codes 131

6.5 PGM Programming 131

6.6 System Lockout 142

6.7 System Options 143

6.8 Auto-Arm_Disarm 147

6.9 Partition and Zone Assignment 151

6.10 Communications 153

6.11 Call Directions 159

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6.12 DLS Programming 163

6.13 Virtual Inputs 163

6.14 Schedule Programming 164

6.15 Audio Module Programming 169

6.16 Wireless Programming 173

6.17 Alternate Communicators 174

6.18 Keypad Programming 174

6.19 Template Programming 176

6.20 System Information 176

6.21 Module Programming 177

6.22 Wireless Placement Testing 178

6.23 Battery Settings 178

6.24 Restoring Factory Defaults 179

Section 7: Troubleshooting 180

7.1 Testing 180

7.2 Troubleshooting 180

Appendix 1: Reporting Codes 188

Appendix 2: Word Library 197

Appendix 3: Template Programming Tables 198

Appendix 4: Regulatory Approvals 204

4.1 SIA False Alarm Reduction Installations: Quick Reference 207

4.2 Australia / New Zealand Regulatory Compliance Mark 210

4.3 New Zealand Telepermit Grant 210

Appendix 5: ASCII Characters 213

Appendix 6: Wiring Diagrams 214

Appendix 7: Specifications 219

8.0 Index 226

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Section 1: Introduction

CP-01

EN

NFA2P

UK

1.1 About the System

The PowerSeries Neo alarm panel is a feature-rich, scalable alarm system designed for residential and light commercial
use. The alarm panel supports both hardwired and wireless devices. This section lists the features of the alarm panel, avail­able models, and compatible devices.

The following symbols are used to indicate features or methods of operation that are only available in a particular market. No
symbol indicates the feature or operation is available for all markets unless noted specifically otherwise.

- North America

- Europe

- France

- United Kingdom

1.1.1 Features

The following features are available on the PowerSeries Neo alarm controller.

Zones, Wireless Keypads, Wireless Keys, Panic Pendants and Proximity Tags

l 16, 32, 64, or 128 wireless or hardwired zones supported, including 6 or 8 hardwired zones available on the con-

troller.

l 40 zone types and 14 programmable zone attributes
l Up to 16 separate wireless keypads supported
l Up to 32 separate wireless keys or supported
l Up to 94 separate proximity tags supported

Access Codes

l Up to 1002 access codes: 1000 (level 2-EN) including one system master code (level 3-EN). In addition, one installer

code (level 3-EN), and one maintenance code are available.
Note: EN50131-1 compliant systems using 1000 access codes shall set the access code to 8 digits (section [041],

option 02).

l Programmable attributes for each user code (see "Access Code Attributes" on page 48)

Programmable Outputs (PGMs)

l Up to 4 programmable outputs (PGM) on the alarm controller with 49 available options
l 22, 38, 80, 148 maximum programmable outputs

System Supervision Features

The PowerSeries Neo continuously monitors a number of possible trouble conditions and provides audible and visual indic­ation at the keypad. Trouble conditions include:

l AC power failure
l Zone trouble
l Fire trouble
l Telephone line trouble
l Communicator trouble
l Low battery condition
l RF jam
l AUX power supply fault
l Failure to communicate
l Module fault (supervisory or tamper)

Additional Features

l 2-way wireless device support
l Visual verification (images + audio)
l Proximity tag support

Section 1: Introduction

l PGM scheduling
l Quick arming
l User, partition, module, zone and system labels
l Programmable system loop response
l Keypad and panel software versions viewable through keypad
l Doorbell zone type
l Low battery PGM type

1.1.2 Available Models

The following alarm controller models are available:

l HS2016-4
l HS2016
l HS2032
l HS2064
l HS2064 E
l HS2128
l HS2128 E

Note: Not all models are available in all markets.

Model Differences

The table below lists the features of each alarm system model.

Table 1-1 Model Differences

Features HS2128EHS2128 HS2064EHS2064 HS2032 HS2016 HS2016-4

Hardwired zones 128 128 64 64 32 16 16

Onboard zone inputs 8 8 8 8 8 6 8

Wirelesszones 128 128 64 64 32 16 32

Partitions 8 8 8 8 4 2 8

Users 1000 95 500 95 72 48 48

Onboard outputs 4 4 4 4 2 2 4

Max outputs 148 148 80 80 38 22 24

Keypads 16 16 8 8 8 8 8

Wirelesskeys 32 32 32 32 32 16 16

Wirelesssirens 16 16 8 8 8 4 4

Wirelessrepeaters * 8 8 8 8 8 4 4

Proximitytags 999 94 499 94 71 47 47

Alt Comm. phone #’s 4 4 4 4 4 4 4

User-programmable phone #’s 8 8 8 8 8 8 8

Event buffer 1000 1000 500 500 500 500 500

8-zone expander HSM2108 15 15 7 7 3 1 1

Power supplyHSM2300 4 4 3 3 3 3 3

Power supply/high-current output expander HSM2204 4 4 3 3 1 1 1

8-output expander HSM2208 16 16 8 8 4 2 2

2- way wirelessintegration module 1 1 1 1 1 1 1

Audio verification module HSM2955 1 1 1 1 1 1 1

*For UL installations, 2 repeaters must be installed for proper signal routing.

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Section 1: Introduction

1.1.3 Compatible Devices

The following wireless devices and modules are compatible with this alarm controller.

Note: On the table below and throughout this document, x in the model number represents the operating frequency of the
device as follows: 9 (912-919 MHz), 8 (868MHz), 4 (433MHz).

Note: Only models operating in the band 912-919 MHz are UL/ULC listed where indicated. OnlyULapproved devices are to
be used with UL/ULC listed systems.

