ProSys Installer Manual

(1)

ProSYS

Installation and Programming Manual

Revised Edition (January 2003)

(2)

Customer Information

TELEPHONE CONNECTION (Ref.: FCC Part 68)

1 This equipment, Alarm Control Panel, brand named ProSYS (RP128MA0000A, RP140MA0000A,

RP116MA0000A), complies with Part 68 of the FCC Rules and the requirements adopted by the ACTA. On the bottom panel of this equipment is a label, that contains among other information, a product identifier in the format US:RKEAL10BRP1XXMA. If requested, this number must be provided to the telephone company.

2 This equipment is designed to be connected to the telephone network using a terminal block

which is Part 68 compliant and properly installed RJ31X connector. See Installation Instructions for details.

3 The REN is used to determine the number of devices that may be connected to a telephone line.

Excessive RENs on a telephone line may result in the devices not ringing in response to an incoming call. In most but not all areas, the sum of RENs should not exceed five (5.0). To be certain of the number of devices that may be connected to a line, as determined by the total RENs, contact the local telephone company. The REN of alarm system is part of the product identifier that has the format US:RKEAL10BRP1XXMA.

4 If the Alarm Control Panel causes harm to the telephone network, the telephone company will

notify you in advance that temporary discontinuance of service may be required. If advance notice is not practical, you will be notified as soon as possible. Also, you will be advised of your right to file a compliant with the FCC if it is necessary.

5 The telephone company may make changes in its facilities, equipment, operations or procedures

that could affect the operation of the equipment. If this happens the telephone company will provide advance notice in order for you to make necessary modifications to maintain

uninterrupted service.

6 If trouble is experienced with the Alarm Control Panel, for repair or warranty information please

contact Rokonet Industries USA Inc 2822 NW 79th Ave. Miami, Florida 33122 USA, phone number 305 592 3820, URL: [email protected].

If the equipment is causing harm to the telephone network, the telephone company may request to disconnect the equipment until the problem is resolved.

7 The control panel installation is described in the Installation Manual. Connection to telephone

company provided coin service is prohibited. Connection to party lines service is subject to state tariffs.

8 Alarm Control Panel must be able to seize the telephone line and place a call in an emergency

situation. It must be able to do this even if other equipment (telephone, answering system, computer modem, etc.) already has the telephone line in use. To do so, the alarm control panel must be connected to a properly installed RJ31X jack that is electrically in series with and ahead of all other equipment attached to the same telephone line. Proper installation is depicted in the figure below. If you have any questions concerning these instructions, you should consult your telephone company or a qualified installer about installing the RJ31X jack and Alarm Control Panel for you.

(3)

Computer Answering System Fax Machine Telephone Telephone Telephone Unused RJ-11 Jack Unused RJ-11 Jack RJ-31X Jack Telephone Line Network Demarcation Point Network Service Provider's Facilities

Customer Premises Equipment and Wiring

Alarm Dialing Equipment

RADIO FREQUENCY INTERFERENCE (Ref.: FCC Part 15, Para. 15.105)

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. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

1 Reorient or relocate the receiving antenna.

2 Increase the separation between the equipment and the receiver.

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

connected.

4 Consult the dealer or an experienced Radio/TV technician for help.

CHANGES OR MODIFICATIONS (Ref.: FCC Part 15, Para. 15.21 and 15.27)

Changes or modifications to this unit not expressly approved by Rokonet, Ltd., could void the user’s authority to operate the equipment.

(4)

CE Declaration of Conformity

We, the undersigned,

ROKONET ELECTRONICS LTD.

RISHON LEZION, HACHOMA ST. 14 ISRAEL

PHONE: (972) 3 9616555 FAX : (972) 3 9616584

certify and declare under our sole responsibility that the following equipment:

Brand Type * Product Description

ProSYS RP128MC00XXA,

RP116MC00XXA, MC140MC00XXA

Control Panel with wired accessories (including cables) and wireless accessories

was tested to and conforms with the requirements included in following standards:

Standard 5/1999/EC Article Note

EN 60950:00 3(1)(a) 1 EN 301 489-3 v.1.2.1 3(1)(b) 1 EN 50130-4:95+A1 (98) 3(1)(b) 1 EN 50081-1:92 3(1)(b) 2 EN 300 330-2 v.1.1.1 3(2) 2 EN 300 220-3 v.1.1.1 3(2) 3 TBR21:98+ETSI EG 201 121 v.1.1.3 / 4

Note 1: Full ProSYS system, Note 2: Proximity keypad (additionally),Note 3: RF transmitters (additionally), Note 4: Main unit (additionally).

and therefore complies with the requirements and provisions of the Council Directive

1999/5/EC of the European Parliament and of the council of 9 march 1999 on Radio equipment and Telecommunications Terminal Equipment and the mutual recognition of their conformity and Annex III (Conformity Assessment procedure referred to in article 10(4)).

*: XX represents a country code

(5)

About Wire ...1-2 ProSYS Architecture and Capabilities ...1-5 ProSYS Features ...1-6 Feature-Specific Limitations...1-6 Main Panel ...1-7 Zone Expansion ...1-7 Wireless Expansion...1-7 Partitions/Areas...1-8 Groups...1-8 Keypads...1-8 Programmable Function Keys ...1-9 User Codes and Authority Levels...1-9 Keyswitches...1-9 Expansion BUS ...1-9 Programmable Utility Outputs...1-10 X-10 Module ...1-10 Digital Communicator/Follow-Me Mode...1-10 Advanced Digital Voice Module ...1-11 Box Tamper ...1-11 Bell Tamper ...1-11 Power Supply Expansion Module ...1-11 Access Control Expansion Module ...1-11 Scheduling...1-12 Event Logging ...1-12 Printer Module...1-12 BUS Adapter Cable...1-12 Program Transfer Module ...1-12 Auto Installation ...1-12 Self-Monitoring...1-13 False Alarm Reduction...1-13 Forced Arming Zone...1-13

Chapter 2: Mounting and Wiring the Main Panel ...2-1 Step 1: Mounting the Main Panel...2-1

Safety Precautions...2-2 Discharging Static Electricity... 2-2 Following Local Regulations ... 2-2 What Makes a Good Ground? ...2-2

(6)

Step 2: Wiring the Main Panel ...2-3

Wiring the Main Panel ... 2-4 Wiring the Zones to Sensors and Detectors (Zone Terminals Z1 through Z8)... 2-5 Wiring the Auxiliary Devices ... 2-7 Wiring the Bell Sounders... 2-7 Wiring the Bell Tamper ... 2-7 Wiring the Box Tamper ... 2-8 Wiring External Triggerable Devices ... 2-8 Connecting the J10 Connector ... 2-9 Connecting to Ground (Earth)... 2-9 Connecting Telephone Lines ... 2-11 Connecting the BUS Plug (J1, J5, or J8)... 2-11 Installing the Default Jumper Plug on the J2 Connector... 2-11 Installing the J3 Connector ... 2-11 Connecting the J4 SIG IN Connector (Signal in Voice Module) ... 2-11 Connecting Flying Leads ... 2-11 Connecting AC Power ... 2-12 Connecting the J6 Connector ... 2-12

