97

S/90 Installation Guide Elevator Control Unit EVC EVC16 EVC32 EVCRDRI Control Systems International ® TCON078.—.04/97 We at Control Systems Inte...
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S/90 Installation Guide Elevator Control Unit EVC

EVC16 EVC32 EVCRDRI

Control Systems International

®

TCON078.—.04/97

We at Control Systems International (CSI) have tried to make the information contained in this manual as accurate and reliable as possible. Nevertheless, CSI disclaims any warranty of any kind, whether express or implied, as to any matter whatsoever relating to this manual, including without limitation the merchantability or fitness for any particular purpose. CSI will, from time to time, revise the product(s) described in this manual and reserves the right to make such changes without obligation to notify the purchaser. In no event shall CSI be liable for any indirect, special, incidental, or consequential damages arising out of purchase or use of this manual or the information contained herein.  1992, 1997 by Control Systems International. All rights reserved. Printed in the United States of America. Document Number: TCON078–04/97 I/NET, Control Systems International, and the Control Systems International logo are registered trademarks of Control Systems International. FrameMaker and Minion are trademarks of Adobe Systems Incorporated. Canvas is a trademark of Deneba Software. All other trademarks mentioned belong to their respective owners.

About this manual: This book was written and produced using FrameMaker workstation publishing software and the Minion font from Adobe. Illustrations were created or modified using Canvas.

Contents FCC Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iv Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Related Publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Installation

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Physical Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Electrical Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Addressing the Elevator Control Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 System Configuration Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12

Operation

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

Initializing the EVC16 and EVC32 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Using Key/Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Elevator Control Unit Tampering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Loss of Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14

Specifications . Index .

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

List of Referenced Graphics .

EVC

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

iii

Contents

Installation Guide

FCC Warning The Federal Communications Commission (FCC) requirements prescribe certification of personal computers and any interconnected peripherals in the FCC rules and regulations. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: This device may not cause harmful interference, and this device must accept any interference received, including interference that may cause undesired operation. This equipment generates and uses radio frequency (rf) energy for its operation and, if not installed and used in accordance with the installation and operation manual, may cause interference to radio and television reception. It has been found to comply with the limits for a Class A computing device pursuant to the aforementioned regulations. These are designed to provide reasonable protection against such interference when operated in a residential area. Only peripherals (computer input/output devices) certified to comply with the Class A limits may be connected to this device. Operation with noncertified computer peripherals is likely to result in interference with radio and television reception. If this equipment does cause interference to radio or television reception, the user is encouraged to correct the situation by one or more of the following measures. ✦

Relocate the receiver with respect to the computer.



Move the computer away from the receiver.



Plug the equipment into a different outlet, so that the computing device and receiver are on different branch circuits.



Disconnect and remove any unused cables that may be acting as a transmission source.



Make certain that the computing device is plugged into a grounded outlet receptacle.

If necessary, contact CSI for additional suggestions.

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Installation Guide

Overview The Control Systems International (CSI) Model EVC16 Elevator Control Unit, the Model EVC32 Elevator Control Expansion Interface, and the Model EVCRDRI Reader Interface provide controlled access to restricted elevators when used in conjunction with other components of the CSI System 90 family of access control systems. The elevator control unit, elevator control expansion interface, and reader interface unit (See Figure 1) are all designed to provide management and control of individual access to restricted elevators. Expansion Interface (Optional)

Figure 1. Elevator Control Unit The EVC16 consists of one enclosure with a sixteen relay (floor) logic PCB and a sixteen relay (floor) interface PCB (see Figure 2). You can program the EVC16 to operate in accordance with the parameters of a specific system and can provide control for up to two separate elevators and a lobby call function. The EVC32 consists of two enclosures. One enclosure has a thirty-two relay (floor) logic PCB and a sixteen relay (floor) interface PCB. The other enclosure consists of another sixteen relay (floor) interface PCB (see Figure 3). The second interface PCB (Elevator Control Expansion Interface) is interconnected to the thirty-two relay (floor) logic PCB in the first enclosure using a ribbon cable, and power is derived from the interface board in the first enclosure wit a customer supplied AC line cable. The reader interface unit provides a signal interface between the key/card reader and the elevator control unit

Related Publications Refer to CSI Document TCON075, Operator Guide for System 90, for additional system information and programming parameters.

EVC

1

Installation Guide

Interface Board

Logic Board

TB4

TB3

J1 J1

TB2

TB1

Unit ID SW

J2

S1 S3 S2

J3

J6

TB1 J4

TB9

LED 1

TB8

System Configuration SW

J2

TB7

Reset Switch

TB6

TB5

DANGER HIGH VOLTAGE

Program Unit Connector RS485 Communication Connector

Power Supply Cover Power Terminals And Fuses Fire Control Relay Socket

Figure 2. EVC16 Component Layout

2

EVC

Installation Guide

Interface Board

TB4

TB3

J1

TB2

TB1

J2

TB6

TB5

Power Terminals And Fuses Figure 3. EVC32 Component Layout

EVC

3

Installation

Installation Guide

Installation The following procedures provide instructions for physical and electrical installation of the elevator control system components. In addition to the equipment described in this manual, the elevator control system uses the following equipment for installation and operation. ✦ ✦ ✦ ✦

Portable Program Unit (CSI Model PPU) (Used if the EVC is stand alone) Key Reader (CSI Model KEYRDR) and/or Card Reader (CSI Model CARDRDR) Fire Control Switch (optional, Customer Supplied). This switch must be a normally closed switch and its use is highly recommended for safety purposes. Reader Interface (EVCRDRI) for interfacing key readers to the elevator control unit.