Table 1-2 Compatible Devices

Modules

Wireless keypads HS2LCDWFx

HS2LCDWFPx

Hardwired keypads with 2-way wireless integration module HS2LCDRFx

HS2LCDRFPx

Hardwired keypads HS2LCD

Touchscreen Keypad

HS2LCDP
HS2ICN

HS2TCHP

UL

UL

UL

UL

Note: For ULC-s559 Listed applications the HS2TCHP touchscreen keypad is for supplementary use only.

2-way wireless integration module HSM2HOSTx

8-zone expander HSM2108

8-output expander HSM2208

Power supply HSM2300

4 high current output expander HSM2204

Alternate communicator 3G2080E

3G2080RE
TL280E
TL280RE

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

HS2LCDWFPVx

HS2ICNRFx

UL

HS2ICNRFPx

HS2ICNP
HS2LED

TL2803GE
TL2803GRE
PCL-422

UL

UL

UL

UL

UL

UL

Hardwired Devices

2-wire smoke detector

y= A, B, or C

A: ULC listed models
B: UL list ed models
C: European and Australian models

4-wire smoke detector

x= A, B, or C

A: ULC listed models
B: UL list ed models
C: European and Australian models

CO detector CO-12/24

FSA-210y
FSA-210yT
FSA-210yS
FSA-210yST

FSA-410y
FSA-410yT
FSA-410yS
FSA-410yST

12-24SIR
FW-CO12

Wireless Devices

Wireless PGsmoke detector PGx926

Wireless PGsmoke and heat detector PGx916

Wireless PGCO detector PGx913

Wireless PGPIR motion detector PGx904(P)

Wireless PGPIR + camera motion detector PGx934(P)

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

FSA-210yR
FSA-210yRT
FSA-210yRS
FSA-210yRST

FSA-410yR
FSA-410yRT
FSA-410yRS
FSA-410yRST

FW-CO1224
CO1224

UL

UL

UL

UL

UL

UL

UL

UL

UL

UL

- 8 -

Section 1: Introduction

Wireless PGcurtain motion detector PGx924

UL

Wireless PGdual tech motion detector PGx984(P)

Wireless PGmirror motion detector PGx974(P)

Wireless PGoutdoor motion detector PGx994

Wireless PGglass break detector PGx912,PGx922

Wireless PGshock detector PGx935

Wireless PGflood detector PGx985

Wireless PGtemperature detector (indoor use) PGx905

UL

UL

UL

UL

UL

UL

Outdoor temperature probe (requires PGx905) PGTEMP-PROBE

Wireless PGkey PGx939

Wireless PGkey PGx929

Wireless PGpanic key PGx938

Wireless PG2-button k ey PGx949

Wireless PGindoorsiren PGx901

Wireless PGoutdoor siren PGx911

Wireless PGrepeater PGx920

Wireless PGdoor/window contact PGx975

Wireless PGdoor/window contact w/ AUX PGx945

UL

UL

UL

UL

UL

UL

UL

UL

UL

Central Station Receivers

SG-System I, II, III, IV, 5

Enclosures

The PowerSeries Neo main board can be installed in the metal enclosures listed below: Tamper protection switches can be installed on all
enclosures, including door opening protection and/or removal from the mounting position. Doors can be secured using screws or keylock.

• Model PC5003C (removable door) made of 22Ga steel,painted, dimensions: 248mm(L) x 298mm(W) x 76mm( H), weight: 4.5Kg (with PCB,
7AH battery and transformer included)

• Model Power UC1 made of 18Ga steel, painted, dimensions: 315mm(L) x 319mm(W) x 100mm(H), weight: 6.15Kg (with PCB, 7AH battery and
transformer included).

Model PC4051C made of 18Ga steel, painted. 427mm(L) x 265mm(W) x 105mm(H).

For EN50131-1 Grade 2compliant installations, all holes on the side of the cabinets shall be covered (plugged) if no accessories are installed in
the cabinet that willuse these mounting holes.

The equipment enclosure shall be secured to the building structure before operation. Use 4screws (appropriate for the wall material on which it is
attached) inserted through the four mounting holes providedin the back of the enclosure base.

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Section 2: Installation

2.1 Overview of Installation Process

The steps below are provided to assist with the installation of the alarm system. Read over this section to get an overall
understanding of the order of installation. Working from this plan can help reduce problems and reduce the overall time
required for installation.

Step 1 – Create a Layout

Draw a rough sketch of the site and include all alarm detection devices, zone expanders, keypads and other required mod­ules.

Step 2 – Mount the Panel

Decide on a location for the alarm panel and secure it to the wall using suitable mounting hardware. see "Mounting the
Enclosure" on page 10.

Step 3 – Wire the Alarm Controller

Wire each of the modules to the alarm controller following the guidelines provided in "Corbus Wiring" on page 13.

Step 4 – Wire Zones

Complete all zone wiring. Follow the guidelines provided in "Zone Wiring" on page 19 to connect zones using normally
closed loops, single EOL resistor, double EOL resistors, fire zones and keyswitch arming zones.

Step 5 – Complete Wiring

Complete all other wiring including bells or sirens, telephone line connections, ground connections or any other wiring
necessary. Follow the guidelines provided in "Terminal Descriptions" on page 11.

Step 6 – Power up the Control Panel

Once all zone and alarm controller wiring is complete, connect the battery before applying AC, and power up the system.
The alarm controller will not power up if only the battery is connected.

Step 7 – Enroll Keypads and Modules

All keypads must be enrolled in order to operate on the system. To enroll the first keypad, see "Enrolling the First Keypad "
on page 29. To enroll optional keypads, enter installer's programming section [902][000]. For more information, see "Module
Programming" on page 118.

