SONIP FlexIP Panel - Sonitrol Evansville

SONIP FlexIP Panel 19810065-2.0

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Copyrights and Trademarks Copyright 2015 by Stanley Security Solutions.

All rights reserved.

No part of this document may be reproduced or distributed in any form or by any means, or stored in a database or retrieval system, without the prior written permission of Stanley Security Solutions.

Trademarks

Sonitrol is a Registered Trademark of Stanley Security Solutions.

All other products are trademarks of their respective manufacturers. All registered and unregistered trademarks are the sole property of their respective companies.

Reference Material

Related Publications

Description Part Number

I/O Expansion Module Installation Guide 19810006

Audio-8 Module Installation Guide 19810007

Keypad Installation Guide 19810009

Access-4 Module Installation Guide 19810011

Power Hub Installation Guide 19810013

Panel Programming Guide 19810015

History of Changes:

Date Summary of Changes Editor

7/15/2014 New document. Travis Grynowicki

7/8/2015 UL 294, FCC Part 15, and Transformer listings updated Travis Grynowicki

19810065-2.0 SONIP FlexIP Panel

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Table of Contents 1. Overview ......................................................................................................................................... 1

2. Installation...................................................................................................................................... 2

2.1 Hardware ................................................................................................................................... 2 2.2 Mount the Enclosure ................................................................................................................. 2 2.3 Enclosure Options ..................................................................................................................... 2 2.4 Install the Standoffs ................................................................................................................... 3 2.5 Mount the Transformer .............................................................................................................. 5 2.6 Earth / Chassis Ground Standoffs ............................................................................................. 8 2.7 Mount the Tamper Switch ......................................................................................................... 9 2.8 Mount the SONIP FlexIP Control Unit ....................................................................................... 9 2.9 Terminal Block Mounting ......................................................................................................... 11 2.10 FlexIP System Wiring ............................................................................................................ 11 2.11 Strain Relief and Cable Routing Lances ............................................................................... 12 2.12 Battery Kit .............................................................................................................................. 13 2.13 Voice Grade Wiring ............................................................................................................... 14 2.14 System Databus Connection ................................................................................................. 15 2.15 System Databus Connection ................................................................................................. 16 2.16 Ethernet Cabling .................................................................................................................... 17 2.17 Non-Power and Power Limited Wiring .................................................................................. 18

3. Wiring the SONIP FlexIP System ............................................................................................... 19

3.1 FlexIP Panel Wiring ................................................................................................................. 19 3.2 Inovonics Echostream Installation ........................................................................................... 25 3.3 Cellular Backup (MBR1200B) Installation ............................................................................... 29 3.4 LEDs ........................................................................................................................................ 33 3.5 FlexIP Panel Wiring and Electrical Ratings ............................................................................. 34 3.6 Terminal Voltage with EOL Resistors ..................................................................................... 35

4. Calculating Battery Standby ...................................................................................................... 36

4.1 Battery Calculation Worksheet ................................................................................................ 38 4.2 Formulas .................................................................................................................................. 40

5. IP Communication ....................................................................................................................... 41

5.1 IP Communication Configuration ............................................................................................ 41 5.2 FlexIP IP Communication Troubleshooting ............................................................................. 42

6. Basic Programming .................................................................................................................... 44

6.1 Setup Communications Options .............................................................................................. 44 6.2 Partition Settings ..................................................................................................................... 45 6.3 Keypad Settings ...................................................................................................................... 45 6.4 Alarm Input Settings ................................................................................................................ 45 6.5 Audio Detection Settings ......................................................................................................... 46 6.6 Period Settings ........................................................................................................................ 46 6.7 Shift Settings ........................................................................................................................... 46 6.8 Access Control Settings .......................................................................................................... 46 6.9 Access Level Settings ............................................................................................................. 46 6.10 User Settings ......................................................................................................................... 46 6.11 Additional Settings ................................................................................................................. 47

7. Agency Compliance .................................................................................................................... 48

7.1 Part 15 Notification .................................................................................................................. 48 7.2 Canada .................................................................................................................................... 48 7.3 Part 68 Notification .................................................................................................................. 49 7.4 Automatic Dialers .................................................................................................................... 50


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7.5 Agency Compliance Statement ............................................................................................... 50 7.6 Burglar Alarms ......................................................................................................................... 51 7.7 CAN/ULC-S319 ....................................................................................................................... 53

8. Specifications .............................................................................................................................. 56


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1. Overview The FlexIP Panel is the main control and communicator board for the SONIP FlexIP System. It is important to create a comprehensive system plan prior to installing the SONIP FlexIP System. This plan should include a site map, a component and equipment list, an alarm point list, a partition list, a period list, a shift list and a user list.

Burglar Application – The modules used in the Burglar applications are FlexIP, Power Hub, Audio-8, Input/Output (I/O), iClass keypads, and Standard Keypads. The minimum configuration for Burglar applications is 1 FlexIP and 1 iClass or Standard Keypad. The FlexIP has three optional communication paths, which include IP, Cell, and Phone Line. The panel allows the communication paths to be configurable where any one of the 3 communication paths can be optioned alone or any other order of communication path priority can be optioned as long as IP is Primary, and Phone Line is the last communication in the sequence. A user may arm the system without valid communications to the Central Station at the time of arming, but the system requires an acknowledgement from the user before proceeding to arm. This allots for local security via annunciation or similar. Refer to the following FlexIP peripheral modules manual for additional information about each module type. The peripheral modules manuals part numbers are Access4 (Installation guide part #19810011), Audio8 (Installation guide part #19810007), Input/Output (Installation guide part #1980006), Keypad (Installation guide part #1980009), Keypad (User Guide part #19810016), and Power Hub (Installation guide part #19810013). For programming the FlexIP, refer to SonIP iBase/FlexIP Programming Guide (Programming guide part #19810015)

Access Control Application – The modules that used in access control applications are FlexIP, Access-4, Power Hub, Audio-8, Input/Output (I/O), iClass Keypads, and Standard Keypads. The minimum system configuration for access control is 1 FlexIP, 1 Access-4, 1 iClass, or Standard Keypad.


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2. Installation 2.1 Hardware Each SONIP FlexIP System Control Panel is shipped with the following hardware.

(6) #6 — 32 × 1/4” mounting screws

(6) #6 — 32 × 7/8” threaded hex spacers

(4) EOL resistors

(2) Battery wires

CAUTION

You must be free of static electricity before handling circuit boards. Wear a grounding strap or maintain contact with grounded bare metal surface while working with circuit boards to discharge static electricity.

To install the FlexIP Control Panel, follow the steps in this section.

2.2 Mount the Enclosure A suitable mounting location should include easy access for wiring, good lighting, suitable access to power and earth ground, and ample space to work. The mounting surface should be flat and dry. We do not recommend mounting metal enclosures directly onto concrete walls. Check with local authorities to verify local codes regarding metal enclosure mounting.

IMPORTANT

To maintain compliance with UL 365, UL 690, and UL 1610 the main control panel must be installed within a safe, vault, or Extent #1 stockroom.

Remove the door cover, by lifting the door off the hinge pins. All of the SONIP enclosures have four mounting holes located in the corners of the enclosures. (See Fig. 1)

Mark the top holes and partially screw in #10 screws. Hang the enclosure on the #10 screws and tighten. Install the bottom #10 screws and tighten.

2.3 Enclosure Options Enclosures are available in two sizes (18” and 27”) and two styles (standard and attack). Enclosure selection should be based upon modules needed, power requirements, and environmental concerns. For UL compliance, attack enclosure with Tamper Resistant One Way Screws must be used. They should be installed with a flat bladed screw driver but require a special tool for removal. The part numbers for this tool are Sonitrol P/N 16900012 and McMaster-Carr P/N 7392A52. The enclosure types along with their model are as follows:

Enclosure Type Enclosure Model

27” Enclosure SONIP 27 ENCLOSURE

27” Attack Enclosure SONIP 27 ENCL-ATK

18” Enclosure SONIP 18 ENCLOSURE

18” Attack Enclosure SONIP 18 ENCL-ATK

Note: Only use 7 amp batteries in 18” enclosures.


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Note: In UL installations that require the use of attack enclosures, the installation must adhere to the below listed rules and standards as follows: UL294: Access control systems panel must be installed inside the protected area UL365: Police Station connected burglar alarm unit and systems UL1610: Central Station Burglar Alarm units: Panel must be installed inside protected premises.

Regular Tools and Equipment used for both Legacy Panels and I-Base Panels:

Philips and flat headed Precision Screwdriver Philips and flat headed Standard size Screwdriver Multi-Meter

Panduit Gun Butt Set Tone Generator Wire strippers Wire cutters 1 kΩ resistors RJ31x Block #10 Phillips screws & Anchors #8 Phillips screws & Anchors Power Drill and Drill bits (mason and wood bits) B-Wire connectors

2.4 Install the Standoffs Before the main control board can be installed, the appropriate standoffs must be installed. Install 6 #6-32 × 7/8” threaded hex spacers as shown in Figure 1.

Note: Do not remove the rubber insulators unless installing modules in this portion of the enclosure.

rubber insulators

Figure 1: Enclosure Mounting Holes


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Install the Standoffs: Before the main control board can be installed, the appropriate standoffs must be installed. Install 6 #6-32 x 7/8” threaded hex spacers as shown in figure 1.


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2.5 Mount the Transformer

Sonitrol Model # TRANSFORMER KIT AC

Description: 120 VAC Open-Frame Corded Transformer Kit

A — 1 Transformer,

B — 1 Heyco cable clamp

C — 1 Heyco universal bushing

D — 1 Heyco insulating bushing

E — 1 Transformer Shield

4 #6 screws

2 black Panel wires

3 #6 nuts

UL Certified Transformers

Part Number Form Factor Input Fuse Output

OTE-40-24-ACW22-C Plug-In 120 VAC N/A 24 VAC, 1660mA, 40VA

MGT-2440-CC Plug-In 120 VAC N/A 24 VAC, 1660mA, 40VA

T2428100F4 Open-Frame 120 VAC 250V 4A 24 VAC (Brown & Yellow) 4000mA, 100VA

BE33132001 Open-Frame 120 VAC Internal,

resettable 24 VAC, 5000mA, 120VA

Note: Transformer received may appear different from the model shown.

