Intelligent 4 Door Access Module P/No

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Revision 1.61 June. 2010.

Intelligent 4 Door Access Module

P/No: 994012 / 995014

1

4 Door Controller with 4 or 8 Reader ports for Concept 4000

INSTALLATION MANUAL

OVERVIEW

The Intelligent 4 Door Access Module provides an interface for up to 4 Doors using 4 Card Readers, or, if used in conjunction with the Intelligent Reader Expander board (994013/995013), up to 4 Doors with Card In / Card Out operation using 8 Card Readers.

This module incorporates an Off-line operation feature. The Intelligent Access Module downloads and maintains relevant data from the Control Module in order that it may continue to control door access in the event of LAN communication failure or damage to the Control Module, etc. The Module will even maintain “Card + PIN” operation in the event of LAN communication failure by supporting a local network of up to 8 LCD Terminals. While physically isolated from the rest of the LAN, these LCD Terminals can still be utilized as normal Terminals when the Intelligent Reader Module is online.

Dual Card, Card + PIN, and Anti-Passback features continue to operate on a “per Door” basis.

IMPORTANT NOTES.

1) AC power transformer. (PCB only version) In order to maintain the output current values specified in the Product

Catalogue and Installation Manual, the Intelligent 4-Door Access Module PCB must be powered by a transformer with the following minimum specifications:

Transformer Input.

Transformer Output.

Voltage:

Voltage:

As per local AC Mains supply voltage.

16 to 18V AC.

Current: 4 Amps.

Use of a transformer with a lower current rating may result in damage to the transformer &/or Intelligent 4-Door Access

Module. If a Transformer with a lower current rating must be used, contact Inner Range Technical Support for advice.

2)

3)

Plug Packs. Common 16VAC 1A or 1.5A Plug packs must never be used with this product. The current output from these plug-packs is totally inadequate for the Intelligent 4-Door Access Module.

Concept LAN Over Ethernet interfaces.

When connecting an Intelligent 4-Door Access Module (IFDAM) to a Concept LAN Over Ethernet (CLOE) interface: a. If the IFDAM Firmware (U3) is V3.60 or later, the CLOE Firmware must be V1.2 or later, and DIPswitch 1 (SET1) must be set to OFF.

b. If the IFDAM Firmware (U3) is prior to V3.60, and the CLOE Firmware is V1.2 or later, DIPswitch 1 (SET1) must be set to ON. (If CLOE firmware is prior to V1.2, the DIPswitch has no function and is set to OFF) c. If multiple IFDAMs are connected to a CLOE Slave, all the IFDAMs must be either V3.60 or later, or pre V3.60.

You cannot mix V3.60 or later and pre V3.60 IFDAMs on the same CLOE Slave.

d. It is permissable to have V3.60 or later IFDAMs on one CLOE Slave, and pre V3.60 IFDAMs on another CLOE Slave in the same system.

e. It is also permissable to have V3.60 or later, and pre V3.60 IFDAMs connected directly to the Control Module LAN.

CLOE firmware can be upgraded in the field with the CLOE Firmware Downloader application.

© 2005 - 2010. Inner Range Pty. Ltd.

Part No: 634012XL

2

Contents

PARTS LIST ............................................................................................................................................................... 2

INSTALLATION INSTRUCTIONS .......................................................................................................................... 3

INPUT AND OUTPUT WIRING DIAGRAMS ........................................................................................................ 5-6

THE INTELLIGENT 4 DOOR ACCESS MODULE PCB

Link Details ................................................................................................................................................................ 7

Module numbering ..................................................................................................................................................... 7

PCB layout and connection details ............................................................................................................................ 8 & 9

Status and Fault LED indications .............................................................................................................................. 10

Lock Open Time Mode settings ................................................................................................................................. 10

Input and Output ID Table ......................................................................................................................................... 11

LAN CONNECTIONS ............................................................................................................................................... 12

LAN Termination Details .......................................................................................................................................... 12

Cable Types ................................................................................................................................................................ 12

LAN wiring diagram .................................................................................................................................................. 13

Earthing ...................................................................................................................................................................... 14

LAN Voltage Testing .................................................................................................................................................. 14

HARDWARE CONFIGURATION TABLE ............................................................................................................... 15

SPECIFICATIONS ..................................................................................................................................................... 16

Parts List

- Intelligent 4 Door Access Module PCB mounted the Xtra Large mounting plate in the Xtra Large Low Profile Enclosure.

- Battery bracket.

- Installation Manual. (This document) - Installation Kit containing:

4 x M3 x 10 Pan head screw

4 x M3 Flat washer.

3 x 16mm Hex metal mounting post. (2 for installation + 1 spare)

8 x 8 Way plug-on screw terminals.

5 x 6 Way plug-on screw terminals.

4 x 3 Way plug-on screw terminals.

18 x 2 Way plug-on screw terminals.