Chapter 3: Installing External Modules and Devices ... 3-1 Step 3: Identifying and Wiring Keypads and Expansion Modules ...3-1

Programming Device ID Numbers ... 3-1 Installing a Keypad ... 3-2

Step 4: Adding Modules...3-3

Wiring Zone Expansion Modules ... 3-3 Wiring Utility Output Modules... 3-4 Wiring Power Supply Expansion Modules... 3-6 Wiring Additional Modules ... 3-7

Step 5: Applying Power ...3-8

Chapter 4: Programming the ProSYS... 4-1 Using the ProSYS Main Panel Programming Options ...4-1 Using the LCD Keypad ...4-2 Programming from the LCD Keypad ...4-3

Accessing the Installer Programming Menu... 4-3 Restoring Manufacturer’s Programming Defaults... 4-6 Keypad Timeout ... 4-8

Installer Programming Menu Options Map ...4-8

Chapter 5: Using the Installer Programming Menus... 5-1 Installer Programming Menu Conventions ...5-1 System...5-2

System: Time Define ... 5-3 System: System Control ... 5-5 System: Set Clock ... 5-13

(7)

System: Tamper Sound ...5-16 System: Default Enable/Disable ...5-16 System: Service Information...5-17 System: System Version ...5-17

Zones ...5-18

Zones: One by One...5-19 IMPORTANT:... 5-20 Zones: Partitions ...5-20 Zones: Zone Type...5-21 Zones: Zone Sound...5-26 Zones: Termination...5-28 Zones: Loop Response...5-29 Zones: Cross Zone ...5-30 Zones: Labels...5-31 Zones: Maintenance ...5-31 Zones: Miscellaneous ...5-39

Utility Output ...5-41

Utility Output: Nothing ...5-42 Utility Output: System ...5-42 Utility Output: Partition ...5-45 Utility Output: Zone ...5-48 Utility Output: User Code...5-49 Activation/Deactivation ... 5-51 Code Maintenance ...5-51

Code Maintenance: Authority...5-52 Authority Levels ... 5-53 Code Maintenance: Partition ...5-54 Code Maintenance: Grand Master...5-54 Code Maintenance: Installer ...5-55 Code Maintenance: Sub-Installer...5-55 Using the Sub-Installer’s Code ... 5-56 Code Maintenance: Code Length ...5-56

Dialer...5-58

Dialer: Telephone Numbers ...5-58 Special Letters ... 5-60 Dialer: Customer Account Numbers...5-60 Dialer: Communication Format ...5-61 Monitoring Station (MS) Communication Formats... 5-63 Dialer: Access and ID...5-64 Dialer: Controls ...5-65 Follow-Me ... 5-65 Dialer: Parameters ...5-68 Dialer: Report Split ...5-71 Dialer: Alarm Restore ...5-75 Dialer: Periodic Test ...5-76 Dialer: Auto Codes ...5-78

(8)

Report Codes...5-80

Report Codes: Emergency Key... 5-81 Report Codes: Zones ... 5-82 Report Codes: Accessory Tamper ... 5-83 Report Codes: Main Trouble ... 5-85 Report Codes: Power Supply Accessory Module Trouble ... 5-87 Report Codes: Arm Codes (Closings) ... 5-89 Report Codes: Disarm Codes (Openings) ... 5-90 Report Codes: Miscellaneous ... 5-91 Report Codes: Special Communication ... 5-92 Report Codes: Accessory Code... 5-93

Accessories...5-95

Accessories: Add Delete Module... 5-96 Accessories: Verify Module ... 5-106 Accessories: BUS Test ... 5-107 Accessories: BUS Scanning ... 5-107 Walk Testing ... 5-108 Accessories: Auto Settings ... 5-108

Miscellaneous...5-109

Miscellaneous: Wireless Button Parameters ... 5-109 Changing the Wireless Button Parameters ... 5-110 Miscellaneous: Wireless Button Allocation ... 5-111

Access Control ...5-112

Access Control: Door Define... 5-112 Access Control: Card Code Position ... 5-116 Access Control: Special Code... 5-116

Exit Programming ...5-117

Chapter 6: Using the PTM, Testing, and Troubleshooting... 6-1 Using the Program Transfer Module (PTM)...6-1 Testing the System...6-2 Troubleshooting ...6-3

Bell Loop Trouble... 6-3 Phone Line Trouble ... 6-3 EE U/D ACCESSORY NOT FOUND Keypad Message... 6-4 PRESS ✳ TO INSTALL Keypad Message ... 6-4 Power LED Flashing Rapidly Indicating a System Trouble Condition ... 6-4

Appendix A: Technical Data ... A-1 Appendix B: ProSYS Accessories ... B-1 Appendix C: Report Codes ... C-1

Report Code Programming for SESCOA SUPERFAST (03B1) ...C-1 New Codes ...C-1 Report Code Programming for ADEMCO POINT (CONTACT) ID (0420)...C-2

(9)

List of Tables

Table 1-1: Wire Facts ...1-2 Table 1-2: Wiring Between the ProSYS Main Panel and the 16.5 VAC/40VA Plug-In Transformer ...1-3 Table 1-3: Wire Gauge...1-3 Table 1-4: Total Auxiliary Power ...1-3 Table 1-5: Maximum External Sounder Current...1-4

List of Figures

Figure 1-1: ProSYS Architecture and Capabilities ...1-5 Figure 1-2: LCD Keypad...1-8 Figure 2-1: Mounting the Main Panel ...2-1 Figure 2-2: Main Panel Wiring Diagram ...2-4 Figure 2-3: 4-Wire Expansion BUS ...2-5 Figure 2-4: Zone Connection Diagrams ...2-6 Figure 2-5: Wiring the Box Tamper...2-8 Figure 2-6: Connecting the J10 Connector ...2-9 Figure 2-7: Grounding the Metal Box ... 2-10 Figure 2-8: Grounding the Metal Box Door... 2-10 Figure 2-9: Connecting the J6 Connector ... 2-12 Figure 3-1: Dip Switch Settings...3-1 Figure 3-2: Keypad Installation Front View ...3-2 Figure 3-3: Zone Expansion Module ZE8 (Showing an Example of Typical Zone Wiring) ...3-3 Figure 3-4: Zone Expansion Module ZE16 (Showing an Example of Typical Zone Wiring) ...3-3 Figure 3-5: Utility Output Module UO4 (Showing an Example of UO4 Wiring) ...3-4 Figure 3-6: Utility Output Module E08 ...3-4 Figure 3-7: Utility Output Module X-10 ...3-4 Figure 3-8: Power Supply Module PS (Showing an Example of PS Wiring) ...3-6 Figure 4-1: The LCD Keypad Face ...4-2

(10)

(11)

Chapter 1:

Chapter 1: Introducing ProSYS

Introducing ProSYS

This chapter provides a basic introduction to the ProSYS system and its architecture and capabilities, as described in the following sections:

✦✸ What is ProSYS?, below ✦✸ Installing ProSYS, page 1-2 ✦✸ About Wire, page 1-2

✦✸ ProSYS Architecture and Capabilities, page 1-5 ✦✸ ProSYS Features, page 1-6

What is ProSYS?