Figure 2: Open-Frame Transformer Kit pieces


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CAUTION

Do NOT apply power to transformer until you are done wiring the ENTIRE system.

IMPORTANT

Do not install the Transformer Shield (E) until you have completed the transformer installation.

Plug-in Transformer:

1. Verify you have all of the components from your transformer kit.

2. Punch out the small knockout hole in bottom left corner and feed cord through hole.

3. Attach Panel wiring to Transformer (A).

4. Provide strain relief (not supplied) for the 40 VAC Plug-in Transformer cord using a standard clamp for non-metallic wire in small knockout hole.

Note: When used in ULC applications, the securement tab must be removed from the class 2 transformer (40VA) plug in type.

Note: When used in UL U.S. applications, the class 2 transformer must be secured using the securement tab.

Open-Frame Transformer:

1. Verify you have all of the components from your transformer kit.

2. Punch out appropriate knockout hole in bottom left corner and feed cord through hole. (See Figure 3)

a. If applicable, attach the Heyco universal bushing (C) to plug wire and snap into punched knockout hole on the enclosure.

3. Attach wire to power source wires and strain relief (not supplied) using a standard clamp for non-metallic wires.

4. Attach the Panel AC Power wires to transformer 24VAC.

Note: Transformers are non-polarity sensitive!

Note: For T2428100F4, use the Yellow (24 VAC) and Brown (Common). Do NOT use Black (28 VAC) with Sonitrol equipment. See image to right.

6. Attach the Heyco cable clamp (B) to the side wall with cord going through it.

7. Mount the transformer with the #6 nuts as shown in Figure 4.

8. Attach and secure the Transformer Shield (E) with 4 #6 screws from outside the enclosure.

9. Snap Insulating Bushing (D) onto Transformer Shield (E) and feed panel wires through.

Note: Use 300 volt minimum rated wire nut and install per manufacture’s recommendation.

Note: Ensure the unit is not controlled by a receptacle controlled by a switch.

SECONDARY

PRIMARY

28VACBLACK

24VACYELLOW

COMBROWN

WHITE BLACK

T2428100F4


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Figure 3: Transformer Installation

Note: Transformer received may appear different from the model shown.


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2.6 Earth / Chassis Ground Standoffs It is important that proper grounding is provided to the chassis. Use two male/female standoffs provided with the chassis to secure both the earth ground and chassis ground wires. When securing the ground wires, use the internal tooth star washers provided with the chassis between the standoff and the wire connector. All connections should be tight and make a good electrical connection.

WARNING

EACH CONTROL PANEL OR DEVICE WHICH MOUNTS IN A METAL ENCLOSURE MUST HAVE ITS ENCLOSURE CONNECTED TO EARTH GROUND. CORRECT EARTH GROUNDING PROCEDURE MUST BE FOLLOWED.

Earth Grounding One Cabinet Containing Several Devices:

All devices designed for the system, except Keypads, have chassis ground connections via metal studs to the metal housing. Take care that these metal studs make good connection to the housing (beware of paint). The earth connections of every piece of equipment in the system can be used for connecting the shielding of shielded cables. If a device is placed in a plastic housing the earth lug of this device does not have to be connected.

Earth Grounding Panels in a Single Building:

If several enclosures are connected to earth ground, the safety earth ground of this building has to be checked by a licensed contractor.

Figure 4: Earth Ground


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2.7 Mount the Tamper Switch Assemble the tamper switches and mount the switch assembly using the screws provided with the enclosure.

1. Connect wire from one terminal of the wall tamper to one terminal of the lid tamper.

2. Connect 2nd terminal from each switch, with supplied wire, to an alarm point on the FlexIP Panel.

3. Mount wall tamper onto bracket using #6-32 × 3/4” screws.

4. Mount wall tamper assembly to enclosure using #6 × 3/8” screws from the outside.

5. Mount lid tamper switch to enclosure using #6-32 × 3/4” screws.

Figure 5: Tamper Switches

2.8 Mount the SONIP FlexIP Control Unit 1. Using the screws provided, follow the mounting diagram to locate and mount the SONIP

FlexIP Panel in the enclosure.


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Figure 6: FlexIP Mounting Configurations (27” Enclosure)

Figure 7: FlexIP Mounting Configuration in 18” Enclosure (with Audio8 board)


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2.9 Terminal Block Mounting 1. The terminal blocks are removable for wiring. They are non directional and can be installed

incorrectly. They can be reinstalled by aligning the correct number of terminal block positions over the pins and the slot over the pin strip and pressing down.

Figure 8: Mounting Terminal Block on Board

2. If the terminal blocks become separated they can easily be reassembled by sliding the grooved edge into the receiving slot on the other piece.

Figure 9: Terminal Block Assembly

2.10 FlexIP System Wiring All panel wiring should be kept well away from other wiring, avoiding parallel wire runs with other wires. Where parallel wires are unavoidable, keep unlike wires a minimum of 2 inches apart, or in Electrical Metallic Tubing (EMT). It is recommended that SONIP FlexIP System components that use direct wire transformers be wired into a dedicated circuit breaker and those that use plug-in transformers be plugged into an unswitched outlet.

Recommended wire gauges for a typical FlexIP installation are 18-22 AWG.


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2.11 Strain Relief and Cable Routing Lances Convenient cable tie lances have been provided in the enclosure. Please refer to Figure 16 when installing and routing system cabling. Refer to Figure 10 for installation of strain relief and cable routing ties.

Vertical left outer row is for power wires (transformer).

Vertical left inner row is for battery wires.

All remaining rows are for field wiring and/or backup or secondary battery wires.

Figure 10: Strain Relief and Cable Routing Lances


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2.12 Battery Kit Install batteries as required. See the Battery Calculation Worksheet to determine battery requirements.

7 Amp Hour Battery:

One (1) or two (2) 7 Amp hour batteries can be installed in the enclosure.

Note: All batteries require a wiring harness kit. When ordering your battery wiring harness kit, please refer to P/N 24000109 for Single 7Ah Battery Wiring Harness or P/N 24000110 for Dual 7Ah Battery Wiring Harness Fused.

Figure 11: 7 Amp Hour Single and Double Battery Wiring

18 Amp Hour Battery:

One (1) or two (2) 18 Amp hour batteries can be installed in the 27” enclosure only.

If using two (2) 18 Amp hour batteries, you must have a separate enclosure for the transformer.

Note 1: All batteries require a wiring harness kit. When ordering your battery wiring harness kit, please refer to P/N 24000111 for Single 18Ah Battery Wiring Harness or P/N 24000112 for Dual 18Ah Battery Wiring Harness Fused.

Note 2: For dual 7Ah and dual 18Ah configurations, a 2.5 Amp fuse is used and shipped with the part number associated with the dual battery wiring harness.

Figure 12: 18 Amp Hour Single and Double Battery Wiring

Note: For UL installations, one or two 12VDC, 40AH batteries are to be used. Refer to system loading for proper battery requirements.


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2.13 Voice Grade Wiring This equipment complies with FCC Part 68 rules.

US: FCC registration number to be provided.

Note: It is recommended that the system be wired to a dedicated voice grade (POTS) line when using a phone line for any communication sequence. A RJ31X jack should be used and pins 4 and 5 should be connected to the customer’s incoming tip and ring. Any phones or devices that the customer may have should be connected to pins 1 and 8. This will ensure that if the customers’ phone is using the phone line, the FlexIP has priority and can force the customer to disconnect so that it can communicate to the Central Station.

Figure 13: Voice Grade (POTS) Wiring Diagram

Note: For UL installations, DACT (Digital Alarm Communicator Transmitter) line is to be supervised by having the transmitter send a test signal to the receiver once every 24 hours when DACT line is the only method of communications. This test time will be specified by the Central Station.


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2.14 System Databus Connection The system peripheral bus (proprietary Ethernet bus) is used to connect all system modules. Where the distance between any peripheral device and the next device is more than 100m (328 ft.), a Power Hub must be used to power the peripheral.

Note: Sonitrol recommends using Cat5, 5e, 6, or 6e fiber cable when running data bus cables to

Modules

Note: Primary communications to the Bosch D6600 Receiver is configurable between IP, Cell, and DACT line.

Figure 14: System Peripheral Bus Connection Example

Note: The maximum peripheral bus wire run between modules is limited to 100 meters (328 ft.). If a device needs to be located more than 100 meters (328 ft.) from the previous device, a Power Hub Module with AC power and battery backup must be installed in a convenient location so that the 100 meters (328 ft.) limitation is observed for all peripheral bus wire runs. For the Inovonics Echostream receiver (EN4200), the maximum cable length is 50 ft.

Note: The SonIP FlexIP Control Panel is not designed to be installed as a standalone system, communication to the Central Station/Alarm Reporting Center (ARC) is required. Communications can be established via IP, Cell, or Voice Grade (POTS) line. SonIP FlexIP system must be in communication at all times with the Central Station so AC power on (as per UL 294) can be indicated at the central station. Audio received at the Central Station is for supplemental use.


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Note: In UL installations where the DACT phone line is primary/only off-premise communication method, the enclosure must be a Fire Enclosure, and conduit or steel bushings must be used to seal openings in the front, top, bottom, and sides of the enclosure.

Note: The PSTN DACT communication is routed from the FlexIP module to the Bosch Model D6610, Bosch/Sonitrol Terminator Card and the Bosch Model D6650, Bosch/Sonitrol Line Card, which are installed in the Bosch model D6600 Receiver.

Note: At the Central Station, the D6600 Receiver needs to have battery backup.

2.15 System Databus Connection The system peripheral bus (proprietary Ethernet bus) is used to connect all system modules. Where the distance between any peripheral device and the next device is more than 100m (328 ft.), a Power Hub must be used to power the peripheral.

Note: Sonitrol recommends using Cat5, 5e, 6, or 6e cable when running data bus cables to modules.

Note: Total wire length from FlexIP LAN to any modules LAN, must not exceed 100m (328 ft.). Distance from any modules LAN to any modules LAN must not exceed 100m (328 ft.).

