Page 1 intrusion PowerSeries Pro Alarm Controller Reference Manual Models: HS3032 and HS3128 WARNING: This manual contains information on limitations regarding product use and function and information on the lim- itations as to liability of the manufacturer. Carefully read the entire manual.
Page 2 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.
Page 3 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 use the Alarm system to report a gas leak if the system is near a leak.
Page 4: Table Of Contents
Contents Section 1: Introduction 1.1 About the System Section 2: Installation 2.1 Overview of Installation Process 2.2 Alarm Controller Installation 2.3 General Wiring Instructions 2.4 Installing Modules Section 3: Configuration 3.1 Basic Configuration Steps 3.2 Using the Keypad 3.3 Enrollment 3.4 Working with Partitions 3.5 Trouble Indicators 3.6 Keypad Partition Setup...
Page 5 6.13 DLS Programming 6.14 Virtual Inputs 6.15 Schedule Programming 6.16 Audio Module Programming 6.17 Wireless Programming 6.18 Alternate Communicator 6.19 Keypad Programming 6.20 Template Programming 6.21 System Information 6.22 Module Programming 6.23 Wireless Placement Testing 6.24 Battery Settings 6.25 Restoring Factory Defaults Section 7: Troubleshooting 7.1 Testing 7.2 Troubleshooting...
Page 6: Section 1: Introduction
Section 1: Introduction Section 1: Introduction 1.1 About the System The PowerSeries Pro alarm panel is a feature-rich, scalable alarm system designed for commercial use. The alarm panel supports both hardwired and wireless devices. This section lists the features of the alarm panel, available models, and com- patible devices.
Page 7 Section 1: Introduction Corbus troubles Power unit trouble Available Models The following alarm controller models are available: HS3032 HS3128 Model Comparison The table below lists the features of each alarm system model. Table 1-1 Model Comparison Features HS3032 HS3128 On board Zones PGMs 2-way audio interface...
Page 8 Section 1: Introduction Features HS3032 HS3128 Power supply with 4 outputs - HSM2204 3A Power supply - HSM3350 2-way audio module - HSM2955 Corbus repeater - HSM3204CX* 8-zone expander - HSM3408 ** Plug In cellular module - XX9080 LCD Keypad - HS2LCD LCD Keypad with Prox - HS2LCDP LCD Keypad with Host - HS2LCDRF LCD Keypad with Prox and Host - HS2LCDRFP...
Page 9 Section 1: Introduction 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.
Page 10 Section 1: Introduction Hardwired Devices 2-wire smoke detectors FSA-210x FSA-210xT FSA-210xS x= A, B, or C FSA-210xST A: ULC listed models FSA-210xLST B: UL listed models FSA-210xR C: European and Australian models FSA-210xRT FSA-210xRS L=Remote LED output FSA-210xRST R= Auxiliary form C relay FSA-210xLRST S= Sounder T = Temperature sensor...
Page 11 Section 1: Introduction Wireless PG Outdoor temperature probe (requires PGx905) PGTEMP-PROBE Wireless PG 2-way keys PGx929 , PGx939 Wireless PG panic button PGx938 Wireless PG 2-button key PGx949 Wireless PG sirens PGx901 , PGx911 Wireless PG repeater PGx920 Wireless PG door and window contacts PGx975 Wireless PG 2-way magnetic contact device w/hardwired input PGx945...
Page 12: Section 2: Installation
Section 2: Installation 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.
Page 13 Section 2: Installation Mounting the Enclosure This section provides basic instructions for wall-mounting the available PowerSeries Pro enclosures. Mount in a dry location, near an unswitched AC power source and Ethernet and phone connections. If mounting on drywall, ensure all four screw holes align with wall studs.
Page 14 Section 2: Installation Wall Mounting HSC3010C/ HSC3010CR/ HSC3030CAR Enclosures The following diagram indicates the mounting location of the alarm controller PCB, power supply module and tamper bracket inside HSC3010C/ HSC3010CR/ HSC3030CAR enclosures. 2.97cm 30.93cm [1.17in] [12.28in] 31.27cm [12.31in] A Use metal standoff and screw in the position indicated. IMPORTANT! Ensure screw and standoff are tightly secured to establish Earth ground connection for the PCB.
Page 15 Section 2: Installation Wall Mounting the HSC3020CP Enclosure The following diagram indicates the mounting location of the alarm controller PCB, wireless receiver, power supply module and tamper bracket inside the HSC3020CP enclosure. Tamper screws Figure 2-3 HSC3020CP Enclosure Note: The HSC3020CP is used only for EN50131 and NFA2P certified installations. HSM3204CX/HSM3350 Mounting Location in HSC3010C The following diagram indicates the mounting location of the HSM3204CX/HSM3350, power supply module and tamper bracket inside HSC3010C/ HSC3010CR/ HSC3030CAR and HSC3020 enclosures.
Page 16 Section 2: Installation HSM3408 in HSC3010 Enclosure The following diagram indicates the routing of power limited and non-power limited wiring inside the enclosure. Battery leads and AC cord are non-power limited. All other wiring is power limited. Figure 2-5 HSM3408 in HSC3010C Enclosure HSM3408 and HSM3350 Mounting in HSC3020C Enclosure The following diagram indicates the available mounting locations of the HSM3350, HSM3408, power supply module and tamper bracket inside the HSC3020C enclosure.
Page 17: General Wiring Instructions
Section 2: Installation HSM2108/HSM2208 Mounting Locations in HSC3010 Enclosure The following diagram indicates all available mounting locations of the HSM2108/HSM2208 inside HSC3010C/ HSC3010CR/ HSC3030CAR and HSC3020 enclosures. Figure 2-7 HSM2108/HSM2208 Mounted in HSC3010C, HSC3010CR, HSC3030CAR Enclosures 2.3 General Wiring Instructions To connect the wiring for the PowerSeries Pro, complete the following steps: 1.
Page 18 Section 2: Installation Figure 2-8 Panel Wiring for HSC3010C For HSC3010C installations, complete the following steps: 1. If mounting the power supply inside the cabinet, attach it as per figure 2-4 using supplied hardware. Use cable ties to secure the DC wires to the enclosure. IMPORTANT! Minimum 1/4-inch (6.4 mm) separation must be maintained at all points between battery/AC wiring and all other wiring con- nections.
Page 19 Section 2: Installation HS3128 in HSC3020 NA Wiring Diagram Figure 2-9 Panel Wiring for HSC3020C (for North America) For HSC3020 installations, complete the following steps: 1. If mounting the power supply inside the cabinet, attach it as per figure 2-4 using supplied hardware. Use cable ties to secure the DC wires to the enclosure.
Page 20 Section 2: Installation Installing the HSM3204CX in an HSC3010 Enclosure The following diagram indicates the routing of power limited and non-power limited wiring inside the enclosure. Battery leads and AC cord are non-power limited. All other wiring is power limited. Figure 2-10 HSM3204CX/ HSM3408 in HSC3010C Enclosure - 20 -...
Page 21 Section 2: Installation HSM3204CX in HSC3020 North American Wiring Diagram This diagram shows routing of power limited and non-power limited wiring inside the enclosure. Battery leads and AC cord are non-power limited. All other wiring is power limited. Figure 2-11 North American Wiring for HSM3204CX in HSC3020 Enclosure - 21 -...
Page 22 Section 2: Installation Installing the HSM3350 in an HSC3010C Enclosure The following diagram indicates the routing of power limited and non-power limited wiring inside the enclosure. Battery leads and AC cord are non-power limited. All other wiring is power limited. Figure 2-12 HSM3350 in HSC3010C Enclosure - 22 -...
Page 23 Section 2: Installation North American Wiring for HSM3350 in HSC3020 Enclosure This diagram shows routing of power limited and non-power limited wiring inside the enclosure. Battery leads and AC cord are non-power limited. All other wiring is power limited. Figure 2-13 North American Wiring for HSM3350 in HSC3020 Enclosure - 23 -...
Page 24 Section 2: Installation Installing the HS3032/HS3128 in an HSC3020C Enclosure Figure 2-14 Panel Wiring for HSC3020C Enclosure For HSC3020C installations, complete the following steps: 1. Route the AC line through the opening on the bottom of the cabinet and secure using cable tie as shown in figure 2-5. 2.
Page 25 Section 2: Installation 5. Disposal of used batteries shall be made according to the waste recovery and recycling regulations applicable to the intended market 6. Before servicing, DISCONNECT the TELEPHONE CONNECTION. 7. Two batteries may be used to provide the required backup time. WARNING: High Voltage: Disconnect AC Power and telephone lines before servicing.
Page 26 Section 2: Installation HSM3204CX in HSC3020 Wiring Diagram This diagram shows routing of power limited and non-power limited wiring inside the enclosure. Battery leads and AC cord are non-power limited. All other wiring is power limited. Figure 2-16 Panel Wiring for HSC3020 Enclosure - 26 -...
Page 27 Section 2: Installation HSM3350 in HSC3020 International Wiring Diagram This diagram shows routing of power limited and non-power limited wiring inside the enclosure. Battery leads and AC cord are non-power limited. All other wiring is power limited. Figure 2-17 HSM3350 Wiring for HSC3020 Enclosure - 27 -...
Page 28 Section 2: Installation Terminal Descriptions The following terminals are available on the PowerSeries Pro alarm controller. Table 2-1 Terminal Descriptions Terminal Description BAT+, BAT- Battery terminals. Use to provide backup power during a power outage and additional current when system demands exceed the power output of power adapter, short term such as when the system is in alarm.
Page 29 Section 2: Installation Figure 2-18 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.
Page 30 Section 2: Installation Alarm Controller Current Calculation Maximum (Standby or Alarm) AUX (2 A max. including PGMs 1-4) Corbus (2 A max.)*** PCLink+ (200 mA) USB (500 mA max.) Cell Module (20 mA Idle) Total (must not exceed 2 A) For UL, ULC and Commercial Listed applications, the total standby and alarm current cannot exceed 2 amps.
Page 31: Installing Modules
Section 2: Installation 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.
Page 32 Section 2: Installation Figure 2-20 HSM3408 8-Zone Expansion Refer to the HSM2108 and HSM3408 installation sheets for more information. 2-Way Audio Module The HSM2955 2-way audio module provides Talk/Listen-in capability for the audio verification of alarms. The main alarm controller has a 3-pin analog audio link interface to connect the module. Figure 2-21 HSM2955 2-Way Audio Module Output Expander The HSM2208 module is used to add up to 8 low-current programmable outputs to the alarm system.
Page 33 Section 2: Installation Wireless Transceiver Module The HSM2HOSTx 2-way wireless integration module provides communication between wireless devices and the alarm con- troller. Note: The HSM2HOST must be mounted in the HSC3020CP plastic enclosure or in its own separate enclosure. Connect the HSM2HOSTx to the 4-wire Corbus of the alarm controller according to the following diagram. Figure 2-23 HSM2HOSTx Wiring Diagram After you have completed the wiring, reconnect power to the security system.
Page 34 Section 2: Installation Power Supply Wiring HSM2300/2204 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.
Page 35 Section 2: Installation HSM3350 The HSM3350 is a supervised 3 A, 12 VDC power supply module with dual AUX outputs and dual battery backups. 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.
Page 36 Section 2: Installation Corbus Repeater The HSM3204CX is a Corbus repeater and isolator module with four high current relay outputs. The module has an on- board power supply to power Corbus. Figure 2-26 HSM3204CX Corbus Repeater 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.
Page 37 Section 2: Installation Figure 2-27 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 37. End of line resistors must be placed on the device end of the loop, not at the keypad. Assigning Keypad Zones When using keypad zone inputs, each input used must be assigned a zone number in Installer Programming.
Page 38 Section 2: Installation 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. Figure 2-28 Normally Closed The following table shows zone status under certain conditions for NC Loops: Table 2-5 NC Loop Status Loop Resistance Loop Status...
Page 39 Section 2: Installation Table 2-6 SEOL Loop Status Loop Resistance Loop Status 0 Ω (shorted wire, loop shorted) Violated 5600 Ω (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.
Page 40 Section 2: Installation Figure 2-31 TEOL Wiring The following table shows zone status under certain conditions for TEOL: Table 2-8 TEOL Loop Status Loop Resistance Loop Status 0 Ω (short) Fault Infinite Ω (open) Tamper 5600 Ω Restored 11200 Ω Alarm 21200 Ω...