ProSYS is a full-featured security system, providing sophisticated solutions for alerting and reporting premises alarm signals. It’s a modular integrated system that combines access control, security protection, and home automation, with the advantage of controlling all the system through one interface. The ProSYS is flexible as well as provides a user-friendly interface that enables easy installation, programming, and use.

ProSYS is available in three models that use the same accessories, but have different maximum capabilities (refer to Feature-Specific Limitations, page 1-6). ProSYS is intended to address the needs of virtually every home, office, and commercial facility. It is designed around

microprocessor and EEPROM (Electrically Erasable Programmable Read-Only Memory) technology, which stores the system’s operating program, as well as its programmable parameters, without dependency on external power sources. ProSYS supports most standard detectors and sensors, along with a variety of accessories and output devices.

ProSYS provides monitoring and supervision for up to a maximum of 128 zones. Through its 4-wire BUS, it can support a variety of optional modules, including multiple Keypads, Zone Expanders, a Wireless Interface, supplemental Power Supplies, a Voice module, capabilities for Access Control, an X-10 Interface, Event Log, and Utility Outputs. All these devices

communicate with the system by sending commands and data over the BUS, which originates at the Main Panel.

ProSYS can also be programmed and/or controlled through the Upload/Download software installed on a PC computer with a Windows operating system.

(12)

Installing ProSYS

This ProSYS Installation and Programming Manual details how to install the ProSYS hardware and to program the ProSYS Main Panel, as described in the following main steps:

✦✸ Step 1: Mounting the Main Panel (Chapter 2) ✦✸ Step 2: Wiring the Main Panel (Chapter 2)

✦✸ Step 3: Identifying and Wiring Keypads and Expansion Modules (Chapter 3) ✦✸ Step 4: Adding Modules (Chapter 3)

✦✸ Step 5: Applying Power (Chapter 3)

✦✸ Step 6: Programming the ProSYS (Chapters 4 and 5) ✦✸ Step 7: Testing the System (Chapter 6)

NOTE:

While this manual describes all of the above steps, the section on programming the Main Panel comprises the bulk of the information, as it covers all the programmable functions that can be performed using the keypad.

Other Reference Materials

While not mandatory for installation purposes, the following documents are also available to assist you during the installation of your ProSYS.

Document Part No. Description

ProSYS User’s Manual 5IN128UM Provides information intended for ProSYS end users.

About Wire

The proper use of wire and cable is necessary for the successful installation and operation of the ProSYS system. It is important to select wire of the correct thickness to minimize power loss and ensure reliable system operation. Take into account both the installation’s current requirements and the wiring distances involved. The following tables provide useful information to help make your installation trouble-free.

Wire Diameter Resistance: Feet Resistance: Meters AWG

Gauge

Size Inches Millimeters Ω Per Foot Ω Per 1000 Feet

Ω Per Meter Ω Per 100 Meters 24 0.020 0.50 0.026 26.0 0.085 8.5 22 0.025 0.64 0.016 16.0 0.052 5.2 20 0.031 0.80 0.010 10.0 0.032 3.2 19 0.035 0.90 0.008 8.0 0.026 2.6 18 0.040 1.00 0.006 6.0 0.020 2.0 16 0.050 1.27 0.004 4.0 0.013 1.3 14 0.064 1.63 0.0025 2.5 0.008 0.82

(13)

One-Way Wire Distance Between

ProSYS and Plug-In Transformer For best results use the indicated wire size AWG (American Wire Gauge) or larger (numerically lower) size

In Feet In Meters 22 20 18 16 14 Up to 15 feet Up to 5 meters ✔ 15 - 25 feet 5 - 8 meters ✔ 25 - 40 feet 8 - 12 meters ✔ 40 - 60 feet 12 - 20 meters ✔ 60 - 100 feet 20 - 30 meters ✔

Table 1-2: Wiring Between the ProSYS Main Panel and the 16.5 VAC/40VA Plug-In Transformer

Wire Gauge Max Combined Length of ALL Expansion BUS Wiring

24 AWG 7/02mm 150 meters 492 feet

Table 1-3: Wire Gauge

NOTES:

For maximum system stability, it is best NOT to exceed a total of 300 meters (1000 feet) of wire when wiring the Expansion BUS.

For a distance of more than 300 meters, refer to Rokonet's customer support service for detailed information.

Desired Wire Gauge in Particular Branch

32/02 mm 18 AWG 28/02 mm 19 AWG 24/02 mm 20 AWG 16/02 mm 22 AWG 7/02 mm 24 AWG Max Run Max Run Max Run Max Run Max Run

Total Auxiliary Power (Max Current Draw per

Branch) Meters Feet Meters Feet Meters Feet Meters Feet Meters Feet

20mA 1195 3920 945 3100 750 2460 472 1550 296 970 30mA 793 2600 628 2060 500 1640 314 1030 197 646 40mA 597 1960 472 1550 375 1230 236 775 148 485 50mA 478 1568 378 1240 300 984 189 620 118 388 60mA 296 1300 314 1030 250 820 157 515 98 323 70mA 341 1120 270 886 214 703 135 443 84 277 80mA 299 980 237 775 187 615 118 388 74 243 90mA 264 867 209 687 166 547 105 343 66 215 100mA 239 784 189 620 123 492 94 310 59 194

Table 1-4: Total Auxiliary Power

NOTE:

The wire lengths indicated represent the one-way distance between the source of power and the last detector in the branch.

(14)

Desired Wire Gauge in Particular Branch

32/02 mm 28/02 mm 24/02 mm 16/02 mm Max Run Max Run Max Run Max Run

Max External Sounder Current (Max current draw per branch)

Meters Feet Meters Feet Meters Feet Meters Feet

100mA 238 780 191 625 151 495 94 310 200mA 229 390 95 313 76 248 47 155 300mA 79 260 63 208 50 165 31 103 400mA 59 195 48 157 38 124 24 78 500mA 48 156 38 125 30 99 19 62 650mA 37 120 29 96 23 76 15 48

Table 1-5: Maximum External Sounder Current

NOTE:

The wire lengths indicated represent the one-way distance between the ProSYS and the external sounder in the branch.

(15)

ProSYS Architecture and Capabilities

The following diagram provides an overview of the ProSYS’s architecture and capabilities. Examine this figure before beginning your ProSYS installation to obtain an overall picture of the full extent of the ProSYS system’s capabilities.

(16)

ProSYS Features

This section describes the features of the ProSYS system, including features specific to each ProSYS model.