1 x 1 Amp Slow Blow AC mains input Fuse. M205 (Spare)

2 x 0.5 Amp Fast Blow Reader Power Fuse. M205 (Spare)

2 x 1 Amp Fast Blow Lock Power Fuse. M205 (Spare)

2 x 2 Amp Fast Blow LAN/DET+ Fuse. M205 (Spare)

4 x 1N4004 Diode. (Connect in reverse polarity across lock coils)

20 x 2k2 End-of-line resistors. (red-red-black-brown-brown)

20 x 6k8 End-of-line resistors. (blue-grey-black-brown-brown)

4 x Jumper Links. (Spare)

1 x Battery Cable 70 cm

Tamper switch.

2 x 6.3mm Tamper switch connectors.

Tamper switch bracket.

In countries where the Mains input cable is not pre-fitted, the following parts are also supplied:

-

-

1 x Plastic Cable grommet.

Sufficient mounting screws to assemble all parts to the housing.

PRELIMINARY INSTALLATION PROCEDURE

Fitting the Mounting Plate & PCB assembly.

1. Remove the large cable ties securing the mounting plate & PCB assembly to the chassis.

2. Fit two 16mm Hex metal mounting posts to the nutserts provided in the chassis. Screw in finger tight, then tighten another 1/4 turn only with a small spanner or nut driver.

CAUTION: Further tightening may snap the spacer.

3. Secure the mounting plate & PCB assembly to the chassis using the 4 M3 x 10mm screws and flat washers provided.

Revision 1.61 June. 2010.

INSTALLATION AND SAFETY INSTRUCTIONS

Electrical AC Mains Power connection.

In countries where the module is supplied without a mains power cord, a suitable mains power cord for connection to the 240V

AC Mains supply must be installed by a suitably qualified electrician or technician.

1. Strip 80mm of the sheath from the end of the power cord. Trim 20mm from the ends of the Active and Neutral conductors so that the Earth conductor remains slightly longer.

2. Strip 5mm of insulation from each of the conductors.

3. Feed at least 150mm of the power cord through the AC mains cable entry hole.

4. Terminate the power cord in the terminal and fuse block as illustrated in Diagram 1 below. (Note that the Active wire is always connected into the termination nearest to the fuse)

5. Determine the appropriate length of power cord between the terminal block and the cable entry hole. (Approx. 120mm)

Working from the rear of the chassis, fit the plastic grommet (supplied) around the power cord and apply pressure to both sides of the grommet to clamp the cable. The grommet can now be inserted into the AC mains cable entry hole.

IMPORTANT NOTE: An AC Mains socket-outlet shall be installed near the equipment and shall be easily accessible for connection of the mains power cord.

Diagram 1.

Chassis

3

Transformer input connection.

EARTH

Connection to

PCB

20mm

5mm

Neutral

Earth

Active (Live)

Fuse. 1 Amp

Slow blow

M205 (20mm)

Power Cord

AC Mains cable entry hole & Plastic Grommet.

Assembled Tamper switch in the Tamper bracket

80mm

120mm

Mounting the Unit. See Diagram 2.

1. Installation environment should be maintained at 0º to 40º Celsius and 15% to 85% Relative humidity (non-condensing).

2. The enclosure must be secured to a flat, vertical surface using fasteners through the six “keyhole” mounting holes in the chassis. We recommend mounting the enclosure with the Mains Cable entry and Transformer at the bottom as shown in

Diagram 3.

3. When mounting this product onto flammable surfaces, a fire protection backplate MUST BE INSTALLED. (See Diagram 3)

Any Conduit entry points that have had the knockout removed but are not used, must also be resealed using 25mm Conduit

Plugs.

4. Fit the tamper switch into the tamper switch bracket. Install this assembly by placing the tamper switch plunger in the hole provided in the base, and the tongue on the bracket through the slot provided in the lip in the top of the chassis.

5. The Battery is normally installed in the bottom of the enclosure. (See Diagram 2) An optional Battery retaining bracket

(Part Number: 926005) can be used if the enclosure is not mounted as recommended in Step 2.

6. The metal chassis is electrically earthed and the Circuit Board Assembly is electrically isolated from the chassis. When mounting and wiring the Module, the Installer must ensure that this isolation is maintained.

4

Connecting the Battery to the PCB. See Diagram 2 below.

1. The Mains Transformer cable (A) is connected to the AC Input on the PCB (B).

2. Connect the Red Battery cable provided between the “+B” connection on the PCB (D) and the Positive (+) Battery terminal (C).

3. Connect the Black Battery cable provided between the “-B” connection on the PCB (D) and the Negative (-) Battery terminal (C).

A

Diagram 2.

C

Tapped hole for Cover fastening screw.

Mounting Holes. x 4

Tamper switch & bracket

PCB mounting plate

IFDAM Module PCB

Alternative Battery

Battery bracket position

Diagram 3.

Module

Enclosure

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

12345

B

D

Battery connections

16.5V AC Power connections to PCB.

12V, 6.5AH Battery and optional Battery bracket.

AC Mains Transformer

Terminal block and fuse.

AC Mains Input.

Fire Protection

Backplate.

(Side View)

IMPORTANT NOTE: This diagram shows the recommended orientation for installing the enclosure with the Battery located on the bottom lip.

If the enclosure is mounted with the Battery on the left-hand side or right-hand side of the enclosure, the optional Battery bracket must be used.

