Intelliguard 9000 Security System - customer.honeywell.com

INSTALLATION INSTRUCTIONS

74-3047-1

® U.S. Registered TrademarkCopyright © 2001 Honeywell • All Rights Reserved

U.L. 4-01

Intelliguard 9000™SECURITY SYSTEM

WARNING: This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the Instructions Manual, may cause interference with radio communication. It has been tested and found to comply with the limits for a Class A computing device pursuant to Subpart J of Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference, in which case, users at their own expense will be required to take whatever measures may be required to correct the interference. Any unauthorized modification of this equipment may result in the revocation of the owner's authority to continue its operation.

GENERALThe Intelliguard 9000™ Security System (I9000) protects offices, warehouses and other businesses as part of the Enterprise Buildings Integrator™ (EBI) System. The I9000 uses Hold-up (HU) Detectors to alert outside help to a current hold-up and Hall Effect Door Switches (HEDS IV) to monitor door openings. Other detection devices and outputs can be linked to the I9000 when they conform to the requirements in form no. 74-3035, Intelliguard 9000 Specification Data.

OVERVIEWThese instructions describe the steps for wiring and connecting the I9000 devices, programming field devices and connecting the I9000 to the EBI Security System. They do not contain instructions for programming the I9000 with a PC. Refer to form no. 74-3046, Intelliguard 9000 Programmer’s Guide for programming instructions. Also see form no. 74-3035, Intelliguard 9000 Specification Data and form no. ZD34-002-100, EBI Installation Guide.

ASSUMPTIONSIt is assumed that:— The location of each part is planned before installation

begins.— Installer has a basic understanding of electronics.— Layout plan for I9000 is complete.

There is a specific order for installing the I9000. Refer to the following installation instructions. (The installer may change the order for mounting and connecting the hardware, when appropriate.)

INSTALLATION

When Installing this Product . . .1. Read these instructions carefully. Failure to follow the

instructions can damage the product or cause a hazard-ous condition.

2. Check the ratings given in the instructions and on the product to make sure the product is suitable for your application.

3. The installer must be a trained, experienced, licensed (where required) service technician.

4. After completing installation, use these instructions to check out the product operation.

Components— 8003-217 Remote Intelligent Power Supply (RIPS).— 8003-220 Area Keypad (KID).— 8003-238 Complete 6-Input Concentrator (BIC-6).— 8003-242 2-Input Concentrator (BIC-2).— 8003-277 Keypad Control Center (CC2).— 8003-283 Hall Effect Door Switch (HEDS IV) Complete

Assembly (includes Sensor and Magnet Assembly).— 8003-284 2-Input Concentrator Hold-up Actuator

(BIC-2 HU).— 8003-286 Multiple Output Module (MOM).— 8003-332 I9000 Control Unit (CU) in casing.— Transformer, 16 Vac, 37 to 40 VA.— RS-232 cable and connectors.— RS-485 cable and connectors.

NOTE: The MOM currently is not CE certified. In countries that require certification for all parts, configure one or more BIC-6s as an output device. Configuring the BIC-6 for output is described later in these instruc-tions.

Parts Available (Not Included)— 8003-302 HEDS IV L Bracket.— 7003-162 AX-5L Conduit Adapter.— 4545-059 BIC-2/BIC-2 HU Optional Relay.

INTELLIGUARD 9000™

74-3047—1 2

Special Tools Required— No. 1 Robertson (square-head) screwdriver.

Basic ArchitectureThe I9000 system has a distributed structure. Security points, such as motion detectors or contacts, feed into devices such as the BIC-6. Warning indicators, such as sirens and lights,

connect to output devices such as the MOM. These devices feed into the CU. Intelligent sensors, such as the HEDS IV, work like concentrator devices and feed directly into the CU, as shown in Fig. 1.

The I9000 is part of the EBI Security System. The EBI can control a maximum of 255 controllers in any combination of I9000 and access controllers. Fig. 2 shows the I9000 system connected to an EBI System. Connections can be made with the RS-232 or RS-485 cable for multi-drop communications.

Fig. 1. Basic I9000 architecture including links to PC, EBI.

M14456A

I9000 CONTROL UNIT AND POWER SUPPLY

I9000 CONTROL UNIT AND POWER SUPPLY

RS-485 TOI9000 DEVICES

KEYPAD CONTROL CENTER

BIC-2 INPUT MODULE

MULTIPLEOUTPUT MODULE

HALL EFFECT DOOR SWITCH

AREA KEYPAD

BIC-6 INPUT/OUTPUT MODULE

PRO 9000 (SOFTWARENOT INCLUDED) EBI

RS-232(RS-485 WITH RRI)

RS-485


3 74-3047—1

Fig. 2. I9000 CU connected to devices, EBI.

General Procedure

Plan the System1. Review the job file, plans and specifications for accu-

racy and completeness.2. Prepare any necessary installation drawings (for exam-

ple, risers).3. Determine any necessary connections to other sys-

tems.4. Select the devices for the system.5. Select the location for each device and point.6. Calculate the power requirements.

NOTE: Be sure to include the input concentrator and motion detector power requirements in the power supply and battery calculations.

Install the System1. Pull the wires.2. Mount the equipment.3. Connect the wires to each input device, output device,

and point.

NOTES:— All device terminals accept 24 to 18 AWG (0.27

sq mm to 1.0 sq mm) conductors.— Always use twisted pair cables for the local bus.

Install the local bus using multi-drop topology.Maximum distance for the local bus is 3277 ft (999m).

— Maximum input loop distance for ULI/ULC appli-cations is 50 ft (15m).

— Maximum input loop distance for non-ULI/ULC applications is 250 ft (75m).

4. Set the address of the devices with address switches.5. Record the local bus number, device type, address and

serial number for each device.6. Check to make sure that the wiring matches the job dia-

gram.7. Connect power to each RIPS and CU.8. Measure the voltage and current draw on each power

circuit.

System Checkout1. Check the voltage on each device.2. Set the loop configuration and other parameters for

each device.3. Make sure all input loops are configured for input.4. Make sure all loops are normal (not in trouble or alarm).5. Make sure the alarm condition responds properly.6. Make sure the trouble condition responds properly.

1 2 5 6

TB1

1 2 3 4

TB1

I9000ISP AND CU

ICP

– +– +

1 2 3 4– +

1 2 3 4– +

1 2 3 4– +

1 2 3 4– +

1 2 3 4– +

1 2 3 4– +

1 2 3 4– +

1 2 3 4– +

1 2 3 4– +

HEDS IVCC2

1 2 3 4– +

BIC-2 HUBIC-2

1 2 3 4– +

MOMMOM

1 2 3 4– +

RIPSRIPS

KIDKID

BIC-6BIC-6

COM 131 DEVICES MAX. CABLE 3277 FTRS-485

COM 231 DEVICES MAX. CABLE 3277 FTRS-485

EBICOM 3RS-232 (RS-485 WITH RRI)

M14461A

A GROUND CONNECTION BETWEEN THE CONTROL UNIT AND ALL RIPS SHARING COM 1 AND/OR COM 2 IS REQUIRED AS A GROUND REFERENCE. TO PREVENT GROUND LOOPS, ONLY MAKE ONE GROUND CONNECTION.

1

1 1


74-3047—1 4

Commission1. Learn each device. (Step 1 can be replaced with steps

a. through c.)

NOTE: A device is learned when its address or serial num-ber is recorded in the CU.

a. Enter the information from Install the System sec-tion, step 5, into the PRO 9000 software (Menu: Program/Polling) and downloading the Polling Table into the I9000 Control Unit (see form no. 74-3046, Intelliguard 9000 Programmer’s Guide for more information).

b. Before downloading, set the baud rate for COM 3 to match the baud rate selected in PRO 9000. Use any CC2 connected to the control unit to set the baud rate since all CC2s are learned automatically at power up.

c. Exit from the CC2 Configuration Menu for changes to become effective. When used with PRO 9000, the maximum supported baud rate for the I9000 with EBI Orbix (8950-109) firmware is 4800 baud.

2. Check the communication status for each device:F = COM failM = Marginal (latched status, clear with Reset Log command).

NOTES:— To view the F and M (COM fail and Marginal),

from the CC2 go to the 2-ASSIGN menu (sub-menu of the CONFIGURATION menu, entered by using the Mode key).

— The F and M appear on the far right first line of text for each device in the table (you must scroll to view each device).

— When everything is normal, no characters appear on the far right of the first line of text.

— The F (COM fail) clears automatically when com-munication is restored to the device exhibiting an F.

3. Disarm each armed area.4. Program the tables.

System TestPerform a WALK TEST to make sure all devices with actuators work properly. This must be done at initial installation and each time a device is added to or removed from the system.

1. With all areas disarmed, press TEST on the CC2 to enter the TEST Menu.

2. Enter your ID and code number.3. Press 3 to select WALK TEST and press ACCEPT.4. Select the test area.5. Walk through the building and test each device. A beep

sounds on all CC2s and KIDs assigned to the test area as each alarm is triggered.

NOTE: When using the WALK TEST, Hold-up Actuators will not test okay in the Event Log.

6. If Hold-up Actuators (8003-284, red buttons) are tested, a manual Reset Detectors must be made after step 7.

7. Press X to stop the test.8. Press MODE to enter the MODE Menu.9. Press 3 to select EVENT LOG.

10. View the result of each area in the Event Log to make sure that each device is responding as designed.

The results of the alarm points tested in the WALK TEST are shown in lower case characters when successfully tested.

NOTE: If the technician ID (00) and code number (9999 = default value) were used in step 2, a communication test is automatically performed when the WALK TEST is terminated. The communication test (COM Test) results are shown as alarms (text in capital let-ters) and indicate proper communication with each device assigned to the specified areas.

System Layout and WiringThe designer plans the system based on building construction and customer needs. This plan requires the wiring for the I9000. The wiring must be routed before mounting any device. Wiring must be done by a qualified person and must comply with state and local building codes.

1. Map the route for the wires between each device.2. With a pencil, lightly mark the mounting locations for

each device.3. Install the wiring.4. Using a continuity tester, make sure there are no opens,

wire-to-wire shorts, or wire-to-ground shorts before con-necting the devices.

Fig. 3 shows a sample wiring plan. See Table 1 for recommended cable types.

Sample Installation PlanFig. 4 shows a typical floor plan with I9000 components in each room.


5 74-3047—1

Fig. 3. Sample wiring architecture.

BIC-2 HU HOLD-UPINPUT CONCENT.62 MAX.

BIC-2INPUT CONCENT.62 MAX.

BIC-6INPUT CONCENT.62 MAX.

HEDS IVHALL EFFECTDOOR SWITCH62 MAX.

CC2KEYBOARDCONTROL CENTER4 MAX.

KIDAREAKEYPAD8 MAX.

MOMMULTIPLEOUTPUT MODULE8 MAX.

RIPSINTELLIGENTPOWER SUPPLY7 TOTAL MAX.

POWER COM 1 COM 2

ISPPOWERSUPPLY

CUCONTROLUNIT

SERIALPORT

TO EBI. THIS PORT IS ALSO USED FOR PRO9000 PROGRAM LOADING

50 FEET EARTHGROUND

50FEET

EARTHGROUND

1

1

ONE ISP IS SHIPPED WITH EACH CU AND RIPS.

HONEYWELL I9000 SYSTEM WIRING

M14462A

NOTES:A TOTAL OF EIGHT ISPs CAN BE CONNECTED TO THE CU. THIS INCLUDES THE ISPLOCATED IN THE CONTROL UNIT PLUS THOSE IN THE RIPS.

THE CU SUPPORTS A MAXIMUM OF 31 DEVICES PER COM PORT (31 FOR COM 1AND 31 FOR COM 2, TOTAL = 62).

SPLITTING DEVICE TYPES EQUALLY BETWEEN COM 1 AND COM 2 IMPROVESSYSTEM PERFORMANCE. EXAMPLE: TWO CC2s ON COM 1 AND TWO OTHERSON COM 2, THREE BIC-6s ON COM 1 AND THREE OTHERS ON COM 2.


74-3047—1 6

Fig. 4. Room detection device locations.

Table 1. Recommended cable types.

CERCO

Honeywell Part

Number (Canada)

Honeywell Part

Number (US) Description

Solid/Stranded Shielded

Plenum/Non-

Plenum JacketRating

(Canada)Rating (US)

OD in.

(mm)

TemperatureU.S.

(Canada)

1680 6009-096 AK3782 22/2 PR Gray

Solid No Non Gray FT-4 CM 0.174(4.47)

80°C(105°C)

1681 6009-095 AK3792 22/2 PR White

Solid No Non White FT-4 CM 0.176(4.47)

80°C(105°C)

1684 6009-098 AK3795 22/3 PR Gray

Solid No Non Gray FT-4 CM 0.185(4.70)

80°C(105°C)

1685 6009-097 AK3796 22/3 PR White

Solid No Non White FT-4 CM 0.18(4.70)

80°C(105°C)

1686 6009-102 AK3797 22/3 PR Plenum

Solid No Plenum Gray FT-6 CMP 0.171(4.34)

60°C(60°C)

1687 6009-099 AK3798 22/3 PR Gray

Stranded No Non Gray FT-4 CM 0.18(4.75)

80°C(105°C)

RESTROOM

RESTROOM

SALES

RESTROOM

RECEPTION

ENGINEERING/PRODUCTION

OFFICES OFFICES WAREHOUSE

CONTACT SWITCHES ON EACH WINDOW AND ALL DOORS EXCEPT THOSE SPECIFICALLY LABELED FOR HEDS IV.

MOTION DETECTORS IN EACH ROOM.

AREA KEYPAD IN EACH ROOM EXCEPT RESTROOM.

CC2 IN RECEPTION AREA AND WAREHOUSE.

CU IN CLOSET.

CLO

SE

T

CLO

SE

T

M16107A

SAFE


7 74-3047—1

Select Detection, Control and Power DevicesFig. 5 shows an example worksheet for determining devices needed. Copy the blank worksheet in Appendix B for each individual job.