Note: In UL installations for the LAN lines, the 26 AWG telecommunications line cord has to be connected to an ITE Listed Network Switch If a network switch is required for the install.

Note: In UL installations using IP Communications, TCP/IP, UDP or equivalent, it is recommended that the equipment providing such communication method have Back-up power and Routers with Firewalls enabled.

Note: For CAN/ULC installations, the customer must adhere to the following requirement: Power for network equipment such as hubs, switchers, routers, servers, modems, etc., must be backed up or powered by an un-interruptible power supply (UPS), stand-by battery or the control unit, capable of facilitating 24 h standby, compliant with Clauses 16.1.2 and 16.4.1 of CAN/ULC-S304-06.


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2.16 Ethernet Cabling

WARNING: If a peripheral module looses communication with the FlexIP panel, the panel will generate the message “Module Down” which also includes the Module Type and Module Number and transmit it to the Central Station. This message should be interpreted as compromised signal and the Central Station should follow proper action to resolve the situation, such as contacting the customer and servicing the panel.

Ethernet cable color and pin connections are shown in Figure 15. Pins 1, 2, 3 and 6 must be used for communication to the FlexIP and to and from the modules.

Odd numbered pins are always striped, even numbered pins solid

No more than 1/2” Ethernet cable should be untwisted

Cable restrictions:

Do not deform

Do not bend

Do not stretch

Do not staple

Do not run parallel with power cables

Do not run near noise inducing components

Figure 15: Ethernet Cable Color Standard

2RIAP

1RIAP

3RIAP

4RIAP

2RIAP

1RIAP

3RIAP

4RIAP

FRONT VI E W

1 2 3 4 5 6 78

orange/white

orange

green/white

blue

blue/white

green

brown/white

brown

1 2 3 4 5 6 7 8P AIR 2

P AIR 1

P AIR 4

P AIR 3


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2.17 Non-Power and Power Limited Wiring Keep Non-Power Limited Wiring away (1/4" minimum) from Power Limited Wiring. Disconnect the AC power via a dedicated circuit breaker before servicing.

Figure 16: Recommended Wiring Diagram

Note: Figure 16 is for non UL installs because the battery is located in the enclosure. For UL installations, separate attack enclosures are required to house 40Ah batteries.


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3. Wiring the SONIP FlexIP System Wire the module per the following descriptions and system plan.

3.1 FlexIP Panel Wiring Note: Verify that wire gauge (AWG) of the installed wiring meets the voltage and current handling

requirements of all circuits.

Terminal Blocks:

Audio Sensors — J2, J3, J7, J8, J13, J14, J15, J18

Power/Batt — J10

Bell Output — J1

12V Output — J9

Aux Output — J4

Alarm Points — J5, J6, J11, J12

CPU (Daughter Board) connection — J16

Echostrm - Inovonics Echostream wireless receiver connection — J17

Figure 17: Control Panel Wiring Connections

J10:

24 VAC

Pin 1 — (AC transformer, Input Power Supply)

Pin 2 — (AC transformer, Input Power Supply)

EGND

Pin 3 — - ((GND) Earth Ground)

BATT

Pin 4 — - (negative) battery negative harness connection


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Pin 5 — + (positive) battery negative harness connection

J1:

BELL

Pin 1 — BELL + (positive) 12 VDC bell output

Pin 2 — BELL - (negative) GND switched bell output

J9:

12V OUT

Pin 1 — 12VDC Out PWR + (positive)

Pin 2 — 12VDC Out GND - (negative)

Note: A 1.0 kΩ end-of-line resistor must be installed for bell supervision. The connection for siren or bell hardware will operate at 12 VDC, up to 500 mA maximum current. Siren must have built-in driver.

Note: Maximum current draw from AUX PWR is 400 mA.

J2:

AS 1.9

Pin 1 — T1 (Audio Sensor 1 Test lead)


Pin 3 — - ((GND) Shared Ground for Audio Sensor’s 1 and 9)

Pin 4 — 1 (Data for Audio Sensor 1)


Pin 6 — + ((Positive) Shared 12 Vout for Audio Sensor’s 1 and 9)

Note: FlexIP is NOT compatible with the older Advantor PA-15 and GBD-III audio sensors.

Note: Audio Sensors connected to FlexIP or its peripheral modules DO NOT detect Glass Break. For Glass Break detection, a GBD-ST must be installed.

General Audio Sensor placement rules are:

1. For UL installations, shielded cable is required. For non-UL installations, shielded cable is highly recommended.

2. Mount Audio Sensors on solid, non-vibrating surfaces.

3. The Audio Sensor should always face toward the protected area and away from ambient noise sources.

4. Mount the Audio Sensor as close as possible to the area being protected.

5. Mount Audio Sensor high enough to avoid blockage, damage, and tampering, but give more thought to sound factors. The ideal mounting height is 8 to 10 feet from the floor. Never exceed 13 feet unless special circumstances require such height.

6. Mount Audio Sensors at least one foot away from corners.


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Power, ground, and audio wiring is identical for all system audio sensors. It is recommended to use an audio color code of White (self test), Black (ground), Green (audio), and Red (+12VDC). Figure 17 shows examples of proper wiring.

To save wire you may parallel power (Red) and ground (Black) to several audio sensors. Always home run and connect each audio (Green) wire and self test (White) wire to the FlexIP audio sensor input number designated. For best audio quality, install one Audio Sensor at each audio input. Do not connect a ground wire to a + terminal, which is +12VDC.

Note: self test (White) wire allows the FlexIP to send a 3kHz to 5kHz tone to the audio sensor during arming and when performing walk tests. The sensor then listens for that tone and gives feedback to the FlexIP so that it can ensure that the sensor is functioning properly. Since the FlexIP allows two sensors per detection circuit, the user will here two separate tones to test each sensor on the circuit when arming.

J3:

AS 2.10

Pin 1 — T2 (Audio Sensor 2 Self Test lead)

Pin 2 — T10 (Audio Sensor 10 Self Test lead)





J7:

AS 3.11







J8:

AS 4.12







J13:

AS 5.13







J15:

AS 6.14




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J14:

AS 7.15







J18:

AS 8.16







J4:

AUX 1

Pin 1 — + ((Positive) Unswitched 12 VDC output)

Pin 2 — - ((Negative) open collector, switched ground output)

AUX 2



AUX 3



AUX 4




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Figure 18: Typical AUX Output Wiring

J5:

AP1 AP2

Pin 1 — + ((Positive) alarm point 1 connection)

Pin 2 — - ((Negative) alarm point 1 and alarm point 2 negative connection)


AP3 AP4




Figure 19: Typical Alarm Point in Normally Closed (NC) State (1)


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Figure 20: Typical Supervised Alarm Point in Normally Closed (NC) State (2)

Figure 21: Typical Alarm Point in Normally Open (NO) State (1)

Figure 22: Typical Supervised Alarm Point in Normally Open (NO) State (2)

J6:

AP5 AP6




AP7 AP8




J11:

AP9 AP10





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AP11 AP12




J12:

AP13 AP14




AP15 AP16




J17:

Echostrm — Inovonics Echostream wireless receiver connection (UL has not evaluated these features)

GD (pin 1) Ground (GND)

RX (pin 2) Receive Data (TX from Echostream Receiver should be connected here)

TX (pin 3) Transmit Data

CPU:

LAN OUT — Peripheral Bus Data Connections (Ethernet Bus Connections)

WAN/IP Communications – Data connection for communications to the Central Station using IP Protocol (Internet Connection)

Note: The maximum peripheral bus wire run between modules is limited to 100 meters (328 ft.). If a device needs to be located more than 100 meters (328 ft.) from the previous device, a Power Hub Module with AC power and battery backup must be installed in a convenient location so that the 100 meters (328 ft.) limitation is observed for all peripheral bus wire runs.

Compatible Readers for UL Installs:

Oneprox GS3-LF Mullion

HIDR10-6100bkn0000-A1366

HIDR30-6110bkn0000-A1366

HIDR40- 6120 bkn0000-A1366

HIDRK40-6130 bkn0000-A1366

HIDRP40-6125 bkn0000-A1366

Note: Wiegand readers and iClass keypads minimum number of Bits is 26 bit.

PL3:

Modem Phone

Dial telephone line connection for use with an RJ-31X jack

3.2 Inovonics Echostream Installation DESCRIPTION

The Inovonics EN4200 Echostream Serial Receiver can be connected to an iBase or FlexIP control panel for a combination of up to 64 wireless transmitters and repeaters. The Echostream functionality should only be used in U.S. and should not be used in Canada.


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SEQUENCE OF INSTALLATION

The following is a logical sequence for installing the Inovonics EN4200 Echostream wireless system:

1. Perform a detailed site survey to determine the locations of all system components, including the locations and types of Inovonics wireless sensors/transmitters.

2. Record transmitter ID’s from all transmitters, some transmitter ID’s have 2 leading digits in the ID that are smaller than the remaining 6 digits. All digits must be provided to the Central Station and the Central Station must properly input these values in each corresponding transmitters ID field. It is best practice to record the location associated with each transmitter.

3. Install and wire all of the system hardware, including the Inovonics EN4200 receiver. 4. Check that the EN4200 is communicating to the control panel successfully by

checking its status in the ‘TEST MODE>MOD REV & COMS’ window. If connected successfully, the module will populate in this list as ‘ECHO 0A.00 PASS’ as the EN4200 is treated as a standard module.

5. Ensure that your Central Station has programmed the Wireless Module, and all transmitters with their transmitter ID, then download all options.

6. Test all wireless devices.

Note: Read below for complete setup directions.

EN4200 Receiver and Transmitter Installation

Mounting

o Follow the instructions included with the Inovonics EN4200 Echostream Receiver for mounting directions and placement considerations.

Select the Frequency Band

o Follow the instructions included with the Inovonics EN4200 Echostream Serial Receiver and select the correct frequency band. (If any changes are made, the device must be reset by powering the device down and then powering the device up).