Revision 1.61 June. 2010.

Wiring Diagrams

ZONE INPUT WIRING.

Typical Detection devices with Normally Closed Alarm contacts and Normally Closed Tamper Contacts are wired using End-ofline resistors. e.g. Door Reeds, Tongue Sense contacts, PIRs etc.

NOTE: Detection devices with Normally Open Alarm contacts are wired in exactly the same manner as shown below. When programming the Zone Input, however, the option to “Swap Seal and Alarm conditions” must be set to [Y]es.

e.g.

I01:Z01 X S R A N T . .

Options -> n Y n n n n n n

INPUT STATES:

REX (Request to Exit), REN (Request to Enter) and

ARM inputs are wired as normally Open contacts with no End-of-line resistors.

2k2

9k (2k2 + 6k8)

Open Circuit

Short Circuit

=

=

=

=

Sealed

Unsealed

(or Alarm)

Tamper

Tamper

5

Norm. Closed

Alarm contact

2k2

Normally Closed

Tamper contact

Normally Open

Button contact

REED 1

0V

TONGUE

REN

0V

REX

T4 to

T7

Door Reeds, Tongue Sense and

General purpose Zone Inputs.

REX, REN and ARM Inputs.

AUXILIARY WIRING

Rules for Auxiliary wiring on an Intelligent 4 Door Access Module.

- Max current on any individual Auxiliary must be less than 100mA.

- Locks + Readers + Auxiliaries + LAN current + Detectors must be less than 2A, or an external power supply must be used.

- The Positive connection of the device being controlled by the Auxiliary must be wired back to the Positive connection nearest the Auxiliary. i.e. On the same module.

- If an external power supply is used to power the device, a good common Negative connection MUST exist between the power supply and the module.

- Clamp diode should be fitted across inductive loads. Cathode (bar) to +ve.

+ve connections to +ve nearest the Auxiliary output.

1.2 kOhm current limit Resistor.

RELAY

See Notes.

Auxiliary Current

<100mA per Auxiliary.

Note LED orientation.

6

LOCK WIRING

Using On-board Power Supply.

CAUTION: Lock power can only be provided by the lock “POS” connection if the total current required by all Locks,

Readers, Detectors, Auxiliaries and the LAN does not exceed 2.0 Amps. Check lock current before using this lock wiring method.

Locks are activated via an on-board relay. Each lock “POS” terminal is separately protected by a 1A fuse. This fuse should only be replaced with a fuse of the same value.

Heavy duty Fig. 8 cable

(24/0.20 or 14/0.20) recommended for all

Power & Lock wiring.

T13, 16, 17 & 18

+VE wired directly to

Lock +ve.

**IMPORTANT**

1N4004 Protection Diode (supplied) fitted as close as possible to the strike.

Cathode (bar) to +VE.

Power to Un-Lock or

Power to Lock

-

+

Lock

Strike

Using a separate external Power Supply.

If the lock current requirement will cause the total combined anciliary current limit (2.0A) to be exceeded, and/or longer battery backup times are required, a separate battery-backed power supply should be used for lock power and wired as shown below.

Heavy duty Fig. 8 cable

(24/0.20 or 14/0.20) recommended for all

Power & Lock wiring.

T13, 16, 17 & 18

EXTERNAL

PWR SUPPLY

(BATTERY

BACKED)

-

+

+VE wired directly to Lock +ve.

1N4004 Protection Diode (supplied) fitted as close as possible to the strike.

Cathode (bar) to +VE.

-

+

Lock

Strike

If Lock fault monitoring is required when using an external supply, connect the lock as shown below.

Connect -VE of external supply to

“0V” or “DET-”

NEAREST the

Lock connector.

T13, 16, 17 & 18

EXTERNAL

PWR SUPPLY

(BATTERY

BACKED)

-

+

+VE wired directly to Lock +ve.

-

+

Lock

Strike

Revision 1.61 June. 2010.

7

READER WIRING

R E A D E R

O m r o n S w i p e

I n n e r R a n g e S e c u r e 4 0 P r o x i m i t y

H I D

H I D

P r o x i m i t y

S e n s o r k e y

/ M o t o r o l a I n d a l a P r o x i m i t y

H I D C l a s s i c S w i p e / I n s e r t i o n /

E p i c W i e g a n d C a r d R e a d e r

( U n i t s m a y h a v e f l y i n g l e a d s O R s c r e w t e r m i n a l s )

0 V g r e e n b l a c k b l a c k b l a c k

G N D

+ V E y e l l o w r e d r e d r e d

+ V E

D 1

C L K r e d w h i t e w h i t e w h i t e

D a t a 1

D 0

D A T A b r o w n g r e e n g r e e n g r e e n

D a t a 0

( I f

E a r t h a v a i l a b l e ) s h i e l d * s h i e l d * s h i e l d *

* Note: Connect shield to 0V if no earth connection available.

The Reader Beeper and LEDs may be connected to the “Valid”, “Invalid”, “DOTL” or Auxiliary outputs as required.

These outputs are Open Collector. Consult the Reader installation instructions for connection details.