Page 41 Section 2: Installation Figure 2-32 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. Bell Wiring These terminals supply 700 mA of current at 10.8 - 12.5 VDC for commercial/ residential installations. To comply with NFPA 72 Temporal Three Pattern requirements, section [013] Opt [8] must be ON.
Page 42 Section 2: Installation Smoke Detector Wiring All zones defined as Fire must be wired according to the following diagram: Figure 2-34 Smoke Detector Wiring See "[001] Zone Types" on page 82 for fire zone operation. Note: Smoke detectors must be latching type. To reset a smoke detector, enter [*][7][2]. Table 2-9 Compatible 4-Wire Smoke Detectors FSA-410x FSA-410xLST...
Page 43 Section 2: Installation Table 2-10 Compatible 2-Wire Smoke Detectors FSA-210x FSA-210xR FSA-210xT FSA-210xRT FSA-210xS FSA-210xRS FSA-210xST FSA-210xRST FSA-210xLST FSA-210xLRST Current ratings for DSC FSA-210B series: 35mA - 75mA Table 2-11 2-Wire Smoke Detector Initiating Circuit Item Specification Style/Class, Supervised, Power Limited Style B (Class B) Compatibility Identifier PC18-1...
Page 44 Section 2: Installation Table 2-12 CO Detector Ratings Device Description Max Rating @12VDC CO-12/24 Potter model CO detector 40 mA 12-24SIR Quantum model CO detector 75 mA FW-CO12 NAPCO model CO detector 90 mA FW-CO1224 CO1224 System Sensor model CO detector 40 mA Figure 2-36 CO Detector Wiring Earth Ground Wiring...
Page 45 Section 2: Installation 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 400 mA or 700 mA.
Page 46: Section 3: Configuration
Section 3: Configuration 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: create partitions, See "Working with Partitions " on page 49. assign keypads to partitions, see "Keypad Partition Setup " on page 50 assign sirens to partitions, see "Bell/Siren Operation "...
Page 47: Enrollment
Section 3: Configuration Flashing cadences (timings) – During a firmware upgrade process the Status LED shall flash: 800ms on / 800ms off. This cadence shall clear at the end of the firmware upgrade process. If the firmware upgrade fails the Status LED shall flash: 200ms on / 200ms off.
Page 48 Section 3: Configuration 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. Modules can be enrolled automatically or manually using section [902] of Installer programming. For instructions on enrolling modules, see "Module Programming"...
Page 49: Working With Partitions
Section 3: Configuration 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. 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).
Page 50: Trouble Indicators
Section 3: Configuration 3.5 Trouble Indicators Both audible and visual trouble indications are available on all partitions. For more information, see "Troubleshooting" on page 61 Programming section [013] option 3 controls whether or not troubles are indicated when the alarm system is armed. 3.6 Keypad Partition Setup Keypads can be configured to control an individual partition or all partitions.
Page 51 Section 3: Configuration Bell/PGM Support PGMs must be assigned to one or more partitions. See section [007] for partition assignment. Note: Bell PGM type requires supervision and follows arming squawks by partition. Communications Account codes are assigned to all system and partition events. For SIA communications, a single account code (programmed in section [310][000]) is used for all events.
Page 52: Alternate Communicator Setup
Section 3: Configuration 3.7 Alternate Communicator Setup The alternate communicator is an ethernet or optional cellular communications device that can be used as a backup to the PSTN connection or as a primary means of communication between the alarm panel and the central monitoring station. The alternate communicator communicates via 2G, 3G, LTE or Ethernet.
Page 53: Local Firmware Upgrade
Section 3: Configuration 3.8 Local Firmware Upgrade Alarm panel firmware can be upgraded locally via DLS. Firmware upgrade prevention rules are ignored when performing a local firmware upgrade. To perform a local firmware upgrade: 1. Remove the front cover of the alarm panel and plug the DLS header into the micro USB connector on the alarm con- troller.
Page 54: Section 4: System Operation
Section 4: System Operation Section 4: System Operation 4.1 Arming and Disarming The following table describes the various arming and disarming methods available. Table 4-1 Arming/Disarming Methods Method Description Away Arm for 2 seconds + [Access Code*] Stay Arm for 2 seconds + [Access Code*] Night Arm when armed in stay mode [*][1] + [Access Code*] Disarm...
Page 55: Labels
Section 4: System Operation P = Pre-Alert - = Partition not enabled In the following example, partition 1 is armed, partition 2 is disarmed and ready, partition 3 is disarmed and not ready, par- tition 4 is in alarm, partition 5 is indicating exit delay, partition 6 is in entry delay, partition 7 is in auto-arm pre-alert and par- tition 8 is not enabled.
Page 56: Annunciation
Section 4: System Operation Event Labels Customizable labels can be created for the following events: Fire alarm Fail to arm Alarm when armed CO alarm The maximum label size is 14 ASCII characters. Partition Command Output Labels This feature is used to program custom labels for command outputs. These labels are used with output activation events in the event buffer.
Page 57: Keypad Function Keys
Section 4: System Operation 4.5 Keypad Function Keys Keypads have 5 programmable function keys that can be configured to perform one of the following actions: Table 4-2 Function Key Programming Options [00] Null Function Key [17] Arm Interior [02] Instant Stay Arm [21]-[24] Command Output 1 to 4[*][71] - [*][74] [03] Stay Arm [29] Bypass Group Recall...
Page 58 Section 4: System Operation [06] Chime On/Off This function turns the door chime on or off and is the equivalent of pressing [*][4]. The alarm system must be disarmed to use this function. If option 7 in section [023] is enabled, this function key requires an access code. [07] System Test This function performs a system test when pressed and is the equivalent of entering [*][6][Access Code][04].
Page 59: Language Selection
Section 4: System Operation [33] Bypass Recall This function bypasses the same set of zones that were bypassed the last time the partition was armed. This function is equi- valent to pressing [999] while in the [*][1] menu. An access code is required to use this feature if section [023] option 4 is enabled.
Page 60: Commands
Section 4: System Operation 4.7 [*] Commands [*] commands provide convenient access to alarm system features. The following commands are available: [*][*] Temperature function [*][1] Bypass zones [*][2] View troubles [*][3] View alarms in memory [*][4] Door chime on/off [*][5] User programming [*][6] User functions [*][7] Command output 1-4 on/off [*][8] Installer programming mode...
Page 61 Section 4: System Operation 5. To clear a bypassed zone, repeat the above procedure. The “B” disappears from the display indicating that the zone is no longer bypassed. 6. To exit bypass mode and return to the ready state, press [#]. Other Bypass Features: The following features are also available on the [*][1] zone bypass menu: Bypass Open Zones...
Page 62 Section 4: System Operation To view trouble conditions: Press [*][2] to enter the Trouble menu. On an LCD keypad, scroll to a trouble type then press [*] to view the specific trouble. The zone name and trouble con- dition for each trouble are displayed on the screen. - 62 -...
Page 63 Section 4: System Operation Table 4-4 : Trouble Indications Trouble 01 – Service Required: [01] Bell Circuit Trouble: The bell circuit is open [02] RF Jam: The HSM2HOSTx has detected an RF Jam condition [03] Loss of Clock: System time and date require programming. [04] Output 1 Fault: An HSM2204 module has detected an open condition on output #1.
Page 64 Section 4: System Operation Trouble 04 – AC or DC input power trouble: [01] Zone 001 - 128 AC or DC input power trouble: An AC or DC input power trouble has been detected on a PGX934 PIR + Camera. [02] Keypad AC or DC input power trouble: A keypad has an AC or DC input power trouble.
Page 65 Section 4: System Operation Trouble 09 – Module Supervisory Trouble: [01] HSM2HOSTx not responding. [02] Keypad 01 - 16 not responding. [04] HSM2108 01 - 15 not responding. [05] HSM2300 01 - 04 not responding. [06] HSM2204 01 - 04 not responding. [08] HSM2208 01 - 16 not responding.
Page 66 Section 4: System Operation Trouble 11 – Communications: [01] TLM: Telephone line disconnected from control panel. [02] Receiver 01-04 FTC Trouble: Failure to communicate using programmed receiver paths. [04] Alt. Comm Cellular: Radio or SIM card failure, low signal strength detected, or cellular network fault. [05] Alt.
Page 67 Section 4: System Operation A function key can also be programmed to enable/disable this feature. See "Keypad Function Keys" on page 57 for details. This feature may require an access code. See "[023] System Option 11" on page 114option 7 for details. The following door chime sounds may be selected: 6 beeps "Bing-Bong"...
Page 68 Section 4: System Operation Master Code - Access Code [0001] By default the master code can access all partitions and can perform any keypad function. This code can be used to program all access codes, including the supervisor and duress codes. If section [015] option 6 is on, the master code can only be changed by the installer via Installer Programming.
Page 69 Section 4: System Operation Supervisor Duress code Zone bypassing Remote access Bell squawk One time use code Supervisor 1 – Converts standard user into supervisor user. See "Access Code Types" on page 67 on page 58 for details. 2 – Duress Code Converts standard user code into duress code.
Page 70 Section 4: System Operation To increase authentication flexibility, user access can be achieved by entering a valid user code or by swiping a proximity tag. Alternatively, users can be required to enter a valid access code and present a proximity tag. See "[040] User Authentic- ation"...
Page 71 Section 4: System Operation Auto-Arm/Disarm Menu: [*][6][Master Code] > Auto Arm/Disarm Keypad: [*][6][Master Code] + 02 With this feature enabled, the alarm system automatically arms in away mode (stay/away zones active) or disarms at a pro- grammed time each day (see Auto-Arm Time below). The keypad emits three beeps to indicate the auto arming is enabled and one long beep to indicate auto arming is disabled.
Page 72 Section 4: System Operation Keypad: [*][6][access code] + 08 Selecting this function places the alarm panel into user walk test mode. The Ready, Armed and Trouble LEDs on the keypad flash to indicate that the test is active. If zones are tripped during a walk test, the system sounds a steady 2-second tone on all keypads and the main bell to indicate that the zone is working correctly.
Page 73 Section 4: System Operation Interactive Services Menu: [*][6][Master Code] > Interactive Serv Keypad: [*][6][Master Code] + 18 This function is used by an alternate communicator to open the Interactive Services menu. Priority Buffer Menu: [*][6][Master Code] > Priority Buffer Keypad: [*][6][Master Code] + 19 This function logs priority events to a buffer, protecting them accidental or deliberate deletion, or alteration of its contents.
Page 74: Visual Verification
Section 4: System Operation Global delay zones always have an entry delay, even if the system is armed using [*][9]. [*][0] Quick Arm/Exit This feature operates differently depending on whether or not the alarm system is armed or disarmed. Note: This feature shall not be used for EN50131 certified systems. When disarmed: Pressing [*][0] arms the alarm system without having to enter an access code.
Page 75: Section 5: Programming
Section 5: Programming Section 5: Programming 5.1 How to Program This section describes how to view alarm system programming options using the supported keypad types. 5.2 Programming Methods The alarm system can be programmed using the following methods: Table 5-1 Programming Methods Method Description Procedure...
Page 76 Section 5: Programming 4. After programming the first telephone number, enter a system account code. The system account code can be any 4 or 6-digit combination of numbers (0-9) and letters (A-F). To enter letters A through F, press [*] then the numbers 1 through 6 for the letter A through F respectively. Press [*] again to revert back to decimal entry.
Page 77 Section 5: Programming 2. Navigate to a specific programming section. 3. Select an option to view or change its programming. All programming options are numbered and can be accessed by navigating through the menu, or by keying in the program section number.
Page 78 Section 5: Programming Table 5-2 HEX Digit Programming Value Enter Telephone Dialer HEX [A] Press [*][1][*] Not supported HEX [B] Press [*][2][*] Simulated [*] key HEX [C] Press [*][3][*] Simulated [#] key HEX [D] Press [*][4][*] Dial tone search HEX [E] Press [*][5][*] Two-second pause HEX [F]...
Page 79: Programming Descriptions
Section 5: Programming 5.3 Programming Descriptions This section provides descriptions of all alarm controller options programmable by the installer. Adding Labels [000] Label Programming Zone and other labels on the alarm system can be customized. Program labels locally or download/upload using DLS. Local label programming is done via a system keypad, as described below.