Feature

Feature----Specific Limitations

Specific Limitations

Each ProSYS model has several feature-specific limitations, as described in the following table:

Feature ProSYS 16 ProSYS 40 ProSYS 128

Total Zones 8-16 8-40 8-128

Main Expansion Zones (wired or wireless) 1x8 (EZ or WR) 4x8 or 2x16 or 2x8 + 1x16 (EX or WR) 1x8 + 7x16 (EX or WR) Max Current 1,5 A 1,5 A 1,5 A Number of Expansion BUSes 1 1 2 Total Number of Expansion

Modules

32 32 64 (32 for each

data BUS)

Box NC Tamper Input 1 1 1

Bell Tamper EOL Input 1 1 1

Total Utility Outputs 6-22 6-38 6-70

Utility Output Expansion Modules Up to 2 modules (max 16 UO) Up to 4 modules (max 32 UO) Up to 8 modules (max 64 UO) Partitions/Areas 4 4 8

Groups Per Partition/Area 4 4 4

User Codes 00-29 00-59 00-98

Access Control Modules (# of Doors)

2 (4 doors) 4 (8 doors) 8 (16 doors)

Digital Key Reader 16 16 16

Keypads 8 12 16

Account Numbers 4 8 12

Follow-Me Numbers 8 8 16

Event Log 256 Built-in (No

Possible Expansion) 512 (with Expansion) 999 (with Expansion) NOTES:

The zone expansion modules can be either with wire or wireless.

All panels can work with a battery of up to 17AH according to the applicable regulations. The relay output should have the option to supply COM positive -12V or negative -0V.

(17)

Main Panel

The Main Panel is the foundation of the system’s operation and has the following features: ✦✸ 8 basic hardwired zones

✦✸ Expandable to 16, 40, or 128 wired/wireless zones (refer to Feature-Specific Limitations, page 1-6)

✦✸ 6 Utility Outputs:

❖✸ 1 x relay (programmable output) (3 Amps) ❖✸ 1 x 500mA transistor (Open Collector) ❖✸ 4 x 70mA transistors (Open Collector) ✦✸ Box tamper input (normally open)

✦✸ Bell tamper input (using a 2.2KΩ end-of-line resistor)

✦✸ A 4-wire BUS originating from the Main Panel, which is the initial point for all system expansion (refer also to Chapter 2, Mounting and Wiring the Main Panel):

❖✸ ProSYS 16 and ProSYS 40: One BUS with 2 "quick connectors" for easy connection of other devices

❖✸ ProSYS 128: Two different BUSes with "quick connectors" and an additional BUS 2 terminal

✦✸ Power for the operation of an external sounder

✦✸ Offers the required type of voltage for one or more electronic sirens, bells, or loudspeakers, respectively

✦✸ Supports more than 20 zone types

✦✸ 4 zone terminations, including: closed-circuit (NC), open-circuit (NO), end-of-line (EOL) resistors, and double end-of-line (DEOL) resistors (refer also to Chapter 2, Mounting and

Wiring the Main Panel) ✦✸ Event log (up to 256 events)

Zone Expansion

In addition to its eight hardwired zones, the ProSYS can support up to another 120 such zones (a total of 128), which are derived through the connection of either 8-Zone or 16-Zone

expansion modules, including the 8/16 Wireless expansion modules described below.

The number of possible zones depends on your ProSYS model, as described in Feature-Specific

Limitations, page 1-6.

Wireless Expansion

When using wireless zones, the ProSYS 8/16 Wireless expansion modules respond to different wireless detectors, such as PIR detectors, PIR pet detectors, smoke detectors, door contacts, and 4-key buttons that can also operate as rolling code transmitters.

The Wireless expansion module includes the following features: ✦✸ Super heterodyne technology

✦✸ Programmable supervision time ✦✸ Tamper detection

✦✸ Low battery in transmitters detection ✦✸ Signal jamming indication

(18)

Partitions/Areas

Any zone or group of zones can be assigned to any of up to 8 independent partitions/areas, depending on your installed ProSYS (refer to Feature-Specific Limitations, page 1-6). Partitioning allows a single ProSYS system to protect each dwelling in a multi-family house, several

departments in a commercial or institutional facility, and even several closely situated stores in a shopping mall. Each partition/area supports both zone sharing and cross zoning.

An area is the same as a partition except that there is no common zone (a zone that is included in two or more partitions). If the system is configured to Partition mode, then the common zone will not be armed until all the partitions that share that zone are armed. If the system is

configured to Area mode, the common zone will be armed after any partitions that share the zone are armed. The Installer configures the Partition/Area mode.

Groups

Groups are combined zones within a partition/area that are used for partial arming. Up to four groups of zones can be defined for each partition/area. Group arming is performed by using the Function keys on the keypad (A, B, C, and D). Each key represents a different group of zones. Users can arm any of the four groups in any of the partitions by entering a code and selecting the partition. (Refer to the ProSYS User’s Manual for more information about Group Arming.)

Keypads

The ProSYS can support up to 16 keypads, with a choice of four styles (LCD, two LED types, and one LCD proximity type) from which virtually all system features can be accessed.

Figure 1-2: LCD Keypad

Each keypad is equipped with three Emergency Key zones (Panic, Fire, and Auxiliary Emergency) and the ability to produce a Duress (Ambush) Code. All keypads are double tamper-protected and employ backlighting for their display and their keys, which also produce audible feedback when pressed. Keypads can be programmed to detect and discourage

unsuccessful attempts at disarming and incorporate easy-to-use hot-key sequences for simple zone bypassing and to display information about unsecured zones. A one-key Quick-Arm feature for both "Stay" and "Away" (ARM button) modes of operation can be selected for ease of use.

NOTE:

(19)

Programmable Function Keys

The four Function keys on the keypad (A, B, C, and D) can be programmed to carry a sequence of commands by pressing on one of the keys. For example, a user can push the A key to run a macro that arms the first floor and lights a light at the entrance of the house at the same time, or a user can push the B key to stop the Follow-Me dialing.

User Codes and Authority Levels

Each ProSYS installation typically accommodates unique User Codes of up to 6 digits. Each code can be assigned to one of several Authority Levels and, if used, to multiple partitions. In addition, for cases where higher security is required, a double code option is available that requires two users to enter their code in order to disarm the system.

Keyswitches

For those locations in which a simple keyswitch will suffice, the ProSYS is capable of supporting a keyswitch (SPST latch and/or momentary type). The keyswitch permits the arming and

disarming of the system (or one of its partitions). Any zone of the ProSYS can be defined as Keyswitch, with or without a delay time.

Expansion BUS

Through the ProSYS’s 4-wire BUS, which can be run up to 300 meters (1000 feet), a variety of features and enhancements are made possible through the use of the appropriate expansion modules. You can incorporate any module into the system by a simple connection to the

system’s BUS, as described in Step 2: Wiring the Main Panel in Chapter 2, Mounting and Wiring

the Main Panel.

The ProSYS 16 and the ProSYS 40 have one BUS, whereas the ProSYS 128 has two different BUSes. In the ProSYS 128, if one of the BUSes is shorted or there is any kind of problem that interrupts the BUS data, the other one will continue to operate normally.

For easy BUS connections of other devices, the Main Panel has "quick BUS connectors": two for the ProSYS 16/40 and three for the ProSYS 128.

(20)

Programmable Utility Outputs

The ProSYS Main Panel includes 6 Utility Ouputs (1 relay 3Amps, 1 500mA transistor, and 4 open-collector 70mA transistors). These outputs help operate external devices in response to a number of system activities related to alarms, zones, partitions, areas, any general system event, the actions of a particular user, or scheduled events based on the system’s internal clock.