READER OPTION LINK SETTINGS

R

O

H

H

E

H u g

A D m r

I D

I D o n

I n n e r R a n g e

C a r d l o

S c k

H u g h e s h e s

E

M i n i P r o x

P r o x

S e n s w

S i

W i e g a n d

R w i

S o r k e y p e

C p e

S e c u r e w i p e

/ I n s e a r

P r o d R e

/ a d e

4 0 r s

P r o x i m i t y

T h i n L i n e r t i o n / T u r n s t i l e

M o t o r o l a I n d a l a .

S l i m L i n e /

W a l l S w i t c h / P i n P r o x / V a l u e P r o x / S e c u r e P r o x /

M a s t e r P r o x

M o t o r o l a I n d a l a .

R a n g e / M a s t e r P r o x

S t a n d

( f o r a r

3 0 d c

/ M e d i u m m r e a d r a n g e )

J P 1 8 2 1

1

2

-

F o r m a t :

-

2

3

S w i p e

W i e g .

1 2

2 3

1 2

2 3

2 3

2 3

2 3

J P 2 2 2 5

O

O

F o r m a t :

F

N

F S w i p e

W i e g .

O F F

O N

O F F

O N

O N

O N

O N

J P 1 3 1 6

S u p p l y :

2

1 2

3

+ 5 V

+ 1 2 V

1 2

2 3

1 2

1 2

2 3

1 2

1 2

J P 6 9

D a t a

1 2

2 3

+ 5 V

+ 1 2 V

1 2

2 3

1 2

1 2

2 3

1 2

1 2

J P 1 0 , 1 1 , 1 2

M o d e :

&

C a r d x

D e f a u l t

1

2 -

2

3

1 7

2 3

2 3

2 3

2 3

2 3

2 3

2 3

2

2 -

3

3

O

O

N

N

1

2 -

2

3

1

2 -

2

3

2

2 -

3

3

Module Numbering

The Module number is set using DIPswitches 1 to 7. The Module number equals n + 1, where n is the binary number set on

DIPswitches 1 to 7.

Module No: DIPswitch: 1

Binary value: 1

1

2

2

2

3

4

4

8

5

16

6

32

7

64 off off off off off off off

ON off off off off off off

5

6

3

4 off

ON off

ON

ON

ON off off off off

ON

ON off off off off off off off off off off off off off off off off

7

8

9 through to

99 off ON ON off off off off

ON ON ON off off off off off off off ON off off off off ON off off off ON ON

8

+5V Supply indicator.

+13.8V Supply indicator.

STATUS LEDs.

LED 1. Database.

LED 2 / 3. Fault LEDs.

See Status LED table for details.

THE INTELLIGENT 4 DOOR

Lnn.

Reader Data indication. Reader 3 & 4.

LEDs indicate D0 and D1 Data being received.

Separate LEDs provided for each Reader.

DIPswitch S2

Sw1-7: Module Address.

See details on page 7.

Sw8: Lock Open Time Mode.

Off = 1 Sec increments.

On = 100 mS increments.

See additional information on page 10.

DIPswitch S1.

Sw 1, 5-6: Factory Only.

Sw 2. OFF = AC Fail Delay 20 Seconds

ON = AC Fail Delay 255 Seconds

(see additional information on Page 10)

Sw 7 & 8. Reset to Factory default.

Procedure. (Use only if instructed by Tech support.)

1) Disconnect Power and Battery.

2) Set DIPswitch 7 & 8 to ON.

3) Reconnect Power and Battery & wait 2 seconds.

4) Disconnect Power and Battery again.

5) Set DIPswitch 7 & 8 to OFF.

6) Reconnect Power and Battery.

Main LAN Power.

(From LAN “POS” connection)

Main LAN Activity LEDs

Rx =Receive Data

Tx =Send Data

AC Supply Indicator.

J2 Power Supply & Tamper connections.

AC

+B/-B

TAM

16 to 18 V AC Transformer connections.

12V 6.5AH to 15AH Battery.

Cabinet Tamper switch connection.

JP4. Main LAN Termination.

No Link

Link IN

Unterminated

Terminated. (Only if module is at either end of the LAN)

X1. Main LAN Connection.

Isolated LAN Port to

Control Module.

JP5. Local LAN

Termination.

X2. Local LAN Connection.

LAN Port to LCD Terminals associated with Doors on this

Intelligent Reader Module.

Revision 1.61 June. 2010.

ACCESS MODULE PCB

JPnn.

Reader Settings. Reader 3 & 4.

Format, Supply, Data Voltage and Mode.

Set separately for each Reader.

See separate table.

JP27. BOOST 3-4

For 12V Readers.

Fit if DC Volts at Reader Head 3 or 4 is <11.5V

JP30. Factory Only.

Pins 2-3 must be linked.

JP1 Reader Expander Board connection.

When fitted provides 4 additional Reader Ports.

T2 & T3. Zone Inputs.

See “ZONE INPUT WIRING” for details.

JP28. Factory Only.

Must be fitted.

JP29. Factory Only.

Pins 1-2 must be linked.

JP26. BOOST 1-2

For 12V Readers.

