Bosch SE3M-304, SE3S-304, SE3U-304 User Manual

Security Escort

Installation and Setup Guide

Security Escort

Security Escort | Installation and Setup Guide | EN | 2

2.0 Equipment Estimation: This

Agencies

Consult the documentation accompanying each component for specific listings.

About This Manual

General Information

The purpose of this manual is to identify the components of the Security Escort system, provide installation instructions for those components as well as the system as a whole provide testing procedures for the system and its components, and provide a troubleshooting guide. The sections of this manual are as follows:

1.0 System Overview: This section

•

provides a reference for estimating and ordering components for a Security Escort installation. Attention is given to relevant specifications of individual components to assist an installer in providing accurate bid estimation.

•

section serves as a guide to estimating the equipment needed for a bid, the location accuracy to expect, and how to mount the receivers to achieve that accuracy.

3.0 Installation Instructions: This

•

section provides an overview and quick reference for the overall installation of a Security Escort System. Consult the Installation Instructions that accompany each individual Security Escort component for specific installation and set-up instructions for that component.

4.0 System Power-up and Debug: This

•

section includes information on making the system “live” after all components are installed and wired.

5.0 Testing and Troubleshooting :

•

This section provides procedures for ensuring that the system is “live” and functional. Also, a troubleshooting guide is provided in the event that some components do not respond to the system.

•

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• Appendix: The Appendix provides

additional information and forms that may be useful before and during installation.

If you encounter any problems or questions that are not covered in this manual, contact Bosch Security Systems Technical Support at the phone number listed on the back page of this manual.

Safety Symbols and Their Meanings

Throughout this document, the following symbols are used to alert the reader to safety issues when installing or operating the system:

This symbol informs the reader of possible bodily injury if procedures are not followed exactly. The text accompanying this symbol tells the reader what he should or should not do. For example, “ensure that you are properly grounded before opening the unit.”

This symbol alerts the reader to possible equipment damage if procedures are not followed correctly. For example, “do not connect the positive wire to the negative terminal.”

Conflicts with Other Documents

In addition to this manual, the installer is directed to review installation instructions that accompany individual components, and release notes. In the event of a discrepancy between the information provided in this document, and the information provided in a document accompanying a specific component (or release notes), the information contained in the installation instructions or release notes shall prevail.

Trademarks

Microsoft®, Windows, Windows NT®, Windows 98, and Windows 2000 are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries.

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2.3.2 Indoor Receiver Installation .. 19

1.0 System Overview................. 6

1.1 System Components Description... 6

1.2 Compatible Parts................ 7

1.3 System Components and

Specifications........................

1.3.1 Central Console................. 8

1.3.2 SE485 Interface Adapter......... 9

1.3.3 EA500 Transponder............... 9

1.3.4 EA102 Receiver................. 10

1.3.5 EA120 Alert Unit............... 10

1.4 Transmitters................... 11

1.4.1 Personal Escort Transmitters... 11

1.4.2 SE2 Personal Transmitter....... 12

1.4.3 SE3 Subscriber Transmitter Family

...............................

1.4.4 SE3401 Point Tracking Transmitter

...............................

1.5 Cables......................... 13

1.5.1 C312: Transponder to ProxLink

Radio Module Cables............

1.5.2 Master to Slave................ 13

1.5.3 Computer to SE485 (not supplied)

...............................

1.5.4 Battery Cables................. 13

1.6 Batteries...................... 13

1.6.1 E28629B, Special 3 Ah.......... 13

1.6.2 P334, Standard 7 Ah............ 14

1.6.3 D1218, Standard 17 Ah.......... 14

1.7 Enclosures..................... 14

1.7.1 AE1, Small Indoor Enclosure.... 14

1.7.2 AE3, Large Indoor Enclosure.... 14

1.7.3 AE100 Indoor Enclosure......... 14

1.7.4 AE101 Outdoor Enclosure........ 14

1.8 Miscellaneous.................. 14

1.8.1 Siren Strobe................... 14

1.8.2 TR1850 Transformer, 110 VAC to

18 VAC, 50 VA, 60Hz............

1.8.3 E28666B Security Hex Driver.... 14

1.8.4 P335-10 Replacement Batteries.. 14

1.8.5 Holsters for SE2 Transmitters.. 14

1.8.6 SE112.......................... 15

1.8.7 CTS1-70 Enclosure Cover/Wall

Tamper.........................