A door-strike, a CCTV Time Lapse recorder, an intermediate relay, and so on, can all be triggered by the Utility Output. When more output flexibility is required, the outputs can be expanded, as follows:

✦✸ ProSYS 16: Any combination of 2 expansion modules (4-relay or 8-transistor output modules). The UO can be expanded to a maximum of 16 outputs with the expansion modules. The total UO output is up to 22 outputs (expansion modules and the Main Panel). ✦✸ ProSYS 40: Any combination of 4 expansion modules (4-relay or 8-transistor output

modules). The UO can be expanded to a maximum of 32 outputs with the expansion modules. The total UO output is up to 38 outputs (expansion modules and the Main Panel). ✦✸ ProSYS 128: Any combination of 8 expansion modules (4-relay or 8-transistor output

modules). The UO can be expanded to a maximum of 64 outputs with the expansion modules. The total UO output is up to 70 outputs (expansion modules and the Main Panel).

X

X----10 Module

10 Module

The ProSYS also supports the connection of an X-10 Transmitter module to its 4-wire Expansion BUS. X-10 technology converts the ProSYS’s programmable output events into a protocol understood by the Transmitter module. When triggered, this module generates activation and control signals along existing AC premises wiring to the appropriate X-10 Receiver modules, appropriately placed and connected within the premises to control lighting and appliances. X-10 Transmitter modules are available for the ProSYS, supporting either 8- or 16-premises Receiver modules.

Digital Communicator/Follow

Digital Communicator/Follow----Me Mode

Me Mode

The ProSYS’s on-board Digital Communicator is capable of numerous transmission formats, including ADEMCO Contact ID and SIA. It can process account numbers (for each partition) with additional backup accounts, store up to three Central Station phone numbers (should multiple or split reporting be utilized), offer a Call Save mode from which non-urgent reports can be collected over a designated time period and then transmitted all at once, and support daily system testing, along with reports of entry into, and exit from, the system’s Installer Programming mode.

In addition to standard communication with the monitoring station, the ProSYS employs a Follow-Me feature in which a phone call can be made using tones to represent the active alarm (burglary or fire) to adesignated phone number. This feature is available for each partition and is generally useful for informing a homeowner at work, or a business owner at home, that there has been an alarm at a specific location.

With the optional Voice module, it’s possible to record 3 short messages, which replace the alarm tones normally produced in the Follow-Me mode.

Finally, a paging feature is available through the Follow-Me mode. If selected and programmed to do so, ProSYS messages containing the following information can also be sent to a user’s numeric or alphanumeric pager: partition-based opening and closing signals and/or

(21)

Advanced Digital Voice Module

The Advanced Digital Voice module provides audible information about the status of your ProSYS system and enables any remote, touch-tone (DTMF) telephone to act as a keypad for the system. The Advanced Digital Voice Module can be used in the following situations:

✦✸ Upon event occurrence, such as alarm activation, the Advanced Digital Voice module informs you of a security situation, such as intrusion or fire, by calling you and playing a pre-recorded Event announcement. You can then acknowledge the event and remotely operate the system.

✦✸ Remotely operating the system, which includes: ❖✸ Partition arming and disarming

❖✸ Zone bypassing

❖✸ UO activation/deactivation ❖✸ Changing Follow-Me numbers

❖✸ Performing Listen and Talk options that enable you to listen in to your property and talk back, if necessary

Box Tamper

The box tamper is a tamper input (NC - normally closed) for the metal box, which protects both sides of the box. This means that if the box is opened or removed from the wall, the tamper opens and turns on the alarm.

Bell Tamper

The bell tamper is a tamper input that is terminated by an EOL resistor. If the line is cut or shorted, the alarm is turned on.

Power Supply

Power Supply Expansion Module

Expansion Module

Although the ProSYS’s Main Panel provides 600mA of auxiliary power (900mA for Bell), the use of a number of additional system modules and detectors will likely exceed this limitation. As a result, the ProSYS permits the addition of up to eight remote Power Supply expansion modules, each operating from AC power and connected to the BUS.

Each such module provides a total current capacity of 1.5 Amps and has connections for powering auxiliary devices and triggering bells, electronic sirens, or loudspeakers during an alarm. Each Power Supply expansion module also supports its own standby battery and is supervised for the loss of AC, a low battery condition, tamper input, the failure of its auxiliary output power, and the loss of sounder loop integrity.

Access Control Expansion Module

One of ProSYS’s most unique features is its integration with an Access Control sub-system. With a maximum connection of eight such Access Control modules, a total of 16 readers is possible (each module supporting up to two readers). Each reader can operate with magnetic, proximity, bar code, touch, and/or Weigand technology. Up to 999 users can be accommodated, and up to 1000 "transactions" can be stored in a module.

(22)

Scheduling

Through the use of the system’s built-in clock, it is possible to automate system operations at the same time on selected days of the week or at a specific time within the subsequent 24-hour period or during vacation periods.

The system operations include:

✦✸ Scheduling automatic arming and disarming (of one or more partitions). ✦✸ Scheduling automatic operation of Utility Outputs.

✦✸ Restricting users from disarming during predefined time periods.

Event Logging

The ProSYS has the capability of storing up to 999 significant events, including arming, disarming, bypassing, alarms, troubles, restorals, and resets. These events are logged in order according to date and time, and when applicable, according to Zone, Partition, Area, User Code, Keypad, etc. When appropriate, such events can be displayed on an LCD keypad or uploaded to the alarm company via the Upload/Download software and printed for further analysis.

Printer Module

A Printer module, designed to interface between the ProSYS’s 4-wire Expansion BUS and a Centronics-type parallel printer, enables the printing of all significant system events as they occur, including access control activities, if applicable. Each event includes the date, time, and if applicable, the affected partition and the user involved.

BUS Adapter Cable

With the BUS Adapter Cable assembly (RP296EBA), a portable computer can be connected directly to the ProSYS and used for local uploading/downloading operations.

Program Transfer Module

The Program Transfer module is a tiny printed circuit board capable of storing the programmed configuration of any ProSYS without the need for power. Therefore, if required, one account’s programmed configuration, once loaded into the Program Transfer module, can be used as a template and taken to another account, where the stored configuration can be copied and subsequently modified.

Auto Installation

For quick and easy installation, the system performs automatic installation of the modules connected to the BUS. The system searches for the modules by automatically verifying their connection and operation through the BUS-scanning feature and prompts the user to approve each module connection. The auto installation feature is performed automatically after defaulting the system or can also be performed manually.

(23)

Self

Self----Monitoring

Monitoring

The ProSYS has various self-monitoring capabilities, including:

✦✸ The BUS Test enables the system to verify the connection and the operation of the modules connected to the BUS by indicating the efficiency of each one on a 0-100% scale. Each result is individually displayed on the LCD keypad (or via the Upload/Download software). ✦✸ A watchdog feature, which periodically and automatically performs a comprehensive

self-test and reports when operating faults are found.

✦✸ A Maintenance Mode which, when selected, performs an active self-check on many of its components.

✦✸ One-man walk testing capabilities, enabling an Installer or technician to check the operation of each contact and detector which, when tripped, produces audible feedback and is visibly logged at the keypad from which the test was initiated.