Connect the Serial Cable

o The EN4200 Receiver should be connected to J17 on the FlexIP (See Figure 17).

o Connect a 4-conductor 20AWG (or larger) stranded-tinned copper shielded cable with PVC insulation rated at 300 volts at 80°F (26°C) serial cable to either the serial data port or the serial data terminal. Cable run should be a maximum of 50 feet (15.25 meters) See EN4200 Echostream Serial Receiver instructions for details.

o The EN4200 ‘TX’ (transmit data line) and ‘RX’ (receive data line) to the control panel, the EN4200 DO NOT connect the EN4200 ‘RX’ to the control panels ‘TX’.

o Power requirements for the EN4200 are 10-14 VDC at 100mA. Perform power calculations to ensure that the control panel can provide enough current to power the EN4200.

o Ensure that a common ground is established between the EN4200 and the iBase or FlexIP control panel. A ‘GND’ pin is included on the Echostream port of the iBase and FlexIP panels.

o Route the cable through the appropriate knockouts on the panel enclosure and the EN4200 housing.

Check EN4200 serial connection

o To ensure that the EN4200 receiver is successfully communicating with the iBase or FlexIP control panel, go to a keypad. Using your installer code, enter ‘TEST MODE’ then select ‘MOD REV & COMS’. If successfully installed ‘ECHO 0A.00 PASS’ can be seen in this window since the EN4200 is being treated as a standard module.


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Transmitters

o All transmitters have a Unique Transmitter ID that can be found as a sticker on, and/or inside of the transmitter. The ID for each transmitter must be provided to your Central Station so that they can be programmed, and downloaded.

o Best practice is to record each transmitters ID and the location description where it will be installed.

o All transmitter alarm states are programmable at the device, NOT in the panel or SONIP. Each device should have instructions on programming the device for normally open (N/O), for normally closed (N/C), for supervision (if applicable), and tamper conditions.

o During installation or service, the reset button on the wireless device should be pressed after any configuration change.

o For ANY HOLD UP/PANIC BUTTONS that are provided to a customer, please ENSURE THAT THE CUSTOMER UNDERSTANDS THE WIRELESS RANGE FOR THE DEVICE AND HAS TESTED THE MOST EXTREME DISTANCES SURROUNDING THEIR FACILITY TO ENSURE FULL AND CONSISTENT FUNCTIONALITY. The TECHNICIAN MUST INFORM THE CUSTOMER THAT THESE DEVICES AND ANY OTHER WIRELESS DEVICES SHOULD BE TESTED BY THE CUSTOMER ON A REGULAR BASIS to ensure full and consistent functionality. The customer can coordinate performing these tests with their Central Station.

Download and Test

o Once Central Station has all transmitters programmed with their correct Transmitter ID the panel options should be downloaded.

o After confirming that the download was successful, transmitter testing should begin to ensure all devices work as desired.

EN4200 Receiver and Wireless Device signals

The following details the signals that will be generated based on conditions of the EN4200 Receiver and its associated Repeaters and Transmitters.

EN4200 Receiver Messages that can be sent to Central Station o A ‘Signal Jam’ alarm generated by the EN4200 Receiver will be sent to SONIP as a

‘Module Tamper’ event.

Note: This can be viewed in the Keypad and will be displayed as ‘Signal Interference’

o A ‘Link Failure’ alarm generated by the EN4200 Receiver will be sent to SONIP as a ‘Module Tamper’ event.

o A ‘Case/Wall Tamper’ alarm generated by the EN4200 Receiver will be sent to SONIP as a ‘Module Tamper’ event.

Repeater messages that can be sent to the Central Station Note: The iBase/FlexIP panel treats the repeaters as alarm points connected to the

receiver module: o A ‘Signal Jam’ alarm generated by a Repeater will be sent to SONIP as an ‘Alarm

Point Tamper’ Event. o A ‘Case Tamper’ alarm generated by a Repeater will be sent to SONIP as an

‘Alarm Point Tamper’ Event. o A ‘Low Battery’ alarm generated by a Repeater will be sent to SONIP as an ‘Alarm

Point Low Battery’ Event. o A ‘Loss of Power’ to the Repeater will be sent to SONIP as an ‘Alarm Point AC

Down’ Event.

Transmitter messages that can be sent to the Central Station Note: The iBase/FlexIP panel treats the transmitters as alarm points connected to the

receiver module.


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o A ‘Case/Wall Tamper’ alarm generated from a transmitter will be sent to SONIP as an ‘Alarm Point Tamper’ Event.

o An ‘End Of Line’ alarm generated from a transmitter will be sent to SONIP as an ‘Alarm Point Trouble’ Event.

o An ‘Alarm State’ change alarm generated from a transmitter will be sent to SONIP as an ‘Alarm Point Violation’/’Alarm Point Restoral’ Event.

Note: Transmitters that contain two alarm point contacts may use both, however; the iBase/FlexIP panel will not distinguish which contact has been violated to the Central Station, just that a contact was violated.

o A ‘Low Battery’ alarm generated from a transmitter will be sent to SONIP as an ‘Alarm Point Low Battery’ Event.

Supervision Intervals

The following details the supervision intervals for the wireless devices, repeaters, and the receiver:

o Transmitters: Up to 15 minutes of no contact with an Echostream transmitter before marking it as down.

o Repeaters: Up to 27 minutes of no contact with an Echostream repeater before marking it as down.

o EN4200 Receiver: Up to 90 seconds of no contact with the Echostream receiver before marking it as down.

Note: For Non-UL devices, supervision of the device is optional, which allows end users to carry the device home. The most common application for using this option is for employees who want protection when walking to their vehicles within their businesses parking lot.

EN4200 Receiver LEDs

Transmit LED - On when the EN4200 is sending data to the iBase/FlexIP panel

Receive LED - On when the EN4200 is receiving data from the iBase/FlexIP panel

Decode LED – On when the EN4200 is decoding an RF transmission from another Inovonics wireless device.

The Receiver and Wireless Devices that meet compliance requirements

Central Station Alarm Units – UL

EN4200

EN5040-T

EN1215WEOL

EN1235SF

EN1235DF

EN1249

EN1261HT

Connectors & Switches – UL/ULC

EN1215WEOL

Holdup Alarm Units – UL


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EN4200

EN5040-T

EN1235SF

EN1235DF

EN1249

Household Burglar Alarm System Units UL/ULC

EN4200

EN5040-T

EN1215EOL

EN1215WEOL

EN1223D

EN1261HT

Intrusion Detection Units – UL/ULC

EN1261HT

Police-station-connected Alarm Units - UL

EN4200

EN5040-T

EN1215EOL

EN1215WEOL

EN1235SF

EN1235DF

EN1249

EN1261HT

Echostream Troubleshooting

1. Transmitter is reporting Tamper and Alarm condition. a. The transmitters will report Tamper, and Alarm conditions when only the

Tamper is triggered if the system is Armed, or the Transmitter is a 24 hour device.

3.3 Cellular Backup (MBR1200B) Installation DESCRIPTION

The Cradlepoint MBR1200B can be connected to an iBase or FlexIP control panel for a Cellular Communication path to SONIP.

Note: All FlexIP panel firmware versions and iBase panels with 0A.45 or better firmware are compatible with Cellular Backup.


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Note: Technicians should be mindful of the Cellular solution when servicing the panel. Performing Downloads, Uploads, or Firmware Downloads from SONIP should not be done over Cellular communication path, unless the Cellular communication path has a data plan so that Cell can be used as a primary means of communication.

Note: The Cell router may NOT be used in UL Certified FlexIP Installations!

REQUIRED EQUIPMENT

Cradlepoint® MBR1200B Broadband Router or IBR600 Broadband Router

US Only: Sprint® 3G/4G USB Modem 250U by Sierra Wireless® for MBR1200B

Canada Only: Rogers® 3G/4G USB Modem 330U by Sierra Wireless® for MBR1200B or Rogers SIM card for IBR600.

Sonitrol FlexIP control panel with Keypad

1.5A @ 12VDC available power

Personal computer with LAN adapter

US Only: Sonitrol router configuration file “MBR1200B_iBase and FlexIP (02252013, US).bin”

Canada Only: Sonitrol router configuration file “MBR1200B_iBase and FlexIP (05282013, CA).bin”

Optional Recommended Hardware:

Altronix® Power Supply PN: AX-300ULXPD8 (Will require 2 available alarm inputs for AC and Battery Supervision)

Antenna - 20" Sierra Wireless® PN: SMK TS-9

Minimum Version Requirements:

FlexIP firmware version 0A.12 (Boot A.03) or higher

Keypad firmware version 0A.22 or higher

SONIP version 3.1.20 or higher

SEQUENCE OF INSTALLATION (Overview)

The following is a logical sequence for installing the MBR1200B router with a FlexIP control panel.

1. Pre-Install Site Survey and Signal Strength Check 2. Router Configuration 3. Mounting the Router 4. Check Signal Strength from installed location 5. Wiring 6. Panel Programming 7. Test

MBR1200B Broadband Router Setup and Installation

1. Pre-Install Site Survey and Signal Strength Check

o Verify that the premise is in an area with adequate Sprint® cellular coverage by visiting their website, http://coverage.sprint.com and follow the on-screen directions.

http://coverage.sprint.com/


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o Perform a detailed site survey with Sales person to determine the location for the MBR1200B.

o A Sprint® cell phone (without an LTE radio enabled) may also be used to check strength inside of the MBR1200B’s installation location. This will provide a more accurate representation of actual signal strength inside of the installation location of the router.

2. Router Configuration o Power up the MBR1200B. o Connect your PC to the router using an Ethernet cable. Connect to any of the yellow

LAN ports on the MBR1200B. o Open a web browser on your PC and go to address: 192.168.0.1. o Find the Default Password for your router on the bottom of the MBR1200B. o Enter the password to login. (CASE SENSITIVE) o Find the System Settings drop down. o From here, choose System Software. o In the “System Config Save/Restore” field, select Upload from file button. o Select the Choose File button. · o Browse your PC for the Sonitrol router configuration file, named: “MBR1200B_iBase

and FlexIP (02252013, US).bin”. o Click the Restore Settings button. Once complete, disconnect your PC from the

router.