2.0 Equipment Estimation........... 15

2.1 Location Accuracy.............. 15

2.2 Pre-Bid Equipment Estimation... 16

2.2.1 Initial Equipment Estimate..... 16

2.3 Pre-Construction Coverage

Verification Survey..................

2.3.1 Verify Each Potential Receiver

Location.......................

2.3.3

Outdoor Receiver Installation . 19

2.4 Post Construction Setup ....... 21

2.4.1 Testing the location accuracy of

an installation ...............

2.4.2 Improving the location accuracy

3.0 Installation Instructions ..... 25

3.1 Overview of Installation Process

..............................

3.2 Run System Wiring ............. 25

3.2.1 General Guidelines ............ 25

3.2.2 Observe Established Standards . 26

3.2.3 SE485 Interface Wiring Notes .. 30

3.2.4 Transponder Wiring Notes ...... 30

3.2.5 Receiver Wiring Notes ......... 30

3.2.6 Alert Unit Wiring Notes ....... 30

3.3 Mounting the Enclosures ....... 30

3.3.1 AE1 Small Indoor Enclosure .... 30

3.3.2 AE3 Large Indoor Enclosure .... 31

3.3.3 AE100 Indoor Enclosure ........ 31

3.3.4 AE101 Outdoor Enclosure ....... 32

3.4 Mounting and Setting Up

Components ..........................

3.4.1 EA102 Receiver Installation ... 32

3.4.2 EA500 Transponder Installation 32

3.4.3 EA120 Alert Unit Installation . 34

3.4.4 ProxLink Setup ................ 36

4.0 System Power-up and Debug ..... 38

4.1 Initial System Configuration .. 38

4.2 Powering Up the System for the

First Time ..........................

5.0 Testing and Troubleshooting ... 40

5.1 Built-In Troubleshooting Aids . 40

5.2 Receiver ...................... 40

5.2.1 Jumpers ....................... 40

5.2.2 Test Mode ..................... 40

5.2.3 Receiver Spacing Mode ......... 41

5.3 Transponder ................... 41

5.3.1 Status LEDs ................... 41

5.3.2 Verifying Communications ...... 43

5.4 Troubleshooting Reference ..... 43

Appendix ............................ 47

Transponder Information Sheet ....... 47

18 18

of an installation ............

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21 23

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Figures

Figure 1: System Block Diagram........ 6

Figure 2: Determining the Number of

Indoor Receivers Required...

Figure 3: Determining the Number of

Outdoor Receivers Required..

Figure 4: Receiver Spacing........... 18

Figure 5: General Wiring Diagram..... 27

Figure 6: Transponder to ProxLink

Wiring......................

28 Figure 7: ProxLink to Central Console 29

Figure 8: AE1 Enclosure.............. 31

Figure 9: AE3 Enclosure.............. 31

Figure 10: AE100 Enclosure........... 31

Figure 11: Back of AE100 Enclosure... 32

Figure 12: Inside AE101 Enclosure.... 32

Figure 13: EA500 Mounting to AE1

Enclosure...................

33 Figure 14: EA500 Mounting to AE3

Enclosure...................

34 Figure 15: Mounting the EA120 to the

AE1 Enclosure...............

35 Figure 16: Mounting the EA120 in the

AE101 Enclosure.............

35 Figure 17: ProxLink Radio Module

Configuration...............

37 Figure 18: Current Transponder Status

Screen......................

38 Figure 19: Receiver Configuration

Screen......................

Figure 20: EA500 Diagnostic LEDs..... 41

Figure 21: EA501 Diagnostics LEDs.... 41

Tables

Table 1: Compatible Parts............. 7

Table 2: Models and Supported Users... 8 Table 3: SE2 Personal Transmitter

Features....................

Table 4: SE3 Subscriber Transmitter

Features....................

Table 5: Battery Amp Hours........... 13

Table 6: Wiring Guidelines........... 25

Table 7: Transponder - SE485 Wiring

Table.......................

Table 8: Jumper Operation............ 40

Table 9: Status LEDs................. 42

Table 10:Transponder Communications

with SE485 Bus..............

Table 11:.Transponder Communication with

ProxLink Radio..............

Table 12:EA500 Transponder Bus Faults 45

Table 13:EA102 Receiver Issues....... 45

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yDetectionSystem

System Overview

1.0 System Overview

1.1 System Components Description

The Security Escort System consists of five basic components: transmitters, receivers, alert units, transponders, and the central console.