Fit if DC Volts at Reader Head 3 or 4 is <11.5V

J11

Detector Power connections.

9

Lnn.

Reader Data indication. Reader 1 & 2.

LEDs indicate D0 and D1 Data being received.

Separate LEDs provided for each Reader.

JPnn.

Reader Settings. Reader 1 & 2.

Format, Supply, Data Voltage and

Mode.

Set separately for each Reader.

See separate table.

JUMPER LINK

ORIENTATION

1 •

2 •

3 • •

1

2

3

10

INTELLIGENT READER MODULE STATUS LEDs

DATABASE LED

LED 1

Flash

EXPLANATION / REMEDY

Directory problem.

May flash for around 1 minute when first connected or if Control Module memory is defaulted.

If LED 1 continues to flash for longer than 90 seconds:

-Check the FAULT LEDs for LAN Comms problems.

-Check that Control Module Memory configuration chosen for this installation has Intelligent Reader

Modules available.

See “Memory Configurations” in the Programming Applications & Reference Manual.

ON

If flashing continues, default the Intelligent Reader Module (see “DIPswitch S1” details on page 8) and allow database to update again. (Note that this may take up to 14 minutes for a 512k Memory configuration.)

Updating Database. Access disabled. Only relevant when Module or Door programming changes made. (Not relevant for other database changes such as Users, TimeZones, Lists, etc.)

FAULT LEDS

LED 2 LED 3

ON

OFF

Flash

Flash

ON

ON

ON

ON

Flash

OFF

EXPLANATION / REMEDY

Module is Offline.

Module type unknown. Firmware upgrade required to Control Module.

Duplicate Module. This module number is already in use by a module of the same type.

Module number selected is too big for Control Module RAM size. Select a lower Module number.

Too many modules on Network for Control Module RAM size.

LOCK OPEN TIME MODE SETTINGS

Note: Only available in Intelligent 4 Door Access Module firmware V1.08 or later.

The “Lock Open Time” defined in Door programming is normally specified in Seconds.

e.g. A Lock Open Time of “5”, will activate the Lock Auxiliary for 5 Seconds.

In some installations, the Lock Open Time needs to be shorter than 1 second.

e.g. When providing a short pulse output to trigger a special access device such as a turnstile system.

An option is available to allow an Intelligent 4 Door Access Module to process the “Lock Open Time” as 100 milli-Second increments instead of 1 Second increments.

e.g. -A Lock Open Time of “5”, will then activate the Lock Auxiliary for 500 milli-Seconds. ( 5 x 100mS)

-A Lock Open Time of “50”, will then activate the Lock Auxiliary for 5 Seconds. ( 50 x 100mS)

This is done by setting Switch 8 on DIPswitch 2 to the ON position.

When set, the Lock Open Time will then be processed as 100 milli-Second increments for all 4 Doors on that particular Module.

(See page 8 for location of the DIPswitch)

Only Modules with the DIPswitch set to ON will process the Lock Open Time in this way. Any other Modules with the

DIPswitch left in the OFF position, will process the Lock Open Time in the normal manner as 1 second increments.

AC FAIL DELAY TIME SETTINGS

Note: Only available in Intelligent 4 Door Access Module firmware V2.10 or later.

Requires Power-Up Reset after changing the DIP switch settings

DIP Switch 1; Sw 2. OFF = AC Fail Delay 20 Seconds.

ON = AC Fail Delay 255 Seconds.

Revision 1.61 June. 2010.

Intelligent Reader Input / Output Table

I n p u t O u t p u t

G e n e r a l P u r p o s e Z o n e 1

G e n e r a l P u r p o s e Z o n e 2

G e n e r a l P u r p o s e Z o n e 3

G e n e r a l P u r p o s e Z o n e 4

G e n e r a l P u r p o s e Z o n e 5

G e n e r a l P u r p o s e Z o n e 6

G e n e r a l P u r p o s e Z o n e 7

G e n e r a l P u r p o s e Z o n e 8

D o o r # 1 R e e d Z o n e I n p u t

D o o r # 2 R e e d Z o n e I n p u t

D o o r # 3 R e e d Z o n e I n p u t

D o o r # 4 R e e d Z o n e I n p u t

D o o r # 1 T o n g u e S e n s e Z o n e I n p u t

D o o r # 2 T o n g u e S e n s e Z o n e I n p u t

D o o r # 3 T o n g u e S e n s e Z o n e I n p u t

D o o r # 4 T o n g u e S e n s e Z o n e I n p u t

D o o r # 1 L o c k T a m p e r S y s t e m I n p u t

D o o r # 2 L o c k T a m p e r S y s t e m I n p u t

D o o r # 3 L o c k T a m p e r S y s t e m I n p u t

D o o r # 4 L o c k T a m p e r S y s t e m I n p u t

D o o r # 1 F o r c e d S y s t e m I n p u t

D o o r # 2 F o r c e d S y s t e m I n p u t

D o o r # 3 F o r c e d S y s t e m I n p u t

D o o r # 4 F o r c e d S y s t e m I n p u t

D o o r # 1 D o o r O p e n T o o L o n g ( D O T L ) S y s t e m I n p u t

D o o r # 2 D o o r O p e n T o o L o n g ( D O T L ) S y s t e m I n p u t

D o o r # 3 D o o r O p e n T o o L o n g ( D O T L ) S y s t e m I n p u t

D o o r # 4 D o o r O p e n T o o L o n g ( D O T L ) S y s t e m I n p u t

D o o r # 1 I n v a l i d C a r d S y s t e m I n p u t ( I n o r O u t )