Page 80 Section 5: Programming Press To Select/Display [SELECT] [ESCAPE] [SPACE] [A], [B], [C], [1] [D], [E], [F], [2] [G], [H], [I], [3] [J], [K], [L], [4] [M], [N], [O], [5] [P], [Q], [R], [6] [S], [T], [U], [7] [V], [W], [X], [8] [Y], [Z], [9], [0] Zone Label Options To access zone label options such as using ASCII characters, changing letter case and clearing the display, press [*] while...
Page 81 Section 5: Programming [064] CO Alarm Message Use this section to program a custom label that is displayed on keypads during a carbon monoxide alarm. The maximum label size is 14 x 2 characters. [065] Fire Alarm Message Use this section to program a custom label that is displayed on keypads during a fire alarm. The maximum label size is 14 x 2 characters.
Page 82 Section 5: Programming [809][001]-[004] HS2300 Power Supply Label Use this section to create custom labels for power supplies on the system. Select 001-004 for power supply 1-4. [810][001]-[004] HS2204 High-Current Output Supply Label Use this section to create custom labels for high-current output supplies on the system. Select 001-004 for output supply 1-4. [811][001]-[004] HSM3350 3A Power Supply Label Use this section to create a custom label for the 3A power supply module.
Page 83 Section 5: Programming Delay Stay/Away – Similar to delay 1 except that the zone is bypassed when armed in Stay mode. Commonly used with motion detectors that cover an entry point. Delayed 24-Hour Fire – This zone is used with smoke detectors and functions similar to the standard fire zone, except the communicator delays the alarm memory and transmission by 30 seconds.
Page 84 Section 5: Programming Note: When Troubles/Open Zones Cancel Arming is enabled with this zone, any troubles or open zones on the system can- cel arming when the zone is tripped and restored. Due to the potential energy requirements of infinite exit delay, wireless keypads MUST be powered by a transformer. If a wireless key is used to away arm the system, the door must still be opened then closed to complete the arming sequence.
Page 85 Section 5: Programming 24-Hour Panic – Instant alarm when activated, audible alarm at default. 24-Hour Heat – Instant alarm when activated, audible alarm at default. 24-Hour Medical – Instant alarm when activated, audible alarm at default. 24-Hour Emergency – Instant alarm when activated, audible alarm at default. 24-Hour Sprinkler –...
Page 86 Section 5: Programming Maintained Keyswitch Arm – Often used with a keyswitch module, turning the key (open state) arms the system. Turning the key back (restored state) dis- arms the system. Tampers and faults only initiate their respective trouble sequence. Note: DO NOT use for wireless zones.
Page 87 Section 5: Programming OFF: The zone does not chime. Bypass Enabled – ON: The zone can be manually bypassed. OFF: The zone cannot be bypassed. Note: Bypass shall not be enabled for fire zones. Force Arm – ON: The system can be armed with the zone open. The zone is temporarily bypassed and, when secured, is monitored by the system. NOTE: When open zones cancel arming is enabled [021][7], the system can begin arming with an open, force armable zone, but if the zone is still open when the exit delay timer expires, the arming will be cancelled.
Page 88 Section 5: Programming EOL Resistance This section describes how to program EOL resistances to custom values. [004] End of Line Resistance Use this menu to program custom resistance values for SEOL, DEOL, and TEOL options in 3-digit format. For example, to program the value of 0.5 kΩ, enter 005.
Page 89 Section 5: Programming the holdup event is logged and communicated. Note: Not for use with UL/ULC listed installations. 000 disables this feature. Zone Loop Response Time Loop response time is a 3-digit entry from 005 to 255 programmed in 10ms increments. The minimum available loop response time is 50ms (e.g., program 005 for 50ms).
Page 90 Section 5: Programming Increment Valid entries are 1 or 2 hours. This is the number of hours to advance or turn the clock back. Access Codes This section is used by installers to program the installer code, the master code and the maintenance code. For information on programming other access codes, see "[*][5] Program Access Codes"...
Page 91 Section 5: Programming [008] PGM Timer Programming [000] PGM Minutes/Seconds This option determines if the timer is in minutes or seconds. [001]-[324] PGM Timer This timer programs the duration (in seconds or minutes) that PGMs 1-324 activate if programmed to follow the PGM Timer. Select option 001-324 for PGM 1-324.
Page 92 Section 5: Programming The PGM is also supervised, and a trouble condition is generated if a 2.2KΩ resistor is not present between the PGM ter- minal and Aux+. The 2-wire smoke detector input creates an instant and latching alarm. 107 - External Siren This output is normally active and provides up to 1A to charge the external sirens battery.
Page 93 Section 5: Programming 129 – Partition Status Alarm Memory This feature is intended to be used on a keyswitch plate, with a light controlled by this PGM to indicate system status. When the partition is armed, the output activates (steady) at the: beginning of exit delay end of exit delay.
Page 94 Section 5: Programming Emergency Alarm Duress Alarm Holdup Verified In the armed state, this output deactivates when the system is disarmed. If an alarm activates this output in the disarmed state, the output deactivates if a valid access code is entered within the bell timeout or if the system is armed after the bell timeout has expired.
Page 95 Section 5: Programming include zone tampers (DEOL), case tampers, TLM trouble, RF jam, and all zone and device tampers. Note: This PGM does not activate for alternate communicator fault. 161 – DC Trouble This output activates when one of the following low battery conditions is detected: Alarm controller low or absent battery Module low or absent battery Wireless zone low battery...
Page 96 Section 5: Programming If multiple zones are enabled, any active zone in that group triggers the output. The PGM will not activate again until all zones are restored. [010] PGM Attributes The following options are used to program the operating characteristics of the main bell and PGM outputs. [000] Main Bell Mask This programming section is used to configure the types of audible alarms that trigger the main bell output on the alarm con- troller.
Page 97 Section 5: Programming OFF: No access code required for activation 107 – External Siren 01 – True Output/Inverted ON: deactivated during normal operation. Activated when triggered. OFF: active during normal operation. Deactivated when triggered. 109 – Courtesy Pulse 01 – True Output/Inverted ON: deactivated during normal operation.
Page 98 Section 5: Programming 117 – Armed Stay Mode 01 – True Output/Inverted ON: deactivated during normal operation. Activated when triggered. OFF: active during normal operation. Deactivated when triggered. 120 – Away Armed with No Zone Bypasses Status 01 – True Output/Inverted ON: deactivated during normal operation, activated when triggered.
Page 99 Section 5: Programming 04 – Fire Alarm ON: activates with fire alarm, [F] key, fire zones, 2-wire smoke. OFF: does not activate with fire alarm. 05 – Panic Alarm ON: activates with panic alarm, [P] key, panic zones. OFF: does not activate with panic alarm. 06 –...
Page 100 Section 5: Programming 06 – DC Trouble ON: activates if a panel low or no battery trouble is detected, or if an HSM2204/2300 1-4 low or no battery trouble is detected. OFF: does not activate on DC Trouble condition. 07 – Bus Voltage ON: activates when a system module has measured a low Aux voltage.
Page 101 Section 5: Programming HSM2300 1 – 4 HSM2208 01 – 16 HSM3204CX HSM3408 HSM3350 OFF – does not activate if a module supervisory trouble is detected. 14 – Module Tamper ON – activates if any of the following module tamper conditions is present: HSM2HOST Keypad 01 –...
Page 102 Section 5: Programming 06 – Burglary Alarm ON: activates on burglary alarm. OFF: does not activate on burglary alarm. 07 – Medical Alarm ON: activates on medical alarm. OFF: does not activate on medical alarm. 08 – Supervisory ON: activates on supervisory alarm. OFF: does not activate on supervisory alarm.
Page 103 Section 5: Programming 02 – PGM Timer ON: output remains active until an access code is entered or certain criteria have been met, depending on the PGM type. OFF: output remains active until the PGM output timer expires. 09 – Battery Low ON: activates when a low battery trouble occurs.
Page 104 Section 5: Programming 05 – Follow Alarm ON: output is activated on zone alarm and stays active until the bell is turned off. See table for operation with bits 2 and 4. OFF: output is activated on zone opening and deactivated when zone is closed. Timed Output Latching Follow Alarm PGM Output ON upon zone opening (including tamper and fault), OFF upon zone closing ON upon zone alarm, OFF upon bell cut-off or alarm silenced...
Page 105 Section 5: Programming Note: For EN 50131 certified installations, maximum number of attempts is 10. Keypad Lockout Duration This programming option determines the length of time the keypad is locked out for. If the system cold starts while in keypad lockout, the lockout is removed.
Page 106 Section 5: Programming 6 – Audible Exit Fault ON: If a delay type zone is violated after the exit delay has expired, an entry delay warning is sounded through the keypad and siren indicating that an improper exit was made. If the alarm system is disarmed within the entry delay period no signal is sent.
Page 107 Section 5: Programming Note: Must be disabled for ULC installations. [015] System Option 3 1 – [F] Key Enabled ON: Pressing and holding the [F] key for 2 seconds triggers a Fire alarm. OFF: The [F] key does not sound or report an alarm when pressed. Note: Use only for residential fire installations.
Page 108 Section 5: Programming 2 – AC Trouble Light Flashes ON: When AC power is lost, the Trouble light flashes in the base “Ready” and “Armed” mode within 30 seconds of power loss. When AC restores, the Trouble light stops flashing within 30 seconds. If enabled, this option overrides the AC display option.
Page 109 Section 5: Programming 4 – Multi Hit ON: Alarms from the same zone within the Burglary Verification Timer duration cause the police code or burglary verified to be logged and transmitted. The number of zone trips required to create a confirmed alarm depends on the value of the pro- grammable burglary verification counter.
Page 110 Section 5: Programming Global Zones: 24-hour zone bypasses are logged and communicated in real time. Non 24-hour zone bypass events are logged and communicated when armed. Non 24-hour zone unbypass events are logged and communicated when the par- tition is disarmed. 3 –...
Page 111 Section 5: Programming 3 – Reserved 4 – Reserved 5 – Audible Bus Fault ON: All module supervisory trouble conditions activate the siren. OFF: Only zone expander supervisory trouble conditions while armed activate the siren. 6 – Duress Codes ON: The duress code attribute can be enabled/disabled from the [*][5] menu. For BS8243 installations the default is off.
Page 112 Section 5: Programming On an LCD keypad, the message “REMOTE RESET RQD” is displayed on the top line and “CODE” along with the actual code is displayed across the bottom line.. While the system is locked out, the only options available are [*][3], [*][6], [*][7], and [*][8]. Accessing [*][8] Installer Pro- gramming unlocks the alarm system.
Page 113 Section 5: Programming OFF:The keypad blanks when the system is armed or disarmed. Note: For systems compliant with EN50131-1 and EN50131-3, option [021] bit 2 “Keypad blanking while armed” must be 3 – Reserved 4 – Ready Display ON: The keypad ready LED will continue to show system ready status while keypad blanking is active. OFF: The keypad ready LED will turn off when keypad blanking is active.
Page 114 Section 5: Programming Note: This option must be OFF for UL Residential Fire applications. 8 – Keyswitch Arms in Away Mode ON: Keyswitch arming arms the alarm system in away mode. OFF: Keyswitches only arm the system in away mode if an entry/exit zone is violated during exit delay. Note : Proximity tag arming follows this section.
Page 115 Section 5: Programming [024] System Option 12 1 – Reserved 2 – Reserved 3 – AC/DC Inhibits Arming ON: The system cannot be armed when an AC or battery trouble is present. This includes keypad, keyswitch, automatic, and DLS arming. An error tone is generated if the user attempts to arm the system during an AC/DC trouble. Note: Displaying AC troubles ([016] option 2) is strongly recommended if this option is enabled.
Page 116 Section 5: Programming 4. If no dial tone detected, hang up for 20 seconds. 5. Search for dial tone for 5 seconds. 6. If no dial tone detected, dial anyway. OFF: No attempt is made to contact the central station if dial tone is not present. Note: Force Dial must be enabled for UL installations.
Page 117 Section 5: Programming Note: This setting is required for EN50131-1 compliant installations using 1000 access codes. [042] Verified Events Burglary Verified Counter This counter determines the number of burglary alarms that must occur within the Burglary verification window before a con- firmed Burglary Verified alarm is logged and communicated.
Page 118 Section 5: Programming [005] – Partition Auto-Arm Postpone Timer Use this section to program the length of time the auto-arm pre-alert timer is postponed for. Valid entries are between 001 and 255 minutes. 000 cancels the postpone timer. When the postpone timer expires, the Auto-arm pre-alert timer restarts (unless the partition is armed). If left uninterrupted the partition arms at the end of the pre-alert.