Figure 1: System Block Diagram

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1 - Personal

transmitter

2 - Outdoor

4 - Transponder 5 - Interface 6 - Central console

receiver

3 - Indoor receiver

Transmitter: A miniature, hand-held radio transmitter used to send either a distress or a test signal. The receivers are located throughout the protected area and detect the radio transmissions from transmitters.

Alert units: Siren/strobe units activated in the event of an alarm.

Transponders: Devices that control groups of receivers and alert units, connected to them by wire. Each transponder relays alarm and test signals from its receivers to the central console. In addition, the

10 11

7 - Other transmitter

types

8 - Security transmitter

10 - Alert unit 11 -

Siren/strobe

9 - Spread spectrum

wireless link

Transponder tests for device and wiring faults, and transmits problem conditions to the central console.

Central console: A computer (plus an optional backup and up to eight optional workstations) which receives alarm and trouble signals from the transponders, analyzes the signals, activates strobes and sirens on the alert units, and produces a display for the security dispatcher. Each of these system elements is described more fully in the sections that follow.

s,Inc.

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1.2 Compatible Parts

Table 1 indicates the parts available for inclusion in a Security Escort System. Contact Bosch Security Systems Customer Service for up-to-date model numbers.

Table 1: Compatible Parts

Part Name Description

Electronics, Components

Enclosures and Housings

Cables C311

Software SE2005

Misc. Parts and Accessories

EA500 EA102 EA120 SE485 SE3

Transmitters SE2

Transmitters SE3401 AE3 AE1 AE100 AE101

C312

SE2010 SE2050 SE2100 HOLST-LGB-SE2 HOLSTER-SE2 E28666B TR1850 P335-10 E28629B P334 D1218 SE112 CTS1-70

Electronics for eight-bus transponder Electronics for indoor or outdoor receiver Electronics for indoor and outdoor alert unit Interface between transponder and central console Personal duress transmitter Man-down, lanyard, supervisory, and duress

transmitter Point tracking transmitter

Large [51.5 cm x 37.5 cm (20.25 in. x 14.75 in.)] enclosure

Small [36.8 cm x 31.8 cm (14.5 in. x 12.5 in.)] enclosure

Indoor receiver enclosure Outdoor receiver enclosure 3 Ah or 7 Ah battery harness parallel expansion kit Cables for transponder to ProxLink Radio Module System software for up to 500 users System software for up to 1000 users System software for up to 5000 users System software for up to 10000 users Leather holster for SE2 Transmitters, large belt

loop [5.7 cm (2.25 in.)] Leather holster for SE2 Transmitters, standard belt

loop [4.5 cm (1.75 in.)] Security hex driver for receivers Transformer SE2 Replacement Batteries, ten pack of CR2, 3 VDC

lithium 3 Ah 12 V battery for outdoor alert unit 7 Ah 12 V battery for indoor alert unit 17 Ah 12 V battery Portable test receiver with display Enclosure cover/wall tamper for AE1 and AE3

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1.3 System Components and

Specifications

1.3.1 Central Console Description

The central console consists of one or two IBM PC compatible computers (and up to eight additional workstations) running the Security Escort software

within the Microsoft environment. One computer serves as the master controller for the entire Security Escort system. The second slave computer serves as a back-up. The slave computer can be used for administrative functions such as adding subscribers or performing routine system tests without interfering with the operation of the main computer. The workstations can perform all normal Security Escort functions with the exception of communicating with the Security Escort

Windows®

For systems supporting more than 10000 users, contact Bosch Security System Sales.

Minimum System Requirements

Each computer in the central console should be equipped with at least the following features and components:

• Processor: Pentium class processor

or better, 200 MHz or faster.

• Operating system: Microsoft Windows

95, Windows 98, Windows NT later), or Windows 2000.

• RAM: 16 megabytes of RAM minimum,

32 megabytes preferred, in Windows 95 or Windows 98. Windows NT or Windows 2000 systems should have 64 megabytes of RAM.

• Hard disk space: 1 gigabyte of hard

disk space should be available to allow collection of historical data.

transponders.

Software Overview

The central console contains all the operating software and all the databases required by the Security Escort system. The installation and maintenance portion of the Security Escort software facilitates set-up and modification of the system and provides rapid diagnosis of system problems. Usually only one person is required. The system software also continually monitors the status of each transponder to ensure it functions correctly.

Versions

There are several versions of the software available. The number of users the system supports defines each version.