Step 8 – Confirm Module Supervision

By default, all modules are supervised upon installation. Supervision is enabled at all times. To confirm that each module is
properly supervised, see "[903] Confirm Module" on page 119.

Step 9 – Enroll Wireless Devices

Wireless devices are enrolled via the wireless transceiver module (HSM2HOSTx) or RF keypad and Installer Programming
section [804]. See "Wireless Programming" on page 116 to enroll wireless devices.

Step 10 – Program the System

Section 5 on "Programming" on page 56 provides a complete description of how to program the alarm controller. It contains
complete descriptions of the various programmable features and options. Fill out the programming worksheets starting at
"Programming Worksheets" on page 123 completely before attempting to program the system.

Step 11 – Test the System

Test the panel completely to ensure that all features and functions operate as programmed.

2.2 Alarm Controller Installation

Begin the installation by mounting the alarm controller in the metal enclosure using the stand-offs provided. Optional mod­ules, such as the HSM2108 and HSM2208, can also be mounted in the enclosure.

Install hardware in the sequence indicated on the following pages.

2.2.1 Mounting the Enclosure

Locate the panel in a dry area, preferably near an unswitched AC power source and the incoming telephone line. Complete
all wiring before applying AC or connecting the battery.

Section 2: Installation

2.3 Wiring

All wiring entry points on the enclosure are designated by arrows. All circuits are classified UL power limited except for the
battery leads. Minimum 1/4” (6.4mm) separation must be maintained at all points between power limited and non-power lim­ited wiring and connections.

2.3.1 Terminal Descriptions

The following terminals are available on the PowerSeries Neo alarm controller.

Terminal Description

BAT+, BAT- Battery terminals.Use to provide backup power and additional current when system demands exceed the power output of the

transformer, suchas when the system is in alarm.

Do not connect the battery until all other wiring is complete.

AC Power terminals.

Connect the battery before connecting the AC. Do not connect the battery or transformer until all other wiring is complete.

AUX+, AUX- Auxiliary terminals. Use to power modules,detectors, relays,LEDs, etc.(700mA MAX). Connect the positiveside of deviceto

AUX+, the negative side to AUX-.

BELL+, BELL- Bell/Siren power (700mA MAX). Connect the positive side ofany alarm warning device to BELL+, the negative side to BELL-.

RED, BLK,
YEL, GRN

PGM1 to
PGM4

Z1 to Z8

COM

EGND Earth ground connection.

TIP, RING, T­1, R-1

PCLINK_1 DLS/SA

PCLINK_2 DLS/SA, Alternate Communicator

Corbus terminals. Use to provide communication between the alarm controller and connected modules. Each module has four
Corbus terminals that must be connected to the Corbus.

Programmable output terminals. Use to activate devices such as LEDs.

(PGM1, PGM3, and PGM4: 50mA PGM2: 300mA or can be configured as an input)

Zone input terminals. Ideally, each zone shouldhave one detection device; however, multiple detection devices can be wired to
the same zone.

Telephone lineterminals.

2.3.2 Wire Routing for Power & Non-Power Limited

All wiring entry points are designated on the diagram by arrows. All circuits are classified UL installation power limited
except for the battery leads which are not power limited.

A minimum ¼” (6.4mm) separation must be maintained at all points between power limited and non-power limited wiring
and connections. See "Wiring Diagrams" on page 214 for expanded diagrams.

Note: Wire entry for power limited wiring must be separated by a different entry access from non-power limited wiring.

- 11 -

Section 2: Installation

Figure 2-1 Wiring Routing (North America only)

- 12 -

Section 2: Installation

Figure 2-2 Wiring Routing (EN50131 only)

2.3.3 Corbus Wiring

The RED and BLK Corbus terminals are used to provide power while YEL and GRN are used for data communications. The
4 Corbus terminals of the alarm controller must be connected to the 4 Corbus terminals or wires of each module.

The following conditions apply:

l Corbus should be run with minimum 22 gauge quad, two pair twisted preferred.
l The modules can be home run to the panel, connected in series or can be T-tapped.
l Do not use shielded wire for Corbus wiring.

- 13 -

Section 2: Installation

Note: Any module can be connected anywhere along the Corbus. Separate wire runs for keypads, zone expanders etc. are
not necessary.

Note: No module can be more than 1,000'/305m (in wire length) from the panel. Do not use shielded wire for Corbus wiring.

Figure 2-3 Corbus Wiring

Module (A) is wired correctly as it is within 1,000'/305m of the panel, in wire distance. Module (B) is wired correctly as it is
within 1,000'/305m of the panel, in wire distance. Module (C) is NOT wired correctly as it is farther than 1,000'/305m from the
panel.

Current Ratings

In order for the system to operate properly, the power output of the alarm controller and power supply modules cannot be
exceeded. Use the following data to ensure that the available current is not exceeded.

Table 2-1 System Output Ratings

Device Output Rating (12VDC)

HS2016­4

HS2016

HS2032

HS2064

HS2064 E

HS2128

HS2128 E

HSM2208 AUX: 250mA. Conti nuous rating. Subt ract for each device connected. Subtract the total load on t his terminal from the al arm panel AUX/ Corbus out-

HSM2108 AUX: 100mA. Subtract for each device con nected. Subtract the t otal load on this terminal from the panel AUX/Corbus out put.

AUX: 700mA. Subtract the listed rating for each k eypad, expansion module and accessory connected to AUX or Corbus . At least 100mA must be

reserved for the Corbus.