Page 119 Section 5: Programming All zones assigned to a partition are supervised and operate according to the zone type programmed. If a zone is not assigned to a partition, it is not supervised and all activity on the zone is ignored by the system. [300] Panel/Receiver Communication Paths This section is used to select the path of communications between the alarm system and the central station.
Page 120 Section 5: Programming Reporting [307] Zone Reporting Zone alarms, tampers and faults are transmitted to the central station using automatic contact ID or SIA formats. Reporting can be toggled on or off by zone using toggle options 1-6 in subsections 001-128. See "Reporting Codes"...
Page 121 Section 5: Programming 1/2 – Keypad Fire Alarm-[F] Key Alarm/Restore Sent when [F] Key alarms/restores occur. 3/4 – Keypad Medical Alarm-[M] Key Alarm/Restore Sent when [M] Key alarms/restores occur. The keypad beeps 10 times when the medical alarm is successfully com- municated to the alarm monitoring station.
Page 122 Section 5: Programming If the delay zone that caused the exit error has cross zoning enabled, the exit fault and zone alarm transmits if a second zone is not tripped. The local alarm sequence follows cross zoning rules. The exit error is transmitted with the zone alarm that caused the fault, even if that zone has transmission delay enabled.
Page 123 Section 5: Programming 5 – Cold Start Sent when power is restored to the alarm system after total power failure. The code is sent after 2 minutes to allow the alarm controller to stabilize. 6 – Delinquency When the Delinquency option is off (page 123), this code is transmitted if the alarm system has not been armed for the num- ber of days programmed in the Delinquency Transmission Delay (page 128).
Page 124 Section 5: Programming [321] Receiver Events 2/4/6/8 – Receiver 1 - 4 FTC Restore Sent when the panel detects an FTC trouble. [331] Module Events 1 1/2 – Module AC Trouble/Restore This reporting code is transmitted when a module’s AC supply fails or has been restored. A programmable delay applies to both the trouble and the restore.
Page 125 Section 5: Programming [355] Alternate Communicator 5 Receiver 1 to 4 Supervision Failure and Restore Sent when the alternate communicator detects a supervision trouble for the Ethernet receiver (1, 2) or the GPRS receiver (3, 1/2 – Receiver 1 Supervision Failure/Restore 3/4 –...
Page 126 Section 5: Programming [001] Maintenance Events/Restores (all troubles except tampers) These options control which receiver paths are enabled for maintenance events. To assign a maintenance event to a receiver, select from the following list: [01] Receiver 1 [02] Receiver 2 [03] Receiver 3 [04] Receiver 4 [002] Test Transmissions...
Page 127 Section 5: Programming [003] Openings/ Closing These options control which receiver paths are enabled for Partition 1-8 Opening and Closing event reporting codes. To assign an event to a receiver, select one of the following options: [01] Receiver 1 [02] Receiver 2 [03] Receiver 3 [04] Receiver 4 [350] Communicator Formats...
Page 128 Section 5: Programming AC Failure Communication Delay (minutes or hours) This value determines the delay before an AC failure or AC restore is reported. The AC failure or restore is still displayed immediately. Valid entries are from 000 to 255 minutes/hours (max. 180 minutes for UL commercial installations). Selection of minutes or hours for the delay is set in section "[382] Communicator Option 3"...
Page 129 Section 5: Programming Note: Maximum 45 seconds for UL installations. [015] – T-Link Wait for Ack This option is used to program the length of time the communicator waits for an acknowledge after transmitting via IP/GS. Valid entries are 001 to 255. Default is 60 seconds. [016] –IP/Cellular Fault Check Timer This section is used to program the number of poll commands sent without valid poll responses before the alarm system gen- erates a trouble condition.
Page 130 Section 5: Programming OFF: After 5 failed attempts to communicate with the primary receiver, the communicator switches to the next backup receiver in the sequence and makes up to 5 more attempts. This continues until communication is successful or until all backup receivers fail, at which point an FTC trouble for the primary number is logged.
Page 131 Section 5: Programming [382] Communicator Option 3 1 – Reserved 2 – Walk Test Communications ON: Zone alarms that occur during Walk Test are communicated if programmed to do so. OFF: Zone alarms during Walk Test are not communicated. FMP key alarms are still communicated. 4 –...
Page 132 Section 5: Programming Receiver 2 uses the same format programmed for Receiver 1. OFF: Receiver 2 is independent and will communicate if a number and format are programmed. 3 – Receiver 3 Backup Option ON: Receiver 3 backs up Receiver 2. Receiver 3 is only used if an FTC event is detected on Receiver 2. Receiver 3 uses the same format programmed for Receiver 2.
Page 133 Section 5: Programming 2 – User Enables/Disables DLS ON : The [*][6][Master Code][05] command enables a 6-hour window where, on power-up, downloading calls are answered if a successful double call routine is detected. OFF: The user cannot enable a downloading window. 3 –...
Page 134 Section 5: Programming Note: If Double-Call option and Number of Rings to Answer are enabled, either one will work depending on how the installer calls the alarm system. [407] SA Access Code This 6-digit hexadecimal code allows the alarm system to confirm the identity of the downloading computer. If the code does not match the computer, the alarm system does not allow uploading/downloading.
Page 135 Section 5: Programming Schedule Programming The sections described below are used for programming scheduled operating times for PGM command outputs 1-4. [601]-[604] Programming Schedule 1-4 These sections are used to define schedules for PGM command outputs 1-4 operation. When a PGM is configured for timed output operation, it activates at the programmed start time and will turn off after the programmed duration.
Page 136 Section 5: Programming Table 5-4 : Cellular Technology Display Technology GPRS EDGE HSPA HSPA CDMA EVDO 5 bars indicate maximum signal strength. 0 bars indicate the communicator is not connected to the network. [851] Alternate Communicator Programming The programming sections described in this document can be viewed at the keypad. To start programming, enter: [*] [8] [installer code] [851] [section number], where section number is the 3-digit section number referenced in this section.
Page 137 Section 5: Programming [005] System Toggle Options [1] Ethernet Receiver 1 Supervised Default (OFF) ON: Ethernet receiver 1 will be supervised and heartbeats will be sent to Ethernet receiver 1 based on the super- vision interval programmed in section [004]. OFF: Ethernet receiver 1 will not be supervised.
Page 138 Section 5: Programming [4] Cellular receiver 3 is enabled. Default (ON) ON: Cellular receiver 3 is enabled. OFF: Cellular receiver 3 is disabled. [5] Cellular receiver 4 is enabled. Default (ON) ON: Cellular receiver 4 is enabled. OFF: Cellular receiver 4 is disabled. [6] Reserved [7] DLS Over Cellular.
Page 139 Section 5: Programming The DLS incoming local port (listening port) is the port DLS IV will use when connecting to the communicator. If a router or gateway is used, it must be programmed with a transmission control protocol (TCP) port forward for this port to the com- municator module IP address.
Page 140 Section 5: Programming HEX Value Offset Hours Standard Abbreviation Location Central European Time SAST South Africa Standard Time Arabic Standard Time IRST Iran Standard Time Gulf Standard Time Afghanistan Time Pakistan Time Indian Standard Time 5.75 Nepal Time VOST Vostok Time Myanmar Time Bangladesh Standard Time China Standard Time...
Page 141 Section 5: Programming Alternate Test Transmission with Backup Receivers: Set Ethernet section [026] to (FF); [027] to (00). Set cellular section [028] to (FF); [029] to (00). Interval 1: If the test transmission fails to the primary receiver, it will back up to the secondary receiver. If the test transmission fails to the secondary receiver, an FTC trouble will be generated.
Page 142 Section 5: Programming Ethernet Receiver 1 Options [101] Ethernet Receiver 1 Account Code Default (0000000000) The account code is used by the central station to distinguish between transmitters. This account code is used when trans- mitting heartbeat signals to the central station receiver. Signals received from the panel will use the control panel account number.
Page 143 Section 5: Programming Note: Each Ethernet/cellular receiver must be programmed with a unique DNIS. [113] Ethernet Receiver 2 Address Default (000.000.000.000) Programming the Ethernet receiver 2 IP address with 000.000.000.000 will disable Ethernet. Enter the Ethernet receiver 2 IP address. This address will be provided by the central station system administrator. Format is 4 fields, each field is a 3-digit decimal.
Page 144 Section 5: Programming The account code is used by the central station to distinguish between transmitters. This account code is used when trans- mitting heartbeat signals to the central station receiver. Signals received from the control panel will use the control panel account number.
Page 145 Section 5: Programming This section defines the port of cellular receiver 4. Change the value of this port when the installation is located behind a fire- wall and must be assigned a particular port number, as determined by the central station system administrator. Valid range: 00000 - 65535.
Page 146 Section 5: Programming [228] Voice Call Back Time Default (010) Valid entries are 000 - 255. [229] Voice Call Back Number Default ( ) 32 digit phone number. Valide entries:: 0000000000000001 to FFFFFFFFFFFFFFFE [422] Integration Identification Number This section will display the unique 12-digit number assigned to this control panel for the identification when integrated with third party applications.
Page 147 Section 5: Programming [432] Session 1 Integration Outgoing Port Default (03070) Valid range: 00000- 65535 This section is used to program the outgoing port for integration via UDP. [433]Session 1 Integration Incoming Port Default (03071) Valid range: 00000- 65535 This section is used to program incoming port for integration via TCP. [450]-[460] Repeats [423]-[433] for Session 2 [477]-[4873] Repeats [423]-[433] for Session 3 [504]-[514] Repeats [423]-[433] for Session 4...
Page 148 Section 5: Programming Table 5-8 Response Code Descriptions and Corresponding Actions Response Code Description of Response Corresponding Action Code Bad File Version check failed Contact DSC Tech Support, described the action attempted with the system and supply Image type mismatch them with the Response Code in Section Device type mismatch [983].
Page 149 Section 5: Programming Response Code Description of Response Corresponding Action Code Reserved Remote firmware update dis- Enable remote firmware update in the com- abled municator in order to perform remote system firmware update. Local Status Update States Firmware file empty No action required.
Page 150 Section 5: Programming Signal Signal Indic- Signal Indic- Signal Level Signal Action Required Strength Level ator 1 ator 2 [dBm] Level Status 3 Bars 7 - 10 -98 ~ -91 strong Location is OK. Cellular signal strength is greater than CSQ 7. 4 Bars 11 - 13 2 -90 ~ -85...
Page 151 Section 5: Programming [989] - DNS 2 IP This section will display the IP address of DNS Server 2. This is useful when the unit is configured for DHCP and the IP address assigned to the device by the DHCP Server is needed. This value is programmed in section [008] or assigned by DHCP.
Page 152 Section 5: Programming Digit 1 - zone 1-8 definition options Digit 2 - system EOL options Digit 3 - alarm controller communications options Digit 4 - reporting code configurations Digit 5 - DLS connection options Central Station Telephone Number: The phone number used to contact the central monitoring station (32 character limit).
Page 153 Section 5: Programming Module Programming Use this section to add, remove and confirm the following modules: Keypads see "Compatible Devices" on page 9 8-zone expander module (HSM2108) 8-output expander module (HSM2208) Power supply (HSM2300) 4-output power supply (HSM2204) Wireless transceiver (HSM2HOSTx) Audio Verification Module (HSM2955) 8 zone Expansion Module (HSM3408) Power Supply Module (HSM3350)
Page 154 Section 5: Programming [101] – Keypads [102] – 8-zone Expander Modules [103] – 8-output Expander Modules [104] - 8 zone HSM3408 Expander Module [106] – HSM2Host [108] – HSM2955 [109] – Power Supply [110] – 4 High Current Output [111] - 3A Power Supply Module [112] - Corbus Repeater Module 1.
Page 155 Section 5: Programming [601]-[632] Placement Test Wireless keys 1-32 Test individual wireless keys. Once in this section, press a button on the wireless key to begin the test. [701]-[716] Placement Test Wireless Keypads 1-16 Test each enrolled wireless keypad. Two test results are provided: 24-hour: Average status results received during a 24-hour period.
Page 156 Section 5: Programming [005] Aux1 supply voltage/current [006] Aux2 supply voltage/current [601]-[608] Corbus repeater [001] DC input [002] Battery voltage, battery charge voltage/current, battery discharge current [003] Bus supply voltage [004] Bus out voltage/current [005] Aux supply voltage/current [912] Soak Test This feature is used to diagnose false alarms.