Fig. 5. Sample device quantity, power worksheet.

Detection Devices and OutputsMost installations begin with the detection devices and outputs. Honeywell supplies intelligent contact switches (HEDS IV) for security doors. Other detection devices may be connected to the I9000 when they meet the device requirements of form no. 74-3035, Intelliguard 9000 Specification Data.

Hall Effect Door Switches (HEDS IV)Hall effect door switches (HEDS IV) are intelligent contact sensors that are mounted on doors. If the door is opened when the area is armed, a signal is sent to the I9000 and then to the EBI. Each CU supports a maximum of 31 HEDS IV on each COM, for a total of 62. These totals include all device types shown in Fig. 2. Fig. 6 shows the wiring connections for HEDS IV.

Fig. 6. HEDS IV wiring connections.

NOTE: TB1-1 is ground for the system.

QTY DEVICE DESCRIPTION UNIT POWER TOTAL POWER

CU

CC2 MAXIMUM OF 4 (NO BACKLIGHTING)

KID (MAXIMUM OF 8)

HEDS IV

BIC-2 OR BIC-2 HU (1 INPUT AND 1 LOGICAL OUTPUT)

BIC-2 OR BIC-2 HU (1 INPUT AND 1 OPTIONAL RELAY OUTPUT)

BIC-6 (6 PROGRAMMABLE INPUTS AND OUTPUTS)

MOM (MAXIMUM OF 8 PROGRAMMABLE LOGIC OUTPUTS)

RRI (REQUIRED FOR EBI RS-485 MULTI-DROP WIRING CONFIGURATIONS)

(45)

(10)

CC2 MAXIMUM OF 4 (WITH BACKLIGHTING) (98)

(20)

(8)

(6)

(10)

(45)

(85)

M16259B

TOTAL POWER REQUIREMENTS FOR THIS INSTALLATION A

B

C = B - A

D

C + D

POWER AVAILABLE FROM PANEL (ISP = 800 mA)

SUBTOTAL (SHOULD BE POSITIVE +) IF NOT, ADD POWER AT "D"

IF TOTAL "C" IS NEGATIVE, ADD POWER SUPPLY (RIPS) (ISP = 800 mA)

TOTAL

(25)

1

1 EACH ISP HAS TWO POWER OUTPUTS (AUX 1 AND AUX 2). THE LOAD CONNECTED TO ONE ISP OUTPUT MUST NOT EXCEED 400mA.

2

2

2 COMBINATION OF CC2s WITH BACKLIGHTING AND CC2s WITHOUT BACKLIGHTING-FOUR TOTAL MAXIMUM.

M16105B

S1

U4

U5U6 U1

DS1

C6

C7U2

4 3 2 1

TB1

TB1-1 = COMMONTB1-2 = +12VTB1-3 = RxTx -TB1-4 = RxTx +

WIRE CONNECTIONSMOUNTING HOLES (2)

CU COM+ – + –

12 VDC

RS-485


74-3047—1 8

MOUNT THE HEDS IVSee Fig. 7 for a typical door-mounted HEDS IV.

1. Remove the HEDS IV magnet assembly cover and the two magnets by loosening the two set screws (requires hex allen key). This allows access to the mounting holes located under the magnets.

2. Mount the magnet assembly on the door at the selected mounting location (as far away from the hinge side as possible) using two No. 6 round or pan head screws.

3. Reinstall the two magnets (red markings on magnets must be facing toward the support closest to the edge of the plastic base and flush with the support) and tighten the two set screws.

Fig. 7. HEDS IV typical door mount position.

4. Reinstall the cover.5. Remove the L shaped cover of the HEDS IV unit

assembly. See Fig. 8.6. Select one of the cable entry options shown in Fig. 8

and drill or bend the cable entries.7. Align the HEDS IV unit assembly with the HEDS IV

magnet assembly and mount using two flat head screws. The spacing between both units must not exceed 3/16 in. (4.76 mm). Do not allow the two parts to touch when the door is closed.

8. Feed the cable(s) into the unit.9. Connect the wires to the terminals as indicated in Fig. 6.

10. Do not install the L shaped cover until the device is cali-brated and learned.

11. Learn the HEDS IV using step 11a. or 11b.a. With the protected door open, start the LEARNING

Mode (DEVICES WITH SERIAL #) at a CC2. Press and hold the HEDS IV learn push button S1 for one second. This also starts the calibration process. At the CC2, end the learning procedure and proceed to step 12b.

b. Take note of the HEDS IV serial number, enter it (gathered information from all devices, enter and download once to save time) into PRO 9000 and download it into the I9000.

12. Calibrate the HEDS IV.a. With the protected door open, press and hold S1 for

one second.b. Replace the HEDS IV cover.c. Close the door.d. Send the Reset Detector command from the CC2.

13. Repeat steps 1 through 12 for each HEDS IV.14. From the CC2, exit the CONFIGURATION Menu for

changes to become effective.

Fig. 8. Cable entry options.

6-Input/Output Concentrators (BIC-6)Most detection devices connect to a 6-Input Concentrator (BIC-6). Each BIC-6 accepts a maximum of six inputs and relays the signal to the CU as a single output to reduce the amount of direct wiring to the CU. Each CU supports a maximum of 31 BIC-6s on each COM, for a total of 62. These totals include all device types shown in Fig. 2. Fig. 9 shows wiring terminals and programming buttons on a BIC-6.

.To install the BIC-6:1. Remove the BIC-6 cover at the selected mounting loca-

tion.2. Use a no. 1 Robertson (square drive) screwdriver to

remove the screws securing the circuit board to the back casing.

IMPORTANTTouch a grounded object to ensure you are not elec-trostatically charged before handling the circuit board.

HEDS IV TOP

HEDS IVBOTTOM(CONTAINSMAGNET)

DOOR

M16108

KNOCKOUT

HEDS IV COMPLETE ASSEMBLY 8003-283(INCLUDES SENSORAND MAGNET ASSEMBLY)

SENSOR 8003-280

MAGNET ASSEMBLY 8003-282

DRILL ONE OR TWO HOLES AS REQUIRED ANYWHERE ON THISSURFACE. VERIFY FOR OBSTACLESON OPPOSITE SIDE FIRST.

M14547

COVER (NON-REMOVABLE)

8003-280 UNIT ASSEMBLY(ENCLOSURE ONLY)

DRILL ONE OR TWO HOLES AS REQUIRED — HERE OR ON OPPOSITE END.

ONE CORNER OF THE PLASTIC KNOCKOUT IS LIFTED AND BENTOVER. CHOOSE THE CORNER WHICH IS MOST CONVENIENT.


9 74-3047—1

3. Carefully remove the circuit board. Do not touch any of the circuits or chips.

4. Mount the BIC-6 on the wall using four No. 6 round or pan head screws.

NOTE: Feed the required cables into the BIC-6 base by using the two square holes in the base wiring chan-nel or remove the knockouts on either end of the wir-ing channel to pass the cables through the openings.

5. Carefully replace the circuit board.6. Connect all the wires to the BIC-6 as shown in Fig. 9.7. Repeat steps 1 through 6 for each BIC-6.8. When installation is complete and power is applied,

learn the BIC-6s.

NOTE: Steps 8a. through 8h. may be replaced by using the PRO 9000 software. See the Commission section, steps 1a. through 1c., for more information.

a. Make sure the LED DS1 on each installed BIC-6 displays C.

b. On each BIC-6, press the S2 (ACCEPT) button to place them in the COMMUNICATION STATUS dis-play mode.

c. The center segment (RECEIVE) of the seven seg-ment LED display (BIC-6 DS1) flashes to indicate incoming data.

d. The decimal point on the LED display (BIC-6, DS1) of each BIC-6 is off.

e. From the CC2, select CONFIGURATION from the MODE Menu.

f. From the CC2, select LEARNING MODE.

g. From the CC2, select DEVICES WITH SERIAL #. The CC2 displays Searching. The decimal point lights on the LED display (BIC-6, DS1) on each BIC-6 indicating they are in the LEARNING MODE.

h. From each BIC-6, press and hold the S2 (ACCEPT) button for approximately two seconds, or until the bottom segment (TRANSMIT) of the LED display DS1 flashes and the decimal point turns off. When the decimal point disappears, the device is learned.

NOTE: If the BIC-6 had previously been learned, the deci-mal point would have turned on and then turned off almost immediately.

i. When the ACCEPT key is pressed on the CC2, the I9000 exits the LEARNING MODE and displays the total number of devices known by the system, including the BIC-6s.

j. From the CC2, exit the CONFIGURATION menu for changes to become effective.

k. The bottom segment (TRANSMIT) of the LED dis-play (BIC-6, DS1) flashes every time the BIC-6 is polled (addressed). The center segment (RECEIVE) also flashes.

9. Configure each loop in the BIC-6, as needed, for the specific inputs and outputs. See Loop Parameters and Programming section.

10. Test the input loops locally using the ALARM status mode of the BIC-6 display. Refer to the Communication and Alarm Display section. The inputs must still be tested from the I9000 using the CC2 when the I9000 programming is completed. (The outputs may only be tested from the I9000 using the CC2 when the I9000 programming is completed.)

11. Replace the BIC-6 cover.12. Repeat steps 9 through 11 for each BIC-6.

Fig. 9. BIC-6 internal view.

NOTE: TB1 COM and VDD connect to 12 Vdc whereas TXRX- and TXRX+ connect to the CU COM 1 or 2, but not both. TB2 and TB3 connect to input points (see Fig. 10, Loop Type 0, 2 or 4 for input wiring configurations), or output points (see Fig. 10, Loop Type 3 for output wiring configurations).

1 2 3 4 5 61 2 3 4 1 2 3 4 5 6

TB1 TB2 TB3

S3

S2

S1DS1

RECEIVE

DISPLAY IN COMMUNICATION

STATUS MODE QUITQUITTER

ACCEPTACCEPTER

NEXTSUIVANT

A1 COPNO. 8003-243

CO

M

VD

D

TX

RX

-

TX

RX

+

LP1-

LP1+

LP2-

LP2+

LP3-

LP3+

LP4-

LP4+

LP5-

LP5+

LP6-

LP6+

BIC-6 CONCENTRATOR UNIT8003-238

M16066B

MOUNTING HOLES (4)

CU COM12 VDC

INPUTSUCH ASMOTIONSENSOR

OUTPUT SUCH ASBUZZER

INPUT OUTPUT +– +–

TRANSMIT

LEARN

1

1 REFER TO POSSIBLE LOOPS, CIRCUITS FOR BIC-6 DEVICE DIAGRAM, LOOP TYPE 3, FOR OUTPUT WIRING CONFIGURATIONS.


74-3047—1 10

Loop Parameters and ProgrammingThe following parameters define the possible loop programming types:Parameter 0: Default value = 0.— 0 = The seven segment display is inactive when the tamper

switch is pressed.— 1 = The seven segment display remains active when the

tamper switch is pressed.

Parameter 1: Default value = Type 2.— Parameters 1 through 6 are loop type 0, 2, 3 or 4. Refer to

Fig. 10.Parameter 7: Default value = 0.— 0 = Keep programmed loop types when exiting Program

Mode.— 1 = Return to default loop types when exiting Program

Mode.

There are four possible combinations of loops and end-of-line resistors. Each loop may be independently programmed for any of the loop types shown in Fig. 10.

To set loop type:a. Press switch S3 (QUIT) to return to C on the display.b. Press S1 (NEXT) until the LED flashes P.c. Press S2 to accept PROGRAM mode.d. Press S1 to scroll through the loops to loop 1.e. Press S2 to accept programming for the selected

loop. The decimal point lights in the bottom right cor-ner of the LED display (DS1) to indicate the selected loop type number.

f. Press S1 to scroll to the desired loop type number, as shown in Fig. 10.

g. Press S2 to accept the desired loop type number and display the next loop.

h. Repeat steps e. through g. for each loop.i. Press S3 (QUIT) to leave PROGRAM mode.

Fig. 10. Possible loops, circuits for BIC-6 device.

COMMUNICATION AND ALARM DISPLAYThe BIC-6 has three modes:— P allows the user to program the configuration of the

individual loops. — C enters the Communication Display mode and causes the

center bar (RECEIVE) on the LED display to light each time the BIC-6 receives communication from the CU. The bar closest to the terminal (TRANSMIT) lights each time the BIC-6 responds.

— A enters the Alarm Display Mode for the loops. If the loops are normal, a bar displays (—) on the LED. If the loop is in alarm, the loop number appears on the LED display and the decimal point lights; (for example, 4.) for loop four. If the loop is in trouble, the loop number appears on the LED display, but the decimal point is not lit; (for example, 5) for loop five. If more than one loop is abnormal, the display scrolls to show each abnormal loop for one second.

Alarm Status Display Examples— Indicates normal status for all loops.2 Indicates trouble on loop 2.4. Indicates alarm on loop 4.

2-Input Concentrators (BIC-2), 2-Input Concentrators with Hold-up (BIC-2 HU)NOTES:

— The BIC-2 and BIC-2 HU are functionally very similar. The same diagrams apply to both devices. They differ in that the BIC-2 HU has red buttons and the Hold-up function must be programmed into the I9000 CU, while the BIC-2 has white but-tons and can be used for any purpose other than the Hold-up function. The BIC-2 can be pro-grammed accordingly in the I9000 CU.

N.C.

N.C.

TAMPERCONTACT

N.C.CONTACT

2.2K5%1/4W

2.2K, 5%, 1/4W

N.C.

N.O.TAMPER CONTACT

2.2K5%1/4W

LOOP +

LOOP –

LOOP +

LOOP –

+12 VDC

LOOP –

LOOP +

LOOP –

SHORT

2.2K = NORMAL4.4K = ALARM

OPEN = TROUBLE

SHORT = ALARM2.2K = NORMAL

OPEN = TROUBLE

SHORT = NORMALOPEN = ALARM

CIRCUIT FOR ULC INSTALLATIONS USING A NORMALLY OPEN CONTACT WITH END OF LINE RESISTOR.