3. Mounting the Router o Recommended Installation location: Inside of the protected enclosure with the

Sonitrol panel. o Plug the Sprint® 3G/4G USB Modem into the USB 1 input of the MBR1200B. o Use zip ties to secure router inside of enclosure.

Note: MBR1200B may be installed elsewhere to achieve optimal signal strength if necessary. Alternate installation locations must always evaluate risk of tampering before mounting the router. It should not be accessed by users.

4. Check Signal Strength from Installed Location o With the MBR1200B powered, and Sprint® 3G/4G USB Modem 250U installed, the

MBR1200B’s signal strength LED’s shall be used to verify signal strength. o A minimum of 2 Service Bars are required!

Note: If signal strength is poor, an antenna may be installed with the USB modem to improve signal strength. See Optional Recommended hardware above.

5. Wiring o Choose one of the following methods to power the MBR1200B.

A. Recommended Altronix® supervised installation: Cut the MBR1200B’s power supply cable near the transformer. Identify the DC polarity of each wire! Refer to markings on the

wires: +12VDC has white dashes, and GND has text. USE CAUTION while securing the cut wires to a 12VDC Out terminal

on your Altronix® AX-300ULXPD8 supervised power supply. Wire AC and Battery Fault loops to FlexIP control panel or peripheral

module. Have CS program these accordingly. B. Plug the MBR1200B’s included transformer into a UPS. C. Use the MBR1200B’s included transformer and plug into a standard 120VAC

electrical outlet.


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Note: WARNING - If AC power to the MBR1200B transformer fails while using method C above and no phone line is configured for the FlexIP panel, the only way to identify the failure will be a No Contact Alarm one hour after the panel misses its next scheduled Contact Check.

o Connect the FlexIP LAN to any of the yellow LAN ports on the MBR1200B with an

Ethernet cable. o Connect your Keypad and other modules to the MBR1200B’s yellow LAN ports (other

modules Ethernet cables can be connected to the Keypad or the MBR1200B). Note: NEVER connect a Module or Keypad BETWEEN the FlexIP and the MBR1200B!

The FlexIP must be directly connected to the MBR1200B.

Note: WARNING - the MBR1200B router LAN ports may never be used by any non-Sonitrol hardware or applications.

Note: Optional - In FlexIP configurations the blue WAN port on the MBR1200B may be used for a wired network connection as primary communication, automatically making the cellular service a backup. When using the WAN Port, firewall rules must be configured. See Table 5 in Section 5 for firewall rules.

6. Panel Programming o Enter your Technician Code to access the “System Menus\ Programming

Mode\Comms Info” menu. o In “Comm Sequence‟ select the choice that applies to your installation and

ensure that Central Station has programmed the same option as you.

1 = Modem, without backup | 2 = IP Primary, without backup | 3 = Modem Primary, with IP backup | 4 = IP primary, Modem backup | 5 = IP primary, Cell backup | 6 = IP primary, Cell backup, Modem tertiary | 7 = Cell primary, without backup

Note: WARNING - When using Comm Sequence 2 or 4 always be conscious of the wireless data plan in use, it is not Unlimited.

o Enter your account information, and your Central Stations unique NNC#, RX IP 1, RX PORT 1, SONIP IP 1, SONIP 2.

o Exit the Keypad System Menus.

7. Test o Central Station must Reset the Panel. o Remove all other communications from the panel, leaving only the Cellular Backup. o Send a Test Signal from a keypad. Ensure that Central Station receives this. o Central Station must Reset the Panel and confirm that there are no alarms reporting. o Reconnect all communication paths.

Note: WARNING - While servicing, downloading, or uploading a Cell Backup equipped panel, disconnect the wireless air card so that data usage does not exceed the wireless data limit!


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3.4 LEDs Red HEART BEAT LED D1

Flashing once per second indicates FlexIP processor is running

Green Link LED D4

Flashing once every 10 seconds indicates data activity

Steady indicates connection to a device

Yellow 100M LED D5

ON indicates connection at 100 Mbits/sec

OFF + 10 Mbits/sec, or no peripheral connection

AC PWR LED D14

Steady indicates AC power present

BATT LED D15

Steady indicates battery charging voltage present

12V out Power LED D16

Steady indicates the presence of +12 VDC

If this LED is not on steady, then the module does not have power

Figure 23: Control Panel Hook-up


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3.5 FlexIP Panel Wiring and Electrical Ratings Wire the module per the following descriptions and system plan.

Note: Verify that the wiring gauge (AWG) of the installed wiring meets the voltage and current handling requirements of all circuits.

Note: For 24V 40VA plug-in transformers, after powering the FlexIP alone with nothing connected, 2 amps of current at 12VDC is available. Refer to the chart below to determine how much current will be available or required when connecting all necessary hardware to the panel such as bells, auxiliary equipment, audio sensors, batteries (charging circuit), and downstream modules. Either switching to a 24V 120VA open frame transformer or using an external power supply may be necessary to power the necessary hardware and/or downstream modules

Table 1: Output Ratings for UL installations:

FlexIP Module Connector Name Output Rating

J4 Aux Outputs 1-4

1.5A @ 12VDC max combined (100mA max for each aux output) 9.3-13.7VDC Recorded range for Compatibility Audio Sensors = (26mA each) 52mA for each circuit Maximum

J9 12 Vout

J2 Audio Sensors 1&9








J5 Alarm Points 1-4

100mA @ 3.3VDC max combined J6 Alarm Points 5-8

J1 Bell 500mA @12VDC max

Note: For UL installations, total current consumption from the FlexIP shall not exceed 1.5 Amps under all circumstances. 500mA must be reserved for Alarm bell leaving total current load of Maximum 1.0Amp.


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Table 2: External Terminals Specifications

Connector Terminal Description Min Typical Max

J10 24 VAC AC Input 16.5 24 25 VAC

.400 .500 .750 A

J10 Battery Battery Connection 10 12 14 VDC

Battery Charge 0.4 A

J9 12VDC Out 12V Out connection 9 13.8 14 AH

.650 1.5 A

J1 Bell 10 13.8 14 VDC

500 mA

J4 AUX Power 10 13.8 14 VDC

400 mA

Note: Circuit outputs can fall as low as 9.3V. This should be taken into account when connecting circuits to the 12V Out connection.

3.6 Terminal Voltage with EOL Resistors The following list contains the values to be expected at the alarm input terminals. Both the resistance and the voltage over the alarm input are shown.

Table 3: EOL 1 kΩ resistor

Status R Input (kΩ) V Input (V)

Active Inputs (Normally Open) 0 kΩ 0V

Normal Inputs 1 kΩ 1.65V

Active Inputs (Normally Closed) 0 kΩ 3.3V

Note: Resistance values should be measured at the Terminal Block (with the Terminal Block removed from the board), and voltage measurements should be taken across the terminals with the Terminal Block on the board.


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4. Calculating Battery Standby In UL installations, the Normal Standby Current is limited by the backup capacity of the installed battery(s), not available AC power. To ensure the required backup power, you must always use this lower current value in certificated UL installations. Table shows estimates of the maximum Normal Standby current available from one or two 7AH batteries and one or two 18AH batteries for 4 or 24 hour battery operation.

Table 4 Battery vs Standby Current

FlexIP 4r Stand-by & 15 min UL, 30 min ULC of alarm

24hr Stand-by & 15 min UL, 30 min ULC of alarm of alarm

Batteries 1 x40AH, 12VDC 2 x40AH, 12VDC

Stand-by current 1.5A 1.0A

Alarm current 1.5A 1.5A

Before installation, compute required standby current for all accessories powered by the FlexIP module. The following factors limit the equipment and devices powered by the FlexIP module:

Current drawn by equipment and devices powered from FlexIP module

UL requirement for at least 4 hours of standby time plus 15 minutes of alarm battery life for UL Central Station Burglary, Proprietary Burglary, and Household Burglary.

Knowing this, the following rule applies for battery operation:

The FlexIP modules’ maximum Normal Standby Current cannot exceed the battery(s) Ampere-Hour (AH) capacity divided by the number of required battery operation hours

Due to the natural aging effects on batteries over time, temperature cycles, and varying levels of discharge, a derating factor is applied to compensate for these variables (apply typical derating factor of 1.15 to Minimum Battery Capacity Requirement to determine Actual Battery Capacity)

In Non-UL installations, the Normal Standby Current is limited by the backup capacity of the installed battery(s), not available AC power. Table 4 shows estimates of the maximum Normal Standby current available from one or two 7AH batteries and one or two 18AH batteries for 4 or 24 hour battery operation.

Table 5: Battery vs Standby Current

Required Battery Backup

One 7.2AH Battery

Two 7.2AH Batteries

One 18AH Battery

Two 18AH Batteries

4 Hours + 30 Minutes

1.4A 3A 3.7A 5A

24 Hours + 30 Minutes

N/A N/A 600mA 1.25A

Example

Two 7.2AH batteries installed in a system requiring 4 hours of backup operation.

7.2AH × 2 = 14.4AH capacity

14.4AH / 1.15 (derating coefficient) = 12.5AH (Actual Battery Capacity)

12.5AH / 4 hours required backup = 3A (rounded)

To properly calculate the Sonitrol FlexIP system’s battery capacity, you MUST evaluate the Normal Standby and Alarm Current required by the system. Calculate a system’s Ampere-Hour requirements using the following factors:


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Total system standby current load

Hours of required standby operation (4 hours for most UL configurations)

Required duration of alarm signaling (normally 15 minutes for Central Station burglary)

The following chart will help you determine standby battery loading--staying within stated limitations of Sonitrol’s FlexIP system will provide required standby operation.