D o o r # 2 I n v a l i d C a r d S y s t e m I n p u t ( I n o r O u t )

D o o r # 3 I n v a l i d C a r d S y s t e m I n p u t ( I n o r O u t )

D o o r # 4 I n v a l i d C a r d S y s t e m I n p u t ( I n o r O u t )

C a b i n e t t a m p e r

G e n e r a l L o c k F a u l t

B a t t e r y T e s t F a i l

A C F a i l

L o w b a t t e r y

L A N F u s e

D e t e c t o r F u s e

L A N C o m m s S t a t u s

D o o r # 1 L o c k R e l a y

D o o r # 2 L o c k R e l a y

D o o r # 3 L o c k R e l a y

D o o r # 4 L o c k R e l a y

S p a r e

S p a r e

S p a r e

S p a r e

G e n e r a l P u r p o s e A u x i l i a r i e s 9 t o 1 6 .

I n n : S 0 1

I n n : S 0 2

I n n : S 0 3

I n n : S 0 4

I n n : S 0 5

I n n : S 0 6

I n n : S 0 7

I n n : S 0 8

I n n : S 0 9

I n n : S 1 0

I n n : S 1 1

I n n : S 1 2

I n n : S 1 3

I n n : S 1 4

I n n : S 1 5

I n n : S 1 6

I n n : S 1 7

I n n : S 1 8

I n n : S 1 9

I n n : S 2 0

I n n : S 2 1

I n n : S 2 2

I n n : S 2 3

I n n : S 2 4

I n n : X 0 1

I n n : X 0 2

I n n : X 0 3

I n n : X 0 4

I n n : X 0 5

I n n : X 0 6

I n n : X 0 7

I n n : X 0 8

I n n : X 0 9 t o X 1 6

I D ( " n n " = M o d u l e n u m b e r )

I n n : Z 0 1

I n n : Z 0 2

I n n : Z 0 3

I n n : Z 0 4

I n n : Z 0 5

I n n : Z 0 6

I n n : Z 0 7

I n n : Z 0 8

I n n : Z 0 9

I n n : Z 1 0

I n n : Z 1 1

I n n : Z 1 2

I n n : Z 1 3

I n n : Z 1 4

I n n : Z 1 5

I n n : Z 1 6

11

12

LAN CONNECTIONS. Refer to diagram opposite.

- “A” & “B” signal connections are wired in parallel across the system using twisted pair cable.

See “Cable Types” details. The “NEG” connection (0V reference) must also be wired to every module.

- An optional + 12 V connection (LAN +ve) may be used to provide power to modules that do not have their own on-board power supply. e.g. LCD Terminals or the “Isolated LAN” connection on the Intelligent Reader Module.

- The Intelligent 4 Door Access Module connects into the LAN System via the “Isolated LAN” connection, X1. This is to ensure that any LAN faults will not effect any LCD Terminals that have been connected to the Local LAN connection for the purposes of Card+PIN operation. The Power for the Isolated LAN (POS & NEG) should be derived from the Control

Module or an Expander Module connected to this section of the LAN, or an external power supply.

- Any LCD Terminals to be used for Card+PIN / Card or PIN operation in conjunction with Readers on an Intelligent 4 Door

Access Module must be Univeral Elite LCD Terminals, must be connected to the Local LAN connection, X2, and must have special firmware fitted to allow Off-line operation.

No other Modules should be connected to this LAN Port.

- Avoid installing the LAN cable with mains power cables & any other cables likely to cause interference wherever possible.

- No module is to be more than 1.5km (1500 metres) cable length from the Control Module OR Intelligent 4 Door Access

Module Local LAN Port OR from a LAN Isolator “LAN 2” or “LAN 3” Port. (LAN Isolator/s can be used to extend the maximum cabling distance)

- TOTAL LAN CABLING in any one section of the LAN should not exceed 2000 metres, and/or 64 Modules.

- The LAN MUST be Terminated for optimum performance, by ensuring that the Termination Resistor (470 Ohm*) is “IN” on the first and last modules in the LAN network. Terminated modules are indicated with a “T” on the illustrations.

(Termination is put “IN” with a jumper link or a DIPswitch, depending on the module type)

- MULTIPLE CABLE RUNS. In systems where there are multiple cabling runs going out from the Control Module or LAN

Isolator (i.e. “star” configuration), Termination is fitted on the modules at the end of the two longest runs.

CABLE TYPES

- TWISTED PAIR Cable MUST be used to connect the LAN.