False Alarm Reduction

In an effort to deter false alarms, the ProSYS provides various programmable features, including the following programmable features: cross zoning, swinger shutdown, audible/visual entry/exit delays, fire alarm verification, dialer delay before an alarm transmission, final exit zone, cancel report option, double knock, soak test, and exit terminator zone.

Forced Arming Zone

When this option is enabled (on a per-zone basis), the Main Panel can force arm with these zones opened. If a forced zone is open, the Ready LED blinks and the zone is bypassed at the end of the exit time. If the zone is closed at any time during the arm period, it is automatically unbypassed and re-included in the system.

(24)

(25)

Chapter 2:

Chapter 2: Mounting and Wiring the Main

Mounting and Wiring the Main

Panel

This chapter covers the first two steps of the ProSYS installation procedure, as follows: ✦✸ Step 1: Mounting the Main Panel, below

✦✸ Step 2: Wiring the Main Panel, page 2-3

Step 1: Mounting the Main Panel

The ProSYS Main Panel is supplied in a metal box. Attach the box to the wall using the proper hardware, as shown below.

Figure 2-1: Mounting the Main Panel The mounting location should be: ✦✸ Dry.

✦✸ Near an AC power supply (switched off). ✦✸ With a good earth connection.

(26)

Safety Precautions

When mounting the Main Panel, the following safety precautions are relevant:

✦✸ When the Main Panel is powered on, mains voltage is present on the main PCB. To prevent risk of electric shock, disconnect all power (AC transformer and battery) and phone cords before servicing. Under no circumstances should mains power be connected to the PCB other than to the main terminal block.

✦✸ For AC mains connection, a readily accessible disconnect device shall be incorporated in the building installation wiring.

✦✸ The equipment should be installed in accordance with the National Fire Protection Association’s Standard #74 (N.F.P.A. Batterymarch Park, Qulncy, MA 02269) and local National Electrical Codes.

✦✸ For continued protection against risk of fire, replace fuses only with fuses of the same type and rating.

✦✸ There is a risk of explosion if a battery is replaced with an incorrect type. Dispose of used batteries according to the proper instructions. (The Main Panel is designed to work with a 12 V, 7 Amp-hour sealed lead battery as a backup for the primary power supply.)

✦✸ Do no short the terminals of the transformer together. This causes the internal fuse to blow. The transformer must be connected to a 230 VAC, 24-hour outlet not controlled by a switch other than an approved over-current protection device.

✦✸ The Main Panel is designed with reverse polarity protection on the battery charging circuit. However, prolonged improper connection of the battery to the Main Panel will result in damage. The power should remain disconnected until all connections have been made and checked for accuracy.

Discharging Static Electricity

Please note that it is important to discharge static electricity that may have built up in your body before you touch a circuit. To do this, touch the earth. (Refer also to What Makes a Good

Ground? in Chapter 2, Mounting and Wiring the Main Panel.)

Following Local Regulations

Be sure to follow your local regulations regarding fire protection, electrical installation, noise pollution, and security systems installation.

What Makes a Good Ground?

Grounding provides a degree of protection against lightning and induced transients for any piece of electronic equipment that may, due to lightning or static discharge, experience

permanent or general malfunctions. The ideal ground is considered to be a unified earth ground in which an 8-foot copper-clad rod, located close to the existing power and telephone ground rods, is sunk several feet into the earth. Appropriate hardware and clamps are then used to electrically connect each of these rods together and then to the ground terminal of the device to be protected.

(27)

It may be possible to use an existing electrical ground on the premises if one is close enough to the Main Panel. Ideally, that ground can be obtained at the metal service panel where the incoming electrical power originates. When connecting the ground wire, use a solid 14-gauge wire [or larger (numerically lower) size] connected between the ProSYS’s GND terminal and an acceptable electrical ground connection. Keep this wire as short as possible and do not run it in conduit, coil it, bend it sharply, or run it alongside other wiring. If you must bend it or change its direction, it should have a radius of at least 8 inches at the point from which it is bent. If in doubt, you may want to enlist the help of a licensed electrician in matters concerning such grounding.

Step 2: Wirin

Step 2: Wiring the Main Panel

g the Main Panel

This step explains the various wiring and connection procedures that must be performed when wiring the Main Panel, as follows:

✦✸ Wiring the Main Panel, page 2-4

✦✸ Wiring the Zones to Sensors and Detectors (Zone Terminals Z1 through Z8), page 2-5 ✦✸ Wiring the Auxiliary Devices, page 2-7

✦✸ Wiring the Bell Sounders, page 2-7 ✦✸ Wiring the Bell Tamper, page 2-7 ✦✸ Wiring the Box Tamper, page 2-8

✦✸ Wiring External Triggerable Devices, page 2-8 ✦✸ Connecting the J10 Connector, page 2-9 ✦✸ Connecting to Ground (Earth), page 2-9 ✦✸ Connecting Telephone Lines, page 2-11

✦✸ Connecting the BUS Plug (J1, J5 or J8), page 2-11

✦✸ Installing the Default Jumper Plug on the J2 Connector, page 2-11 ✦✸ Installing the J3 Connector, page 2-11

✦✸ Connecting the J4 SIG IN Connector (Signal In Voice Mail), page 2-11 ✦✸ Connecting Flying Leads, page 2-11

✦✸ Connecting AC Power, page 2-12

✦✸ Connecting the J6 Connector, page 2-12

IMPORTANT: Before wiring the Main Panel, ensure that the connection to the power supplies, mains or battery, is switched OFF during wiring.

(28)

Wiring the Main Panel

Figure 2-2: Main Panel Wiring Diagram

The second set of four terminals on the left of the Main Panel represent the Expansion BUS. These support the connection of keypads and expansion modules.

The connections are terminal-to-terminal with color-coded wires, as follows: BUS Terminal Description

AUX RED +12V power for BUS expansion modules COM BLK Black 0V common for BUS expansion modules BUS YEL Yellow DATA connection for BUS expansion modules BUS GRN Green DATA connection for BUS expansion modules

To prevent a possible drop in voltage due to multiple keypads and long wire runs, use a quality 4-conductor cable with an appropriate gauge size (refer to the table of gauge sizes in Chapter 1,

(29)

The parallel wiring system supports parallel connections from any point along the wiring (refer to Figure 2-3 below). The maximum wire run permitted is 300 meters (1000 feet) for all legs of the BUS.

Figure 2-3: 4-Wire Expansion BUS

NOTES:

In the ProSYS 16 and the ProSYS 40, there is only one BUS, which can be connected to the BUS 1 terminal block or to one of the two BUS 1 plugs (J1 and J5).

In the ProSYS 128, there is also a BUS 2, which is separate from BUS 1. You can connect to the BUS 2 terminal block or to the BUS 2 plug (J8). In addition, if one of the BUSes is shorted or there is any kind of problem that interrupts the BUS data, the other one will continue to operate normally.

Wiring the Zones to Sensors and Detectors

(Zone Terminals Z1 through Z8)

To wire the zones to sensors and detectors:

1. Connect up to 8 hardwired zones, using twisted-pair or 4-conductor cable wiring.

2. Connect each zone to the appropriate Zone (Z) terminal and its related COM terminal. Each pair of zones shares a COM terminal. For example, Z1 and Z2 share a COM terminal, as do Z3 and Z4, and so on.