Page 157 Section 5: Programming [990] Installer Lockout Enable/Disable When this option is enabled, an installer can not perform a hardware default; attempts to do so are logged to the event buf- fer. An audible indication of installer lockout is provided when powering up the alarm system (the phone line relay clicks rap- idly).
Page 158: Section 6: Programming Worksheets
Section 6: Programming Worksheets Section 6: Programming Worksheets Note: listed options are required for EN 50131 Compliant Installations. 6.1 Label Programming [000] Label Programming Description on page 79 [000] – Language Selection (2-digit decimal; Default: 01) 01 – English 06 – Dutch 11 –...
Page 159 Section 6: Programming Worksheets 079: 080: 081: 082: 083: 084: 085: 086: 087: 088: 089: 090: 091: 092: 093: 094: 095: 096: 097: 098: 099: 100: 101: 102: 103: 104: 105: 106: 107: 108: 109: 110: 111: 112: 113: 114: 115: 116: 117:...
Page 160 Section 6: Programming Worksheets 203 – Partition 3 Command Output 001 – Partition 3 Command Output 1: Labels (2 x 14 Characters) 002 – Partition 3 Command Output 2: 003 – Partition 3 Command Output 3: 004 – Partition 3 Command Output 4: 204 –...
Page 161 Section 6: Programming Worksheets 008 – Keypad 8 Label: 016 – Keypad 16 Label: 802 – HSM2108 Zone Expander Label Description on page 81 001– Zone Expander 1 Label: 009– Zone Expander 9 Label: 002– Zone Expander 2 Label: 010– Zone Expander 10 Label: 003–...
Page 162 Section 6: Programming Worksheets 003 – 3A Power Supply 3 Label: 004 – 3A Power Supply 4 Label: 001 - Corbus Repeater 1 Label: 812 – HSM3204CX Corbus Repeater Label (1 X 14 Characters): 002– Corbus Repeater 2 Label: 003– Corbus Repeater 3 Label: 004–...
Page 163: Zone Setup
Section 6: Programming Worksheets 6.2 Zone Setup [001] [001 - 128] Zone Type Available Zone Types Default = 000 Description on page 82 * Not UL evaluated 000 – Null Zone 018 – 24-Hour Bell/Buzzer 001 – Delay 1 023 – 24-Hour Supervisory 051 –...
Page 164 Section 6: Programming Worksheets ü ü ü ü ü Interior CP-01 ü ü ü ü ü ü ü Interior Stay/Away CP-01 ü ü ü ü ü ü Delay Stay/Away ü CP-01 ü Delayed 24-Hour ü Fire Standard 24-Hour ü Fire ü...
Page 165: End Of Line Resistance
Section 6: Programming Worksheets 24 Hour Low ü ü ü CP-01 CP-01 ü ü Temperature 24-Hr Non- ü ü CP-01 CP-01 ü ü Latching Tamper 24-Hr Anti- ü Masking Momentary ü Keyswitch Arm Maintained ü Keyswitch Arm Momentary ü Keyswitch Disarm Maintained ü...
Page 166 Section 6: Programming Worksheets Entry Delay 1: 002 – Partition 2 Timer Entry Delay 2: See partition 1 for defaults Exit Delay: Settle Delay: 003 – Partition 3 Timer Entry Delay 1: See partition 1 for defaults Entry Delay 2: Exit Delay: Settle Delay: Entry Delay 1:...
Page 167: Access Codes
Section 6: Programming Worksheets 6.5 Access Codes [006] Installer-Defined Codes (4/6/8-Digit Decimal) 001 – Installer Code (Default:55555555) (4/6/8-Digit Decimal) 002 – Master Code (Default:12345678) (4/6/8-Digit Decimal) 003 – Maintenance Code (Default: AAAAAAAA) 005 – Code Version (000-255) (Default:000) 6.6 PGM Programming [007] [000 - 324] PGM Programming 1 2 3 4 5 6 7 8 [000] –...
Page 168 Section 6: Programming Worksheets [008] [000 - 324] PGM Timer Programming PGM 17 HSM2204 #4 PGM 18 PGM 19 PGM 20 PGM 37 HSM2208 #1 PGM 38 PGM 39 PGM 40 PGM 41 PGM 42 PGM 43 PGM 44 PGM 45 HSM2208 #2 PGM 46 PGM 47...
Page 169 Section 6: Programming Worksheets [008] [000 - 324] PGM Timer Programming PGM 73 PGM 74 PGM 75 PGM 76 PGM 77 PGM 78 HSM2208 #6 PGM 79 PGM 80 PGM 81 PGM 82 PGM 83 PGM 84 PGM 85 PGM 86 HSM2208 #7 PGM 87 PGM 88...
Page 170 Section 6: Programming Worksheets [008] [000 - 324] PGM Timer Programming PGM 114 PGM 115 PGM 116 PGM 117 HSM2208 #11 PGM 118 PGM 119 PGM 120 PGM 121 PGM 122 PGM 123 PGM 124 PGM 125 HSM2208 #12 PGM 126 PGM 127 PGM 128 PGM 129...
Page 171 Section 6: Programming Worksheets [008] [000 - 324] PGM Timer Programming PGM 155 PGM 156 PGM 157 HSM2208 #16 PGM 158 PGM 159 PGM 160 PGM 161 PGM 162 PGM 163 PGM 164 PGM 293 HSM3204CX#17 294 PGM 294 PGM 295 PGM 296 PGM 297 PGM 298...
Page 172 Section 6: Programming Worksheets [009] [001] - [164] PGM Types 121 – Command 100 – Null PGM 156 – Latched System Event 206 – Follower-Zones 41-48 Output 1 101 – Burg and Fire Bell 122 – Command 157 – System Tamper 207 –...
Page 173 Section 6: Programming Worksheets [009] [001] - [164] PGM Types PGM 13 HSM2204 #3 PGM 14 PGM 15 PGM 16 PGM 17 HSM2204 #4 PGM 18 PGM 19 PGM 20 PGM 37 HSM2208 #1 PGM 38 PGM 39 PGM 40 PGM 41 PGM 42 PGM 43...
Page 174 Section 6: Programming Worksheets [009] [001] - [164] PGM Types PGM 69 PGM 70 HSM2208 #5 PGM 71 PGM 72 PGM 73 PGM 74 PGM 75 PGM 76 PGM 77 PGM 78 HSM2208 #6 PGM 79 PGM 80 PGM 81 PGM 82 PGM 83 PGM 84...
Page 175 Section 6: Programming Worksheets [009] [001] - [164] PGM Types PGM 109 HSM2208 #10 PGM 110 PGM 111 PGM 112 PGM 113 PGM 114 PGM 115 PGM 116 PGM 117 HSM2208 #11 PGM 118 PGM 119 PGM 120 PGM 121 PGM 122 PGM 123 PGM 124...
Page 176 Section 6: Programming Worksheets [009] [001] - [164] PGM Types PGM 149 HSM2208 #15 PGM 150 PGM 151 PGM 152 PGM 153 PGM 154 PGM 155 PGM 156 PGM 157 HSM2208 #16 PGM 158 PGM 159 PGM 160 PGM 161 PGM 162 PGM 163 PGM 164...
Page 177 Section 6: Programming Worksheets [009] [001] - [164] PGM Types PGM 318 PGM 319 PGM 320 PGM 321 PGM 322 PGM 323 PGM 324 [010] [000 - 164] PGM Attributes R 01 – Fire Alarm R 02 – CO Alarm [000] –...
Page 178 Section 6: Programming Worksheets [010] [000 - 164] PGM Attributes R 01 – True Output 123 – Command Output 3 o 02 – Timed Output R Schedule 001 o 03 – Code Required R 01 – True Output o 02 – Timed Output R Schedule 001 124 –...
Page 179 Section 6: Programming Worksheets [010] [000 - 164] PGM Attributes R 01 – True Output o 02 – Timed Output R 04 – Fire Alarm R 05 – Panic Alarm R 06 – Burglary Alarm R 07 – Medical Alarm R 08 –...
Page 180 Section 6: Programming Worksheets [010] [000 - 164] PGM Attributes R 01 – True Output 184 – Open After Alarm R 02 – Timed Output R 01 – True Output o 02 – Timed Output 200 – Zone Follow by Zone R 04 –...
Page 181 Section 6: Programming Worksheets [010] PGM Attribute Assignment: (16-Bit Toggles) page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 13 HSM2204 #3 PGM 14 PGM 15 PGM 16 PGM 17 HSM2204 #4 PGM 18...
Page 182 Section 6: Programming Worksheets [010] PGM Attribute Assignment: (16-Bit Toggles) page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 65 PGM 66 PGM 67 PGM 68 PGM 69 PGM 70 HSM2208 #5 PGM 71...
Page 183 Section 6: Programming Worksheets [010] PGM Attribute Assignment: (16-Bit Toggles) page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 101 HSM2208 #9 PGM 102 PGM 103 PGM 104 PGM 105 PGM 106 PGM 107...
Page 184 Section 6: Programming Worksheets [010] PGM Attribute Assignment: (16-Bit Toggles) page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 138 PGM 139 PGM 140 PGM 141 HSM2208 #14 PGM 142 PGM 143 PGM 144...
Page 185 Section 6: Programming Worksheets [010] PGM Attribute Assignment: (16-Bit Toggles) page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 303 PGM 304 PGM 305 PGM 306 PGM 307 PGM 308 PGM 309 PGM 310...
Page 186 Section 6: Programming Worksheets [011] PGM Config. Options page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 11 PGM 12 PGM 13 HSM2204 #3 PGM 14 PGM 15 PGM 16 PGM 17 HSM2204 #4...
Page 187 Section 6: Programming Worksheets [011] PGM Config. Options page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 65 PGM 66 PGM 67 PGM 68 PGM 69 PGM 70 HSM2208 #5 PGM 71 PGM 72...
Page 188 Section 6: Programming Worksheets [011] PGM Config. Options page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 103 PGM 104 PGM 105 PGM 106 PGM 107 PGM 108 PGM 109 HSM2208 #10 PGM 110...
Page 189 Section 6: Programming Worksheets [011] PGM Config. Options page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 141 HSM2208 #14 PGM 142 PGM 143 PGM 144 PGM 145 PGM 146 PGM 147 PGM 148...
Page 190: System Lockout
Section 6: Programming Worksheets [011] PGM Config. Options page 104 Description on Zone Follower by Zone Prox. Used Schedule (000-128; Default 000) (000-095; Default 000) (000-004; Default 000) PGM 307 PGM 308 PGM 309 PGM 310 PGM 311 PGM 312 PGM 313 PGM 314 PGM 315...
Page 191 Section 6: Programming Worksheets R 2 – DEOL/SEOL R 3 – Show All Troubles When Armed o 4 – Tamper/Faults Open Zone R5 – Auto-Arm Schedule in [*][6] R 6 – Audible Exit Fault R 7 – Event Buffer Follows Swinger o 8 –...
Page 192 Section 6: Programming Worksheets R 8 – Keypad Tampers Enabled [017] System Options 5 Description on page 108 R 1 – Chime on Opening o 2 – Chime on Closing R 2 – Chime on Closing o3 – Audible RF Jam Trouble Beeps o 4 –...
Page 193 Section 6: Programming Worksheets o 2 – EU Entry Procedure R 2 – EU Entry Procedure o 3 – [*][8] Access While Armed o 4 – Remote Reset o 5 – Engineer's Reset o 6 – Keyswitch Disarming During Entry Delay o 7 –...
Page 194 Section 6: Programming Worksheets o 3 – Tamper/Fault Detection o 4 – Access Code Required for [*][1] R 4 – Access Code Required for [*][1] o 5 – Access Code Required for [*][2] R 5 – Access Code Required for [*][2] o 6 –...
Page 195: Auto-Arm_Disarm
Section 6: Programming Worksheets R 00 – 4-Digit Access Codes o 01 – 6-Digit Access Codes [042] Event Verification Description on page 117 01 – Burglary Verified Counter (Default: 002): 02 – Holdup Counter (Default: 002): 001 – Police Code (Default) 03 –...
Page 196 Section 6: Programming Worksheets Tuesday: Saturday: Wednesday: Holiday 1: o On R Off 003 – Partition 2 Auto-Disarming Holiday Schedule: Holiday 2: o On R Off (3-digit decimal) Holiday 3: o On R Off Holiday 4: o On R Off 004 –...