Table 2 lists the available models and the number of supported users:

Table 2: Models and Supported Users

• Backup: External backup drive, such

as an Iomega or SyQuest Cartridge Hard Disk for backup and history storage.

• Video: VGA (640 x 480) at 256

colors minimum, 800 x 600 high color (16 bits) recommended, 1024 x 768 high color supported, true color (24 bits) is also supported. If displaying subscriber images, high color (16 bits) or true color (24 bits) should be used.

• Modem: Optional V.32 bis (14.4),

V.34 (33.8), or V.90 (56.6) modem for remote access and pager dialout. If the modem is external, an additional serial port is required.

• Sound: Any Windows compatible sound

system. One set of computer speakers per computer.

• Printer: Parallel port, dot matrix,

continuous forms, printer for alarm output.

Model User Base

SE2005 500 SE2010 1000 SE2050 5000 SE2100 10000

Note:

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(4.0 or

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• Additional serial ports (if

needed): Any multi-port board fully

supported by Windows. A four-port ISA serial port card made by Digiboard, model AccelePort Xe, part number 76000035. Required four-port cable for DB25, part number 76000008. Digiboard also makes eight- and sixteen-port solutions. They may be contacted at www.digiboard.com.

Databases

• Alarm reports: Each alarm is saved

as a record containing subscriber data, time and date of alarm,

1.3.2 SE485 Interface Adapter Description

The SE485 is an interface between the pseudo RS-485 signal bus of the Security Escort Transponder and the Serial Bus (RS-232) of the Security Escort central console. The SE485 allows multiple transponders to interface into a single RS-232 port.

Due to changes made for transient protection, transformer isolation, and link busy detection, these signals are not compatible with third party RS-485 interfaces.

Specifications

acknowledgment and silence times, responding officer, problem description, and action taken. The alarm map can be reproduced and the location text is displayed.

• History: A complete chronological

history of all system actions, tests, and alarms is recorded.

• Dimensions: 13.5 cm x 8.5 cm x 30

cm (5.375 in. x 3.3125 in. x 1.1875 in.).

• Power Source: 9 VDC, 200 mA. An

included 120 VAC adapter to 9 VDC or from the transponder 9 VDC terminals.

• Operators: File of those authorized

to use the Security Escort system.

• Temperature range: 0°C to +65°C

(+32°F to +149°F)

• Subscriber: Complete record of all

subscriber data and current status, low battery, and last test date and time.

• Transponders: System configuration

containing all installed equipment and system interrelationships.

Other Specifications

• Temperature range: 0ºC to +40ºC

(+32ºF to +105ºF)

• Primary power: 120 VAC 900 W (two

computers, two monitors, and one printer).

• Backup power: 1200 VA UPS per

computer provides 45 min. to 1-hr. backup. System should also be backed up by an emergency generator for extended blackouts (can be shared with other emergency

1.3.3 EA500 Transponder Description

The transponder is a device controller for up to 64 devices; and any combination of receivers and alert units. The devices are connected to the transponder by means of four-wire buses; two for power and two for data. There are eight buses and each bus is capable of supporting up to eight devices. The Security Escort system supports up to 255 transponders.

Specifications

• Compatible Enclosures:

- Small indoor: AE1

- Large indoor: AE3 (recommended)

• Temperature range:

(-40°F to +149°F)

equipment).

• Power Source: 18 VAC, 50 VA (can

• Pager: Pager support is included

and selected troubles can be

use TR1850, 110 VAC to 18 VAC transformer)

automatically sent to a service pager.

• Battery backup: 12 VDC lead acid

battery

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-40°C to +65°C

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• Power output: 9 VDC output for

SE485 or for ProxLink Radio Module power

• Driver outputs:

- Strobe: 500 mA solid state sink,

terminal switches to ground in an alarm condition.

- Siren: 500 mA solid state sink,

terminal switches to ground in an alarm condition.

• Multiplex buses: eight multiplex

driver buses for power and communication to receivers or alert units

• Communication interface to central

console: selectable SE485 or RS-232

• Keyswitch input: Optional 47k EOL

resistor, supervised loop

1.3.4 EA102 Receiver Description

The EA102 Receivers are located throughout the grounds and building interiors. Each receiver contains a radio receiver to detect the

Specifications

• Enclosure:

- Indoor: AE100 indoor enclosure

- Outdoor: AE101 outdoor enclosure

• Temperature range: -40°C to +65°C

(-40°F to +149°F)

• Power source: 12 VDC, 25 mA

typical, 55 mA with horn sounding, supplied from the transponder MUX bus

• Antenna type: Diversity antennas

protected within enclosures

1.3.5 EA120 Alert Unit Description

This is a control module that communicates with the transponder on the MUX Bus. The alert unit can be used to activate strobe and siren units or optional other switched devices. The alert unit also reports tampering, AC power loss, and backup battery level to the transponder.