NOTES:

It is recommended that you use an End-of-Line Resistor at the far end of each hardwired zone to prevent short-circuits (16 resistors are supplied).

For a zone with a tamper switch, you can use a Double End-of-Line Resistor to save additional Main Panel connections (refer to Figure 2-4 on page 2-6).

3. Terminate unused zones at the Main Panel.

4. Connect the power to the sensors and/or detectors, as described in Wiring the Auxiliary

(30)

The following diagram illustrates the various possible zone connections:

(31)

Wiring the Auxiliary Devices

To wire auxiliary devices:

✦✸ Use the Auxiliary Power AUX (+) COM (-) terminals to power PIRs, glass-break detectors (4-wire types), smoke detectors, audio switches, photoelectric systems and/or any device that requires a 12V DC power supply.

NOTES:

The total power from the AUX terminals should not exceed 600mA.

To connect a 4-wire smoke detector or devices that require resetting after an alarm condition, connect the Auxiliary power AUX and UO terminals (refer to Figure 2-2 on page 2-4, for smoke detector wiring). Remember to define the UO as Switched Auxiliary (refer to the Switch AUX parameter described in Chapter 5, Using the Installer

Programming Menus).

In addition, when connecting a 4-wire smoke detector, observe the wiring guidelines mentioned in the previous sections, along with any local requirements applicable to smoke detectors.

To prevent a possible drop in voltage due to current requirements and distances involved, make sure to use the appropriate wire gauge (refer to the table of gauge sizes in Chapter 1, Introducing ProSYS).

To increase your power supply when employing multiple auxiliary devices, you can use the optional Power Supply expansion module (refer to the Wiring Power Supply Expansion Modules section in Chapter 3, Installing External

Modules and Devices).

If the auxiliary outputs are overloaded (exceed 600mA) and are shut down, you must disconnect all loads from the outputs for a period of at least 10 seconds before you reconnect any load to the auxiliary outputs.

Wiring the Bell Sounders

To wire the bell sounders:

1. Connect a suitable wire to the internal sounding device(s) inside the building (bell, electronic siren, or loudspeaker).

2. Ensure that you note the polarity when connecting electronic siren(s) and/or polarized bells.

!

WARNING:

To avoid Bell Loop Trouble, if NO connection is made to an internal sounder, use a 2200_{Ω resistor in its place.}

NOTE:

It is important to position the BELL/LS Jumper (J3) correctly. The position varies depending on the type of internal sounder.

3. For a loudspeaker without a built-in sound driver, position the jumper J3 so that it covers both pins. The Main Panel produces a continuous oscillating voltage for burglary and panic alarms and an interrupted oscillating voltage for fire alarms.

4. For a bell or an electronic siren with a built-in sound driver, position the jumper J3 so that it does NOT cover both pins. A steady 12V DC is produced at the sounder terminals during burglary and panic alarms. A slow pulsing voltage is produced during a fire alarm.

Wiring the Be

Wiring the Bell Tamper

ll Tamper

To wire the bell tamper:

✦✸ Connect the bell tamper to the BELL TMP and COM terminals on the Main Panel, as illustrated in Figure 2-2 on page 2-4.

(32)

Wiring the Box Tamper

To wire the box tamper:

✦✸ Connect the box tamper to the BOX TMP and COM terminals on the Main Panel, as illustrated in Figure 2-2 on page 2-4. Refer also to the diagram shown below.

Figure 2-5: Wiring the Box Tamper

Wiring External Triggerable Devices

To wire external triggerable devices:

✦✸ Wire the external triggerable devices that you want to activate to the outputs UO1-UO6, as follows:

❖✸ UO2-UO6: Connect the positive connection of the device to AUX (+) and the negative connection to the UO’s (-) terminals.

❖✸ UO1: Refer to the J10 connector instructions, described in the next section. For additional details, refer to Chapter 3, Installing External Modules and Devices.

(33)

Connecting the J10 Connector

POS NEG Figure 2-6: Connecting the J10 Connector

The J10 connector (jumper) determines the UO1 connection (behavior), which is normally used for an external siren connection, as follows:

✦✸ Positive (POS): When the J10 connector is placed on POS, the C terminal on UO1 receives 13.8V.

NOTE:

The maximum current for UO1 and the bell should not exceed 900mA.

✦✸ Negative (NEG): When the J10 connector is placed on NEG, the C terminal on UO1 receives COM.

✦✸ If the J10 connector is placed only on 1 pin, the UO1 acts as a dry contact.

Connecting to Ground (Earth)

To connect to ground (earth):

✦✸ Connect the metal box and the door of the metal box to mains earth (ground), as shown in the diagrams on the following page. Refer also to What Makes a Good Ground?, page 2-2.

(34)

Figure 2-7: Grounding the Metal Box

(35)

Connecting Telephone Lines

These lines are typically derived from an installed RJ31X jack.

To connect telephone lines:

1. Connect the incoming telephone line to the Main Panel’s LINE terminals. 2. Connect any telephone on the premises to the SET terminals.

Connecting the BUS Plug (J1, J5, or J8)

Use the BUS 4-pin plug for easy connection of the BUS Adapter Cable (RP296EBA) or the Memory Transfer Card, depending on your installed ProSYS model, as follows:

✦✸ ProSYS 16 - J1 Plug (BUS 1) ✦✸ ProSYS 40 - J5 Plug (BUS 1) ✦✸ ProSYS 128 - J8 Plug (BUS 2)

Installing the Default Jumper Plug on the

J2 Connector

Position the default jumper plug over one of the J2 connector pins for safekeeping.

NOTES:

Do not place the default jumper plug over both J2 connector pins, as this will interfere with your programming.

Positioning the jumper plug over both J2 connector pins is used when reinstating factory installed default values to the Main Panel programming (refer to Chapter 4, Programming the ProSYS) or for installing programming using the Program Transfer module (refer to Chapter 6, Using the PTM, Testing and Troubleshooting).

Installing the J3 Connector

During operation, the J3 jumper determines whether a bell or loudspeaker sound will be heard. When the loudspeaker is functioning, the Main Panel produces a continuous or interrupted oscillating voltage, depending on the type of alarm. When either the bell or electric siren is functioning, the Main Panel produces a steady 12V DC voltage or a slow pulsating voltage, depending on the alarm type. Refer to Wiring the Bell Sounders, page 2-7, for further details.

Connecting the J4 SIG IN Connector (Signal in Voice

Module)

The J4 SIG IN voice connector enables the transfer of audio data between the Voice module and the phone line. Refer to the Voice Module User’s Manual for further details about using the Voice module.

Connecting Flying Leads

(36)

Connecting AC Power

To connect AC power:

1. Connect the 230V AC to the mains fuse (SLOW BLOW 315 mA) input terminal block according to the Local National Electronic Code.

2. Fasten the AC cord to the metal box using adjustable clamps.

!

IMPORTANT:

Do NOT apply mains power at this time.

Be sure to connect the live wire of the AC power through the AC fuse. The size of the conductors must not be less than 0.75mm2 (18AWG).