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4.1 Battery Calculation Worksheet

Module/Accessory Name Quantity

Nominal Standby Current (Ea) mA

Total Standby Current mA

Nominal Alarm Current (Ea) mA

Total Alarm Current mA

FlexIP 1 415mADC 415mADC 635mADC 635mADC

Keypad 105mADC 195mADC

Keypad w/reader 145mADC 215mADC

Audio 8 200mADC 295mADC

I/O Module 125mADC 135mADC

Access-4 175mADC 335mADC

Power Hub 115mADC 180mADC

Inovonics Echostream EN4200 Serial Receiver

100mADC 100mADC

Sonitrol Audio Sensor 5mADC 5mADC

Sonitrol Glassbreak (GBD-ST) 12mADC 26mADC

Oneprox GS3-LF Mullion Reader (SGR)

< 100mADC < 100mADC

Wiegand Compatible Card Reader

Refer to hardware specifications


Door Locks Refer to hardware specifications


Bell Refer to hardware specifications



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Module/Accessory Name Quantity

Nominal Standby Current (Ea) mA

Total Standby Current mA

Nominal Alarm Current (Ea) mA

Total Alarm Current mA

Auxiliary Outputs

DS200-4W (DS200 w/MB200-4W Base

0.08mA DC 25mADC

DS200HD-4W (DS200HD w/MB200-4W Base

0.08mA DC 25mADC

MB4W (Base w/DS250 4-Wire Head)

0.08mA DC 48mADC

MB4WA (DS250 4-Wire Head w/Base with Auxiliary Relay)

0.08mA DC 56mADC

MB4WE (DS250 4-Wire Head w/Base with Auxiliary Relay and Power Supervision)

0.08mA DC 80mADC

MB4WS (DS250 4-Wire Head w/Base with 85dB Sounder)

0.08mA DC 63mADC

EOL200 (End of Line Module) 30mADC 30mADC

TOTALS

(1) This number, Total Standby Current, or long term Alarm Current CANNOT exceed the number of backup hours (see Table ).

Note: The FlexIP consumes the most power when the self test for all sensors is in process and not when all aux outputs, alarm points, and sensors go into alarm. Therefore, it’s best to use that value for the alarm current draw since it is the highest current draw point from the panel.


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4.2 Formulas

1. mA × .001Amp/mA × hours = Ah standby Amp-hours

Total standby current

Conversion factor

Required number of hours in standby

2. mA × .001Amp/mA × minutes × .0167 hours/min = Ah alarm Amp-hrs

Total Alarm Current

Conversion factor

Required number of minutes in alarm

Conversion factor

3. mA × .001Amp/mA × minutes × .0167 hours/min = Ah active Amp-hrs

Total Active Current

Conversion factor

Required number of minutes in alarm

Conversion factor

4. + + = Ah

Standby Amp-hours

Alarm Amp-hours

Active Amp-hours

Minimum battery power required

5. × 1.15 = Ah

Minimum battery power required

Battery capacity derating coefficient

Total standby battery required


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5. IP Communication 5.1 IP Communication Configuration The FlexIP panel is equipped with Plug & Play capabilities, where typically customer firewall changes are not required, unless the customer blocks outbound UDP traffic. If the FlexIP panel fails to communicate with the Central Station due to the customers firewall, the chart below should be viewed and followed by the customer to ensure that their firewall is adjusted to allow communications between the FlexIP panel and the Central Station (See Section 3.3 of this manual for details on this configuration). This chart will verify that alarms can be sent to the Central Station, alarms can be reset from the Operator’s workstation, Audio can be received at the Central Station, and downloads can be sent from the Central Station to the panel.

Note: For FlexIP panels, all firmware versions support the MBR1200B or IBR600 for Cell communications

Note: The MBR1200B broadband router may NOT be used in UL Certified FlexIP Installations!

Table 5: Customer Firewall Rules for Sonitrol IP Plug & Play Communications

Firewall Rule Protocol Direction Source Address

Source Port

Destination Address

Destination Port

Customer

1 UDP Outbound iBase LAN 6000 RX IP 1 9000

2 UDP Outbound iBase LAN 7001 - 7002

SONIP 1 Any*

3 UDP Outbound iBase LAN 7001 - 7002

SONIP 2 Any*

4 UDP Outbound iBase LAN 7001 UDM UDM Port as configured in SONIP

Note: It is important that the customer acknowledges and changes (if required) anything that they have on their network that would block outbound traffic when configuring their firewall.

The following information should be obtained from your Central Station:

1-6 digit Panel Account Number

Panel Group ID

NNC number (8 digit NetCom Naming Convention, is a unique number used by receiver to determine authentication of panel)

RX IP 1 (IP address of receiver 1)

RX Port 1 (Port used to communicate with receiver 1)

SONIP IP 1 (Address of first application server)

SONIP IP 2 (Address of second application server if applicable)

Verification that the account is set up in the appropriate receiver correctly for IP communications

o Ask the Central Station to provide the NNC Number

o Ask the Central Station to provide the Virtual Account. The Virtual Account is the 4 digit Panel Group ID, followed by the 6 digit Panel Account Number, appended together to provide a single 10 digit number. Add leading 0’s where necessary to ensure the appropriate quantity of digits.

Example: Panel Group ID 12, Panel Account Number 1707 would have a Virtual Account number of “0012001707”.

Verify that ‘Enable Communication’ and ‘ReSynchronization’ options are set to a value of 1 and “Yes” respectively in the appropriate receiver for the account.


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After gathering this information, refer to Section 6.0 of this manual or the 19810015 SONIP iBase/FlexIP Panel Programming Guide for programming this information into the panel by interfacing with a connected keypad.

Once all above information has been programmed, the technician should follow the following steps:

1. Remove both the panels Cell connection and the phone line if connected to the panel.

2. Send a test signal to verify valid communications with the Central Station.

The keypad should display ‘Communications Test Successful’ within 2 minutes. (It may be necessary to perform this step two times).

3. If the test does not go through successfully, check network cable connections for crossed pins or lose connection. Next refer back to the beginning of this section, verifying that the receiver is setup correctly at the Central Station, all panel IP communication information has been entered correctly in the keypad, and the Customer has confirmed and if necessary correctly set up their firewall rules, ensuring that nothing else is on their network that would block Sonitrol network traffic.

4. Once communications have been established, contact the Central Station and verify that they are receiving the alarms.

5. Instruct the Central Station Operator to attempt to send a ‘Reset’ command to the panel.

6. Instruct the Central Station Operator to send a download to the panel while no alarms from the panel are on the workstation monitor.

7. After a successful download, the panel will perform an automatic processor reset. Wait for the processor to reset, arm a partition on the panel that has an audio sensor assigned to it, and perform audio activations to ensure that the Central Station receives clear audio from the panel for a minimum of 90 seconds.

5.2 FlexIP IP Communication Troubleshooting If FlexIP does not communicate with the Central Station (while USB Modem disconnected):

1. Verify that all Ethernet connections are made and connected correctly.

2. If the customer has a firewall and block outbound traffic, ensure that they are following the firewall rules from Table 5.

3. Verify that the Panel Group ID is correct.

4. Verify that the Panel NNC number is correct (8 digit number must match NNC that Central Station has in receiver).

If a Central Station alarm operator is unable to send a download to the panel (while USB Modem disconnected):

1. If firewall rules are required, verify that all firewall rules have been configured properly for the panel to initiate the reception of data through the firewall. See Table 5 above.

2. Verify SONIP 1 and SONIP 2 IP addresses are correct (SONIP 2 would be used if the Upload/Download Manager (UDM) is on a different computer from where the Receiver Comm and Event Router (both SONIP applications) are running.

3. Verify that the receiver has been updated with the panels account number and NNC number. (Verify this with Central Station).

4. Verify that the account has been resynchronized in the receiver and that enable communications is also set to 1. (Verify this with Central Station).

5. If the download starts but does not complete, ensure that FlexIP can communicate to all peripheral modules. The download will abort if a module is in Central Station programming but has never been communicated to by the FlexIP. The modules state can be viewed in test mode by using a technician code (Refer to the 19810015 SONIP iBase/FlexIP Programming Guide).


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6. Verify that all modules have the correct dip switch settings. Modules of the same type with duplicate dip switch settings can cause communication problems between the FlexIP and peripheral modules. Modules with incorrect dip switch setting can cause downloads to abort because the Central Station is trying to send module information to the panel for modules that are not showing up as valid modules in the panel. All modules programmed at the Central Station must show up in the iBase/FlexIP as pass or fail when viewed in ‘Test Mode’

Replacing an existing FlexIP and having communication problems (while USB Modem disconnected):

1. After the old panel has been removed, ensure that Central Station has been resynchronized in the receiver and that enable communications is also set to 1.

2. If the FlexIP is replaced and DHCP is not used, wait 30 minutes before attempting to communicate to Central Station over IP. This is due to Arp binding, which is where the customers firewall or router has associated the old panels MAC Address to the customer provided IP Address. If DHCP is used, then the customer’s router/firewall should be able to provide the new panel a different IP Address on their network.

3. The new panel should be restored to its default configurations. (Refer to the 19810015 SONIP iBase/FlexIP Programming Guide).


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6. Basic Programming The steps identified below represent the minimum steps necessary to program a FlexIP panel. Specific options not listed in this guide can be left at their defaulted option. These default options work in most cases, but special circumstances may dictate that you need to change them. Change them only as needed for the quickest set-up time.

Note: After entering an option, observe the tone of the keypad as enter is pressed. A long tone represents a denial of the option due to non-allowed values. Three short tones represent confirmation that the option has been save. Although it may appear as if options are being changed as the user presses clear to exit the screen, changes are only saved by pressing enter and hearing the 3 confirmation beeps.

6.1 Setup Communications Options These options determine how the panel will communicate with the Central Station.

Panel Account Number

Enter a 1-6 digit number as this panel’s ID.

Panel Group ID

Enter a 1-4 digit number as this panel’s group ID.

Country Profile

Enter a 0 for North America. Enter a 1 for UK.

Communication Sequence

Enter the appropriate sequence of communications. This option specifies the order in which the panel attempts the optioned communication path types when attempting to reach the Central Station. The available options includes the following and are displayed in the keypad as a “Valid” number, which represents the option:

Option1: Modem primary, No backup

Option 2: IP primary, No backup

Option 3: Modem primary, IP backup

Option 4: IP primary, Modem backup

Option 5: IP primary, Cell backup

Option 6: IP primary, Cell backup, Modem tertiary

Option 7: Cell primary, No backup

IP Options (if applicable, supplied by your Central Station or ARC)

If IP is the chosen communication method to the Central Station, enter the Panel IP, Subnet Mask, Gateway, and CS IP Primary, CS IP Secondary, RX IP1, RX Port 1, DHCP Enabled, NNC number, and IP Periodic Test Interval.