Specifications

transmissions from transmitters. Multiple receivers detect the same transmission and send the signal information to the transponder so the system can identify the transmitting device, transmitting information, and location. The receiver also reports housing tampering and radio jamming to the transponder.

Indoor receivers are typically mounted on inside walls and have one red and one green LED. The green LED is used to indicate a successful Test of a personal transmitter. The red LED is illuminated during alarms. Each receiver contains a piezo-electric horn that can be activated if the receiver detected an alarm transmission

Outdoor receivers are contained in small weatherproof boxes typically mounted on the sides of buildings and on light posts. Outdoor receivers do not have the visible red and green LED’s. Outdoors, the strobe lights on

• Enclosures:

- Indoor: AE1 small indoor metal

- Outdoor: AE101 outdoor fiber

• Temperature range: -40°C to +65°C

(-40°F to +149°F)

• Power source: 18 VAC, 50 VA (can

use TR1850, 110 VAC to 18 VAC transformer)

• Battery backup: 12 VDC lead acid

battery

• Driver outputs:

- Power: 1 A maximum, intended as

the supply source for strobe and siren

Strobe: 500 mA solid state sink,

terminal switches to ground in an alarm condition

- Siren: 500 mA solid state sink,

terminal switches to ground in an alarm condition

the alert units should be used to acknowledge successful test and alarm.

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1.4 Transmitters

1.4.1 Personal Escort Transmitters Note:

Not all features are available on all transmitters.

• Unique ID Code: All Personal Escort

Transmitters contain a unique identification that can be entered into the central console System Database. This allows the system to only respond to appropriate users and ignore unauthorized devices. It also allows unique identification of owner in database.

• Local Piezo Sounder: All Personal

Escort Transmitters contain an internal piezo sounder device. The piezo is sounded during most types of transmissions to indicate to the user that the alarm or test event was activated.

• Duress Alarm (Manual Alarm): All

Personal Escort Transmitters allow an alarm condition to be transmitted by the user manually activating the ALARM buttons.

• Note:

Supervision transmissions do not activate the local piezo sounder.

• Lanyard: Some transmitters contain

a “pull switch” that transmits an alarm if the lanyard is pulled from the transmitter unit.

• Auto Tracking: When an alarm is

transmitted, the transmitter continues to transmit periodically for 15-min. following the alarm. This allows the system to track a moving transmitter that is activated.

• Silent Manual Alarm (“Security”):

This feature is available on Security Transmitters. When the duress alarm (manual alarm) is activated by the user, there is no local sounder turned on. This allows users to transmit the alarm silently.

• Maintenance Transmitter: Used to

validate the system functions. By performing a test, the receiver indicates receptions by lighting the green LED. Transmitting an

• Transmitter Test: All Personal

Escort Transmitters allow the user to activate the transmitter to perform a system test. This tests that the system acknowledges the transmitter, the receivers in the area function, the transponder

alarm lights the red LED. The Maintenance Transmitters do not activate a real system alarm, the system uses the information for diagnostic and test purposes only. There is no auto tracking on the Maintenance Transmitters.

communication functions, and the particular transmitter ID are in the central console database.

• Low Battery Indication: The battery

status is sent with each transmission, the system tracks and

• Man-Down: Some transmitters contain

reports low battery devices.

an internal “tilt” switch that monitors and transmits an alarm if the transmitter is not in an upright position.

• Supervision: Some transmitters send

periodic transmissions, allowing the system to monitor activity of the transmitter and report failing transmitters or missing transmitters.

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1.4.2 SE2 Personal Transmitter Description

There are several versions of the SE2, and these versions along with their respective features are shown in

Table

Table 3: SE2 Personal Transmitter Features

Feature Model SE2S SE2U SE2M SE2S-SN SE2U-SN

Manual Duress Alarm Manual Test Man-Down Supervision Lanyard Snatch Auto Tracking Silent Manual Alarm Low Battery Indication

Note:

Due to communications limitations between the transponder and receivers, a maximum of 200 supervised SE2 transmitters can be handled in a Security Escort system.