Connectin

Connecting the J6 Connector

g the J6 Connector

The J6 connector is used to connect the Advanced Digital Voice Module to the ProSYS system.

To connect the J6 connector:

✦✸ Connect the Voice module to the VOICE connector (J6) on the Main Panel via the supplied cable. This connector transmits signals from the Voice module to the telephone line during remote communication and is essential for normal operation of the Voice module.

(37)

Chapter 3:

Chapter 3: Installing External Modules and

Installing External Modules and

Devices

This chapter describes steps 3 to 5 of the ProSYS installation procedure, as follows: ✦✸ Step 3: Identifying and Wiring Keypads and Expansion Modules, below

✦✸ Step 4: Adding Modules, page 3-3 ✦✸ Step 5: Applying Power, page 3-8

Step 3: Identifying and Wiring Keypads and

Expansion Modules

This section explains how to program a unique ID number to identify each keypad and expansion module in the system and how to install a keypad, as follows:

✦✸ Programming Device ID Numbers, below ✦✸ Installing a Keypad, page 3-2

Programming Device ID Numbers

To program device ID numbers:

✦✸ Program each device’s ID number by setting the dip switches, as follows:

ID 1 2 3 4

01 OFF OFF OFF OFF

02 ON OFF OFF OFF

03 OFF ON OFF OFF

04 ON ON OFF OFF

05 OFF OFF ON OFF

06 ON OFF ON OFF

07 OFF ON ON OFF

08 ON ON ON OFF

09 OFF OFF OFF ON

10 ON OFF OFF ON 11 OFF ON OFF ON 12 ON ON OFF ON 13 OFF OFF ON ON 14 ON OFF ON ON 15 OFF ON ON ON 16 ON ON ON ON

Figure 3-1: Dip Switch Settings

Assign the same ID numbers to the different categories of devices (meaning keypads and expansion modules) in the order they are added to the system.

This means that you must assign the ID of 01 to the first keypad as well as to the first Zone Expander, the first Utility Output and the first Power Supply module. A second module in any of these categories receives the ID of 02.

Up to 16 keypads can be added to the system, each assigned ID numbers from 01 to 16. Up to 8 of the other types of devices can be added to the system, each assigned ID numbers from 01 to 08.

(38)

Installing a Keypad

To install a keypad:

1. Open the Keypad Cover: Remove the back of the keypad cover, and using a screwdriver, press in each of the retaining clips to separate the back cover from the keypad. Take care not to touch the circuitry of the keypad buttons.

2. Set the Dip Switches: Program the keypad ID by setting the dip switches according to the table displayed in Figure 3-1 on page 3-1. Dip switch settings are per ID number (01 = first keypad, 02 = second keypad, and so on).

3. Connect the BUS Wiring: Connect the wires from the appropriate terminals in the keypad to the appropriate connector on the Main Panel’s Expansion BUS terminals. The connections are terminal-to-terminal with the terminals clearly marked. The wires are color-coded, as follows:

EXPANSION BUS TERMINALS

AUX COM BUS BUS

Color RED BLK (Black) YEL (Yellow) GRN (Green)

Figure 3-2: Keypad Installation Front View

NOTES:

A trimmer is located on the right side of the keypad (next to the dip switches) that enables you to adjust the brightness and contrast of the LCD display. Therefore, it is recommended to leave the keypad open while powering up in order to adjust the LCD display.

To prevent a possible drop in voltage due to multiple keypads and long wire runs, use a quality 4-conductor cable with an appropriate gauge size (refer to the table of gauge sizes in Chapter 1, Introducing ProSYS). The maximum wire run permitted is 300 meters (1000 feet) for the total BUS wiring.

4. Set the Tamper Switch: Before mounting the keypad on the wall, locate the rear-mounted Tamper Switch and make sure that it is vertically oriented. 5. Replace the Cover:

(39)

Step 4: Adding Modules

This section explains how to add the various ProSYS modules, as follows: ✦✸ Wiring Zone Expansion Modules, below

✦✸ Wiring Utility Output Modules, page 3-4

✦✸ Wiring Power Supply Expansion Modules, page 3-6 ✦✸ Wiring Additional Modules, page 3-7

Wiring Zone Expansion Modules

Figure 3-3: Zone Expansion Module ZE8 (Showing an Example of Typical Zone Wiring)

To wire Zone expansion modules:

1. Set the Dip Switches: Assign a unique ID to each Zone expansion module by setting the dip switches, using Figure 3-1 on page 3-1.

NOTE:

The ID for the first Zone expansion module is 01, for the second 02, and so on.

2. Connect the BUS Terminals: Connect the first four terminals at the left of the Zone expansion module to the Main Panel’s 4-wire BUS terminal, as follows:

EXPANSION BUS TERMINALS

AUX COM BUS BUS

Color RED BLK (Black) YEL (Yellow) GRN (Green)

Figure 3-4: Zone Expansion Module ZE16 (Showing an Example of Typical Zone Wiring)

NOTES:

The parallel wiring system supports parallel connections from any point along the wiring (refer to Chapter 2,

(40)

3. Connect the Zone Terminals (8-Zone Expander Z1-Z8; 16-Zone Expander Z1-Z16): Refer to steps 1 to 3 in the Wiring the Zones to Sensors and Detectors section in

Chapter 2, Mounting and Wiring the Main Panel.

4. Supply Power to the Auxiliary Devices: Refer to step 4 in the Wiring the Zones to

Sensors and Detectors section in Chapter 2, Mounting and Wiring the Main Panel.

ProSys Installer Manual

ProSYS

Installation and Programming Manual

Revised Edition (January 2003)

Customer Information

Customer Information

Customer Information

Customer Information

CE Declaration of Conformity

CE Declaration of Conformity

CE Declaration of Conformity

CE Declaration of Conformity

Table of Contents

List of Tables

List of Figures

Chapter 1:

Chapter 1:

Chapter 1:

Chapter 1: Introducing ProSYS

Introducing ProSYS

Introducing ProSYS

Introducing ProSYS

What is ProSYS?

What is ProSYS?

What is ProSYS?

What is ProSYS?

Installing ProSYS

Installing ProSYS

Installing ProSYS

Installing ProSYS

Other Reference Materials

Other Reference Materials

Other Reference Materials

Other Reference Materials

About Wire

About Wire

About Wire

About Wire

ProSYS Architecture and Capabilities

ProSYS Architecture and Capabilities

ProSYS Architecture and Capabilities

ProSYS Architecture and Capabilities

ProSYS Features

ProSYS Features

ProSYS Features

ProSYS Features

Feature

Feature

Feature

Feature----Specific Limitations

Specific Limitations

Specific Limitations

Specific Limitations

Main Panel

Main Panel

Main Panel

Main Panel

Zone Expansion

Zone Expansion

Zone Expansion

Zone Expansion

Wireless Expansion

Wireless Expansion

Wireless Expansion

Wireless Expansion

Partitions/Areas

Partitions/Areas

Partitions/Areas

Partitions/Areas

Groups

Groups

Groups

Groups

Keypads

Keypads

Keypads

Keypads

Programmable Function Keys

Programmable Function Keys

Programmable Function Keys