Cell Options (if applicable, supplied by your Central Station or ARC)

If Cell is the chosen communication method to the Central Station, enter the CS IP Primary, CS IP Secondary, RX IP1, RX Port 1, NNC number, and IP Periodic Test Interval.

Phone Line Options (if applicable, supplied by your Central Station or ARC)

If a phone line is the chosen communication method to the Central Station, enter the CS Dial Primary phone number, dial prefix, and dial type.

Note: Not all programming steps below and on the following page are required. The Central Station or ARC must download these options to the panel to ensure accuracy.


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6.2 Partition Settings These options determine your active partitions. By default, Partition A (A=0) is already active and set to use Secure Arming/Disarming. In order to add additional partitions, only select the partition value corresponding to the partition and leave all default settings.

Partitioning:

Provides the ability to control 8 separate areas independently, each functioning as if it had its own separate control. Each different partition on the premise can be armed or disarmed by separate user without arming or disarming the other partitions or without knowledge by the other partition users. However one partition cannot disarm another partition.

All zones assignable to one of 8 partitions

Ability to display burglary and panic and/or trouble conditions at all other partitions’ keypads (selectable option)

The audio alarm must be placed where it can all be heard by all partitions.

The local commercial burglar alarm audible must be installed in an area where the Audible Test can be heard by any of the users in the different partitions.

The commercial local control unit and audible power supply shall be lined and connected to 24hr burglar alarm circuit, installed in the protected area, armed 24hrs a day, and each partition shall be arm the protected control unit and audible device power supply area with its individual coverage. In order to gain access to the protected area without causing alarm, all the partitions would have to be disarmed. The audible devices must be programmed not to be bypassed.

Remote programming cannot disarm the system for both residential and commercial systems.

Certain system options are selectable for each partition, such as entry/exit delay and subscriber account number

6.3 Keypad Settings By default, all keypads are assigned to Partition A. Change them only as needed.

The Access 4 module support 2 access control readers (1-entry, 1-exit) per door port, Access 4 has 4 door ports.

A FlexIP with 16 Access 4 Modules has a maximum of 64 door ports, which equals 128 readers.

Note 2: iBase supports a maximum of 4,000 events

6.4 Alarm Input Settings For each alarm input that you need to set up:

1. Set to alarm type 5 (Alarm).

2. Set to trip during 24 hour Occupied or Fully Armed partition state (Security Level option 0, 1, or 2).

3. Set to trip when the circuit condition is Open or Short.

At least one alarm input must be optioned as a Delay Starter if access doors are not used or if there is no keypad arming station outside of the facility. The remaining options can be left as default

Note: All alarm inputs are defaulted to partition A.

Partition Assignment

Enter 0-7 (A-H) for the partition you are assigning to this input.

Alarm Type

Enter the value associated with the alarm type for this input.


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Security Level

Enter the value associated with the security level of this input.

Delay Function

At least one input must be defined as the Delay Starter.

6.5 Audio Detection Settings For each audio input, set to sensor type PA20 or GBD-ST, optioned for self-test and set to deliver audio during an EMERG violation. Simply add additional inputs as necessary.

Note: All Audio alarm inputs are defaulted to Partition A.

6.6 Period Settings All periods default to 24 hour days, 7 days a week, including special date ranges. Add additional periods and modify as necessary.

6.7 Shift Settings All shifts default to 1 assigned period, period 1. Add additional shifts and modify as necessary. If access control is present, define periods and shifts needed to grant door access.

6.8 Access Control Settings The typical system will not have any access control. However, if it is necessary to set-up quick and easy access control, all that is needed is to:

1. Set-up the reader format,

2. Match the energize relay to lock option to the lock mechanism installed, and

3. Make the door active.

The defaults call for the lock to be in a locked state at all times, and only a valid card or exit switch can unlock it. Change the other options as necessary.

It is highly recommended to utilize an alarm point programmed as ‘Global Free Exit’/Fire Override. This alarm point should be supervised by selecting the ‘Supervised’ option in SONIP and adding a 1K resistor, which should be connected to fire alarm output circuit on the FACP.

. Toggling this alarm point will cause all access control doors to unlock for the partition, which would function as a fire override. There should be at least 1 “Global Free Exit”/Fire Override per partition. Alarm point # 1 should be used on the FlexIP panel as one of the ‘Global Free Exit’/Fire Override “and should be connected to a fire alarm control unit dry contact output that follows fire alarm. The doors will remain unlocked until the status coming from the fire panel has restored. Refer to figures 20 and 22 for supervised alarm point details.

Global Free Exit Input/Fire Override — when circuit condition is tripped, a command is broadcast to all access control doors to move into an unlocked state. This condition remains until the circuit is restored, at which time a command is broadcast to return to their normal state.

6.9 Access Level Settings By default, Access Level 1 has been defined with both arm and disarm authority and with shift 1 optioned as the arm / disarm shift. If access control is present on this system, all that is needed is to add the appropriate doors and shifts for access to those doors.

6.10 User Settings By default, a single user record with Technician Level access is set-up. To add additional users, enter an access code. By default, a user record is set-up with Access Level 1. Change any other options as needed. If access control is present, you will need to at least enter a card number and optional site code.


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Note: The maximum amount of users for an iBase is 2,000 Users. Any 8 digit number between 1 and 99999999 can be used as a Users code. This allows 99,999,999 different possibilities for User codes.

6.11 Additional Settings Settings not covered in this guide can be found in the iBase / FlexIP Programming Guide (P/N 19810022).


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7. Agency Compliance 7.1 Part 15 Notification

Note: This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.

This device complies with part 15 of the FCC rules. Operation is subject to the following conditions:

1. This device may not cause harmful interference, and

2. This device must accept any interference received, including interference that may cause undesired operation.

3. Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.

4. This product has been evaluated and complies with all A.C.T.A. requirements specified in 47 CFR part 68 Telecommunications and Telephone Terminal Equipment.

US: 241AL01B29013101

This product complies with Industry Canada ICES-003, Digital Apparatus, Spectrum Management and Telecommunications Policy, Interference-Causing Equipment Standard

7.2 Canada

This product complies with Industry Canada ICES-003 Class A

Cet appareil numérique de la classe [A] est conforme à la norme NMB-003 du Canada.

Canadian ID - IC: 7309A-29023101

On the inside of the door of the enclosure of this equipment is a label that contains, among other information, a product identifier. If requested, this number must be provided for Canadian installations. 7309A-29023101

The registered Canadian Point of Contact is:

David Jones

Sonitrol Security Systems of Toronto

5875 Kennedy Rd.

Mississauga, On. L6W2R6

(905)890-7727


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Canadian Representative’s Company number: 8852A

7.3 Part 68 Notification This equipment complies with Part 68 of the FCC rules and the requirements adopted by the ACTA. On the inside of the door of the enclosure of this equipment is a label that contains, among other information, a product identifier in the format US:AAAEQ##TXXXX. If requested, this number must be provided to the telephone company.

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. For products approved after July 23, 2001, the REN for this product is part of the product identifier that has the format US:AAAEQ##TXXXX. The digits represented by ## are the REN without a decimal point (e.g., 03 is a REN of 0.3). For earlier products, the REN is separately shown on the label.

If this equipment causes harm to the telephone network, the telephone company will notify you in advance that temporary discontinuance of service may be required. But if advance notice isn't practical, the telephone company will notify the customer as soon as possible. Also, you will be advised of your right to file a complaint with the FCC if you believe it is necessary.

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

If trouble is experienced with this equipment, for repair or warranty information, please contact Stanley CSS technical support at 800-654-6061. If the equipment is causing harm to the telephone network, the telephone company may request that you disconnect the equipment until the problem is solved.

This equipment must have the ability to seize the line in the event of an emergency. Do not connect this equipment to a party line service as line seizure is not possible.


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7.4 Automatic Dialers When programming emergency numbers and (or) making test call to emergency numbers

1. Remain on the line and briefly explain to the dispatcher the reason for the call.

2. Perform such activities in the off-peak hours, such as early morning or late evenings.

7.5 Agency Compliance Statement Software revision level _xx.xx___ may be displayed on LCD. UL Listed Version is xx. and the part number may consist of “.xx” which delineates minor code errors/bug fixes.

UL Listings

UL 294 6th Edition - Access Control System Units

o Destructive Attack Level: I

o Line Security Level: II

o Endurance Level: IV

o Standby Power Level: IV

UL 365 - Police Station Connected Burglar Alarm Units and Systems

UL 609 - Local Burglar Alarm Units and Systems

UL 1076 - Proprietary Burglar Alarm Units and Systems

UL 1610 - Central-Station Burglar-Alarm Units

UL 1635 - Digital Alarm Communicator System Units

ULC Listings

CAN/ULC -S304-06 - Signal Receiving Center and Premise Burglar Alarm Control Units

- Communication Channel Security Level P1 (DACT) and A1 (IP) minimum risk for ULC

CAN/ULC-S303-M91 - Local Burglar Alarm Units and Systems

ULC/ORD-C1076-86 - Proprietary Burglar Alarm Units and Systems

CAN/ULC-S319-05 Electronic Access Control Systems

For UL Echostream devices communicating with EN4200 Receiver, the following listings apply:

Note: Refer to section 3.2 for Echostream installation

AMCX UL 1610

APOU UL 1076

APAW UL 365

Note: For UL certificated installations where Echostream devices are utilized, the Central Station operator should not disable/bypass wireless devices until they have received confirmation from the end user.