Specifications

• Battery: User replaceable 3 V

lithium

• Temperature range: -30ºC to +65ºC

(-22ºF to +150ºF)

1.4.3 SE3 Subscriber Transmitter

Family

Description

The SE3 Subscriber Transmitter is a personal duress transmitter that contains the Manual Duress Alarm, Manual Test, and Auto Tracking features.

9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9

9 9 9 9 9 9

9 9 9

9 9 9 9 9

Specifications

• Battery: Two user replaceable 3 VDC

lithium coin cells (CR2025 size)

• Temperature range: (-30ºC to +65ºC)

-22ºF to +150ºF

1.4.4 SE3401 Point Tracking Transmitter

Description

The SE3401 Point Transmitter is a magnetic and dry contact wireless transmitter used for monitoring assets.

The unit is equipped with an internal reed contact for use with an external magnet assembly (included), a cover tamper switch and RF supervision. The SE3401 also can accept a supervised dry contact input from an external device.

Specifications

• Dimensions:

Table 4: SE3 Subscriber Transmitter

Features

Feature Model SE3U SE3S

Manual Duress Alarm Manual Test Auto Tracking Silent Manual Alarm Low Battery Indication

9 9 9 9 9 9

9 9

- Transmitter w/o Mounting Plate:

35 mm x 76.5 mm x 19 mm (1.5 in. x 3.25 in. x .75 in.)

- Mounting Plate:

35 mm x 76.5 mm x 3.2 mm (1.5 in. x 3.25 in. x .125 in.)

• Operating Temperature: (-20°C to

+65°C ) (-4°F to +150°F)

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• Operating Voltage: Supplied by a 3

VDC lithium battery.

• Battery Life: Up to five years

under normal usage with the recommended battery types. Higher usage decreases battery life.

• Recommended Battery Types: Duracell

DL123A, Energizer EL123AP, or Panasonic CR123A.

• Compatible Receivers: EA102A-304

• Options: Magnet-RF-10 Assembly

(supplied in packages of ten)

1.5 Cables

1.5.1 C312: Transponder to ProxLink Radio Module Cables

Description

Two cables - one cable provides power from the Transponder to the ProxLink Radio Module; the other cable provides data transfer between the Transponder and ProxLink Radio Module (nonstandard cable).

Specifications

• Power

- Length: 1.8 m (72 in.)

- Connectors: DC power plug at one

end (negative contact on outside, positive contact in

1.5.3 Computer to SE485 (not supplied) Note:

This cable is not supplied by Bosch Security Systems.

Description

This cable connects the SE485 Interface to the serial port of the Security Escort central console.

Specifications

• Maximum length: 15 m (50 ft.)

• Connectors: The SE485 uses a DB25

pin male connector, the other end depends on the computer serial port connector. The wiring is a straight-through serial cable.

1.5.4 Battery Cables Description C311: This kit is used to parallel

connect two small-lug-size batteries to increase backup battery capacity.

1.6 Batteries

Bosch Security Systems recommends that you supply your own 12 V lead-acid batteries for system component back-up time as needed for your installation. However, some of the standard battery sizes can be supported. See for the required amp hours of the

batteries for your installation. center), flying leads on the other end

• Data

- Length: 76 cm (30 in.)

- Connectors: Standard male DB9

connectors at each end, wired special for data link. NOT a standard cable.

1.5.2 Master to Slave Note:

This cable is not supplied by Bosch Security Systems.

Description

Null modem cable connecting the two computers running the central console software.

Specifications

Table 5: Battery Amp Hours

Amp hours (Ah) Required per

Number

Hours

4 2.3 3.5 5.7 10.2

8 4.6 7.0 11.4 20.4

12 7.0 10.3 17.0 30.6

24 14 20.6 34.0 ----

1.6.1 E28629B, Special 3 Ah

Description

Special size used especially for the

outdoor alert unit.

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Table 5

Number of Receivers

8 16 32 64

• Maximum Length: 15 m (50 ft.)

• Connectors: To be compatible with

your PC’s requirements.

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Specifications

• Dimensions: 6.3 cm x 13.3 cm x 6.3

cm (2.5 in. x 5.25 in. x 2.5 in.)

• Amp-hours: 3 Ah

• Voltage: 12 VDC

1.6.2 P334, Standard 7 Ah Specifications

• Dimensions: 9.5 cm x 15.2 cm x 6.3

cm (3.75 in. x 6 in. x 2.5 in.)