Page 197 Section 6: Programming Worksheets Holiday 3: o On R Off Holiday 4: o On R Off 004 – Partition 4 Auto-Arming Pre-Alert (Default: 004): 005 – Partition 4 Auto-Arming Postpone Timer (Default: 000): 006 – Partition 4 No Activity Arming Timer (Default: 000): 007 –...
Page 198 Section 6: Programming Worksheets 006 – Partition 6 No Activity Arming Timer (Default: 000): 007 – Partition 6 No Activity Arming Pre-Alert Timer (Default: 001): Partition 7 Auto-Arm/Disarm [157] 001 – Partition 7 Auto-Arming Times: 24-Hour: (4-digit HH:MM) Sunday: Thursday: Default: 9999 Monday: Friday:...
Page 199: Partition And Zone Assignment
Section 6: Programming Worksheets 001 – Partition 1 to 8 R – Partition 1 Enable Mask o – Partition 2 o – Partition 3 Descriptions on page 118 o – Partition 4 o – Partition 5 o – Partition 6 o –...
Page 200 Section 6: Programming Worksheets 009 – 65-72 o o o o o o o o 009 – 65-72 o o o o o o o o 010 – 73-80 o o o o o o o o 010 – 73-80 o o o o o o o o 011 –...
Page 201: Communications
Section 6: Programming Worksheets 014 – 105-112 o o o o o o o o 014 – 105-112 o o o o o o o o 015 – 113-120 o o o o o o o o 015 – 113-120 o o o o o o o o 016 –...
Page 202 Section 6: Programming Worksheets [307] Zone Reporting Description on page 120 (001-128 = zones 1-128) R 1 – Alarm R 2 – Alarm Restore R 3 – Tamper R 4 – Tamper Restore R 5 – Fault R 6 – Fault Restore RRRRRRoo RRRRRRoo RRRRRRoo...
Page 203 Section 6: Programming Worksheets RRRRRRoo RRRRRRoo RRRRRRoo RRRRRRoo RRRRRRoo 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 RRRRRRoo RRRRRRoo...
Page 204 Section 6: Programming Worksheets [308] Event Reporting Description on page 120 R 1 – User Closing R 2 – User Opening R 5 – Special Closing 201 – Open/Close Events 1 R 6 – Special Opening R 7 – Keyswitch Opening R 8 –...
Page 205 Section 6: Programming Worksheets [308] Event Reporting Description on page 120 o 1 – Installer Lead IN o 2 – Installer Lead OUT o 3 – DLS Lead IN o 4 – DLS Lead OUT o 5 – SA Lead IN o 6 –...
Page 206 Section 6: Programming Worksheets [308] Event Reporting Description on page 120 R 1 – Module Low Voltage Trouble R 2 – Module Low Voltage Restore R 3 – Module Supervisory 332 – Module Events 2 R 4 – Module Supervisory Restore R 5 –...
Page 207: Call Directions
Section 6: Programming Worksheets 6.12 Call Directions [309] System Call Direction Description on page 1 R Receiver #1 RReceiver #3 001 – Maintenance Events: RReceiver #2 RReceiver #4 002 – Test Transmission Events: RReceiver #1 R Receiver #3 RReceiver #2 R Receiver #4 [310] Account Codes (4-Digit HEX;...
Page 208 Section 6: Programming Worksheets o Receiver #1 o Receiver #3 003 – Partition 3 Opening/ Closing: o Receiver #2 o Receiver #4 Partition 4 Call Directions [314] R Receiver #1 RReceiver #3 001 – Partition 4 Alarm/ Restore: R Receiver #2 R Receiver #4 R Receiver #1 RReceiver #3...
Page 209 Section 6: Programming Worksheets [377] Communication Variables (3-digit decimal) Range: 000-255 attempts unless otherwise noted Description on page 1 001 – Swinger Shutdown Attempts: Alarms and Restore (000-014): Tampers and Restore: Default: 003 CP-01 Maintenance and Restore: Default: 002 Communication Zone Delay 002 –...
Page 210 Section 6: Programming Worksheets 8 – o Activity Delinquency Communicator Option 2 [381] 1 – o Keypad Ringback 2 – o Bell Ringback Description on page 1 4 – o Closing Confirmation 8 – o Communications Priority Options Communicator Option 3 [382] 1 –...
Page 211 Section 6: Programming Worksheets [403] DLS Access Code Description on page 133 (6-digit hex; 000000-FFFFFF; Default: 212800): [404] DLS/SA Panel ID Description on page 133 (12-digit hex; 000000000000-FFFFFFFFFFFF) [405] PSTN Double Call Timer Description on page 133 (3-decimal; 000-255; Default: 060): [406] PSTN Number of Rings to Answer On Description on page 133 (3-decimal;...
Page 212 Section 6: Programming Worksheets 014 - Virtual Input 14: 030 - Virtual Input 30: 015 - Virtual Input 15: 031 - Virtual Input 31: 016 - Virtual Input 16: 032 - Virtual Input 32: 6.15 Schedule Programming [601] Programming Schedule 1 Description on page 81 101 –...
Page 213 Section 6: Programming Worksheets 06 – o Friday 07 – o Saturday [602] Programming Schedule 2 Interval 1 101 – Start Time: 102 – End Time: 103 – Days Assignment: 104 – Holiday Assignment: 01 – o Sunday o Holiday 1 (4- digit decimal) 02 –...
Page 214 Section 6: Programming Worksheets 01 – o Sunday o Holiday 1 (4- digit decimal) 02 – o Monday o Holiday 2 HH:MM 03 – o Tuesday o Holiday 3 to HH:MM 04 – o Wednesday o Holiday 4 Default: 0000 05 –...
Page 215 Section 6: Programming Worksheets 06 – o Friday 07 – o Saturday Interval 2 201 – Start Time: 202 – End Time: 203 – Days Assignment: 204 – Holiday Assignment: 01 – o Sunday o Holiday 1 (4- digit decimal) 02 –...
Page 216 Section 6: Programming Worksheets MMDDYY 002 – Holiday Group 2 Date 2: Default: 000000 003 – Holiday Group 2 Date 3: 004 – Holiday Group 2 Date 4: 005 – Holiday Group 2 Date 5: Description on 006 – Holiday Group 2 Date 6: page 135 007 –...
Page 217 Section 6: Programming Worksheets Zone 5 Station Assignment: Zone 6 Station Assignment: Zone 7 Station Assignment: Zone 8 Station Assignment: Zone 9 Station Assignment: Zone 10 Station Assignment: Zone 11 Station Assignment: Zone 12 Station Assignment: Zone 13 Station Assignment: Zone 14 Station Assignment: Zone 15 Station Assignment: Zone 16 Station Assignment:...
Page 218 Section 6: Programming Worksheets Zone 47 Station Assignment: Zone 48 Station Assignment: Zone 49 Station Assignment: Zone 50 Station Assignment: Zone 51 Station Assignment: Zone 52 Station Assignment: Zone 53 Station Assignment: Zone 54 Station Assignment: Zone 55 Station Assignment: Zone 56 Station Assignment: Zone 57 Station Assignment: Zone 58 Station Assignment:...
Page 219 Section 6: Programming Worksheets Zone 89 Station Assignment: Zone 90 Station Assignment: Zone 91 Station Assignment: Zone 92 Station Assignment: Zone 93 Station Assignment: Zone 94 Station Assignment: Zone 95 Station Assignment: Zone 96 Station Assignment: Zone 97 Station Assignment: Zone 98 Station Assignment: Zone 99 Station Assignment: Zone 100 Station Assignment:...
Page 220 Section 6: Programming Worksheets [802] 1 - o Tampers 2 - o Future Use 3 - R [A] Key Alarm 4 - R [P] Key Alarm 2-Way Audio Trigger Option 1 5 - R Duress Alarm 6 - R Opening After Alarm 7 - o Future Use 8 - o Zone Supervision Alarm 1 - o Future Use...
Page 221 Section 6: Programming Worksheets Number of Rings to Answer: 2-digit entry Default: 00 Audio Duration: 2-digit entry Default: 90 Record Time: 3-digit entry Default: 105 Erase Time: 2-digit entry Default: 15 minutes 1 - o Audio Station 1 Tamper 2 - o Audio Station 2 Tamper 3 - o Audio Station 3 Tamper 4 - o Audio Station 4 Tamper Audio Station Tamper Option 1:...
Page 222 Section 6: Programming Worksheets 001- 128 Configure Wireless Zones 1 to 128 551-556 Configure Wireless Sirens 1-16 601-632 Configure Wireless Keys 1-32 701-716 Configure Wireless Keypads 801-810 Wireless Options 841 Visual Verification Programming 901-905 Delete Wireless Devices 921-925 Replace Wireless Devices 990 Show All Devices 999 Reset Devices to Factory Default 6.18 Alternate Communicator...
Page 223 Section 6: Programming Worksheets [008] DNS Server IP 2 Default (000.000.000.000) o 1 - 2-Way Audio Over Cellular [010] System Toggle Options 3 o 2 - Visual Verification Default o 3 - Video On Demand o 4 - Receiver Group DLS configuration [012] DLS Incoming Port Default (03062)
Page 224 Section 6: Programming Worksheets [081] TFTP UDP server port number Default (0C11) Program 00 disable or FF enable [082] TFTP UDP local port Default (0C12) Program 00 disable or FF enable [083] TFTP UDP server DNS Default ( ) 32 ASCII characters DLS SA configuration [095] DLS SA Incoming Local Port Default (03092)
Page 225 Section 6: Programming Worksheets [115] Receiver 2 UDP Local Port Default (03065) Valid range: 00000 -65535 [116] Receiver 2 Domain Name Default ( ) 32 ASCII characters [124] Ethernet Test Transmission Time Default (9999) Valid: 00-23(HH); 00-59(MM) [125] Ethernet Test Transmission Cycle Default (000000) Valid range: 000000 - 999999 minutes Cellular receiver 3 configuration...
Page 226 Section 6: Programming Worksheets [222] Cellular Login User Name Default ( ) 32 ASCII characters [223] Cellular Login Password Default ( ) 32 ASCII characters [224] Cellular Test Transmission Time of Day Default (9999) Valid range: 00 - 23 hrs. (HH) 00 - 59 min. (MM) [225] Cellular Test Transmission Cycle Default (000000) Valid range: 000000 - 999999 minutes...
Page 227 Section 6: Programming Worksheets o6 - Reserved o7 - Reserved o8 - Reserved [427] Session 1 Interactive Polling Interval Default (00010) Valid range: 00000- 65535 seconds [428] Session 1 Integration Server IP Default (000.000.000.000) [429] Session 1 Integration Notification Port Default (00372) Valid range: 00000- 65535 [430] Session 1 Integration Polling Port...
Page 228 Section 6: Programming Worksheets R5 – Test Transmission Notifications R6 – Reserved R7 – Reserved R8 –Reserved R1 – Alarm and Alarm Restore [693] Session 3 Notification Control Notifications R2 –Tamper and Tamper Restore Notifications R3 – Arming and Disarming Notifications R4 –...
Page 229 Section 6: Programming Worksheets [984] Communicator Status [985] Radio Initialization Status o1 –Remote Shutdown Enable Default [986] System Toggle Options 4 Communicator information [987] Language Version [988] DNS 1 IP Address [989] DNS 2 IP Address [990] Boot Loader Version [991] Firmware Version [992] Ethernet IP Address [993] Ethernet Gateway IP Address...
Page 230 Section 6: Programming Worksheets 00 - Null Key 02 - Instant Stay Arm 17 - Arm Interior 37 - Time/Date Programming 03 - Stay Arm 21 - Command Output 1 39 - Trouble Display 04 - Away Arm 22 - Command Output 2 40 - Alarm Memory 05 - [*][9]No Entry Arm 23 - Command Output 3...
Page 231 Section 6: Programming Worksheets 03 – o Ding Dong 04 – o Alarm Tone 05 – o Zone Name Door Chime Zone Assignment: 1 ____ 13 ____ 25 ____ 37 ____ 49 ____ 61 ____ 73 ____ 85 ____ 97 ____ 109 ____ 121 ____ 2 ____ 14 ____ 26 ____ 38 ____ 50 ____ 62 ____ 74 ____ 86 ____ 98 ____ 110 ____ 122 ____ 3 ____ 15 ____ 27 ____ 39 ____ 51 ____ 63 ____ 75 ____ 87 ____ 99 ____ 111 ____ 123 ____ 4 ____ 16 ____ 28 ____ 40 ____ 52 ____ 64 ____ 76 ____ 88 ____ 100 ____ 112 ____ 124 ____...