CIRCUIT USING A NORMALLY CLOSEDCONTACT WITH END OF LINE RESISTOR.

LOOP +

LOOP –

N.O. N.C.C

ADDITIONAL RELAYOR

A REGULAR LED CAN BE CONNECTED ACROSS LOOP INPUTS.NO SERIES RESISTOR REQUIRED WITH LED (RESISTOR PROVIDED INTERNALLY).

LOOP "+" INPUT NOT USED.

CONNECT OUTPUT RELAYBETWEEN "–" LOOP INPUTAND "+12 Vdc"

UNSUPERVISED CLOSED LOOP

DESCRIPTIONTYPE TYPICAL LOOP SCHEMATIC (FIVE LOOPS)

0

LOOPTYPE

LOOPTYPE

LOOPTYPE

LOOPTYPE

2

3

4

M16078E

= TROUBLE (VERSION 006 OR HIGHER)= ALARM (VERSION 005 OR LOWER)


11 74-3047—1

— When both buttons on the BIC-2 or BIC-2 HU are pressed simultaneously, an alarm signal is sent to the I9000 Security System. How the I9000 Security System interprets the alarm depends on the I9000 programming for input 4 on each BIC-2 or BIC-2 HU. Input 4 of BIC-2 HUs are normally

defined as Type 7 (Hold-up 24 hours) or 8 (Hold-up 12 hours, day only). Input 4 of BIC-2s may be defined as any recognized type other then Type 7 and 8. Each CU supports a maximum of 31 devices (any combination of BIC-2s and/or BIC-2 HUs on each COM, for a total of 62). See Fig. 11.

Sometimes it is more convenient and less expensive to have detection devices connected to a 2-Input Concentrator (BIC-2). Each BIC-2 or BIC-2 HU accepts a maximum of two inputs and provides one output. Each I9000 CU controls a maximum of 31 BIC-2 or BIC-2 HU devices on each COM for a total of 62. See Fig. 12.

Fig. 11. Internal view of BIC-2, BIC-2 HU wiring terminals, mounting holes.

NOTE: COM and VDD connect to 12 Vdc. TXRX- and TXRX+ connect to CU COM 1 or 2, but not both. LP1 and LP2 connect to input points.

Fig. 12. BIC-2, BIC-2 HU cover removal.

NOTE: Press both actuator buttons simultaneously to generate an alarm signal.

1

2

3

4

5

6

7

8

M14490A

TB1

O/C (OPEN COLLECTOR)

LP2 +

LP1 & 2

LP1 +

TxRx +

TxRx –

VDD

COM

W1

MOUNTING HOLES (3)

COM LED

WHEN USING RELAY OPTION, REFER TO BIC-2, BIC-2 HU TWO-ENTRY CONCENTRATOR CONFIGURATION FOR LOOPTYPES AND EOLRs. (LOOP 2 NOT AVAILABLE USING THIS OPTION.)

U4

K1

K1

1

2

3

4

8

7

6

5

CU COM

EOLR EOLR

12 VDC

INPUTINPUT OUTPUT

+ – + –

1

1

COM LED IS VISIBLE THROUGH ACTUATOR BUTTON. ALSO SEE BIC-2, BIC-2 HU DIAGRAM.

1

2

1

BIC-2 AND BIC-2 HU P.C.B.ASSEMBLY 8003-241

ACTUATOR BUTTONS(ONE ON EACH SIDE)

COM LED IS VISIBLE THROUGH RIGHT SIDE ACTUATOR BUTTON

M16114A

BIC-2 UNIT ASSEMBLY (BEIGE BUTTONS) 8003-242

BIC-2 HU UNIT ASSEMBLY (RED BUTTONS) 8003-284

LIFT COVER

PUSH

FLAT-BLADEDSCREWDRIVER


74-3047—1 12

NOTE: All references to the BIC-2 also apply to the BIC-2 HU except as otherwise noted.

Power down the system before mounting the BIC-2. The BIC-2 may be mounted under a desk, counter or on a wall in any orientation.

NOTE: 2-Input Concentrator Hold-up Actuators (BIC-2 HU) allow a user to signal that the building or office is being robbed. Place these devices in locations out of view from potential intruders. Also place these devices in locations where an armed intruder might isolate or lock employees or customers during a rob-bery.


1. At the selected BIC-2 mounting location, use a small flat-bladed screwdriver to remove the device cover. See Fig. 12.a. Place the flat-bladed screwdriver inside the hole on

the front cover.b. Pry away the cover by pushing the screwdriver han-

dle away from the tapered end of the BIC-2.2. Pull the hinge holding the circuit board away from the

circuit board.3. Gently remove the circuit board. Do not touch any of the

circuits or chips.4. Mount the BIC-2 using three No. 6 round or pan head

screws.5. Configure the BIC-2.

— The BIC-2 is shipped with the four-position shunt installed. Remove the shunt to insert a relay.

— Relay Part no. 4545-059, is optional (order sepa-rately).

— Loop 2 is not functional when the BIC-2 is config-ured with a Relay. When a Relay is used, loop 2 is not functional. Make sure loop 2 is not active at the control unit (or Trouble is permanently indi-cated). From the CC2, modify the I9000 CU pro-gram to disable the BIC-2, loop 2 (BIC-2 input 3) by setting its associated point as Type 0 in the points menu. The PRO 9000 software may also be used to accomplish this.

a. Select the desired input/output configuration (one of the three) from the choices in Fig. 13 (two loops with Open Collector output, or one loop with Relay, N.C. or N.O.).

b. For configurations requiring the Relay, remove the shunt.

c. Install the Relay, if desired. Make sure the Relay ori-entation matches the orientation shown in Fig. 13.

d. Jumper W1 is shipped installed for non-powered Class B operation on both loops 1 and 2, see Fig. 13. Install a 2.2K ohm, 5%, 1/4W end-of-line resistor (EOLR) (red-red-red).

e. Cut jumper W1 for powered Class B operation on both loops 1 and 2. See Fig. 12. Use 22K ohm, 5%, 1/4W resistors for powered class B.

6. Gently snap the circuit board into place.7. Wire the BIC-2 according to the terminal block connec-

tions corresponding to the option chosen in step 5. (See Fig. 11 and 13).

8. Snap the front cover onto the BIC-2.9. To learn the BIC-2s, see the BIC-2/BIC-2 HU Learning

Procedure section.

BIC-2/BIC-2 HU Learning ProcedureWhen using remote programming, the learning procedure is not necessary. The device serial numbers may be entered into the PRO 9000 software and downloaded into the I9000.

If remote programming is not used, the learning procedure must be followed:

1. Power up the I9000 System.2. From the CC2, press the MODE key, enter the techni-

cian ID code and pass code.3. From the MODE menu, go to the 5-CONFIGURATION

menu and then to the 1-LEARN menu.4. Go to the 2-DEVICES WITH SERIAL # menu and press

the ACCEPT key. The LED DS1 lights on all BIC-2 and BIC-2 HU devices indicating they are in the Learn mode.

5. Press both actuators simultaneously to learn the BIC-2 and BIC-2 HU. The LED DS1 flashes indicating it has been learned.

6. Repeat step 5 until all devices are learned.7. From the CC2, press the ACCEPT key to end the learn-

ing process. The total number of devices recognized by the I9000 CU are displayed on the CC2.

8. Proceed with other tasks at the CC2, or press the X key to return to the Main menu for changes to become effec-tive.

NOTES:— When you learn the BIC-2 HU, you also place that

point in alarm. This can be verified in the Event Log.

— To clear the alarm, use the 2-RESET DETEC-TORS HU command in the MODE menu when all devices have been learned. If you press the actu-ators now, you should get an alarm if the device is functioning properly.


13 74-3047—1

Fig. 13. BIC-2, BIC-2 HU two-entry concentrator configuration.

Output Devices

MULTIPLE OUTPUT MODULES (MOM)

NOTE: The MOM currently is not CE certified. In countries that require CE certification for all parts, configure one or more BIC-6s as an output device. Multiple output modules (MOM) receive signals from the CU and activate an output. Each MOM can activate a maximum of eight outputs. Each CU can support a maximum of eight MOM output devices. Fig. 14 shows MOM wiring.

Fig. 14. Internal view of MOM.

NOTE: TB1 COM and VDD connect to 12 Vdc whereas TXRX- an TXRX+ connect to CU COM 1 or 2, but not both. TB2 and TB3 connect to outputs such as sirens, lights and other indicators. (See 74-3035, Intelliguard 9000 Specification Data, for maximum current per output.)

1

2

3

4

5

6

7

141312111098

XK1

1

2

3

4

5

6

7

141312111098

XK1

W1

OM

RO

NG

6H-2

9V

DC

P/N

# 4

545-

059

1

2

3

4

5

6

7

8

1

2

3

4

5

6

7

141312111098

XK1

OM

RO

NG

6H-2 9V

DC

P/N

# 4545-059

TB1-1 = COMMONTB1-2 = V+TB1-3 = TxRx-TB1-4 = TxRx+TB1-5 = LOOP 1+TB1-6 = LOOP 1&2-TB1-7 = LOOP 2+TB1-8 = OUTPUT(OPEN COLLECTOR)

W1= NOT CUT= LOOPS 1 & 2= CLASS B= 2.2K EOLR

1

2

3

4

8

7

6

5

W1= CUT= LOOPS 1 & 2= CLASS B POWERED= 22K EOLR

TB1-1 = COMMONTB1-2 = V+TB1-3 = TxRx-TB1-4 = TxRx+TB1-5 = LOOP 1+TB1-6 = LOOP 1-TB1-7 = RELAY COMMONTB1-8 = RELAY N.C.

TB1-1 = COMMONTB1-2 = V+TB1-3 = TxRx-TB1-4 = TxRx+TB1-5 = LOOP 1+TB1-6 = LOOP 1-TB1-7 = RELAY COMMONTB1-8 = RELAY N.O.

BIC-2, BIC-2 HUWITH 2 INPUT LOOPS + 1 OPENCOLLECTOR OUTPUT USING SHUNT ASSEMBLY

BIC-2, BIC-2 HUWITH 1 INPUT LOOP + 1 RELAY OUTPUT(NORMALLY CLOSED)CONTACT = 1 AMP AT 30 VDC

BIC-2, BIC-2 HU WITH 1 INPUT LOOP + 1 RELAY OUTPUT(NORMALLY OPEN)CONTACT = 1 AMP AT 30 VDC

INPUT/OUTPUT CONFIGURATIONS

INPUT TYPE SELECTIONS

OPENSHORT

SHUNT

M14489A

W1

1

2

3

4

8

7

6

5

1

2

3

4

5

6

7

141312111098

XK1

TB1

W1

1

2

3

4

8

7

6

5

1

1

2

2

20 MA MAXIMUM, TYPICALLY USED TO DRIVE A LED. USE RELAY OPTION FOR HIGHER CURRENTS.

COM LED IS VISIBLETHROUGH ACTUATOR BUTTON.

SEE BIC-6 POSSIBLE LOOPS, CIRCUITS DIAGRAM, LOOPTYPE 2, FOR LOOP CIRCUIT DIAGRAM.

A1 MOMNO. 8003-288

CO

M

VD

D

TX

RX

-

TX

RX

+

OU

T 1

CO

M 1

-2

OU

T 2

OU

T 3

CO

M 3

-4

OU

T 4

OU

T 5

CO

M 5

-6

OU

T 6

OU

T 7

CO

M 7

-8

OU

T 8

8003-286 MOM UNIT

M16068B

1 2 3 4 5 61 2 3 4 1 2 3 4 5 6

TB1 TB2 TB3

S3

S2

S1DS1

QUIT

ODDNUMBEREDOUTPUTS

OUTPUTSPAIR

COMMON

EVENNUMBEREDOUTPUTS

ACCEPT

NEXT

MOUNTING HOLES (4)

MOM TYPICAL OUTPUT PAIR REPEATED FOUR TIMES FOR A TOTAL OF EIGHT OUTPUTS.

OP

TO

PTO

-CO

UP

LER

O-C

OU

PLE

R

OP

TO

PTO

-CO

UP

LER

O-C

OU

PLE

R

CU COM12 VDC OUTPUT OUTPUT+– +–4 6

RECEIVE

DISPLAY IN COMMUNICATION

STATUS MODE

TRANSMIT

LEARN


74-3047—1 14

MOUNT MOMTo mount the MOM:

1. At the selected mounting location, remove the MOM cover.

2. Use a No. 1 Robertson (square drive) screwdriver to remove the screws securing the circuit board to the back casing.


3. Gently remove the circuit board. Be sure not to touch any of the circuits or terminals.

4. Mount the MOM on the wall using four No. 6 round or pan head screws.

NOTE: Feed the required cables into the MOM base using the two square holes in the base wiring channel, or remove the knockouts on either end of the wiring channel and pass the cables through the openings.

5. Replace the circuit board.6. Connect the wires to the MOM as shown in Fig. 14.7. Repeat steps 1 through 6 for each MOM.8. When installation is complete and power is applied,

learn the MOM.

NOTE: Steps 8a. through 8k. may be replaced by using the PRO 9000 software. See the Commission section, steps 1a. through 1c. for more information.

a. Make sure the LED DS1 on each installed MOM dis-plays C.

b. From each MOM, press the S2 switch (ACCEPT) button to place each MOM in the COMMUNICA-TION STATUS display mode.

c. The center segment (RECEIVE) of the LED display (DS1) flashes to indicate incoming data.

d. The decimal point on the LED display (DS1) of each MOM is off.

e. From the CC2 Mode menu, select 1-CONFIG to enter the CONFIGURATION menu.

f. From the CC2, select 1-LEARN to enter the LEARNING menu.

g. From the CC2, select 2-DEVICES WITH SERIAL # to start the learning process. The CC2 displays Searching. The decimal point on the LED display (DS1) lights on each MOM to indicate that the MOMs are in the learning mode.

h. From each MOM, press and hold the S2 (ACCEPT) button for approximately two seconds, or until the bottom segment (TRANSMIT) of the LED display DS1 flashes and the decimal point turns off. When the decimal point disappears, the device is learned.