Active Level

Protected Premise

Back up Requirements for

Network Equipment

Supervision of communication Channel Receiver Risk

Level P1 P1 – DACT 24 Hr. Standby

Power

Loss of communication channel shall be indicated

at SRC D6600 Low

Level A1 A1 – IP 24 Hr. Standby

Power

Loss of communication channel shall be indicated

at SRC D6600 Low


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Recommended communication channel

Security Levels (Extent of) Protection Clarification of protection for

perimeter, space, safe and vault

Low Risk Passive P1

Accessible openings should be contacted whether fixed or

movable. Alternatively, fixed openings may be protected by

space protection

Low Risk Active A1

Accessible openings should be contacted whether fixed or

movable. Alternatively, fixed openings may be protected by

space protection

7.6 Burglar Alarms Local Burglar Alarm

1. The listed [Honeywell WAVE2PD Two-Tone Piezo Dynamic Siren, WAVE2 Two-Tone Siren, WAVE2F Two-Tone Flush Mount Siren, 748 Dual-Tone Siren, 748LC Dual-Tone Siren (Low Current Draw), 747 Self-Contained Indoor Siren, 747PD Two-Tone Peizo-Dynamic Indoor Siren, AB12M Motorized Bell in a Box, MB-G6-12-R (NBell). MT12/24R, MT4-12/24-R (Horn). MIZ-12-R, MIZ-12-W (Mini Horn), AH-12-R (Horn),] bell and bell housing shall be used.

Note: For CAN/ULC installations, Non-attack bell housing mounting requirements are as follows:

Inside: An inside sounding device shall be mounted at least 10 feet (3.05 m) above the floor or at the surface of the ceiling. When there is fixed construction within the area that could provide access for an intruder, the alarm sounding device shall also be mounted at least 4 feet (1.2 m), as measured horizontally, away from the edges of the fixed construction or at least 10 feet (3.05 m) above it so as to minimize access by an intruder.

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

a) A second alarm sounding device and housing, intended for outside service , is mounted adjacent to the premises or area of the building in which the alarm system is installed or

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

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

2. The maximum exit delay time shall not exceed 60 seconds and the maximum entry delay time shall not exceed 45 seconds.

3. Up to two 40 Ah batteries shall be used to provide the 4 h standby time followed by 15 min of alarm. A minimum 15 min alarm period shall be programmed for UL. For ULC, 30 min. of alarm period shall be programmed.

4. The maximum total current draw for all modules, refer to Section 3.5.

5. Bell plus all other loads must never exceed 500 mA when 24 hour battery standby is used.

6. The system shall be housed in the Model SONIP 27 ENCLOSURE, SONIP 18 ENCLOSURE, SONIP 18 ENCL-ATK, or SONIP 27 ENCL-ATK. The enclosures shall be mounted inside the protected premise.

7. The bell test shall be enabled.

8. Bell circuit wiring needs to be in conduit.


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Burglar Alarm (Central Station, Proprietary)

Same as local burglar alarm above. The system shall be programmed to transmit the required opening and closing signals.

Note: Attack enclosure is not required. Attack resistant bell is not required (Honeywell Wave2, etc.).

1. The system may be connected to Listed accessories outlined in the installation instructions.

2. The number of separate signals on a single channel is limited to 1000.

3. Network addressing of devices must not make use of public Domain Name Servers.

4. The message “PANEL DOWN” may indicate a compromise attempt.

5. A Listed printer suitable for proprietary and central station use shall be connected.

6. The unit provides 24 h standby power.

7. For applications using DACT as the primary off-premise communication means, the telephone line connected to the system shall be supervised by having the transmitter send a test signal to the receiver once every 24 hours.

8. For applications using IP (PSDN) as the primary off-premise communication means, the system shall be supervised by sending a polling message between the protected premise controller and the receiver once every 180 seconds.

Mercantile Safe and Vault

1. Same as local burglar alarm above.

2. Two 40 Ah batteries shall be used to provide the 4 hour standby time followed by 15 minutes of alarm and extended power loss of 24 hours for UL. For ULC, 30 minutes of alarm period shall be programmed.

3. For CAN/ULC installations only bells model AB12M, AH-12-R, and MB-G6-12-R can be used. These listed bells, if separately powered by premise power cannot be on the same circuit power as the safe or vault.

Note: The iBase it to be mounted in a separate control room from the protected safe or vault and inside the protected perimeter. Use UL and/or ULC listed devices to protect the safe or vault. Devices to be installed per UL 681 (Extent 2 or greater) and/or CAN/ULC S302 (Level 2 or greater) Safe and Vault Standards. Lines to or from the safe or vault are to be run through conduit."

Bank Safe and Vault

This equipment is not intended for use with bank vault alarm systems.

Police Connect

Same as local burglar alarm above. System supplies standard line security (PSTN).

Central Station

Same as local burglar alarm above. The system shall be programmed to transmit the required opening and closing signals.

Household

Note: Household is NOT listed for UL and ULC applications.

1. Refer to Table 1 External Terminals Specifications for maximum standby and loading conditions.

2. Maximum entrance delay time shall not exceed 45 seconds.

3. System shall employ a Listed-sounding device rated to operate over the range of 11.2-13.7vdc Vdc.

4. All zones shall be programmed to be supervised with a 1 kOhm end-of-line resistor.

5. The system shall be housed in the Model SONIP 27 ENCLOSURE or SONIP 18 ENCL standard enclosure, or, SONIP 18 ENCL-ATK or SONIP 27 ENCL-ATK attack resistant enclosure.

6. The maximum AUX Power output (max total), refer to section 3.1 and 3.3, ‘Wiring the SONIP FlexIP System’.


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7.7 CAN/ULC-S319 For CAN/ULC-S319, the following detail the minimum specifications for the Central Station monitoring server:

Computer and Processor 1GHz or faster x86 based processor PC

Memory 2GB of RAM minimum required

Hard Disk 160 GB of available hard-disk space for x86-based PC's

Drive DVD-ROM drive, USB 2.0 Drive

Display VGA or hardware that supports console redirection required

Software Windows 2003 Server minimum/SQL 2005 Standard Edition minimum

For CAN/ULC-S319, the following detail the minimum specifications for the Central Station monitoring workstations:

Computer and Processor 1GHz or faster processor required

Memory 2GB of RAM minimum required

Hard Disk 50 GB of available hard-disk space minimum

Drive DVD-ROM drive or CD-ROM drive, USB 2.0 Drive

Display VGA or hardware that supports console redirection required; Super VGA supporting 800 X 600 or higher resolution monitor

Software Windows XP Pro or better

ALERT SIGNAL PROCESSING REQUIREMENTS

DESCRIPTION CLASS OF EQUIPMENT III

1 Maximum delay time for alerting. •90 seconds

2 Maximum delay time for displaying text instructions following alert. •2 seconds

3 Maximum delay time for displaying image and graphics following alert. •15 seconds

The SONIP system is Class II as per CAN/ULC-S319-05. For compliance to CAN/ULC-S319-05 class II the system is required to communicate with Monitoring Console consisting of Bosch’s Central Station Receiver, Model D6600 and operator’s computer with Stanley’s monitoring software SONIP version 2.2.xxxx or 3.1.xxxx, or greater. SONIP monitoring software or other approved ULC S319 monitoring software. For class II the panel utilizes IP or DACT communications with supervision that will show loss of communication or alert within 10 minutes at the monitoring console. The monitoring station can override the access point by communicating to the panel using the IP communication or by calling the panel directly via the DACT.

The downloading of memory to the central station before total power loss is acceptable to satisfy the 96 hr memory retainment clause 5.1.7.1 of S319 requirement. System Self Protection.

o The Central Station Operators will be responsible to perform an upload to retrieve the panels access control data if a low battery alarm is received from the control panel prior to the panel losing upload functionality due to lack of power.


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The monitoring station SONIP Database Server cannot purge the hard drive before 96 hrs of power loss.

Portal status sensors of Class II, Class III and Class IV equipment shall be monitored by a debounce circuitry not to exceed 750 ms in order to avoid generating multiple alerts for a single event.

Device output shall remain deactivated for at least 750ms between output activation and output reactivation to allow for signal debouncing by the access control unit.

Monitoring to include debounce feature not to exceed 750 ms

Any power failures are received at monitoring station within 8 hrs

Request-to-Exit Device output shall remain deactivated for at least 750ms between output activation and output reactivation to allow for signal debouncing by the access control unit.

it is recommended that there is protection against overview of passcode while user is inputting passcode (maximum 30° vertical and 30° horizontal angle of view).

The panel must connect to S319 listed portal locking device with suitable Class.

Magnetic lock bond status sensors shall not be used to monitor portal status The following features are required for CAN/ULC-S319:

Entry into a controlled area only. Required

Exit from a controlled area. Required

Conditional to effective / expiry date. Required

Anti-tailgating. Required

Elevator control. Required

The following features are recommended for CAN/ULC-S319:

Input masking cannot be disabled. Events are always logged with no exceptions. There are no options that exist to not log an event.

For Class II operations, the panel must be programmed to 5 minute supervision time for DACT and Ethernet.

Soft antipassback. Highly Recommended

Global/System-wide antipassback. Highly Recommended

Antipassback override/disabling. Highly Recommended

Timed antipassback. Highly Recommended

Visitor escorted access. Highly Recommended

First person-in rule. Highly Recommended


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For CAN/ULC-S319-05 applications the FlexIP must be used with CAN/ULC-S319-05 listed readers/keypads using Wiegand protocol and each access door must have audible feedback at 70db minimum at 1 meter distance away or visual feedback for when the door is in violation.


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8. Specifications Input into FlexIP Panel from facility: 24VAC

Supply voltage from FlexIP to downstream modules: 9.0-14 VDC

Current consumption (with EOL resistor): 600 mA nominal

EOL resistors: 1 kΩ, 5%, 0.25W

Dimensions: 9” H × 12” W (22.9 cm × 30.5 cm)

Operating temperature: 32o to 122o F (0o to 49o C)

Humidity: 93% non-condensing

STANLEY CSS HARDWARE LIMITED WARRANTY STATEMENT

Stanley CSS warrants each new product of its manufacture, to be free from defects in material and workmanship. It will repair or replace defective parts for a period of 24 months from the date of manufacture, providing the equipment has not been subjected to abnormal conditions such as misuse, abuse, misapplication, alteration, lightning damage or damage by an Act of God. This excludes packing, handling and shipping charges from the Customer. The limited warranty is restricted to the original purchaser.


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SONIP FlexIP Panel - Sonitrol Evansville

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