• Amp-hours: 7 Ah

• Voltage: 12 VDC

1.6.3 D1218, Standard 17 Ah Specifications

• Dimensions: 16.5 cm x 17.8 cm x 7.6

cm (6 1/2 in. x 7 in. x 3 in.)

• Amp-hours: 17 Ah

• Voltage: 12 VDC

1.7 Enclosures

1.7.1 AE1, Small Indoor Enclosure Description

The AE1 Enclosure is suitable only for indoor installation. A mounting kit for the electronic components is included.

Specifications Dimensions: 36.8 cm x 31.8 cm x 8.6 cm

(14.5 in. x 12.5 in. x 3.375 in.)

1.7.2 AE3, Large Indoor Enclosure Description

The AE3 is suitable only for indoor installation. A mounting kit for the electronic components is included.

Specifications Dimensions: 52.7 cm x 38 cm x 10.8 cm

(20.75 in. x 15 in. x 4.25 in.)

1.7.3 AE100 Indoor Enclosure Description

The AE100 Indoor Enclosure houses the receiver. It is suitable only for indoor installation.

Mounting screws: Security design, require E28666B security hex driver

Specifications

Dimensions: 22.9 cm x 17.8 cm x 14.4

(9 in. x 7 in. x 1.75 in.)

1.7.4 AE101 Outdoor Enclosure

Description

This enclosure houses the receiver or

alert unit. It is suitable for outdoor

installation. The receiver’s LEDs and

sounder cannot be used in this

enclosure. A mounting kit for the

electronic components is included.

Specifications

Dimensions: 37.5 cm x 32.4 cm x 8.9 cm

(14.75 in. x 12.75 in. x 3.5 in.)

1.8 Miscellaneous

1.8.1 Siren Strobe

The armored siren with strobe can be

purchased through third-party vendors.

Bosch Security Systems recommends

Amseco Armored Siren with Strobe

(model number SSX-51S).

1.8.2 TR1850 Transformer, 110 VAC to 18 VAC, 50 VA, 60Hz

Description

The TR1850 Transformer provides AC power to the transponder and alert unit.

Specifications

• Input: 110 VAC, 60 Hz

• Output: 18 VAC, 50 VA max.

1.8.3 E28666B Security Hex Driver

Description

The E28666B Security Hex Driver is the tool required to mount and maintain the indoor receiver enclosures.

1.8.4 P335-10 Replacement Batteries

Description

The P335-10 is a ten-pack of lithium replacement batteries for the SE2 Transmitters.

1.8.5 Holsters for SE2 Transmitters

Description

• HOLSTER-SE2: Leather holster for

4.4 cm (1.75 in.) security belt.

• HOLST-LGB-SE2: Leather holster for

5.7 cm (2.25 in.) security belt.

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Security Escort | Installation and Setup Guide | 2.0 Equipment Estimation

1.8.6 SE112 Description

Custom Test Receiver with LCD display.

1.8.7 CTS1-70 Enclosure Cover/Wall Tamper

Description

The CTS1-70 can be installed in AE1 and AE3 Enclosures for use as a cover tamper switch, a wall tamper switch or both (two required). The CTS1-70 is intended for connection to normally closed tamper or supervised circuits, and operates as a normally closed device when the plunger is depressed.

Specifications

Contacts are rated 0.3 A, 100 VDC, maximum.

2.0 Equipment Estimation

A Security Escort system installation consists of three major steps.

1. The pre-bid equipment estimation

2. The pre-construction coverage

verification survey

3. The post construction setup The Security Escort Receivers work

effectively in a wide variety of installations and can be placed with confidence provided these installation requirements are met. Therefore, at the pre-bid stage, it is acceptable to estimate the required equipment. To ensure proper coverage after proposal acceptance, potential receiver locations can be verified using a standard receiver in test mode or the portable test receiver before construction begins.

2.1 Location Accuracy

The Security Escort system provides quick response to a duress call by dispatching a responding individual to an area without adding additional delay to their response to that duress call.

The Security Escort system uses radio frequency (RF) for alarm transmissions. This is significant because it prevents normal construction from blocking the signal and helps to eliminate dead spots where the alarm cannot be heard. The fact that RF energy passes through normal construction prevents Security Escort from locating an alarm with 100% certainty to a specific side of a wall. Alarms originating at or near building walls are typically indicated within 7.5 m (25 ft.) of the actual location; however, there may be times when the computed location may appear to be on the other side of the wall.