BELL: 700mA. Contin uou s rating. 2.0A. sh ort term. Avail able only with stand by battery conn ected. No t for UL/ ULC o r EN certified applications.

put .

- 14 -

Section 2: Installation

Alarm Controller Current Calculation

Maximum (Standby or Alarm)

AUX (700mA max.including PGMs 1-4)

Corbus (700mA max.)***

PCLink+ (Alt. Com.:125mA)

Total (must not exceed 700mA)

***See Corbus Current Calculation Chart.

For UL, ULC and Commercial Listed applications, the total standby and alarm current cannot exceed 700mA.

Table 2-2 Corbus Current Calculation Chart

Item Current (mA) x Quantity Total (mA)

HS2016-4/HS2016/HS2032/HS2064/HS2064 E/HS2128/HS2128 E 85 x 1 85

HS2LCD 105 x

HS2ICN 105 x

HS2LED 105 x

HS2LCDP 105 x

HS2ICNP 105 x

HS2LCDRF 105 x

HS2ICNRF 105 x

HS2ICNRFP 105 x

HS2TCHP 160 x

Current required for connected devices=

HSM2108* 30 x

AUXoutput current of HSM2108

HSM2208* 40 x

AUXoutput current of HSM2208

HSM2300/2204* 35 x

HSM2HOSTx 35 x

HSM2955** x

3G2080(R)/TL2803G(R)/TL280(R) 125 (PCLINK) x

Total Corbus Current =

*These units draw current from the Corbus to power devices external to the module. This current must be added to the total
Corbus current. See manufacturer's specifications for the current draw of each device.

- 15 -

Section 2: Installation

** For HSM2955 current draw refer to HSM2955 installation manual.

Line Loss

Voltage loss through wire resistance must be considered for all installations. To ensure proper operation, at least 12.5VDC
must be applied to all modules on the system (when AC is connected and the battery is fully charged). If less than 12.5VDC is
applied, system operation is adversely affected.

To correct the problem, try any or all of the following:

1. Connect a HSM2300/2204 power supply between the alarm controller and the module to provide additional power to the
Corbus.

2. Reduce the length of the Corbus run to the module.

3. Increase the gauge of wire.

Capacitance Limits

An increase in capacitance on the Corbus affects data transmission and causes the system to slow down. Capacitance
increases for every foot of wire added to the Corbus. The capacitance rating of the wire used will determine the maximum
length of the Corbus.

For example, 22-gauge, non-shielded, 4-conductor wire has a typical capacitance rating of 20 picofarads per foot (which is
20nF/1000’). For every 1000' of wire added – regardless of where it is run – the capacitance of the Corbus increases by
20nF.

The following table indicates the total wire distance allowed for the capacitance rating of the wire used:

Table 2-3 Wire Capacitance

Wire Capacitance per 1000’ (300m) Total Corbus Wire Length

15nF 5300’/1616m

20nF 4000’/1220m

25nF 3200’/976m

30nF 2666’/810m

35nF 2280’/693m

40nF 2000’/608m

2.4 Installing Modules

Remove all power from the system while connecting modules to the alarm controller.

2.4.1 Zone Expander

The main alarm controller has connection terminals for zones 1 to 8. Additional HSM2108 zone expanders may be added to
increase the number of zones on the system. Each zone expander consists of one group of 8 zones. At enrollment, the zone
expander is automatically assigned to the next available zone slot. Connect the RED, BLK, YEL and GRN terminals to the
Corbus terminals on the alarm panel. Board current draw: 30mA.

- 16 -

Section 2: Installation

Figure 2-4 HSM2108 Zone Expander

Refer to the HSM2108 installation sheet for more information.

2.4.2 Output Expander

The HSM2208 module is used to add up to 8 low-current programmable outputs to the alarm system.

The 4-wire Corbus connection is used by the panel to communicate with the module. Connect the RED, BLK, YEL and GRN
terminals to the Corbus terminals on the alarm panel. Board current draw: 40mA.

Figure 2-5 HSM2208 Output Expander

2.4.3 Wireless Transceiver Module

The HSM2HOSTx 2-way wireless integration module provides communication between wireless devices and the alarm con­troller.

Connect the HSM2HOSTx to the 4-wire Corbus of the alarm controller according to the following diagram.

Figure 2-6 HSM2HOSTx Wiring Diagram

After you have completed the wiring, reconnect power to the security system. Board current draw: 35mA

2.4.4 Power Supply Wiring

The HSM2300/2204 power supply/high-current output module provides up to 1.0A of additional current and can be used to
add up to four programmable outputs (HSM2204 only) to the alarm system.

The 4-wire Corbus connection provides communication between the module and alarm panel. Connect the RED, BLK, YEL
and GRN terminals to the Corbus terminals on the alarm controller. If O1 is not used, connect to Aux with a 1K resistor. Board
current draw: 1.2A.

- 17 -

Section 2: Installation

Figure 2-7 Power Supply Wiring

2.4.5 Keypad Wiring

To wire a keypad to the alarm controller, remove the keypad backplate (refer to the keypad installation sheet) and connect
the RED, BLK, YEL and GRN terminals to the corresponding terminals on the alarm controller.

Keypad Zone/PGM Wiring

Hardwired devices can be connected to hardwired keypads with inputs (zone) or outputs (PGM). This saves from running
wires back to the control panel for every device.

To connect a zone device to HS2LCD, HS2ICON, HS2LED and HS2TCHP keypads, run one wire to the P/Z terminal and the
other to B. For powered devices, use red and black to supply power to the device. Run the red wire to the R (positive) ter­minal and the black wire to the B (negative) terminal.

Keypad zones support Normally Closed Loops, Single End of Line and Double End of Line.