Page 232 Section 6: Programming Worksheets 521-524 – HSM2204 High-Current O/P Module 550-554 – HSM3350 3A Power Supply Module 601-608 – HSM3204CX Corbus Repeater [901] Installer Walk Test Mode Enable/Disable Description on page 152 6.22 Module Programming [902] Add/Remove Modules 000 – Auto Enroll Modules Description on page 153 001 –...
Page 233 Section 6: Programming Worksheets 521-528 – Placement Test Repeaters 1-8 551-558 – Placement Test Sirens 1-8 601-632 – Placement Test Wireless Keys 1-32 701-716 – Placement Test Wireless Keypads 1-16 [911] Diagnostics Description on page 154 000 - Panel Diagnostics 001-016 - Keypad 001 to 016 101-115 - Zone Expander 001 to 015 301-315 - 8 I/O Expander 001 to 015...
Page 234 Section 6: Programming Worksheets 04 – o HSM2204 4 High Charge Current 01 – o HSM2300 1 High Charge Current 020 – HSM2300 1A Power Supply Battery o HSM2300 2 High Charge Current 02 – o HSM2300 3 High Charge Current 03 –...
Page 235 Section 7: Troubleshooting Section 7: Troubleshooting 7.1 Testing Power up system Program options as required (See "Programming Descriptions" on page 79) Trip, then restore zones Verify correct reporting codes are sent to the central station 7.2 Troubleshooting LCD programmable-message keypad: Press [*][2] followed by access code if required to view a trouble condition The trouble light flashes and the LCD displays the first trouble condition Use the arrow keys to scroll through all trouble conditions present on the system...
Page 236 Section 7: Troubleshooting Trouble Detailed Trouble 08 – Heat trouble 01 – Zone 001 - 128 09 – CO trouble 03 – Siren 1-16 05 – Device Faults 10 – Freeze trouble 04 – Repeater 1-8 11– Probe disconn. 06 – Device mask 12–...
Page 237 Section 7: Troubleshooting Trouble [1] Service Required Press [01] to determine specific trouble To program the time and date: Enter [*][6][Master Code] then press [01]. [03] Loss of clock Enter the time and date (24-hour clock) using the following format: HH:MM MM/DD/YY The alarm controller internal clock is not set .
Page 238 Section 7: Troubleshooting Trouble [2] Module Battery Trouble Press [02] to determine specific trouble [04] 4 High Current output 1-4 Low Battery (HSM2204) Verify voltage measured across DC input terminals is 16-18 VDC. Replace HSM65W power supply HSM2204 battery less than adapter if required.
Page 239 Section 7: Troubleshooting Trouble [2] Module Battery Trouble Press [02] to determine specific trouble Verify voltage measured across DC input terminals is 16-18 VAC. Replace HSM65W power supply [14] HSM3350 low battery 2 adapter if required. Enter 14 to view which HSM3350 Connect battery, remove AC power.
Page 240 Section 7: Troubleshooting Trouble [3] Bus Voltage Trouble Press [03] to determine specific trouble Trouble Troubleshooting [01] HSM2HOST Bus Low Voltage The 2-way wireless integration module has detected a voltage less than 6.3V on its aux input. [02] Keypad 1-16 Bus Low Voltage Enter 02 to view hardwired keypads with a bus voltage of less than 6.9V for models that include a wireless transceiver, 7.7V for the models that do not.
Page 241 Section 7: Troubleshooting Trouble [4] AC Failure Press [04] to determine specific trouble Trouble Troubleshooting [01] Zone 1-128 AC [03] Siren 1-16 AC [04] Repeater 1-8 AC Verify voltage measured across DC input terminals is 16-20VDC. Replace HSM65W [05] HSM2300 1-4 AC power adapter if required.
Page 242 Section 7: Troubleshooting Trouble [05] Device Faults Press [05] to determine specific trouble Trouble Troubleshooting Ensure fire zones have a 5.6K resistor (green, blue, red) connected. Remove wire leads from Z and COM terminals and measure resistance of the wire [01] Zone 1-128 faults leads: Wireless zones:...
Page 243 Section 7: Troubleshooting Trouble [6] Device Low Battery Press [06] to toggle through specific devices with low battery trouble Trouble Troubleshooting [01] Zones 1-128 [02] Keypad 1-16 [03] Siren 1-16 View which device is in low battery through the [*][2] menu. [04] Repeater 1-8 Replace the batteries in the device with same battery type.
Page 244 Section 7: Troubleshooting Trouble [9] Module Supervisory Press [09] to determine specific zones with a tamper trouble Trouble Troubleshooting [01] HSM2HOST [02] Keypad 1-16 [04] HSM2108 1-15 Ensure the module is physically connected to the corbus. [05] HSM2300 1-4 Measure power across corbus Red and Blk directly on the module and ensure its at [06] HSM2204 least 10.5V.
Page 245 Section 7: Troubleshooting Trouble [11] Communications Press [11] to determine specific trouble Check the the event buffer for trouble details. For radio/SIM failure, ensure the cellular plug-in module is connected to the panel [04] Alternate Comm Cellular properly and that the SIM card is correctly inserted in the right orientation. The alternate communicator has detected a radio or SIM For Cellular Network trouble ensure the correct Cellular APN is programmed and that failure, a cellular network trouble, or insufficient signal...
Page 246 Section 7: Troubleshooting Trouble [13] AUX Trouble Press [13] to toggle through troubles Trouble Troubleshooting [05] HSM2300 [06] HSM2204 [07] System area Check for a short between Aux+ and Aux- or other system ground. [10] HSM3408 Ensure the aux current draw has not exceeded the documented limits. [11] HSM3204CX Ensure voltage between AUX+ and AUx - is between 9VDC to 14VDC.
Page 247 Appendix 1: Reporting Codes Appendix 1: Reporting Codes The following tables contain Contact ID and Automatic SIA format reporting codes. See "[308] Event Reporting" on page 120 for event reporting codes. Contact ID Each of the digits indicate specific information about the signal. For example, if zone 1 is an entry/exit point, the event code contains [34].
Page 248 Appendix 1: Reporting Codes Dialer Automatic Contact ID Section # Definition SIA Auto Rep Codes** Direction* Codes E(3)41-(651-654) ES-(0651-0654) [308]-[101] HSM3350: 3A Power supply module #1-4 tamper/restored R(3)41-(651-654) EJ-(0651-0654) [308]-[101] Keypad Lockout - Incorrect access code entry E(4)61-000 JA-0000 Opening Events [308]-[201] User Openings - Disarmed by user E(4)A1-UUU...
Page 249 Appendix 1: Reporting Codes Dialer Automatic Contact ID Section # Definition SIA Auto Rep Codes** Direction* Codes E(3)AA-553 EM-0553 [308]-[332] Hardwired Module Low Voltage trouble/restore - HSM2955 MA/R R(3)AA-553 EN-0553 E(3)3A-001-016 ET-0001-0032 [308]-[332] Hardwired Module Supervisory trouble/restore - Keypads MA/R R(3)3A-001-016 ER-0001-0032 E (3)3A-101-116...
Page 250 Appendix 1: Reporting Codes Dialer Automatic Contact ID Section # Definition SIA Auto Rep Codes** Direction* Codes E(3)14-651-654 YP-0651-0654 [308]-[331] HSM3350 1-4 Power unit failure/restore MA/R R(3)14-651-654 YQ-0651-0654 E(3)A1-801-808 AT-0801-0808 [308]-[331] HSM3204CX 1-8 AC failure /restore MA/R R(3)A1-801-808 AR-0801-0808 E(3)A1-651-654 AT-0651-0654 [308]-[331] HSM3350 1-4 AC failure /restore...
Page 251 Appendix 1: Reporting Codes Dialer Automatic Contact ID Section # Definition SIA Auto Rep Codes** Direction* Codes E(3)8A-ZZZ AT-(0901-0908) [308]-[361] Carbon monoxide trouble/restore MA/R R(3)8A-ZZZ AR-(0901-0908) E(3)A1-(901-908) [308]-[361] Wireless repeater 1-8 AC fail/restore MA/R UT/UJ-ZZZZ R(3)A1-(901-908) E(3)44-000 XQ-0000 [308]-[361] RF jam/restore MA/R R(3)44-000 XH-0000...
Page 252 Appendix 1: Reporting Codes Dialer Automatic Contact ID Section # Definition SIA Auto Rep Codes** Direction* Codes Testing E(6)A7-UUU [308]-[401] Walk Test Begin/End TS-UUUU/TE-UUUU R(6)A7-UUU [308]-[401] Periodic Test E(6)A2-000 RP-0000 / RY-0000 [308]-[401] Periodic Test with Trouble E(6)A8-000 RY-0000 [308]-[401] System Test - [*][6] bell/communications test E(6)A1-000 RX-0000...
Page 253 Appendix 1: Reporting Codes Zone Definition SIA Auto Rep Codes Contact ID Auto Rep Codes Night Zone BA-ZZZZ / BH-ZZZZ E(1) 3A - ZZZ / R(1)3A- ZZZ 24-Hr. Burglary BA-ZZZZ / BH-ZZZZ E(1) 3A - ZZZ / R(1)3A- ZZZ Delayed 24-Hr. Fire (Wireless) FA-ZZZZ / FH-ZZZZ E(1) 1A - ZZZ / R(1)1A - ZZZ Standard 24-Hr.
Page 254 Appendix 2: Word Library Appendix 2: Word Library Aborted Access Active Activity Alarm Area Armed Arming Attic Auxiliary Away Baby Back Basement Bathroom Battery Bedroom Bonus Bottom Breezeway Building Bypass Bypassed Cabinet Camera Canceled Carbon Central Chime Closed Closet Closing Code Communicator Computer...
Page 255 Appendix 3: Template Programming Tables Appendix 3: Template Programming Tables The following tables show the programming options for template programming digits 1-5. Digit 1 – Zones 1-8 Definition Options Note: A “0” in the digit 1 location indicates that the first 8 zones use the panel default zone definitions. Option Zn8 Zone Definitions (Options 1- 6) 004 001 Delay 1...
Page 256 Appendix 3: Template Programming Tables [380] Comm Toggles 1 - Bit 1 Communications Enabled - On [350] Communicator Formats - [001] Receiver 1 - 03 CID [350] Communicator Formats - [002] Receiver 2 - 04 SIA [350] Communicator Formats - [003] Receiver 3 - 04 SIA [350] Communicator Formats - [004] Receiver 4 - 04 SIA [384] Comm Backup - Bit 2 Receiver 2 Backup - On Receiver 1 SIA, Receiver 2 CID with backup...
Page 257 Appendix 3: Template Programming Tables [380] Comm Toggles 1 - Bit 1 Communications Enabled - On [350] Communicator Formats - [001] Receiver 1 - 03 CID [350] Communicator Formats - [002] Receiver 2 - 03 CID [350] Communicator Formats - [003] Receiver 3 - 03 CID [350] Communicator Formats - [004] Receiver 4 - 03 CID [384] Comm Backup - Bit 2 Receiver 2 Backup - Off Receiver 1 CID...
Page 258 Appendix 3: Template Programming Tables Common Group Common Group Common Group Programming Set all reporting codes to automatic [308] Event Reporting - All Events On [311][001] Partition 1 Alarm/Restore - Bit 1 Receiver 1 - On [311][001] Partition 1 Alarm/Restore - Bit 2 Receiver 2 - Off Alarm/restore call directions enabled [311][001] Partition 1 Alarm/Restore - Bit 3 Receiver 3 - Off [311][001] Partition 1 Alarm/Restore - Bit 4 Receiver 4 - Off...
Page 259 Appendix 3: Template Programming Tables [308][302] - Bit 5 Panel AUX Trouble - On [308][302] - Bit 6 Panel AUX Trouble Restore - On Aux Power Supply Trouble [308][332] - Bit 5 Module AUX Trouble - On [308][332] - Bit 6 Module AUX Trouble Restore - On [308][302] - Bit 3 Panel TLM Trouble - Off TLM Trouble [308][302] - Bit 4 Panel TLM Trouble Restore - On...
Page 260 Appendix 3: Template Programming Tables [401] Option 1 ON Double Call Enabled Option 3 OFF Call Back Disabled Option 4 OFF User Initiated Call Up Disabled [406] 008 Number of Rings to Answer On is 8 [401] Option 1 ON Double Call Enabled Option 3 ON Call Back Enabled...