NOTE: If the MOM was previously learned, the decimal point would have turned on and off almost immediately.

i. When the ACCEPT key is pressed on the CC2, the I9000 exits the learning mode and displays the total number of devices known by the system including the MOMs.

j. From the CC2, exit the CONFIGURATION menu for changes to become effective.

k. The bottom segment (TRANSMIT) of the LED dis-play (DS1) on each MOM flashes every time each is polled (addressed). The center segment (RECEIVE) also flashes.

9. Configure each output in the MOM, as needed. See Output Parameters and Programming section.

10. Cause an alarm on the input that is linked to the corre-sponding output to be tested. If a Hold-up Actuator was pressed during the test, a RESET DETECTORS com-mand is required to clear the latched alarm. (The out-puts may only be tested when the I9000 programming is completed).

11. Repeat steps 1 through 10 for each MOM.12. Replace each MOM cover.

OUTPUT PARAMETERS AND PROGRAMMINGThe MOM has nine programmable parameters:

Parameter 0 = Display— 0 =Display is not active when tamper is closed.— 1 = Display remains active when tamper is closed.

Parameters 1 to 8 = Outputs 1 to 8 respectively Each output can be configured for one of three different types:— 0 = Output is normally off, output turns on when activated.— 1 = Output is normally on, output turns off when activated.— 2 = Output is normally off and begins pulsating when

activated.

Programming1. Press S3 (QUIT) to return to C on the LED display.2. Press S1 (NEXT) until the LED display flashes P.3. Press S2 to accept program mode.4. Press S1 to scroll through the parameters to output 1.

No decimal point is displayed.5. Press S2 to begin programming for output 1. A decimal

point appears in the bottom right corner of the LED dis-play to indicate the present output type number.

6. Press S1 to scroll to the desired output type number (if different from output type number displayed in step 5).

7. Press S2 to accept the displayed output type and to dis-play the next parameter number.

8. Repeat steps 4. through 7. for each output.9. Press S3 to leave the program mode.

COMMUNICATION AND OUTPUT FUNCTION STATUS DISPLAYThe MOM has three display modes: — P allows the user to configure the individual outputs.— C enters the Communication Display mode and causes the

center bar (RECEIVE) on the LED display to light each time the MOM receives communication with the CU. The bar closest to the terminal (TRANSMIT) lights whenever the MOM responds.

— A enters the Output Function Status Display mode. The number of the active output functions is displayed. If more than one output is active, the display scrolls and shows each active output for one second. When there are no active outputs, the center bar on the seven segment LED lights.

Other Detection Devices and OutputsI9000 accepts connections to detection and warning devices not included with the system; however, these devices must conform to the requirements found in form no. 74-3035,


15 74-3047—1

Intelliguard 9000 Specification Data. Follow the instructions included with each device for mounting and connecting to the system.

User Interface Devices

AREA KEYPADS (KID)A KID allows a user to arm or disarm. Fig. 15 shows an area keypad.

Fig. 15. Area Keypad.

NOTE: TB1-1 and TB1-2 connect to 12 Vdc whereas TB1-3 (TXRX-) and TB1-4 (TXRX+) connect to CU COM 1 or 2, but not both.

1. Remove the KID cover at the selected mounting loca-tion.

2. Remove the LED identification card located on the left side of the unit between the printed circuit board and the keypad. (Store in a safe place).


3. Carefully pry up the left side of the support/keypad assembly first and then lift up the right side. Notice how the keypad cable is folded.

4. Lift up the assembly from the left side and disconnect the keypad from the connector on the right side.

5. Place the assembly in a safe location.6. Avoid touching any of the circuits or terminals.7. Mount the KID on the wall using four No. 6 round or pan

head screws. (It is not necessary to remove the printed circuit board assembly because access holes are pro-vided in the top left and right corners.)

NOTE: Feed the required cables into the KID base by using the two holes in the base wiring channel, or remove the knockouts on either end of the wiring channel to pass the cables through the openings.

8. Connect the wires to the KID as shown in Fig. 15.9. Reinstall the support/keypad assembly by reconnecting

the cable onto the angled connector located on the right side of the printed circuit board assembly.

10. Make sure the connectors are properly aligned.11. Carefully fold (do not crease or twist) the keypad cable

and align the keypad assembly mounting holes with the four standoffs and snap into place.

12. Verify that the LEDs align with the slots in the support (or the assembly will bend and not seat properly on the standoffs).

13. Detach one of the LED identification strips (removed from the card in step 2), or use a blank strip to enter custom text and insert it into the slot on the left side of the keypad. See. Fig 15. The text will be visible through the keypad windows beside the point status LEDs.

14. Replace the KID cover.15. Repeat steps 1 through 14 for each KID.16. When installation is complete and power is applied,

learn the KID.

NOTE: Steps 16a. through 16k. may be replaced by using the PRO 9000 software. See the Commission sec-tion, steps 1a. through 1c., for more information.

a. From the CC2, select MODE. b. Enter the technician ID and code.c. Press 5 to select CONFIGURATION mode.d. Press ✓.e. Press 1 to select LEARN mode.f. Press ✓. g. Press 2 to learn devices with serial numbers.h. Press ✓.

NOTE: The CC2 displays Searching and all the LEDs on the KID blink simultaneously. If the KID had previ-ously been learned, the LEDs would blink and turn off as soon as the I9000 established communication (time varies before this happens depending on the number of devices connected to the system).

i. Press any key to learn the KID and turn off the LEDs.

j. Press the ACCEPT key from the CC2. The I9000 exits the learning mode and displays the total num-ber of devices known by the system including the KIDs.

k. From the CC2, exit from the CONFIGURATION menu for changes to become effective.

1 2 3

4 5 6

7 8 9

0

M16113C

ID-CODE

KID UNIT ASSEMBLY8003-220 KID P.C.B. ASSEMBLY

8003-218

ID CODERED = ENTER ID

YELLOW = ENTER CODEGREEN = VALID

FLASHING GREEN = ENTER SECOND ID AND CODE

AREA STATUSOFF = SEE POINT STATUS LEDS

GREEN = READY TO ARMRED = ARMED

FLASHING RED = EXIT DELAY

POINT STATUS (4 LEDs)OFF = ALARM RESTORED/CLEARRED = POINT IN ALARM

LED IDENTIFICATIONCARD SLOT(FITS UNDER WINDOWS OF KEYPAD).CARD PROVIDES PREDEFINED OR CUSTOM TEXT FOR POINT STATUS LEDS.

NOTE: THE LED IDENTIFICATION CARD (7003-174) IS INCLUDEDWITH THE UNIT BETWEEN THE P.C.B. AND KEYPAD SUPPORT.

DOOR

TRBL.

CU COM12 VDC+– +–

RS-485

TB-11 2 3 4


74-3047—1 16

Keypad Control Centers (CC2)Keypad Control Centers allow an operator to program user information into the system. This information can include area arming, partial arming, disarming, new user IDs and removing obsolete users. Each I9000 CU supports a maximum of four CC2 control centers. The CC2 also displays information on an LCD screen located at the top of the cover. Fig. 16 shows wiring for a CC2.

Fig. 16. CC2 wiring.

NOTE: TB1-1 and TB1-2 connect to 12 Vdc whereas TB1-3 (TxRx-) and TB1-4 (TxRx+) connect to CU COM 1 or 2, but not both.

Because of the high power requirements of the backlighting, it is possible to disable it. This is especially useful in current sensitive applications.

The backlighting is activated for five minutes following the most recent of the following events:— a key is pressed.— a tone was triggered from the control unit.

To install the Keypad Control Center:1. Remove the CC2 cover at the selected mounting loca-

tion.


2. Carefully pry up the left side of the support/keypad assembly first and then lift up the right side. Notice how the keypad cable is folded.

3. Lift up the assembly from the left side and disconnect the keypad from the J2 connector on the right side.

4. Place the assembly in a safe location.5. Avoid touching any of the circuits or terminals.6. Mount the CC2 on the wall using four No. 6 round or

pan head screws. (It is not necessary to remove the printed circuit board assembly because access holes are provided in the top left and right corners.)

NOTE: Feed the required cables into the CC2 base using the two square holes in the base wiring channel, or remove the knockouts on either end of the wiring channel and pass the cables through the openings.

7. Connect the wiring to the CC2 as shown in Fig. 16.

NOTE: The CC2 (backlighting version) terminal block screws require a flat blade screwdriver with a blade no wider then 0.1 in. (2.54 mm). A jeweler’s screw-driver is recommended.

8. Set the CC2 address as shown in Fig. 16. Each CC2 must have a different address regardless of which COM it is connected to.

9. Reinstall the support/keypad assembly by reconnecting the cable onto the J2 angled connector located on the right side of the printed circuit board assembly.

10. Make sure the connectors are properly aligned.11. Carefully fold (do not crease or twist) the keypad cable

and align the keypad assembly mounting holes with the four standoffs and snap into place.

12. Verify that the support is seated properly on the stand-offs.

13. Replace the CC2 cover.14. Repeat steps 1 through 13 for each CC2.

When the I9000 powers up, it learns each CC2 automatically.

Control Unit (CU)The I9000 Control Unit supports a maximum of 31 devices each, on COM 1 and COM 2, for a total of 62 devices (including all devices shown in Fig. 2). The CU also supports a maximum of 512 input points and 64 output points. The CU receives an intrusion alarm signal from a BIC-6, BIC-2, or HEDS IV. The CU processes the signal and sends it to the EBI and programmed output devices. The loss of communication with any device, and the status of all power supplies connected on COM 1 and COM 2 is reported to the CU. Device tampering, including the CU enclosure but excluding the CC2 and KID, is reported. EBI uses the signal to take the appropriate action. The ISP (programmable output), MOM, BIC-2 (or BIC-6 loop configured for output) activates any local alarm such as a siren, light, or buzzer that is attached to the system.

U1

S1

R8

TB1LS1

DS1

J2

HONEYWELL INTELLIGUARD 9000CONTROL CENTER 2 (CC2)UNIT ASSEMBLY 8003-277

1 2 3 4

U1-8950

086-RE

VD

ATE

12

34

ON

ADDRESS

VOLUME

S1

MAX

MIN

LCDCONTRAST

ADJUST

CC2 WIRING

TB1-1

TB1-2

TB1-3

TB1-4

COMMON

V+

TxRx-

TxRx+

CC2 ADDRESS S1-2 S1-1

ADDRESS 0

ADDRESS 1

ADDRESS 2

ADDRESS 3

1

1

0

0

1

0

1

0

0 = OFF = OPEN1 = ON = CLOSED

TONE VOLUME S1-4 S1-3

MINIMUM

MAXIMUM

0

0

1

1

0

1

0

1

0 = OFF = OPEN1 = ON = CLOSED

CC2 WITH BACKLIGHTING PROVISION

S1-3

0

BACKLIGHTINGENABLED (TURNS ONWHEN TRIGGERED)

ALWAYS DISABLED

S1-4

1TONE VOLUME

LOW

INSERT KEYPADCONNECTOR HERE

M16081E

CU COM12 VDC– +– +

1

1

R8 IS OPTIONAL. THERE IS NO LCD CONTRAST ADJUSTMENT ON CC2s WITH BACKLIT DISPLAYS.

1

ALL REVISIONS OF CC2s.2

CC2 WITH NO BACKLIGHTING PROVISION.3

2

3

LEVER

CC2 P.C.B. ASSEMBLY 8003-276

HIGH 1 0


17 74-3047—1

Each CU COM is limited to a maximum of four KIDs and four ISP devices. The CU supports four CC2s maximum, but Honeywell recommends splitting the CC2s between the COM ports.

1. At the selected I9000 CU mounting location, open the CU housing and with the cover wide open, lift it up to unhinge.

2. Mount the I9000 CU on the wall using four No. 8 round or pan head screws.

3. Connect the wires to the I9000 CU as shown in Fig. 17.4. Install the batteries that conform to the specification

listed in form no. 74-3035, Intelliguard 9000 Specifica-tion Data.

5. Set the ISP siren output to steady or pulsating as shown in Fig. 18.

6. Set the ISP address by setting switches S1-1 and S1-2 as shown in Fig. 18.

7. With power applied to the CU, follow the learning proce-dure for the ISP. See the Additional Intelligent Power Supplies section, step 5.

8. When the installation is fully commissioned, reinstall the cover but do not close it.

9. From a CC2, enter the MODE menu using the techni-cian ID and Code.

10. Close the CU cover and secure it into position.11. From the CC2, press 4 to enter the RESET LOG menu

and press enter to reset the Event Log..

Fig. 17. I9000 CU with ICP II, ISP.

Additional Intelligent Power SuppliesEach I9000 CU supports a maximum of seven Remote Intelligent Power Supplies (RIPS). Depending on the installation power backup requirements, up to two batteries can be connected to the ISP. One ISP is located in the I9000 housing. The RIPS power devices used for detection and control and each RIPS must have its own transformer. Fig. 18 shows the wiring for a Remote Intelligent Power Supply. The RIPS is mounted in the same way as the I9000 control unit shown in Fig. 19. The I9000 control unit is identical to an ISP except that the ICP and RRI are not part of the RIPS configuration.

1. Install the Remote Intelligent Power Supplies, as needed, near the devices to be powered.

2. Set the ISP siren output (S1-4) to steady or pulsating as shown in Fig. 18.

3. Set the ISP address in each RIPS by setting switches S1-1 and S1-2 as shown in Fig. 18. Each ISP on the same COM line must have a different address.

4. Connect each RIPS to the I9000 as shown in the job drawing. Refer to Fig. 17 for ground, battery and AC power connections.