To connect the PGM output, run one wire to the P/Z terminal and the other to R.

Figure 2-8 Keypad P/Z Terminals

Note: When using end of line supervision, connect the zone according to one of the configurations outlined in "Zone Wiring"

on page 19. End of line resistors must be placed on the device end of the loop, not at the keypad.

- 18 -

Section 2: Installation

Assigning Keypad Zones

When using keypad zone inputs, each input used must be assigned a zone number in Installer Programming.

First, ensure that you have enrolled all installed keypads into the desired slots (See "[902] Add/Remove Modules" on page

118). Next, assign keypad zones by entering programming section [861]-[876], subsection 011 for keypads 1-16. Enter a 3­digit zone number for each of the keypad zones. This number must be programmed into the slot location that the keypad is
assigned to.

Note: If a keypad zone input is assigned to zone number 1 to 8, the corresponding zone cannot be used on the main control
panel.

Once the keypad zones are assigned, you must also program zone definitions and zone attributes. See "[001] Zone Types"
on page 64 and See "Zone Setup" on page 64.

2.4.6 HSM2955 Wiring

For wiring information refer to HSM2955 Installation manual #29008435xxx.

2.4.7 Alternate Communicator Wiring

See Alternate Communicator installation manual.

2.4.8 Zone Wiring

Power down the alarm controller and complete all zone wiring.

Zones can be wired to supervise normally open devices (e.g., smoke detectors) or normally closed devices (e.g., door con­tacts). The alarm panel can also be programmed for single end-of-line or double end-of-line resistors.

Zone programming is done using the following programming sections:

l [001] selects zone definition
l [013] Opt [1] for normally closed or EOL; Opt [2] for SEOL or DEOL
l [201 - 208] partition assignment.

Observe the following guidelines when wiring zones:

l For UL listed installations use SEOL or DEOL only
l Minimum 22 AWG wire, maximum 18 AWG
l Do not use shielded wire

l

Do not exceed 100Ω wire resistance. Refer to the following table:

Table 2-4 Burglary Zone Wiring Chart

Wire Gauge Maximum Length to EOL Resistor (ft/meters)

22 3000 / 914

20 4900 / 1493

19 6200 / 1889

18 7800 / 2377

Figures are based on maximum wiring resistanceof 100

Ω.

Normally Closed

Connect hardwired devices to any Z terminal and any Com terminal. Wire normally closed devices in series.

Note: For UL Installations, do not use normally closed loops.

- 19 -

Section 2: Installation

Figure 2-9 Normally Closed

The following table shows zone status under certain conditions for NC Loops:

Table 2-5 NC Loop Status

Loop Resistance Loop Status

0Ω(shorted wire, loop shorted) Secure

Infinite (broken wire, loop open) Violated

Single End-of-Line (SEOL) Resistor

When SEOL resistors are installed at the end of a zone loop, the alarm panel detects if the circuit is secure, open, or shorted.
The SEOL resistor must be installed at the end of the loop for proper supervision.

To enable SEOL supervision, program section [013], options [1] and [2] to OFF.

Note: This option should be selected if either normally closed or normally open detection devices or contacts are used.

Figure 2-10 SEOL Wiring

The following table shows zone status under certain conditions for SEOL:

Table 2-6 SEOL Loop Status

Loop Resistance Loop Status

0Ω (shorted wire, loop shorted) Violated

5600Ω (contact closed) Secure

Infinite (broken wire, loop open) Violated

Double End of Line (DEOL) Resistors

When double end-of-line (DEOL) resistors are installed at the end of a zone loop, the second resistor enables the panel to
determine if the zone is in open, closed, tampered or faulted.

Note: Any zone programmed for Fire or 24-hr Supervisory must be wired with a SEOL resistor regardless of the type of zone
wiring supervision selected for the panel. If you change the zone supervision options from DEOL to SEOL or from NC to
DEOL, power the system down completely, then power it back up for correct operation.

- 20 -

Section 2: Installation

To enable DEOL supervision, program section [013], option [1] to OFF and option [2] to ON.

Figure 2-11 DEOL Wiring

Note: If the DEOL supervision option is enabled, all hardwired zones must be wired for DEOL resistors, except for Fire and

24 Hour Supervisory zones. Do not use DEOL resistors for Fire zones or 24 Hour Supervisory zones.

Note: Do not wire Fire zones to keypad zone terminals if the DEOL supervision option is selected.
Note: This option can only be selected if N/C detection devices or contacts are used. Only one N/C contact can be con-

nected to each zone.

The following table shows zone status under certain conditions for DEOL:

Table 2-7 DEOL Loop Status

Loop Resistance Loop Status

0Ω(shorted wire, loop shorted) Fault

5600Ω(contact closed) Secure

Infinite (broken wire, loop open) Tamper

11200Ω(contact open) Violated

2.4.9 PGM Wiring

Min/max operating voltages for devices, sensors and modules is 9.5VDC - 14VDC.

PGMs switch to ground when activated from the alarm controller. Connect the positive side of the device to the AUX+ ter­minal and the negative side to a PGM terminal.

PGM 1, 3, 4 supply up to 50mA; PGM 2 supplies up to 300mA.

A relay is required for current levels greater than 50mA or 300mA. PGM2 can also be used for 2-wire smoke detectors, 24-hr
burglary input alarm.

Note: Use SEOL resistors on Fire zones only.

Figure 2-12 LED Output with Current Limiting Resistor and Optional Relay Driver Output.

UL Compatibility ID For FSA-210B Series is: FS200

Note: For ULC listed installations, use FSA-210A and FSA-410A series.