Page 261 Appendix 4: ASCII Characters Appendix 4: ASCII Characters “ & ‘ < > ╲ ￥ 100 101 102 103 104 ‫׀‬ → ← 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 160 ｭ...
Page 262 Appendix 5: Regulatory Approvals Appendix 5: Regulatory Approvals FCC COMPLIANCE STATEMENT CAUTION: Changes or modifications not expressly approved by Digital Security Controls could void your authority to use this equipment. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
Page 263 Appendix 5: Regulatory Approvals Alarm dialling equipment must be able to seize the telephone line and place a call in an emergency situation, even if other equipment (telephone, answering system, computer modem, etc.) already has the telephone line in use. To do so, alarm dialling equipment must be connected to a properly installed RJ-31X jack that is electrically in series with and ahead of all other equipment attached to the same telephone line.
Page 264 Appendix 5: Regulatory Approvals Use at least one PG9926/ PG9916 Smoke Detector for Fire Installations (section [001], fire zone shall be programmed as type 025) The entry delay shall not exceed 45 seconds (see section [005]) The exit delay shall not exceed 60 seconds (refer to section [005]) The minimum Bell Time-out is 4 minutes (refer to section [005]) Note: Connect Bell output to a UL/ULC Listed audible device (e.g., UL File S8534, model TS-443S-6), rated to operate over the range of 10.8 to 12.5 VDC and 85dBA minimum.
Page 265 Appendix 5: Regulatory Approvals HS2TCHP E touch screen keypad is for supplementary use only with ULC Commercial Fire Monitoring. For Commercial Fire monitoring, the primary power failure transmission may be delayed up to 3h and Bell shall be disabled. Programming The notes in the programming sections of thePowerSeries Pro Reference Manual describing the system configurations for UL/ULC listed installations shall be imple- mented.
Page 266 Appendix 5: Regulatory Approvals HS65WPSNA HS65WPSNAS Power Supply HS65WPSNA HS65WPSNA HS65WPSNA HS65WPSNAS HS65WPS HS65WPS (ULC CB Security Level 4) Adapter (Require high voltage barrier kit) 4 Ah/700 mA 4 Ah/700 mA 17 Ah/500 7 Ah/250 mA 7 Ah/1200 mA 7 Ah/1200 mA 14 Ah/330 mA 14 Ah/500 mA Battery capacity...
Page 267 Appendix 5: Regulatory Approvals Table 5-1 SIA quick reference SIA Feature Programming Section Comments Range/Default Requirement Range:45- Exit Time 255 seconds Required Access to Entry and Exit delays and Bell Time Out for the system. [005]>[001], option 3 Default: 60 (programmable) sec.
Page 268 Appendix 5: Regulatory Approvals Swinger Shutdown for Alarms Access to the swinger shutdown limit for zone alarms. Required Default: 2 trips [377]>[001], option 1 For all non-fire zones, shut down at 1 to 6 trips. (programmable) Non-police response Access to swinger shutdown, transmission delay and cross zone Swinger Shutdown Enable zones attributes.
Page 269 Appendix 5: Regulatory Approvals - In Section 861-21, options 1 and 2 must be off. For EN50131 compliant installations, the following zone types must not be used: 007 – Delayed 24-Hour Fire 008 – Standard 24-Hour Fire 025 – Auto Verified Fire 027 –...
Page 270 Appendix 5: Regulatory Approvals 5.3 UK Compliance Statement In the UK this product is suitable for use in systems installed to conform to PD 6662:2017 at Grade 3 and environmental class II with the following notification options: A, B, C, D, E. Where HS3032, HS3128 are used with a single path signaling method (such as the Integrated Digital Dialer), please note the following limitation: IMPORTANT...
Page 271 Appendix 5: Regulatory Approvals b) protective switch (i.e., door contact) fitted to the final exit door of the alarmed premises or area. Use zone type 016 (Final Door Set) for the final exit door. In this case the setting procedure is a two-stage process of initiating the setting procedure within the supervised premises (e.g., using wireless key PG8929,PG8939, PG8938, PG8949 or user code) followed by completion of setting by one of the two methods described above.
Page 272 Appendix 6: Wiring Diagrams Appendix 6: Wiring Diagrams 6.1 HS3020 and HS3128 UL/ULC Wiring Diagram (North America only) - 272 -...
Page 273 Appendix 6: Wiring Diagrams 6.2 HS3032 and HS3128 Wiring Diagram (EN50131 only) HSC3020C Enclosure - 273 -...
Page 274 Appendix 6: Wiring Diagrams 6.3 HS3032 and HS3128 Wiring Diagram (EN50131 only) HSC3020CP Enclos- 6.4 Zone Wiring Zones can be wired for Normally Open or Normally Closed Contacts, with Single-end-of-line (SEOL), Double-end-of-line (DEOL) or Triple-end-of-line (TEOL). Observe the following guidelines. Note: For UL Listed Installations, use SEOL or DEOL only.
Page 275 Appendix 6: Wiring Diagrams Normally Closed Loops - Do NOT use for UL Installations Single End-of-Line Resistor Wiring Double End-of-Line Resistor Wiring Triple End-of-Line Resistor Wiring Mask /Fault AND 10000 MASK RESISTOR EOL loop resistance is programmable. See programming section 004. Section [001] Selects Zone Definition Section [013] Opt [1] Selects Normally Closed or EOL resistors Section [013] Opt [2] Selects Single EOL or Double EOL resistors.
Page 276 Appendix 6: Wiring Diagrams The Bell output is supervised and power limited. Connect a 1000Ω resistor across Bell+ and Bell- to prevent the panel from displaying a trouble. See [*][2]. BE SURE TO OBSERVE POLARITY WHEN CONNECTING POLARIZED SIRENS OR BELLS BELL LOOP 700mA CONSTANT CURRENT (2A MAX) Note: Bell output is current limited by 2A.
Page 277 Appendix 6: Wiring Diagrams For currents levels greater than 300mA, a UL listed RM-1 or RM-2 relay module is required. PGM2 can also be used for 2-wire smoke detectors. PGM 1, LED Output with current limiting resistor and Optional Relay driver output. Note: Use only SEOL resistors on FIRE ZONES.
Page 278 Appendix 6: Wiring Diagrams 6.10 Earth Ground Wiring Using the supplied insulated green wire, connect the earth ground terminal on the HS65WPSx power adapter to the earth ground screw and nut assembly as shown in the diagram. The earth ground screw and nut assembly must be mounted to the cabinet to one of the designated holes marked with the earth ground symbol Item Description...
Page 280 Appendix 7: Specifications Appendix 7: Specifications Zone Configuration 32 or 128 wireless zones supported and up to 8 hardwired zones available on the controller 41 zone types and 15 programmable zone attributes Zone configurations available: normally closed, single EOL resistor, DEOL resistor, and TEOL resistor. Hardwired zone expansion (fully supervised) available using the model HSM2108 or HSM3408 (eight zone expander module) Wireless zone expansion (fully supervised) available using the HSM2Host 2-way wireless integration module oper-...
Page 281 Appendix 7: Specifications Bell Output: 10.8-12.5 VDC (-15% to +10%), 700mA supervised (1 k Ohm) bell output (current limited at 2 amps) Steady, Pulsed, Temporal 3 fire, Temporal 4 CO alarm cadences Bell open short circuit detection (software + hardware) Aux+: Voltage range = 10.8-12.5 VDC (-15% to +10%) Current = 2 A (shared with Corbus R(ed) and PGM outputs)
Page 282 Appendix 7: Specifications AC power failure Zone trouble Fire trouble Telephone line trouble Communicator trouble Low battery condition RF jam AUX power supply fault Failure to communicate Module fault (supervisory or tamper) Power unit failure System overcurrent Additional Features 2-way wireless device support Visual verification (images + audio)* Proximity tag support PGM scheduling...
Page 283 Appendix 7: Specifications Smoke detectors should always be installed in USA in accordance with Chapter 29 of NFPA 72, the National Fire Alarm Code. Where required by applicable laws, codes, or standards for a specific type of occupancy, approved single- and multiple-station smoke alarms shall be installed as follows: 1.
Page 284 Appendix 7: Specifications Figure 5 Carbon Monoxide Detectors Carbon monoxide is colorless, odorless, tasteless, and very toxic, it also moves freely in the air. CO detectors can measure the concentration and sound a loud alarm before a potentially harmful level is reached. The human body is most vulnerable to the effects of CO gas during sleeping hours; therefore, CO detectors should be located in or as near as possible to sleeping areas of the home.
Page 285 Appendix 7: Specifications Disclaimer of Warranties Thiswarrantycontainsthe entire warrantyand shallbe in lieu of anyand allother warranties, whether expressed or implied (including allimplied warrantiesof merchantabilityor fitnessfor a particular purpose) and of allother obligations or liabilitieson the part of DigitalSecurityControls. DigitalSecurityControlsneither assumesresponsibilityfor, nor authorizesanyother person purporting to act on itsbehalf to modifyor to change thiswarranty, nor to assume for it any other warrantyor liabilityconcerning thisproduct.
Page 286 Appendix 7: Specifications Component Failure Although everyeffort hasbeen made to make thissystem asreliable aspossible, the system mayfailto function asintended due to the failure of a component. Inadequate Testing Most problemsthat would prevent an alarm system from operating asintended can be found byregular testing and maintenance. The complete system should be tested weeklyand immediatelyafter a break-in, an attempted break- in, a fire, a storm, an earthquake, an accident, or anykind of construction activityinside or outside the premises.
Page 287 ASCII Entry 80 8.0 Index Audible 24-Hour Input 93 About the System 6 Audible Bus Fault Option 111 AC Fail Trouble Beeps Option 110 Audible Exit Delay 106 AC Failure Communication Audible Exit Delay for Stay Delay 128, 131 Arming 113 AC Trouble Display Option 108 [*][6] Accessibility Option 114 Audible Exit Fault 106...
Page 288 Bell Squawk on Away Arm- Combus Default Master Code 156 ing/Disarming 109 capacitance 31 Default System 157 Bell Squawk on Away Arm- line loss 30 Default, Hardware 51 ing/Disarming Option 109 Command Outputs 1-4 73, 92 Defaults 156 Bell Squawk On Entry Option 106 Command Outputs 1, 3, 4 73 Delay 1 82, 163 Bell Squawk On Exit Option 106...
Page 289 Entry Delay 2 89 Global/Multiple Partition Operation 54 Ethernet 131 Keypad Backlighting Option 108 Ground Start 93 EU Entry Procedure 111 Keypad Blanking Option 108 Ground Wiring 44, 278 European Dial 115 Keypad Blanking Requires Event Buffer 70 Code 108 Event Buffer 75% Full 123 Keypad Buzzer Alarm Option 110 Hardware Default 51...
Page 290 LCD Keypad 77 Normally Closed (NC) Loops 163 Partition Auto-Arming Pre-Alert Ti mer 117 LED Indicators 46 Null PGM 91 Partition Auto-Arming Times 117 letter case 80 Null Zone 82, 163 Partition Auto-Disarming Holiday Line Loss 30 Number of Rings to Answer On 133 Schedules 117 Loaned Partition 50 Partition Auto-Disarming Times 117...
Page 291 Priority Alarms 120 Remote Programming 76 Supervisor Codes 68 Probe Disconnected Remote Reset 111 Swinger Shut Down 87 Trouble/Restore 123 Repeater Labels 82 Swinger Shutdown 127, 163 Program Group 1 61 Reporting 120 System Account Code 126, 131 Program User Codes 67 Reporting Codes 247 System Area 88 Programming Methods 79...
Page 292 TLM and Alarm 93 Wireless Devices, Enrolling 48 TLM Trouble Delay 128 Wireless Placement Test 154 Tone Generated-1200Hz 116 Wireless Receiver, DefaultDefault Wireless Receiver 157 Transmission Counter in Hours 113 Wireless Transceiver Module, Transmission Delay 87, 163 Wiring 33 Triple End of Line (SEOL) Wiring 17 Resistors 88 Word Library 80...
Page 293 The trademarks, logos, and service marks displayed on this document are registered in the United States [or other countries]. Any mis- use of the trademarks is strictly prohibited and Tyco will aggressively enforce its intellectual property rights to the fullest extent of the law, including pursuit of criminal prosecution wherever necessary.

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