1 2 3 4 5 61 2 3 4 5 6 7 8

TAMPER

RS-232

DS3TB2TB1

Rx

Tx

DT

R

DIR

12V

-

12V

+

12 V

DC

–

12 V

DC

+

TxR

x –

TxR

x +

TxR

x –

TxR

x +

TA

MP

ER

DS2

RS-485

POWER INPUT15V MAXIMUM

XA1

XA3U1

COM 3

XA4

XA2

DS4

INTELLIGENT COMMUNICATIONSPROCESSOR II (ICP II) 8003-331

DS1

S1 RST COM 1 COM 2

INTELLIGUARD 9000 CONTROL UNIT 8003-332

12 VDC OUTPUT, 1AFOR SOUNDING DEVICE

UNREGULATED 20 VDC,NO BATTERY BACK-UP.USED IN LOCAL SYSTEMS FOR A 750E GONG.

NON-SWITCHED AC POWER SOURCE

FERRITE BEAD INSTALLATION FOR CE

CABLE TYPE

LOW VOLTAGE 16 AC CABLE

ALL OTHER CABLES EXITING THE CONTROL UNIT

10.15± 0.3 MM (0.400 IN)

6.6± 0.3 MM (0.260 IN)

EARTH GROUND. MUST NOT EXCEED 50 FT (15M) WITH 14 AWG WIRE.

FAIR-RITE NO. 0443167251

FAIR-RITE NO. 0443164251

NEWARK P/N 91F6477

NEWARK P/N 91F6476

P/N 2500-002

P/N 2500-001

MAXIMUM CABLE DIAMETER MANUFACTURER SUPPLIER HONEYWELL (CANADA)

S1

12

ON

34

M14486A

THE AX-5L CONDUIT ADAPTER (7003-162) MAY BE USED UNDER THE I9000 ENCLOSURE. THIS PERMITS CONDUITS WITH AN OUTER DIAMETER OF 0.75 IN. (19 MM) TO

PASS UNDER THE CONTROL UNIT AND BE TERMINATED SUCH THAT THE CABLES MAY ENTER THE I9000 ENCLOSURE THROUGH THE OVAL HOLE IN THE REAR OF THE ENCLOSURE.

IT IS NOT NECESSARY TO USE THE CONDUIT KNOCK-OUTS ON THE SIDE OF THE ENCLOSURE. THE I9000 IS 1 IN. (25.4 MM) FURTHER AWAY FROM THE WALL WITH THIS OPTION.

TO MEET CE CLASS B REQUIREMENTS, FERRITE BEADS MUST BE INSTALLED ON ALL THE CABLES EXITING THE I9000 ENCLOSURE. THE BEADS MUST BE LOCATED

AS CLOSE AS POSSIBLE TO THE I9000 ENCLOSURE BUT INSTALLED ON THE OUTSIDE. INSTALLING THE REQUIRED BEADS UNDER THE AX-5L CONDUIT ADAPTER SATISFIES

THE PROXIMITY REQUIREMENTS. SEE TABLE.

TO PERFORM A COLD START OF THE ICP II, POWER DOWN THE SYSTEM AND HOLD DOWN S1 WHILE POWERING UP THE SYSTEM. THE YELLOW LED (DSI) LIGHTS FOR A FEW

SECONDS TO INDICATE THAT A COLD START HAS BEEN INITIATED.

2

2

1 2

12V, 7A-h

3 4

DS

1 =

TxD

AT

A

XA

R21

TB

1

GR

OU

ND

BA

TT

. 1 &

2 –

AB

TT

ER

Y 1

+

BA

TT

ER

Y 2

+

1 2 3 4TB

2

AC

AC

CO

MM

ON

22V

+

1 2 3 4TB

3

OU

TP

UT

–

OU

TP

UT

+

TA

MP

ER

–

TA

MP

ER

+

1 2 3 4

J1

TB

4

41VX

1 –

VX

1 +

TxR

x –

TxR

x +

12V

0.4

RS

-485

CO

M 1

OR

2

1 2 3 4 TB

5

3 &

4 =

NO

CO

NN

EC

TIO

NS

VX

2 –

VX

2 +

12V

0.4

DS INTELLIGENT SWITCHING POWER SUPPLY(ISP) 8003-295

1A16V

37V

A

GIM

12

S1

LEVER

COM 1 & 231 DEVICES

EACH MAXIMUM

COM 1WHT/GRN

COM 1WHT/GRN

COM 2WHT/ORN

CONNECT EACH DEVICE TO 12 VDCAND TO EITHER COMM 1 OR COMM 2BUT NOT BOTH, FOR EACH CABLE.

12 VDC400 MA

WHT/BLU

VX1 = 12 VDC 400 MA WHT/BLU

VX2 = 12 VDC 400 MA

3 PAIRTWISTED

PAIR CABLE22 AWG MINIMUM

THE TAMPER INPUT IS USED IN A RIPS (REMOTEINTELLIGENT POWER SUPPLY). THE SWITCH IS LOCATED IN THE ENCLOSURE.PLACING A JUMPER BETWEEN THESE TERMINALSALLOWS THE COMM LED (DSI) TO FLASH WHEN THE ISP IS POLLED. THE JUMPER IS USUALLY REMOVED IN ORDER TO CONSERVE POWER.

CONNECT TO CONTROLUNIT TAMPER SWITCH, USE

A NORMALLY CLOSED(WHEN COVER OPEN)

SWITCH.

CONNECTION TOLAPTOP PC

RS-232 SERIAL PORTFOR REMOTE

PROGRAMMINGUSING PRO9000

SOFTWARE

DTRIS NOTUSED

MOUNTINGHOLES (4)

DE 9

DB 25

COLD START SWITCH

ON

34

CO

M 2

CO

M 1

3 2 5

3 2 7

RS-232 TO RS-485INTERFACE (RRI)

8003-321PCB ASSEMBLY

8003-322

NOTE: INSTALL THE RRIIN THE I9000 ENCLOSURE

TB1

OR

TB2

1 2 3

4 3 2 1

CONNECTION TO EBI PC SERIAL PORT.SEE MULTI-DROP CONFIGURATION DIAGRAMS

FOR WIRING OF ADDITIONALREQUIRED HARDWARE.

DA

T –

DA

T +

GN

D.

BATTERY 212V, 7 AH

– +

BATTERY 112V, 7 AH

INSTALL THE BATTERIESIN THE I9000 ENCLOSURE.

18 AWG CABLE50 FT (15M) MAX.

CLASS II (CURRENT LIMITING) PLUG-IN TRANSFORMER (INPUT = 120V/60 HZ

CANADA P/N 5660-051, USA (P/N SILENT KNIGHT MODEL 4165 ENCLOSURE WITH MODEL 9220 TRANSFORMER) OR EQUIVALENT

EARTH GROUND14 AWG WIRE

– +

2

1

2

3

2

4

4

1

3

3 PAIRTWISTED

PAIR CABLE22 AWG MINIMUM


74-3047—1 18

NOTE: Only one ground connection is required between the I9000 CU and each RIPS for ground reference (this can be through the earth ground connection). Avoid ground loops.

5. When installation is complete and power is applied, learn the ISPs in the RIPS.

NOTE: Steps 5 a. through 5g. may be replaced by using the PRO 9000 software. See the Commission section, steps 1a. through 1c. for more information.

a. Make sure the LED DS1 on each installed ISP (RIPS) in enabled, see the following notes.

b. From the CC2, select CONFIGURATION from the MODE menu.

c. From the CC2, select LEARNING MODE.

d. From the CC2, select 1-DEVICES WITH ADDRESS SWITCHES. The CC2 displays Searching. The LED DS1 on each installed ISP flashes as it is learned.

e. The CU polls all address type devices and when they have all been learned, the CU automatically displays DEVICES = #, where # is the total number of devices known by the system including ISPs.

f. The LED DS1 on each installed ISP flashes each time the device is polled by the CU.

g. From the CC2, exit from the CONFIGURATION menu for changes to become effective.

NOTES:— The RIPS have two auxiliary power outputs. Each

output supplies 12.8 Vdc nominal with a current limited to 400 mA.

— The ISP data LED is active when TB3 pins 3 and 4 are shorted (tamper is active, cover open).

Fig. 18. ISP wiring, configuration.

1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4

TB1 TB2 TB3 TB4 TB5

4

1

R21

DSXA1 S1

S1

ON1

23

4

ADDRESSSELECTION

NOT USED

OUTPUT MODE

SWITCHES SHOWN INOFF POSITION

12

S1

ON

OF

F

12

S1

ON

OF

F

12

S1

ON

OF

F

12

S1O

N

OF

F

0 1 2 3

ISP ADDRESS

4

S1

ON

OF

F

4

S1

ON

OF

F

PULSATING STEADY

OUTPUT MODE

AC ON

GR

OU

ND

BA

TT

. 1 &

2 -

BA

TT

ER

Y 1

+B

AT

TE

RY

2 + AC

AC

CO

MM

ON

-22

V +

OU

TP

UT

-O

UT

PU

T +

TA

MP

ER

-T

AM

PE

R +

VX

1 -

VX

1 +

TxR

x -

TxR

x +

VX

2 -

VX

2 +

12V

7 A

h

16V

37 V

A

GIM 1A

12V

0.4A

12V

0.4A

RS

-485

CO

M 1

OR

CO

M 2

J1DS1 = Tx DATA

M16079B

LEVER

1

EXCEEDING 400 mA ON EITHER VX1 OR VX2 WILL CAUSE THE OUTPUT TO SHUTDOWN UNTIL THE CAUSE OF OVERLOAD IS REMOVED.

1

2

1


19 74-3047—1

NOTES:— Connect other devices that require 12 Vdc to VX1

(TB4-1,2 or VX2 (TB5-1,2) for power and connect the ISP COM TxRx- (TB4-3) and TxRx+ (TB4-3) to CU COM 1 or 2, but not both.

— The RS485 COM Port connector (J1) is only intended for use by field personnel for a tempo-rary CC2 plug-in. Note that power is derived from VX1 and the COM is the same COM used for the ISP. (This connection is not usually used since learning can be done using PRO9000.) The fol-lowing restrictions apply:

1. Maximum number of devices is 31 for either COM 1 or COM 2.

2. Maximum number of CC2s on the system must not exceed four.

3. A free CC2 address is required to prevent conflicts with other CC2s (disconnect another CC2 temporarily, if nec-essary).

See Fig.19 to install the RRI Communication Interface Modules.

Fig. 19. RRI mounting locations.

RS-232 to RS-485 Interface (RRI) 8003-321The RS-232 to RS-485 Interface (RRI) 8003-321 is used to extend the I9000 (COM 3) to the EBI communication link for distances in excess of 50 feet. This distance can be extended to 3277 feet (999M) using the RS-485 with the RRI.

The 8003-321 Assembly is required for the Pseudo RS-232 to RS-485 Interface installation. The Assembly includes the following parts: Plastic Track, Part no. 7003-217, Retaining Clip, Part No. 1041-004 and Pseudo RS-232 to RS-485 Interface (RRI), Part No. 8003-322.

M14497A

TB1

TB2

TB

TB

PLASTIC TRACK7003-217

4 MOUNTING HOLESFOR NO. 8 ROUNDPAN HEAD SCREWS

INSTALL AND SECURELY MOUNT RRI COMMUNICATION INTERFACE MODULES USING THE PLASTIC TRACK (INCLUDED) AS SHOWN. TWO TRACKS MAY BE SUSPENDED FROM THE TOP EDGE OF THE INTELLIGUARD ENCLOSURE OR ONE TRACK MAY BE INSTALLED ON THE RIGHT SIDE NEXT TO THE BATTERY.

RETAINING CLIP1041-004

ENCLOSURESIDE

1/2 IN. (13 MM) KNOCKOUT (4 PLACES)7/8 IN. (22 MM), DIAMETER TAMPER SWITCH

5115-094

INTELLIGUARD ENCLOSURETRACKSIDE

POWER SUPPLY ASSEMBLY INTELLIGENT COMMUNICATIONSPROCESSOR (ICP)

BATTERY 12V, 7.0 Ah YUASA NO. NP7-12HPS NO. 4002-037OR EQUIVALENT

GROUNDLUG

BATTERY 12V, 7.0 AhYUASA NO. NP7-12HPS NO. 4002-037OR EQUIVALENT

1

1

1


74-3047—1 20

See Fig. 19 for installation instructions and Fig. 20 through 22 for detailed wiring and switch settings. The configuration in Fig. 20 can only be used for remote programming with a PC.

Fig. 20. Pseudo RS-232 to RS-485 Interface 8003-321 installation.

1 2 3 4 5 6

3 2 1

1 2 3 4

1 2 3 4 5 6 7 8 TB1

TB1

DIR RX

TX

TB2

DA

T +

DA

T –

+12

V

TX

RX

DIR

RS-232DS3

TB2

Rx

Tx

DT

R

DIR

12V

-

12V

+

DS2

XA1

XA3U1

COM 3

XA4

XA2

DS4

INTELLIGENTCOMMUNICATIONS

PROCESSOR II(ICP II)

8003-331

DS1

S1 RST COMM1 COMM2

U1 U2

PSEUDORS-232 TORS-485INTERFACE(RRI)8003-322


S1

RETAININGCLIP

1041-004

TR

AC

KS

IDE

EN

CLO

SU

RE

SID

E

TB1

TB2

TOP OR LEFT SIDE

INTELLIGUARDCONTROL

PANEL

INSTALL THE RRI IN THE TRACK SO THATSWITCH S1 POINTS OUTWARDS.

PLASTICTRACK

7003-217

P.C.B.

BOTTOM ORRIGHT SIDE

INTELLIGUARD ENCLOSUREFRONT VIEW LOOKING INTO THE ENCLOSURE

12

S1

LEVER

PRODUCT IDENTIFICATIONLABEL

ON

34

1 2 3 TB1

TB21234

12

ON

34

U1

M14464A

U2S1

POSITION

RS-485 - BIAS AND TERMINATION

OFF

ON

OFF

ON

OFF

ON

OFF

ON

1 2

ON

3 4

DA

T +

DA

T –

+12

V

4 3 2 1

S1

DISABLE

= DON'T CARE

BIAS

E.O.L.R.TERMINATION

ENABLE

DISABLE

ENABLE

INSTALL THE RRI USING THE PLASTIC TRACK (INCLUDED). SECURELY MOUNT PLASTIC TRACK TO INSIDE OF ENCLOSURE.