The Security Escort system was designed to provide a computed alarm location typically within 7.5 m (25 ft.) of the actual location when indoors and a computed alarm location typically within 15 m (50 ft.) of the actual location outdoors. Any deviation from the following installation guidelines degrades the computed location accuracy. Use the following installation guidelines, to achieve these results.

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Equipment Estimation

2.2 Pre-Bid Equipment Estimation

The pre-bid equipment estimation is performed prior to bidding the installation. At this point, it must be determined what type of coverage is desired, and where the coverage is required. For example, the amount of equipment required for a full-coverage (indoor and outdoor) system in a multi-building application is greater than an installation that requires outdoor only coverage. The customer should be consulted and the areas of most concern should be given special consideration.

2.2.1 Initial Equipment Estimate

Number of Indoor Receivers

To estimate the number of indoor receivers, first read Section Indoor Receiver Installation. Assume the receivers are placed on a grid with a maximum spacing of 25 m (80 ft.) between receivers for standard construction. In multi-floor applications the receivers on each floor must be placed directly above the receivers on the floor below (this is required for proper floor-to-floor location).

For example, to determine the number of receivers required to protect a building of standard construction of 60 m x 30 m (200 ft. x 100 ft.) and four floors:

2.3.2

1. To determine the number of

receivers in each direction, divide each dimension of the building by 25 m (80 ft.), drop the remainder, and add 1. For example:

• 60 m/25 m = 2.4, becomes 2, add

1 = 3 (200 ft./80 ft. = 2.5, becomes 2, add 1 = 3)

• 30 m/25 m =1.2, becomes 1, add 1

= 2 (100 feet/80 feet =1.25, becomes 1, add 1 = 2)

2. To determine the number of

receivers required per floor, multiply the number of receivers in one direction by the number of receivers in the other direction: (3 times 2 = 6) 6 receivers per floor

3. To determine the total number of

receivers, multiply the number of receivers per floor by the number of floors: (6 times 4 = 24) 24 receivers for the building

Each floor would require 6 receivers, resulting in a total of 24 receivers to protect this building.

For the best location accuracy, consistent receiver spacing is important. Do not place receivers significantly closer in one section of a building than another section.

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Figure 2: Determining the Number of Indoor Receivers Required

60 m

200 ft.

25 m 80 ft.

1 - Receivers (6)

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25 m 80 ft.

30 m

100 ft.

Security Escort | Installation and Setup Guide | 2.0

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Equipment Estimation

Number of Outdoor Receivers

To estimate the number of receivers, first read Section

2.3.3 Outdoor

Receiver Installation. Assume a

maximum receiver spacing of 90 m (300 ft.) between receivers, in both directions, for receivers that are not within 30 m (100 ft.) of a building with inside coverage. Receivers within 30 m (100 ft.) of a building should be spaced the same as receivers in the building (spacing the outside receivers at a somewhat larger spacing

An outside area directly between two buildings with inside protection needs no additional receivers if the buildings are 90 m (300 ft.) or less apart. If the buildings are more than 90 m (300 ft.) apart the outside receivers should evenly spaced between the buildings. Make sure the standard 90 m (300 ft.) spacing is not exceeded. For outside spacing adjacent to a covered building, start the 90 m (300 ft.) spacing at the building wall.

is acceptable in most cases).

Figure 3: Determining the Number of Outdoor Receivers Required

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30 m

100 ft.

by by

byby

90 m

300 ft.

1 - Receivers 2 - Building 1

Allowance for Special Coverage Requirements

For purposes of the bid, the number of receivers estimated should be increased by 5% to allow for special coverage considerations and RF problem areas.

Number of Transponders

Assume one transponder per building for indoor installations. If wiring can be run from other buildings or from outdoor receivers, they can be connected to one transponder. Never exceed the total number of 64 devices (receivers and alert units) per transponder. All outside wiring must be under ground or in metal conduit.

30 m

100 ft.

90 m

300 ft.

byby

90 m

300 ft.

3 - Building 2

Number of Receiver and Alert Units per Multiplex Bus

Although each bus can handle eight receivers and alert units, it is a good idea to leave some addresses available on each bus to allow for future expansion. For systems with a high number of supervised transmitters, see Section

3.2.4

Transponder Wiring Notes.

Multiplex Bus Wire

The multiplex bus should be wired with four conductor 1.2 mm (18 AWG) wire. The wire should not be paired or shielded. In the United States this is the same as fire system wire, except it should not be red.

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