Two pair Telephone or LAN cable is suitable as it provides all 4 conductors required. One twisted pair for “A” & “B”, and the other for “POS” & “NEG”. Unshielded cable is quite acceptable, however, in situations where electrical storms or high levels of electrical interference are a problem, shielded 2 pair cable may be used. Examples of suitable 2 pair cables:

Unshielded. Figure 1.

Olex TJC590AA002

Tycab TIC6105 †

MM MegaTwistpatch ‡

Category 5.

Shielded (All Multistrand) Figure 2.

Olex JEIP87AA002

Tycab DPF4702

MM B2002CS

Belden 8723 *

Tycab DQQ47025 *

Garland MCP-2S

Electra EAS7202P / 7302P Electra EAS16202P

† 3 Pair.

‡ Multistrand (7/0.2).

* Indivually screened pairs.

- If SHIELDED CABLE is used, DO NOT use the shield as a negative connection & do not allow the shield to make contact with Negative, Ground, or any other wiring or metalwork within the system. Shields should only be terminated to a

Protective Earth at ONE END of the cable.

- LAN POWER CABLING. Separate heavy duty Figure 8 cable ( 24 / 0.20 recommended) should also be run for “POS” &

“NEG” over longer distances if used for powering modules. e.g. LCD Terminals.

LAN “POS” current required:

60mA (e.g. 1 LCD Terminal)

120mA (e.g. 2 LCD Terminals)

250mA (e.g. 4 LCD Terminals)

500mA (e.g. 8 LCD Terminals)

Max. Cabling Length for LAN +ve (POS) & GND (NEG)

Twisted pair Fig 8. 14 / 0.20

Fig 8. 24 / 0.20

200 metres

100 metres

400m

200m

640m

320m

50 metres

25 metres

100m

50m

160m

76m

Revision 1.61 June. 2010.

CONTROL

MODULE

13

UNIVERSAL ELITE LCD TERMINALS

(UP TO 8)

X1

POS

NEG

A

B

X2

POS

NEG

A

B

INTELLIGENT

4 DOOR

ACCESS

MODULE

ISOLATED

SYSTEM LAN

CONNECTION

LOCAL LAN

CONNECTION

Important Notes:

1) Special firmware must be fitted to Terminals to enable off-line operation of Card+PIN function.

2) Only LCD Terminals directly associated with the

Intelligent 4 Door Access Module should be connected to the Local LAN. Other Module types must not be connected.

3) Never connect any wiring between the Isolated

LAN and Local LAN.

14

SYSTEM EARTHING

- The System Ground is connected to Mains Earth via the Power cord at the Control Module.

- The Intelligent 4 Door Access Module also has local Ground connected to Mains Earth via it’s Power cord, however, the

System LAN connection (X1 “ISO LAN”) is isolated to eliminate Earth loops. Ensure that there are no other 0V or

Ground connections between the Control Module and Intelligent 4 Door Access Modules.

LAN VOLTAGE TESTING

LAN problems can often be quickly diagnosed by using a Multimeter on the DC Volts range as detailed in the table below.

1.

These Voltage checks should be done with no (or minimal) communications traffic on the LAN. To ensure this: a) Check that poll times for all addressed modules in the system are set to the default 60 / 120 seconds or greater.

b) Disconnect LAN A and LAN B from any unaddressed modules on the LAN, as these modules will be constantly attempting to send messages to the Control Module.

c) Ensure that Terminals, Readers, etc. are not being used while performing tests.

Before proceeding with Voltage tests, check the “RX” LED on the Control Module to confirm that there is minimal LAN activity.

2.

To determine if a problem exists on the module under test, or elsewhere on the LAN, these voltage tests can be performed: a) With the module connected to the LAN.

b) On the cable connections with the module disconnected from the LAN.

T e s t

+ P R

P o i n t

O B E

L A N + v e

L A N B

L A N A

L A N B

T

e s t P o i n t

P R O B E

L A N o r

G N D

v e

L A N A

L A N o r

G N D

v e

L A N v e o r G N D

E X P E C T E D

R E S U L T

P R O B L E M /

R E M E D Y

1

2

1

0

V

0 t t o o

1

6

4

0

V

0

D m V

C

D C

2 0 0 m V t o 2 .

5 V D C

0 V .

L A N

O p e n

+ v e a c i r n d c u

L i t

A

L A N

N v e .

+ v e

< s u

1 p

1 p

V l

.

y

T o o m s o u r c e .

a n y m o d u l e s c o n n e c t p o w e r e d i o f r n , o o r m s t h e h o

L r t

A c c t

N b e t w p o w e r e e n

L e d r o n g p t h o n

( o r t h e g u a g e ) c a b l e .

o f L A N c a b l i n g c a u s i n g e x c e s s i v e V o l t a g e

< 2 0

M

> 6 0 0 m V .

L

< e o s r e s

0 V

0

( t m h t h a n

N

V a e r e v e r s e d .

n

.

S

2 h o r t c c t m o d u l e s b e t e t w e e r m i n n a t

L A N e d i n

A & L A N o f L A N .

2

L A N m o d

A u l e

& s

/ o r L A N t e r m i n a t e d

B i n

O p e n t h i s c i r c u i s e c t i o n t .

o f L A N g a t i v e r e a d i n g ) .