NOTES:

– ONLY USE THIS WIRING CONFIGURATION FOR REMOTE

PROGRAMMING WITH A PC. ONE I9000 CU AT A TIME. THE I9000 TO

BE PROGRAMMED MUST BE DISCONNECTED FROM THE RS-485

NETWORK AND A LAP TOP PC CONNECTED TO THE I9000 PANEL AS

SHOWN ABOVE.

– FOR REMOTE PROGRAMMING, THE PC CAN BE CONNECTED

DIRECTLY TO THE I9000 CONTROL PANEL USING AN RS-232 LINK AS SHOWN IN THE I9000 CU WITH ICP II, ISP WIRING DIAGRAM, IN

THE CONTROL UNIT SECTION.

– THE GROUND BETWEEN UNITS 1 (TB2-1) AND 2 (TB2-1) ARE NOT NECESSARY IF A GROUND REFERENCE IS PROVIDED THROUGH

OTHER MEANS. (THIS IS TO PREVENT GROUND LOOPS.)

– SET THE SWITCHES OF RRI UNIT 1 FOR BIAS DISABLED (S1-1/S1-4 OFF) AND EOLR TERMINATION ENABLED (S1-2/S1-3 ON).

– SET THE SWITCHES OF RRI UNIT 2 FOR BIAS ENABLED (S1-1/S1-4 ON) AND EOLR TERMINATION ENABLED (S1-2/S1-3 ON).

– THE TRACK MAY BE SUSPENDED FROM THE TOP EDGE OF THE INTELLIGUARD ENCLOSURE OR INSTALLED ON THE RIGHT SIDE WHEN ONLY ONE BATTERY IS REQUIRED. SEE RRI MOUNTING LOCATIONS DIAGRAM.

1

150 OHMS, 68,000 PF MAXIMUM.2

1

2

UNIT 1

UNIT 2

5

72

DE-9 3

LAP TOP PC RS-232 PORTRUNNING PRO 9000

SOFTWARE (8950-102)

2

DB-25

Rx

Tx

GN

D

3


21 74-3047—1

Fig. 21 and 22, EBI RS-485 multi-drop wiring diagrams require the 8003-321 Assembly. Fig. 21 shows a Network Interface Card (NIC) in the PC and Terminal Server with an RS-485 Interface. Fig. 22 shows a Black Box RS-232 to RS-485 Converter on the PC side.

Fig. 21. EBI RS-485 multi-drop wiring (using a NIC in the PC and Terminal Server with RS-485 Interface).

3 2 1

1 2 3 4

TB1

DIR RX

TX

TB2

GN

D.

AC

IN

DA

T +

DA

T –

U1 U2


S112

ON

34

DA

T +

DA

T –

+12

V

1 2 3 4 5 6 TB2DS3

COM 3

INTELLIGUARD CONTROL PANEL 3

INTELLIGENT COMMUNICATIONS PROCESSOR II (ICP II) 8003-331

Rx Tx12VDTR

INDIROUT – +

RS-232

POSITION

BIAS AND TERMINATION

OFF

ON

OFF

ON

OFF

ON

OFF

ON

4 3 2 1

S1

DISABLE

= DON'T CARE

BIAS

E.O.L.R.TERMINATION

ENABLE

DISABLE

ENABLE

12

S1

LEVER

TERMINAL SERVERWITH RS-485 PORT

UNIT 4

ON

34

3 2 1

1 2 3 4

TB1

DIR RX

TX

TB2

UNIT 2 UNIT 3

U1 U2


S112

ON

34

DA

T +

DA

T –

+12

V

1 2 3 4 5 6 TB2DS3

COM 3



Rx Tx12VDTR

INDIROUT – +

RS-232

3 2 1

1 2 3 4

TB1

DIR RX

TX

TB2

UNIT 1

U1 U2


S112

ON

34

DA

T +

DA

T –

+12

V

1 2 3 4 5 6 TB2DS3

COM 3



Rx Tx12VDTR

INDIROUT – +

RS-232

AC

IN

EBI PCWITH NETWORK

INTERFACE CARD

NETWORK (LAN/WAN) TCP/IP

M14487

AC POWER IN

UPS 2

AC POWER OUT

AC POWER IN

UPS 1

AC POWER OUT

SUPPORTED BAUD RATES - 75, 150, 300, 600, 1200 & 2400

ADDITIONAL BAUD RATES

REMOTE PROG.

NONE

4800

SMP/EBI ORBIX

NONE

4800

8950-100

8950-109

I9000 XSM (SMP PROTOCOL)

I9000 EBI ORBIX

FIRMWAREPART NO.

SOFTWARE VERSION

3

221

SET THE SWITCHES ON UNIT 1 (FARTHEST FROM THE PC) FOR BIAS DISABLED (S1-1/S1-4 OFF) AND EOLR TERMINATION ENABLED (S1-2/S1-3 ON). ON UNIT 4ENABLE THE RS-485 TERMINATOR AND LINE BIAS. (THIS IS BASED ON THE ASSUMPTION THAT UNITS 1 AND 4 ARE EXTREME OPPOSITE DEVICES WITH THELONGEST CABLE LENGTH BETWEEN THEM, NOT NECESSARILY THE DEVICES THAT ARE PHYSICALLY LOCATED THE FARTHEST APART.)

SET THE SWITCHES OF UNIT 2 (AND ANY OTHER IMMEDIATE UNITS) TO OFF.

NOTICE THAT THE DAT – AND DAT + CONNECTION MUST BE INVERTED AT UNIT 4. THIS IS REQUIRED SINCE THE RRIs FOLLOW THE I9000STANDARD WHICH IS THE REVERSE OF THE INDUSTRY STANDARD.

NOTES:A MAXIMUM OF FOUR RS-485 DEVICES MAY BE CONNECTED IN A MULTI-DROP CONFIGURATION, INCLUDING THE TERMINAL SERVER.

THE GROUND BETWEEN UNITS 1 (TB2-1), 2 (TB2-1), 3 (TB2-1) AND 4 (GND) ARE NOT NECESSARY IF A GROUND REFERENCE IS PROVIDED THROUGH OTHER MEANS. ONLYONE GROUND REFERENCE MUST BE USED TO PREVENT GROUND LOOPS.

IN THE CONFIGURATION SHOWN, THE I9000 CONTROL PANELS ONLY COMMUNICATE WITH THE EBI PC; THEY DO NOT COMMUNICATE OR SHARE INFORMATION PEER-TO-PEER.

1

2

3

NOTE: EBI SOFTWARE SUITE IS PRESENTLY LIMITED TO 1200 AND 2400 BAUD.

1


74-3047—1 22

Fig. 22. EBI RS-485 multi-drop wiring (using black box RS-232 to RS-485 Converter on the PC side).

3 2 1

1 2 3 4

TB1

DIR RX

TX

TB2

GN

D.

AC

IN

DA

T +

DA

T –

Tx

Rx

GN

D.

Tx

Rx

GN

D.

U1 U2


S112

ON

34

DA

T +

DA

T –

+12

V

1 2 3 4 5 6 TB2DS3

COM 3



Rx Tx12VDTR

INDIROUT – +

RS-232

POSITION

BIAS AND TERMINATION

OFF

ON

OFF

ON

OFF

ON

OFF

ON

4 3 2 1

S1

DISABLE

= DON'T CARE

BIAS

E.O.L.R.TERMINATION

ENABLE

DISABLE

ENABLE

12

S1

LEVER

RS-232 TO RS-485CONVERTER.

BLACK BOX IC109 1400609R-047900

PC SIDE

ON

34

3 2 1

1 2 3 4

TB1

DIR RX

TX

TB2

UNIT 2 UNIT 3

U1 U2


S112

ON

34

DA

T +

DA

T –

+12

V

1 2 3 4 5 6 TB2DS3

COM 3



Rx Tx12VDTR

INDIROUT – +

RS-232

3 2 1

1 2 3 4

TB1

DIR RX

TX

TB2

UNIT 1

U1 U2


S112

ON

34

DA

T +

DA

T –

+12

V

1 2 3 4 5 6 TB2DS3

COM 3



Rx Tx12VDTR

INDIROUT – +

RS-232

AC

IN EBI PCWITH RS-232 PORT (TYPICALLY COM 1 OR DIG1 ACCELPORT.)

M14488A

AC POWER IN

UPSAC POWER OUT

SUPPORTED BAUD RATES - 75, 150, 300, 600, 1200 & 2400

ADDITIONAL BAUD RATES

REMOTE PROG.

NONE

4800

SMP/EBI ORBIX

NONE

4800

8950-100

8950-109

I9000 XSM (SMP PROTOCOL)

I9000 EBI ORBIX

FIRMWAREPART NO.

SOFTWARE VERSION

3

4

523

221

SET THE SWITCHES ON UNIT 1 (FARTHEST FROM THE PC) FOR BIAS DISABLED (S1-1/S1-4 OFF) AND EOLR TERMINATION ENABLED (S1-2/S1-3 ON). ON UNIT 4 ENABLE THE RS-485 TERMINATOR AND LINE BIAS. (THIS IS BASED ON THE ASSUMPTION THAT UNITS 1 AND 4 ARE EXTREME OPPOSITE DEVICESWITH THE LONGEST CABLE LENGTH BETWEEN THEM, NOT NECESSARILY THE DEVICES THAT ARE PHYSICALLY LOCATED THE FARTHEST APART.)

SET THE SWITCHES OF UNIT 2 (AND ANY OTHER INTERMEDIATE UNITS) TO OFF.

NOTICE THAT THE DAT – AND DAT + CONNECTION MUST BE INVERTED AT UNIT 4. THIS IS REQUIRED SINCE THE RRIs FOLLOW THE I9000STANDARD WHICH IS THE REVERSE OF THE INDUSTRY STANDARD.

REFER TO APPENDIX C FOR IC109 SETUP INFORMATION.

1

NOTES:A MAXIMUM OF FOUR RS-485 DEVICES CAN BE CONNECTED IN A MULTI-DROP CONFIGURATION INCLUDING THE RS-485 BLACK BOX CONVERTER.

THE GROUND BETWEEN UNITS 1 (TB2-1), 2 (TB2-1) AND 3 (TB2-1) ARE NOT NECESSARY IF A GROUND REFERENCE IS PROVIDED THROUGH OTHERMEANS. ONLY ONE GROUND REFERENCE MUST BE USED TO PREVENT GROUND LOOPS.

IN THE CONFIGURATION SHOWN, THE INTELLIGUARD CONTROL PANELS ONLY COMMUNICATE WITH THE EBI PC. THE INTELLIGUARD CONTROL PANELS DO NOT COMMUNICATE PEER-TO-PEER WITH EACH OTHER.

2

3

NOTE: EBI SOFTWARE SUITE IS PRESENTLY LIMITED TO 1200 AND 2400 BAUD.

4

UNIT 4

1


23 74-3047—1

CONNECT THE TRANSFORMERThe I9000 System operates from a 120 Vac, 60 Hz or 230 Vac, 50 Hz source. Use a Class II (current limiting) transformer that meets the electrical ratings in 74-3035, Intelliguard 9000 Specification Data. In the U.S. use a Silent Knight Model 4165 enclosure with a Model 9220 transformer or listed equivalent. Connect one transformer to the ISP power supply located in the I9000 CU and one per RIPS. Refer to Fig. 17 and follow all local regulations.

Cold StartIf the technician code is disabled, a cold start is necessary:

1. Remove power from the I9000 transformer.2. Open the housing containing the CU and disconnect the

battery(ies).3. On the ICP board, press and hold the S1 button (see

Fig. 17 for location).4. While still pressing the S1 button, reapply power to the

I9000 transformer.

This returns the I9000 to its default settings (technician ID = 00 and code = 9999).

To change software versions:1. Upload the system parameters from the I9000 to a PC

using PRO 9000 software with a baud rate that matches the I9000 (see following note). Make sure all of the Tables to Read items are marked with a X in the paNel/Read menu.

2. Remove power, AC and battery(ies), and replace the I9000 firmware (UVPROM) on the ICP II (8003-331) location XA3. Respect the orientation of the UVPROM.

3. Perform a cold start. See Cold Start section (start with step 3).

4. Set the I9000 baud rate to match the PRO 9000 soft-ware baud rate (see following note).

5. Download the system parameters from the PC to the I9000 using PRO 9000 software. Make sure all of the Tables to Write items are marked with an X in the paNel/Write menu.

NOTES:— For I9000 systems using I9000 EBI Orbix firm-

ware (8950-109) only the baud rate must be set. The system automatically enters into Remote Programming when polled by the PRO 9000 soft-ware. See the baud rate tables in the EBI RS-485 multi-drop wiring diagrams (Fig. 21 or 22) for sup-ported baud rates.

— For I9000 systems using I9000 SMP Protocol firmware (8950-100), use the CC2 to set 0 = SMP 1 = RPROG in the MODE/5-CONFIG/5-SYSTEM menu to 1 (remote programming) before attempt-ing to upload/download using the PRO 9000 soft-ware. See the baud rate tables in the EBI RS-485 multi-drop wiring diagrams (Fig. 21 or 22) for sup-ported baud rates.

— Exit from the CC2 CONFIGURATION menu for baud rate changes to become effective.

— Refer to 74-3046, Intelliguard 9000 Programmer’s Guide for more information on remote program-ming using the PRO 9000 software.

SYSTEM CHECKOUTRun a final test of all electronics before programming the system.

1. When the entire system is installed, use a voltmeter to make sure each device receives power. The meter should read 12.9 Vdc ±/- 4% (12.4V - 13.4V) across ter-minals 1 and 2 of each device (ISP terminal numbers differ).

2. If any device does not receive power, use a continuity tester to make sure there are no opens and shorts in the wire connecting it to the power supply. The power sup-ply may have shut down if the current drawn exceeded the rated current of the power supply (too many devices connected to its power output terminals) or if there is a short on the line. When the situation is corrected, the power supply recovers automatically.