- 21 -

Section 2: Installation

2.4.10 Bell Wiring

These terminals supply 700mA of current at 10.4 - 12.5VDC for commercial/ residential installations. To comply with NFPA
72 Temporal Three Pattern requirements, section [013] Opt [8] must be ON. Note that steady, pulsed alarms are also sup­ported.

Figure 2-13 Bell Wiring

The Bell output is supervised and power limited by 2A thermistor. If unused, connect a 1000Ω resistor across Bell+ and Bell-

to prevent the panel from displaying a trouble. See "Troubleshooting" on page 42.

2.4.11 Telephone Line Wiring

Wire the telephone connection terminals (TIP, Ring, T-1, R-1) to an RJ-31x connector as indicated in the following diagram.
For connection of multiple devices to the telephone line, wire in the sequence indicated. Use 26 AWG wire minimum for wir­ing.

Figure 2-14 Telephone Line Wiring

Note: Ensure that all plugs and jacks meet the dimension, tolerance and metallic plating requirements of 47 C.F.R. Part 68,

Sub-Part F. For proper operation, no other telephone equipment must be connected between the control panel and the tele­phone company facilities.

2.4.12 Smoke Detector Wiring

All zones defined as Fire must be wired according to the following diagram:

Figure 2-15 Smoke Detector Wiring

See"[001] Zone Types" on page 64 for fire zone operation.

Note: Smoke detectors must be latching type. To reset a smoke detector, enter [*][7][2].

- 22 -

Section 2: Installation

Table 2-8 Compatible 4-Wire Smoke Detectors

FSA-410B FSA-410BLST FSA-410BRST

FSA-410BT FSA-410BR FSA-410BLRST

FSA-410BS FSA-410BRT

FSA-410BST FSA-410BRS

Current ratings for DSC FSA-410 Series: 25mA - 90mA

Fire Zone Wiring: 2-wire Smoke Detectors

If PGM 2 is programmed for 2-wire smoke detector connection, the detectors must be wired according to the following dia­gram:

Figure 2-16 2-Wire Smoke Detector Wiring

Note: Additional 2-wire smoke detectors must be connected in parallel as shown above. The maximum number of smoke

detectors on a 2-wire loop is 18.
Note: Do not combine smoke detector models from different manufacturers on the same circuit. Operation may be impaired.

Refer to the smoke detector installation sheet when positioning detectors.

Table 2-9 Compatible 2-Wire Smoke Detectors

FSA-210B FSA-210BR

FSA-210BT FSA-210BRT

FSA-210BS FSA-210BRS

FSA-210BST FSA-210BRST

Current ratings for DSC FSA-210B series: 35mA - 75mA

Table 2-10 2-Wire Smoke Detector Initiating Circuit

Item Specification

Style/Class, Supervised, Power Limited Style B (Class B)

CompatibilityIdentifier HS2-1

DC Output Voltage 9.7-13.8 VDC

Detector Load 2mA (MAX)

Single End of Line Resistor (SEOL) 2200

Loop Resistance 24Ω(MAX)

Standby Impedance 3000Ω(NOM)

Alarm Impedance 1200Ω(MAX)

Alarm Current 86mA (MAX)

Ω

2.4.13 CO Detector

The following hardwired CO detector models can be used with PowerSeries Neo alarm controllers:

- 23 -

Section 2: Installation

l Potter Model CO-12/24, UL File E321434
l Quantum Model 12-24SIR, UL File E186246
l NAPCO Model FW-CO12 or FW-CO1224, UL File E306780
l System Sensor Model CO1224, UL File E307195

Note: For multiple unit connections, the leads between CO detectors must be broken. The power supervision relay must be
powered from the last detector in the loop.

Wireless CO detectors are also available. When installing wireless CO detectors, use only model PG9913UL, PG8913,
PG4913. An HSM2HOSTx (x=9UL/8/4) wireless receiver or HS2LCDRF(P)x/HS2ICNRF(P)x (x=9UL/8/4) wireless keypad are
required when installing wireless CO detectors. For more details on these wireless devices, refer to their respective install­ation manuals.

Note: Use onlyULapproved devices with UL/ULC listed systems.

Table 2-11 CO Detector Ratings

Device Description Max Rating @12VDC

CO-12/24 Potter model CO detector 40mA

12-24SIR Quantum model CO detector 75mA

FW-CO12

FW-CO1224

CO1224 System Sensor model COdetector 40mA

NAPCO modelCO detector 90mA

Figure 2-17 CO Detector Wiring

- 24 -

Section 2: Installation

2.4.14 Ground Wiring

Figure 2-18 Ground Installation

Note: Using an insulated green wire (minimum 22AWG), connect the EGND terminal on the Corbus and the grounding wire

from the building electrical installation to any of the available holes on the back or side of the metal cabinet. See the diagram
attached to the cabinet for suggested GND point location and hardware recommendations.

Note: Wire and installation hardware not included.

2.4.15 Connecting Power

Batteries

Do not connect the battery until all other wiring is complete.

Note: A sealed, rechargeable, lead acid battery or gel type battery is required to meet UL requirements for power standby
times.

Connect the RED battery lead to the positive battery terminal and the BLACK battery lead to the negative battery terminal.

The panel can be programmed to charge the battery at 400mA or 700mA. (See "[982] Battery Settings" on page 121).

Note: Refer to "Aux Loading and Battery Selection" on page 1.

Battery Selection Chart

After calculating the battery capacity (B) for each specific installation use the following table to determine the battery
required to support the main panel in standby mode for:

l 4 hours (UL commercial burglary/residential burglary)
l 12 hours (EN50131)
l 24 hours (UL/ULC residential fire, ULC residential burglary, ULC commercial burglary, ULC commercial fire mon-

itoring - no bell load allowed; INCERT [Belgium])

The battery size is measured in amp hours (Ah). The current values in the table denote the maximum current draw permitted
to achieve the desired standby time with the listed battery types.