L A N

A t h i s

& s e

B .

c t i o n

B c o n n e c t i o n s t

< 2 0 m

E o n o s e d u

0 a u r r l m V e t e h .

t c o n n e h a

/ t

R

> e n

2 o m

.

c t e

5 e

V m o m d b r

D C .

t o e e r t h a n t a h n a t

S e a r t h o a y s t n e e m m o p o m o d u m a y i n l t , d u e l e c a u s i n g m h a a i n y v e t h e b e m s o e y r e a s r t t e t h a n h m l o i o s c o n n e c t e d o n e p / s .

c o n n e t o e a r c t e d t h v i a a p o w e r p e r i p h e r a l s u p p l y , d e v i c e

D e t e c t o r , o r i 't s

O u t p c a b u t l i n g .

d e v i c e , e .

g .

e t c .

P C , P r i n t e r , E x t e r n a l i

I f i n s t a l l a t i o n e a r t h p o i n t s m e t h o u n a v o i d d s a b l

& / o e , r i n s t s y s t e m c o n f i g u r a t i o n a l l L A N I s o l a t o r / s a t m a k e s s u i t a b m l e u p l t i p o i n l e t s n t h e L A N s y s t e m t o i s o l a t e t h e e a r t h e d s e c t i o n / s

2 0 0 m V t o 2 .

5 V D C A s a b o v e .

Revision 1.61 June. 2010.

Intelligent 4 Door Access Module Hardware configuration Table.

DOOR

NUMBER

DOOR NAME

(Up to 16 characters)

[Menu, 7, 6] [Menu, 7, 6]

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

D __ __ __

IN READER connected to:

[Menu, 7, 2, 8]

I __ __ __

IN LCD

Terminal

(Terminal for PINs)

[Menu, 7, 2, 1]

OUT READER connected to:

[Menu, 7, 2, 4]

T __ __ __ I __ __ __

OUT LCD

Terminal

(Terminal for PINs)

[Menu, 7, 2, 1]

T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __

Reader No: ____

I __ __ __

T __ __ __

T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

I __ __ __ T __ __ __

Reader No: ____

Reader No: ____

I __ __ __

Reader No: ____

I __ __ __

Reader No: ____

I __ __ __

Reader No: ____

I __ __ __

Reader No: ____

I __ __ __

Reader No: ____

I __ __ __

Reader No: ____

T __ __ __

T __ __ __

T __ __ __

T __ __ __

T __ __ __

T __ __ __

15

16

Electrical Specifications

Power Supply Input: Transformer Input Voltage:

Transformer Output Voltage:

Current Consumption:

Fuse Protection:

240V AC -10% / +10%. 50 Hertz.

16.5V AC. 50 Hertz.

Maximum 500 milliAmps from 240V AC Source.

Separate AC mains input fuse. 1 Amp Slow blow. M205 (20mm).

PCB AC Input Voltage:

Battery Capacity:

Battery Input Fuse:

Power Supply Ouput: 13.8 V DC. 3 Amps total.

Detector Supply Output: 13.8 V DC. 1 Amp.

16 to 18V AC. 50 Hertz.

12V 6.5 AH. Sealed Lead Acid Battery.

5 Amperes.

Reader Head Supply O/P: 5V or 13.8V DC. 300mA maximum per Reader.

Current Consumption:

NOTE:

250mA standby.

450mA max. with lock relays & LED outputs all active.

(NOT including current drawn by peripheral devices. e.g. Readers, Locks, Detectors, etc.)

Allow 50 to 120mA for small Prox Reader (~10cm range)

Allow 120 to 180mA for standard Prox Reader (~15cm range)

These values are general approximations.

See information supplied with Reader for actual current consumption.

Battery.

Maximum capacity:

Deep discharge cutoff:

17 Amp/Hour.

10 Volts.

Low Battery indication: 11 Volts.

Lock Relay.

Contact rating: 30 V DC. 1 Amp maximum.

Fuse Protection.

Battery Input:

Lock Power:

Reader Power:

LAN Power:

Detector Power

5A. M205 (20mm)

1A. M205 (20mm)

0.5A. M205 (20mm)

2A. M205 (20mm)

2A. M205 (20mm)

Note: Total combined ancillary current required by all devices connected to the Intelligent Reader Module must not exceed 2 A.

ALWAYS REPLACE FUSES WITH SAME FUSE VALUE!

Physical Specifications

Cabinet size:

Cabinet Weight:

700mm High x 358mm Wide x 83mm Deep

12 Kg (Includes battery and lid)

Operating Environment: 0º to 50º Celsius and 15% to 80% Relative humidity (non-condensing)

Disclaimer: 1. The manufacturer &/or it’s agents take no responsibility for any damage, financial loss or injury caused to any equipment, property or persons resulting from the correct or incorrect use of the system or it’s peripherals. The purchaser assumes all responsibility in the use of the system and it’s peripherals.

2. While every effort has been made to ensure the accuracy of this manual, the manufacturer assumes no responsibility or liability for any errors or omissions. Due to ongoing development, this manual is subject to change without notice.

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