3. If there is continuity but the voltage is low, check the dis-tance between the device and its power supply. It may be necessary to add a power supply closer to the device or increase the wire gauge to reduce losses. See the Additional Intelligent Power Supplies section.

4. If the device is receiving sufficient supply voltage, but does not function, replace the device and install a new device as described in these instructions.

NOTE: Power down the whole system (all ISPs, CUs and RIPS) before replacing a device.

5. Learn each device.

NOTES:— A device is learned when the CU records its

address or serial number.— Learning may be replaced by using the PRO 9000

software. See the Commission section, steps 1a. through 1c. for more information.

6. Check the communication status for each device (refer to the Commission section for more information).— F = COM fail.— M = Marginal (Latched status, clear with Reset

Log command).

7. Disarm each area.8. Program the tables.

NOTE: Table programming may be replaced by using the PRO 9000 software. See the Commission section for more information.

9. If the device receives sufficient voltage but does not respond while learning, refer to steps a. through d. and check the COM wiring voltage. a. Measure the voltage between negative (TB1-1

except for ISPs) and TxRx- of each COM. For TxRx- the voltage should fluctuate between 0.8 and 1.3 Vdc at the CU and at the device. The differences are due to the data transmitted.

b. Measure the voltage between negative (TB1-1 except for ISPs) and TxRx+ of each COM. The volt-age should fluctuate between 2 and 4 Vdc at the CU and at the device. The differences are due to the data transmitted.

c. If the device has address switches, verify that the proper address has been set and that they corre-spond with those programmed using PRO 9000.


74-3047—1 24

d. If the device has serial numbers, verify that the proper serial number was programmed using PRO 9000.

10. If the voltage is acceptable but the device still does not respond while learning or during regular polling, replace it with a new device as described in these instructions.

NOTE: Power down the whole system (all ISPs, CUs and RIPS) before replacing a device.

Test ModesThe Test menu is accessible through the CC2 and has three submenus; 1. HOLD-UP Test, 2. CHIME and 3. WALK-TEST. The Walk Test may be used to test for proper operation of any system input, but it is recommended that the Hold-up Test menu be used for Hold-up actuators since that test automatically performs a Reset Detector when the test is over.

The Chime Test verifies the chime function (tone on a CC2 or KID) programmed for door inputs (programmed as type 1) and associated with a defined area(s). It also verifies that the chime is activated on the right CC2 or KID when a door (whose corresponding input is programmed for the same area as defined for the CC2 or KID) is opened.

The CHIME menu is used to enable or disable the chime function for any of the eight active areas. If the chime function is enabled for a particular area, the points associated with that area will activate a chime provided they are programmed as door inputs (programmed as point type 1). The chime will sound on any CC2 or KID assigned to that area when a door is opened.

NOTE: When one of the function keys (TEST, MODE or OPT) is pressed and a valid ID and pass code are entered, it is not necessary to exit to the Main menu, select a different function key and then reenter your ID and pass code. You can jump to any of the func-tions directly by pressing another function key from anywhere in the menu structure, except in the parameter changing menus, such as in the learning process or point parameter change menu. The fol-lowing procedures use this feature.

1. HOLD-UP Test Procedure1. Check to see if any Hold-up points are in alarm.2. Make a Reset Detectors command if necessary.3. From the CC2, press the MODE key.4. Enter your technician ID and code number (00, 9999).5. Clear the Event Log by entering a 4 on the CC2 and

then pressing the ACCEPT key.6. Press the TEST key. HOLD-UP TEST is displayed on

the CC2.

NOTE: Your ID and code number do not need to be reen-tered.

7. Press the ACCEPT key.8. Enter the test area number.

NOTE: The CC2 display will flash HOLD-UP TEST on the first line of the display and the LED below the display will also flash. A beep will also be heard until step 10 is performed or a time out occurs. (Only the CC2 from which the test was initiated flashes and beeps.)

9. Walk through the selected area of the building (selected in previous step) and squeeze the red Hold-up actuator buttons on each BIC-2 HU. (You have 7-1/2 minutes to do the walk through before the system automatically ends the test. The beep rate accelerates after 7 minutes and the CC2 displays a flashing END TEST for the last 30 seconds before reverting back to the 1-HOLD-UP TEST menu display. Two beeps are heard when the test ends automatically).

NOTES:— The Hold-up actuator COM LED momentarily

flashes brighter when the actuator buttons are squeezed together to perform the test. Two beeps are heard each time an actuator’s buttons are squeezed.

— In HOLD-UP TEST mode, the second line of the CC2 display is blank until an actuator’s buttons have been squeezed. When the buttons have been squeezed on any actuator, the second line of the CC2 display shows that the chosen BIC-2 HU is in alarm. Both lines of the CC2 flash syn-chronously. When the next Hold-up actuator is squeezed, its identity replaces that of the previ-ously tested actuator on the second line of the CC2 display. The format for the second line of the CC2 display in HOLD-UP TEST mode is:

:

— The information shown in the example may differ depending on the settings programmed for the point. Depending on the length of the messages, the information may be truncated since there are only 24 characters on the second line of the dis-play.

10. Return to the CC2 and press the X key to end the test if the time out has not expired. The CC2 display and LED stop flashing and beeping. SUCCESS! is displayed momentarily on the CC2. This means the Test function completed successfully and not that the actuators tested okay. Refer to the Hold-up Test Event Log sec-tion to ensure that the devices tested successfully. The I9000 system automatically performs a Reset Detectors command.

11. Press the MODE key.

NOTE: Your ID and code number do not need to be reen-tered.

12. Press 3 to select Event Log. (Wait a few seconds to allow the Hold-up actuators to reset).

13. Press the ACCEPT key to view the Event Log.14. View the results of the test in the Event Log. See the

Hold-up Test Event Log section for an example of the Log results.

15. Repeat steps 5 through 14 for each of the areas pro-grammed at the installed site.

AreaPoint No.

Message No. 1 Alarm

Message No. 2

Logical No.

A1 010 BIC-2 ALM HOLD-UP 2


25 74-3047—1

HOLD-UP TEST EVENT LOGThe HOLD-UP TEST Event Log shows the following:

NOTE: Each time the same actuator’s buttons are squeezed during a test sequence, an entry is made in the Event Log. Therefore, one BIC-2 HU point may appear more than once in the Event Log for that test sequence.

— Point restoral for all of the Hold-up actuators depressed during the test (text shown in lower case letters).

— End of test (text shown in capital letters).— Alarms of all of the Hold-up actuators depressed during the

test (text shown in capital letters).— Start of test (text shown in capital letters).

2. Enable/Disable CHIME Function

NOTES:— The CHIME function is only functional when the

Chime enabled areas are disarmed. No results are logged.

— The LED located below the CC2 display blinks when the Chime is activated. Therefore, the CC2 provides both audible and visual notification of an event, whereas the KID notification is only audi-ble.

1. From the Test menu, select the 2-CHIME menu.2. Press the ACCEPT key. The CC2 display requests an

area number. 3. Enter an area number (can be any area from 1 to 8, but

must be an active area). The displays shows either CHIME: ENABLED or CHIME: DISABLED.

4. To change the setting, press the ACCEPT key and then press the scroll down key one stroke at a time until the required setting is displayed.

5. Press the ACCEPT key and the system returns to the 2-CHIME menu.

6. Press the scroll keys or numbers 1, 3 or 4 to move to a different test menu, return to step 2 to change the set-tings for other areas, or to go to the next step.

NOTE: When the settings are made, they remain valid until changed (even if you have exited the test menus).

7. Open and close the door(s) associated with the selected area to verify that the CHIME function works properly. The CC2 beeps twice and the LED blinks each time a door (defined as point type 1) is opened. (The beep is heard on any CC2 or KID assigned to the test area).

8. From the CC2, press the X key to exit to the main menu, Intelliguard 9000, or press a menu key.

The following example explains how the CHIME func-tion works:— A system has areas 1, 2, 3, 4 and 5 active.— The CHIME function is enabled for areas 2 and 4.— Point 2 is programmed as door 2 and point 4 is

programmed as door 4 (both as type 1).— Area 2 is armed and area 4 is disarmed.— When doors 2 and 4 are opened, only door 4 acti-

vates a chime on the CC2 and/or KID assigned to area 4.

— No chime is heard on the CC2 and/or KID assigned to area 2 even though door 2 was opened because area 2 is still armed.

— Disarm area 2.— When a CC2 or KID is assigned to multiple areas,

such as areas 1, 2 and 4, the chime sounds when those area doors are opened.

3. WALK-TEST Procedure1. Check to see if any points are in alarm.2. Make any necessary corrections.

NOTE: All points tested must transition from normal to alarm and return to normal to be registered in the Event Log.

3. From the CC2, press the MODE key.4. Enter your technician ID and code number (00, 9999).5. Enter 4 on the CC2 to clear the Event Log and then

press the ACCEPT key.6. Press the TEST key.7. Press 3 to select WALK-TEST.8. Press the ACCEPT key. 9. Enter the test area number. WALK-TEST is displayed

on the CC2.10. Walk through the selected area of the building (selected

in previous step) and test each alarm input on each device except the Hold-up actuators. As each point is tested and goes into alarm, all CC2s assigned to this area beep and their LEDs blink to indicate that the alarms have been received by the I9000.

11. Restore each alarm input in the area. (If red Hold-up actuators are tested, a manual Reset Detectors com-mand must be made. BIC-2 HU inputs, other than the red Hold-up actuator, should be tested with the WALK- TEST.)

NOTE: Actuators defined as Hold-up are not shown as tested okay in the Event Log when using the WALK-TEST, therefore, it is recommended that the HOLD-UP TEST procedure be used.

12. From the CC2, press the X key to end the test. The I9000 system automatically performs a communication test (COM Test) for each device that is associated with the specified area (specified in step 9).

NOTE: When a user ID/pass code other than the techni-cian’s is used, the communication tests (COM Test) are not done and the result is not included in the log.

13. Press the MODE key. 14. Press 3 to select EVENT LOG.15. Press the ACCEPT key to view the Event Log.16. View the results of the test in the Event Log. See the

Walk Test Event Log section for an example of the Log results.

NOTE: When a user ID/pass code other than the techni-cian’s is used, the communication tests (COM Test) are not done and the result is not included in the log.

17. Repeat steps 5 through 16 for each of the programmed areas at the installed site.


74-3047—1 26

WALK-TEST EVENT LOGThe WALK-TEST Event Log shows the following:— The communication test (COM Test) results are shown for

each device associated with the specified area (text is shown in capital letters). The results are shown as alarms, but they indicate proper functioning.

— End of test (text shown in capital letters).— Results of all of the alarm points tested in the WALK-TEST

for the given area. (Each point shown in lower case letters tested successfully.)

— Start of test (text shown in capital letters).

Status Menu InformationThe Status menu is accessible through the CC2 and has four submenus; 1. Arm Status, 2. Alarm Status, 3. Area Status and 4. Point Status. These are diagnostic tools and are accessible with any valid ID/Code. Exit from any of the Status menus at any time by pressing X on the CC2.

NOTE: Do not exceed four minutes while in the Status menus or you will be timed out and returned to the main Intelliguard 9000 menu.

1. ARM STATUSWhen 1-Arm Status is displayed on the CC2, press the ACCEPT key. The arm/disarm status of all areas are displayed on the CC2 simultaneously. Eight numbers are displayed on one line of the CC2 display and the arm status of each of these areas is displayed below its respective area number. The abbreviations are as follows:

A = Area Armed.D = Area disarmed.P = Partial Arm (only point types 1, 4 and 5 are armed).— = Area is not active.

2. ALARM STATUSWhen 2-Alarm Status is displayed on the CC2, the alarm status of all areas are displayed on the CC2 simultaneously. Eight numbers are displayed on one line of the CC2 display and the alarm status of each of these areas is displayed below its respective area number. The abbreviations are as follows:

N = Normal, no alarms present on any points associated with this area.

A = Alarm, at least one point associated with this area is in alarm.

B = Any points bypassed for this area.— = Area is not active.

3. AREA STATUSWhen 3-Area Status is displayed on the CC2, press the ACCEPT key. AREA?_ is displayed on the CC2. Enter the desired area number to display its associated points. The display automatically scrolls through each point in alarm and wraps around to the beginning when the last point in alarm is displayed. Associated points not in alarm are not displayed.

4. POINT STATUSWhen 4-Point Status is displayed on the CC2, press the ACCEPT key and enter the required point number to display its status. The format for the CC2 display is as follows:

Table 2. CC2 Display Format.

NOTE: The information shown in the examples may differ depending on the settings programmed for the point. Depending on the length of the messages, the information may be truncated since there are only 24 characters per line. To request the status of a different point, press X and enter the new point number.

Example AreaPoint No.

Message No. 1 Status

Message No. 2

Logical No. Point Status

All CC2 Displayed Text (including status)

1 A1 010 BIC-2 ALM HOLD-UP 2 point in alarm Text in capital letters

2 a1 010 bic-2 alm hold-up 2 point normal Text in lower case

3 A1 010 BIC-2 TRB HOLD-UP 2 point in trouble Text in capital letters

4 A1 010 BIC-2 BYP HOLD-UP 2 point bypassed Text in capital letters


27 74-3047—1

APPENDIX A

TERMINAL SPECIFICATIONSTable 3. Connector Terminal Specifications.

a SIG = Signal.b Polarity of the RS-485 in the I9000 system is opposite from the industry standard.