Table 2-12 Standby Battery Guide

Battery Size Desired Standby Time

4h 12h 24h 36h

4Ah 700mA ------ ------ ------

7Ah 700mA 500mA 250mA ------

14Ah * 700mA 470mA ------

18Ah ------ ------ ------ 300mA*

26Ah ------ ------ ------ 500mA*

- 25 -

Section 2: Installation

* use 2 x 7Ah batteries connected in parallel, UL/ULC installations only

Battery capacity deteriorates with age and the number of charge/discharge cycles. Replace every 3-5 years.

Refer to "Regulatory Approvals" on page 204 for detailed Aux. loading and battery charging information.

Connecting AC Power

The alarm controller requires a 16.5V, 40VA transformer. While unplugged, connect the transformer to the AC terminals on
the controller. The alarm controller can be programmed to accept a power line frequency of either 50Hz AC or 60Hz AC. See
programming section [024], option [1].

Note: For UL/ULC installations use only 60Hz.
Note: For ULC S559 applications, Standex transformer (Model FTC3716) shall be employed for direct-wiring.

- 26 -

Section 3: Configuration

3.1 Basic Configuration Steps

Once basic installation of the alarm panel is complete, the following general configuration options should be set:

l create partitions, See "Working with Partitions " on page 30
l assign keypads to partitions, see "Keypad Partition Setup " on page 31
l assign sirens to partitions, see "Bell/Siren Operation " on page 30
l create global zones, see "Global Zones " on page 31
l set up partition account codes, see "Communications" on page 32
l set up partition timers, see "System Times" on page 69
l enroll wireless modules and devices, see "Enrolling Modules" on page 28
l assign zone types, see "[001] Zone Types" on page 64, and attributes, see "[002] Zone Attributes" on page 68
l create zone labels, see "Adding Labels" on page 61
l add users, see "Assign Access Codes" on page 46
l set up the alternate communicator if equipped, see "Alternate Communicator Setup" on page 33
l program phone numbers, see "System Communications" on page 106
l set up call directions for the central monitoring station, see "System Communications" on page 106
l set up system timers, see "System Times" on page 69
l configure reporting codes, see "Reporting" on page 101
l test the system, see "Testing the System" on page 34

3.2 Using the Keypad

The PowerSeries Neo alarm panel is compatible with several different keypad types (see "Compatible Devices" on page 8);
However, all keypads have certain basic functionality in common.

3.2.1 Special Keys

Scroll symbols < > on keypads with LCD displays indicate that options can be viewed by pressing the scroll keys.
These keys can also be used to position the cursor.

The [*] key is similar in function to the “Enter” key on a personal computer. It is generally used to accept the existing pro­gramming option. It is also the first key entry for [*] commands and can be used to enter the letters A-F when in Installer Pro­gramming mode.

The [#] key is similar in function to the “ESC” (escape) key on a personal computer. It is generally used to exit the current pro­gramming section or to return to the previous one.

3.2.2 LED Indicators

Keypads have the following status lights that provide visual indication of basic system status:

Ready: Panel is ready to be armed.

Armed: Panel is armed.

Trou ble: System trouble. Enter [*][2] to view troubles.

AC Po wer: ON=AC present. OFF=AC absent.

Panel Status LED Operation

The red status LED, located on the alarm controller PCB, indicates the following:

l Power up sequence – flashes rapidly until the end of the power-up sequence.
l Firmware indication – flashes during the firmware upgrade process. If the firmware upgrade fails, the LED flashes rap-

idly.

l Trouble indication – Flashes when troubles are present. Troubles are indicated according to the following priority:

1 flash - no keypads enrolled

2 flashes - module supervision trouble

3 flashes - bus low voltage

Section 3: Configuration

4 flashes - low battery trouble

5 flashes - AC trouble

6 flashes - AUX trouble

7 flashes - bell trouble

8 flashes - TLM trouble

How to Enter Data

Conventions Used In This Manual

Brackets [] indicate numbers or symbols that must be entered on the keypad.

e.g., [*][8][Installer Code][804] requires the following key entries:

[*][8][5555][804]

[*] initiates a special command.

[5555] is the default installer code. The default installer code should be changed during initial programming of the system.

[804] indicates the particular programming section being accessed.

Entering Letters Manually (System Labels)

1. In Installer Programming, enter the section requiring text input.

2. Use the arrow keys [<][>] to move the cursor to a blank space or existing character.

3. Press the number key corresponding to the appropriate letter. Each number button accesses three letters and a number.
The first press of the number key displays the first letter. The second press displays the second letter, etc.

1

A, B, C, 12D, E, F, 23G, H, I, 3

4

J, K, L, 45M, N, O, 56P, Q, R, 6

7

S, T, U, 78V, W,X, 89Y, Z, 9,0

4. To select lower case letters press [*]. The Select Options list opens. Scroll to “lower case” and press [*] again to select.

5. When the required letter or number is displayed use the arrow keys [<][>] to scroll to the next letter.

6. When finished, press the [*] key, use the [<][>] keys to scroll to “Save” then press [*].

7. Continue from step 2 until all labels are programmed.

For information on entering hexadecimal data, see "Programming Hex and Decimal Data" on page 59.

0

Space

3.3 Enrollment

All optional modules and devices must be enrolled on the system. During enrollment, the electronic serial number (ESN) of
each device is identified to the control panel and zones are assigned. A wireless transceiver HSM2HOST or an RF keypad
must be enrolled first before wireless devices can be enrolled.

3.3.1 Enrolling Modules

During automatic and manual enrollment, if an attempt is made to enroll more than the maximum number of modules, an
error tone sounds and a message is displayed on LCD keypads.

Table 3-1 Module Capacity

Module HS2016-4HS2016 HS2032 HS2064/

HS2064 E

HSM2108 8 Zone expander

HSM2208 8 Output expander

1

2

1 3 7 15

2 4 8 16

- 28 -

HS2128/HS2128 E

Section 3: Configuration

Module HS2016-4HS2016 HS2032 HS2064/

HS2128/HS2128 E

HS2064 E

WirelessKeypad:

HS2LCDRF(P)4

HS2ICNRF(P)4

HS2LCDWF(P)(V)4

HS2TCHP Touchscreen Keypad

HSM2300 Power Supply1A

HSM2204 4 High-current Output

HSM2HOSTx Transceiver

HSM2955

(not UL evaluated)

8

8

3

1

1

1

8 8 8 16

8 8 8 16

3 3 3 4

1 1 3 4

1 1 1 1

1 1 1 1

Modules can be enrolled automatically or manually using section [902] of Installer programming. For instructions on
enrolling modules, see "Module Programming" on page 118.

To confirm that a module has been successfully enrolled, use Installer Programming section [903]. See "[903] Confirm Mod­ule" on page 119 for details.

Enrolling the First Keypad

To enroll a hardwired keypad, connect the keypad to the alarm controller, power up the alarm panel then press any button
on the keypad.

To enroll a wireless keypad, first connect the HSM2HOSTx wireless integration module to the alarm controller. Next, power
up the alarm panel and a wireless keypad. Press any button on the keypad to enroll it on the HSM2HOSTx. The
HSM2HOSTx is then enrolled on the alarm panel. To enroll other keypads, see "Module Programming" on page 118.

3.3.2 Module Supervision

By default, all modules are supervised upon installation. Supervision is enabled at all times so that the panel can indicate a
trouble if a module is removed from the system.

To check which modules are currently connected and supervised, see "[903] Confirm Module" on page 119.

If a module is connected but is not recognized by the system, it may be due to any of the following reasons:

l the module is incorrectly wired to the alarm controller
l the module has exceeded its maximum wire run length
l the module does not have enough power
l the module is not enrolled on the wireless receiver

Removing Modules

Enrolled modules can be deleted from the system via programming section [902]. For instructions, see "[902] Add/Remove
Modules" on page 118.

3.3.3 Enroll Wireless Devices

Wireless devices are enrolled via the wireless transceiver module and Installer Programming section [804][000]. See "Com­patible Devices" on page 8 for a list of supported wireless devices.

Wireless devices are enrolled using one of the following methods:

Auto Enrollment

To enroll a wireless device using this method, press and hold the Enroll button on the device for 2-5 seconds until the LED
lights then release the button. The alarm panel automatically recognizes the device and the keypad displays a confirmation

- 29 -

Section 3: Configuration

message. The device ID and next available zone number are displayed. Press [*] to accept or scroll to another available
zone number. Batteries must be installed in the wireless device in order to enroll.

Various zone features are programmable depending on the type of device. See "Zone Setup" on page 64 for details.

Pre-Enrollment

Pre-enrollment is a two step process. The first step requires entering each device ID ([804][001]-[716]). Every wireless device
has an ID printed on the sticker attached to the device. The format is XXX-YYYY where:

l XXX identifies the type or model of the device
l YYYY is a short encrypted ID used by the system to identify the specific device

Pre-enrollment can be done at a remote location and using DLS/SA. The second step is to press the enrollment button on
the device, usually done on location. Installer Programming does not have to be entered at this step. Both steps must be per­formed in order to complete the enrollment.

3.4 Working with Partitions

A partition is a limited area of the premises that operates independently from the other areas. Partitioning a system can be
beneficial if the property has outbuildings that need to be secured independently of a main area or if the home has a sep­arate apartment.

Each partition can have its own keypad or a keypad can have access to all partitions (only if all partitions belong to the same
owner). User access to partitions is controlled via access codes. A master code can access the entire system and partitions,
while a user code is limited to assigned partitions.

Setting up a partition requires configuration of the following:

l create the partition
l define bell/siren operation
l assign keypads
l assign zones
l assign users

3.4.1 Setting Up a Partition

Partitions are added or removed from the system by applying or removing a partition mask via Installer Programming section
[200]. The number of available partitions depends on the alarm panel model. See "[200] Partition Mask" on page 99 for more
information.

3.4.2 Bell/Siren Operation

Each partition must have a siren. The system siren connected to the bell output of the alarm controller can be mounted in a
central location within hearing range of all partitions. Each partition can also have wireless sirens activated only on the
assigned partition. See "Wireless Programming" on page 116 for details.

Single Siren Output Operation

With a siren shared across all partitions, control over activation/deactivation of the output depends on the partition that ini­tiated the alarm sequence. Only the partition that originated the alarm can deactivate the bell output.

Global zones, such as smoke detectors shared by multiple partitions, can deactivate the siren on all partitions the zone is
assigned to.

Multiple Siren Output Operation

When multiple sirens are used in the installation, they can be programmed to sound alarm conditions for all partitions, or for
individual partitions by using a partition enable mask.

If hardwired sirens are used, this is accomplished via bus power supplies with a supervised high-current output. The output
is then programmed as a Fire and Burglary PGM output type.

Note: Only the first output of the HSM2204 output module has bell supervision. Some conditions, such as an installer system
test, may override the partition assignment and cause all sirens to activate. User system tests only activate the sirens/outputs
assigned to that partition.

- 30 -