Connector Terminal Pin(s) Signal Name Input/OutputVoltage Typea

Maximum Voltage

Maximum Current (Rx/Tx)

Maximum Frequency

Comm. Processor TB1-1 12 Vdc- Power dc 0V 45 mA —

TB1-2 12 Vdc+ Power dc +15V 45 mA —

TB1-3,5 A-, B- In/Out SIG -6+11V 1mA/150 mA 4800 baud

TB1-4,6 A+, B+ In/Out SIG -6+11V 1mA/150 mA 4800 baud

TB1,7 CU Tamper- Input dc level 0V 16 mA —

TB1-8 CU Tamper+ Input dc level 0, +5V 16 mA —

TB2-1 Rx Input SIG ±12V ±18 mA 4800 baud

TB2-2 Tx Output SIG ±9V ±18 mA 4800 baud

TB2-4 Dir Output SIG ±9V ±10 mA 4800 baud

RRI Interface TB2-3 DAT-b In/Out SIG -6+11V 1 mA/150 mA 4800 baud

TB2-4 DAT+b In/Out SIG -6+11V 1 mA/150 mA 4800 baud


74-3047—1 28

APPENDIX B

DEVICE WORKSHEET

Fig. 23. Device power worksheet.

QTY DEVICE DESCRIPTION UNIT POWER TOTAL POWER

CU

CC2 MAXIMUM OF 4 (NO BACKLIGHTING)

KID (MAXIMUM OF 8)

HEDS IV

BIC-2 OR BIC-2 HU (1 INPUT AND 1 LOGICAL OUTPUT)

BIC-2 OR BIC-2 HU (1 INPUT AND 1 OPTIONAL RELAY OUTPUT)

BIC-6 (6 PROGRAMMABLE INPUTS AND OUTPUTS)

MOM (MAXIMUM OF 8 PROGRAMMABLE LOGIC OUTPUTS)

RRI (REQUIRED FOR EBI RS-485 MULTI-DROP WIRING CONFIGURATIONS)

(45)

(10)

CC2 MAXIMUM OF 4 (WITH BACKLIGHTING) (98)

(20)

(8)

(6)

(10)

(45)

(85)

M16260C

TOTAL POWER REQUIREMENTS FOR THIS INSTALLATION A

B

C = B - A

D

C + D

POWER AVAILABLE FROM PANEL (ISP = 800 mA)

SUBTOTAL (SHOULD BE POSITIVE +) IF NOT, ADD POWER AT "D"

IF TOTAL "C" IS NEGATIVE, ADD POWER SUPPLY (RIPS) (ISP = 800 mA)

TOTAL

(25)

1

1

EACH ISP HAS TWO POWER OUTPUTS (AUX 1 AND AUX 2). THE LOAD CONNECTED TO ONE ISP OUTPUT MUST NOT EXCEED 400mA.

2 COMBINATION OF CC2s WITH BACKLIGHTING AND CC2s WITHOUT BACKLIGHTING-FOUR TOTAL MAXIMUM.

2

2


29 74-3047—1

APPENDIX C

IC109A INSTALLATIONThis section describes the jumper and switch functions for configuring the RS-232 to 485/422 Converter. See Fig. 24 for component locations.

Fig. 24. IC109 component layout, jumper locations.

To install the RS-232 to 485/422 Converter:1. Set each of the ten jumpers/switches for the application.2. Connect the RS-232 to 485/422 Converter devices as

shown in Fig. 25.

3. Apply power. (Use the PS 154 Power Supply supplied with the Converter.)

Fig. 25. Connection diagrams.

W16 TURNAROUND DELAY

DS3PWR

DS2CD/RTS

DS1RTS/CDDSR4

TX

K

K

K

K

K

DS5RX

S1

W17

W19

M14545

W9

XW1B

DTE

W18

A B C

J1

XW1A

DCE

W5A

W15

A B C

A B C D E

A B CW8

W16

A B C

A-B RTS/CTSB-C RTS/CTS/CD

W15 A-B = RTS/CD ENABLEDB-C = DATA ENABLED

W17 DRIVER ENABLE HOLDA = 70 MSB = 7 MSC = 2 MS

D = 0.7 MSE = 0.15 MS

A = 0 MSB = 0.1 MSC = 1 MS

W8 A-B = 2 WIRE B-C = 4 WIRE

D = 5 MSE = 35 MS

30 MS10 MS0 MSON

1

2

3

4

ON

ON

TE

RM

BIA

S

A B

B

C

C

D E

R49/W7P2

TB1

TxA

TxB

RxA

RxB

TERMINAL 1

TERMINAL 4

M14546

DIGIBOARDDB25 CONNECTOR

IC109ARS-485/422 CONVERTER

DB25 CONNECTOR

2 2

3 3

4 4

5 5

7 7

8 8

P2504M-SLTTERMINAL SERVERDB25 CONNECTOR

IC109ARS-485/422 CONVERTER

DB25 CONNECTOR

2 2

3 3

4 4

5 5

7 7

8 8


74-3047—1 30

Jumper and Switch ConfigurationRefer to the Quick Reference section for jumper settings. Detailed explanations follow.

DTE/DCE ConfigurationA DIP shunt is used to select DTE or DCE configuration. For the RS-232 to 485/422 Converter to appear as a DTE device, place the DIP shunt jumper in socket XWIB. For the RS-232 to 485/422 Converter to appear as a DCE device, place the DIP shunt jumper in socket XWIA.

Frame Ground /Signal GroundJumper W7 ties signal ground to frame ground. The position is left open at the factory. If signal ground is to be connected to frame ground, solder a 100 ohm, 1/2W resistor in location W7. A wire jumper may also be used. Care must be taken to ensure that ground circulating currents are limited to acceptable levels.

Half/Full Duplex OperationJumper W8 selects half-duplex or full-duplex operation. Set W8 to the 2-WIRE position for half-duplex operation. Set W8 to the 4-WIRE position for full-duplex operation.

NOTE: When the jumper W9 is in the ON position, the RS-485 driver is always turned on to enable transmis-sion of data. Therefore, half-duplex transmission cannot be performed.

CTS DelayWhen the device transmitter is first turned on, an unstable carrier signal is transmitted for several milliseconds. If data was sent during this period, it would be received as distorted information. Setting a CTS delay on the RS-232 to 485/422 Converter allows the communications link to settle down before data can be sent.

RS-232 to 485/422 Converter as DCEWhen the RS-232 to 485/422 Converter is configured as a DCE device (DIP shunt in position XWIA), jumper W9 controls the amount of delay from the time the RTS Jumper W5 (in the A-B position) is received true until CTS is asserted true. If W5 is in the B-C position, CTS will be inhibited if an RS-485 carrier detect signal is present when RTS is raised. To select a CTS delay period, set jumper W9 to the 0, 10, or 30 ms position. Regardless of the delay setting selected, when RTS goes false, CTS immediately goes false. If jumper W9 is in the ON position, CTS follows RTS.

RS-232 at 851422 Converter as DTEWhen the RS-232 to 485/422 Converter is configured as a DTE device (DIP shunt in position XW1B), CTS is not supported.

RS-485 Driver Enable The RS-232 to 485/422 Converter RS-485 driver can be set to enable in one of three ways: by RS-232 control signals, by data, or constantly on.

Driver Enabled by RS-232 Control LeadsIf the equipment raises CD or RTS, set the RS-485 driver to enable by one of these leads. If the equipment does not have the capability to raise CD or RTS, set the RS-485 driver to enable either by data, or constantly enabled.

In order for a RS-232 control lead to enable the RS-485 driver, W15 must be in position A-B and W9 must be set for 0,10, or 30 ms.

When the RS-232 port is selected as DTE (DIP shunt in the XWIB position), the RS-485 driver will be enabled when CD (pin 8 of the RS-232 connector) goes true.

When the RS-232 port is selected as DCE (DIP shunt in the XW1A position), RTS enables the driver.

Driver Enabled by DataThe RS-485 driver can also be enabled without requiring an RS-232 control lead to be asserted. When jumper W15 is placed in the B-C position, the driver is enabled when data is received on the RS-232 port of the RS-232 to 485/422 Converter. As soon as the first bit of the first character is received at the RS-232 port, the RS-485 driver is enabled and an internal timer is started. The timer begins its time out on a low (0) to high (1) transition of data. When the timer times out, the RS-485 driver is disabled. Jumper W17 allows this timeout delay to be set for 0.15, 0.7, 2, 7, or 70 ms.

NOTE: There is a limitation to using this DATA ENABLES DRIVER feature. At data rates above 64 Kbps, the first character in the data stream will be garbled by the Converter. If higher data rates are required, transmit a <break> if possible, or a <nul> character before each message. This enables the RS-485 driver, activates the timer and allows the message to be transmitted without errors. The receiving device ignores the first character received.

Driver Constantly Enabled (4-Wire Only)The RS-485 driver can be constantly enabled by setting jumper W9 to the ON position.

Half-Duplex Turnaround DelayWhen operating in half-duplex mode (jumper W8 in the 2-WIRE position), the RS-232 to 485/422 Converter adds a small delay each time it stops transmitting data and prepares to receive data. This delay allows the RS-485 interface and transmission-line time to stabilize, thus reducing the possibility of garbled data being received at the end of a message.

The turnaround delays are 0 (W16 in position A), 0.1 ms (W16 in position B), 1 ms (W16 in position C), 5 ms (W16 in position D) and 35 ms (W16 in position E).

RS-485 Interface Terminated or UnterminatedSome distortion on the twisted-pair line may be caused by impedance mismatch from the different devices connected to the line. To help eliminate this type of distortion, the RS-485 interface can be terminated with a resistor network at the receiver input pins (RXA and RXB) via switch S2. When S2 is placed in the TERM position, the resistor network is connected across the line. When S2 is placed in the UNTERM position, no connection to the resistor network is made and the line is not terminated.


31 74-3047—1

Point-to-PointWhen only two devices are connected to a line point-to-point application, each device should have the termination network connected to the line. Set switch S2 to the TERM position.

MultipointFor multipoint applications, switch S2 should be in the UNTERM position on all the RS-232 to 485/422 Converter devices in the network except for the units at extreme opposite locations on the line. The extreme opposite devices are the two devices that have the longest cable length between them, not necessarily the devices that are physically located the farthest apart. These units should be set to the TERM position. If other RS-232 to 485/422 Converters are configured as Terminating, the amount of distortion could increase—possibly causing errors in the data transmitted.

Normal/Loopback OperationThe Normal/Loopback switch S1 is a two position pushbutton switch extending through the front panel. The normal position permits normal operation of the RS-232 to 485/442 Converter. The Loopback position allows data coming into the RS-232 to 485/422 Converter to be sent out the same port. This is to test the connection between the RS-232 to 485/422 Converter and the devices attached to each port.

NORMALWhen this switch is in the normal mode, data is passed through the converter from the RS-232 port to the RS-485 port and vice versa.

LOOPBACKWhen set to the loopback mode, any data received at the RS-485 is transmitted back out the RS-485 port and any data received at the RS-232 is transmitted back out the RS-232 port. This feature is only available in 4-WIRE mode.

RS-485 Interface Line Biased (Fail Safe)If S3 is in the OFF position, there is no line bias. If S3 is in the ON position, there is line bias. Either an end device or the two extreme opposite devices on the network should have the RS-485 interface set to bias ON. The extreme opposite devices have the longest cable length between them, not necessarily the devices that are physically located the farthest apart. This applies whether the configuration is point-to-point or multipoint. In multipoint configurations all other devices should have the bias turned off.

XSM/LINCNETSee Table 4 for XSM/LincNet settings.

Table 4. XSM/LincNet Settings.

Designation Shunt/Jumper Position Description

XWIB DCE

W8 B-C 2-Wire

W15 B-C Data Enabled

W5 B-C RTS/CTS/CD DELAY (CTS initiated if CD is present when RTS is raised.)

W9 C 0 ms

W17 E 0.15 ms

W16 B 0.1 ms

S1 OUT

S2 ON

S3 ON

25 PIN M/F Straight through cable

LINCNET INI Setup (V5.04.03)

Under the heading, add the following lines:

XSM

XSMtimeout=15

Quickbuild Channel Setup

Set Connect Timeout to 20

Set Read Timeout to 10

Windows Registry

Set connect time to 20

Set HostName to LocalHost


74-3047—1 32

IC109 QUICK REFERENCE GUIDEUse this list as a quick reference guide when you need to change the IC109 jumper settings.

aDesignates the required XSM jumper settings.bDesignates the factory-preset jumper settings.cRefer to RS-485 Interface Terminated or Unterminated sections, Point-to-Point and Multipoint subsections.dRefer to RS-485 Interface Line Biased section.

Designation Shunt/Jumper Position Description

XW1A aDCEb A DIP shunt can only be inserted in one of these two positions.

XW1B DTE

W8 A-Bb 4-Wire

aB-C 2-Wire

W15 A-Bb RTS/CD enabled

aB-C Data enabled (maximum speed is 64K).

W5 aA-Bb RTS/CTS Delay (normal)

B-C RTS/CTS/CD Delay (CTS inhibited if CD is present when RTS is raised.)

W9 RTS/CTS Delay. (Time required before the RS-485 Driver is enabled and CTS is asserted after RTS is asserted.

A 30 ms

B 10 msaCb 0 ms

D ON (In 4-WIRE mode only, the RS-485 driver is always enabled.)

NOTE: The XSM position for this jumper is C. If there are problems with the setting, move jumper to position D.

W17 When W15 is in the B-C (Data Enabled) position, this represents the time the RS-485 driver remains enabled after a low-to-high transition on the DATA line to prevent disabling the driver in the middle of a character.

A 70 ms (2-WIRE only)

Bb 7 ms

aC 2 ms

D 0.7 ms

E 0.15 ms

W16 Turnaround delay. (When W8 is in the B-C, 2-Wire position, the time after the driver is disabled and before the receiver is enabled.)aA 0 ms (2-WIRE only)

Bb 0.1 ms

C 1 ms

D 5 ms

E 35 ms

NOTE: If Converter is configured for Data Enabled (W15, position B-C) and 2-Wire (W8, position B-C), delays from W17 and W16 are cumulative.

S1 aOUTb Normal

IN Loopback (4-WIRE mode only)

S2 aOFFb RS-485 Receiver Unterminatedc

ON RS-485 Receiver Terminatedc (120 ohm)

S3 aOFFb Line Bias Offd

ON Line Bias On. (The Carrier Detect lights. Default is +5V.)d

TB1 4-Wire Terminal Block

1. RX, B+

2. RX, A-

3. TX, B+

4. TX, A-

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