Physical Installation The physical installation of the equipment should be done as shown in the following procedure. Note:

It may be necessary to make some holes in the EVC16 enclosure for wire routing. If required, use a Greenlee punch, or equivalent tool, and make holes as applicable. Ensure that all hole edges are smoothed after being cut. 1. Install the EVC16 and/or EVC32s in the elevator control room and secure the enclosures to walls using standard tools and hardware.

Note:

There are four mounting holes on the back of each unit. 2. If used, install the expansion interface adjacent to the associated EVC32 enclosure and secure the enclosures to walls using standard tools and hardware. 3. Install EVCRDRI assemblies on the outside of the applicable elevator cabs, preferably on the top or bottom of the cab, and secure using standard tools and hardware. 4. Install EVCRDRI assemblies in the elevator lobby as desired, preferably not more than twenty-five feet from the lobby key/card reader, and secure them to the walls using standard tools and hardware. 5. Install a key/card reader inside each controlled elevator cabs. 6. Install a key/card reader for each Elevator Controller in the elevator lobby as desired. 7. If used, install the customer supplied fire control switch in the desired location.

4

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Installation Guide

Installation

Electrical Installation Route all wiring as required by the location of the EVC16's, EVC32's, EVCRDRI and key/card readers. Use the following procedure to connect the elevator control systems. Warning:

In order to prevent possible injury or death to personnel, or damage to equipment, remove all electrical power from all equipment being interconnected when performing installation.

Note:

Unless noted otherwise, the following instructions apply to all configurations of the Elevator Control System. 1. Using customer supplied, 18-gauge stranded wire, connect the elevator floor controls to the relay terminals on the Elevator Control Unit Interface Board TB1 and TB2. Connect one wire of the twisted pair to the COM terminal and the other wire to either the N.C. (normally closed) or the N.O. (normally open) terminals on TB1 and TB2 for each relay as applicable (see Figure 4). If the floor control relay is normally closed, connect the wire to the N.C. terminal; if the floor control relay is normally open, connect the wire to the N.O. terminal. Each relay output will control one floor of one elevator. 2. If an EVC32 Elevator Control Expansion Interface is being used, repeat step 1. above, substituting the EVC32 for the EVC16 Elevator Control Unit. 3. If an EVC32 is being utilized, connect J1 on interface board of expansion interface to J3 on logic board of associated EVC16 using ribbon cable supplied. 4. Using customer supplied 22-gauge, six twisted pairs, shielded wire (Belden No. 8778 cable, or equivalent), connect TB7, TB8, and TB9 on the interface board of the Elevator Control Unit to J1 of the Reader Interface Assembly (see Figure 5) installed at Elevators 1 and 2, and the Lobby (respectively) as applicable. Connect Pin 1 of TB7, TB8, and TB9 to Pin 1 of the respective Reader Interface Assembly J1, connect Pin 2 to Pin 2, etc. Connect the shield of the respective cables to Pin 13 of TB7, TB8, and TB9 and Pin 13 of the respective Reader Interface Assembly J1. 5. Connect standard key/card reader cable (supplied) between each Reader Interface Assembly and the associated key/card reader in the elevator(s) and lobby. Secure Reader Interface Assembly cover with hardware supplied. 6. If Elevator Control Expansion Interface is being utilized, connect Expansion Interface Board TB6 to associated Elevator Control Unit fire control relay socket using customer supplied, 20-gauge stranded wire, as shown in Figure6, “Elevator Control Systems Installation (Fire Control Switch)”. 7. The Elevator Control Unit fire control relay socket terminals used to connect an associated Elevator Control Expansion Interface, may also be wired in series (using customer supplied, 20-gauge stranded wire) to the same terminals in another elevator control unit in order to utilize a single fire control switch. 8. Using customer supplied, 20-gauge stranded wire, connect the fire control switch between the Elevator Control Unit fire control relay socket and the power supply GND lug as shown in Figure 6.

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Installation

Installation Guide

IN 9 RET 9 IN 10 RET 10 IN 11

TB4

TB3

RET 8 IN 8 RET 7 IN 7 RET 6 IN 6 RET 5 IN 5 RET 4 IN 4 RET 3 IN 3 RET 2 IN 2 RET 1 IN 1

TB1

N.O. 8 N.C. 8 COM 8 N.O. 7 N.C. 7 COM 7 N.O.6 N.C. 6 COM 6 N.O. 5 N.C. 5 COM 5 N.O. 4 N.C. 4 COM 4 N.O. 3 N.C. 3 COM 3 N.O. 2 N.C. 2 COM 2 N.O. 1 N.C. 1 COM 1

RET 11 IN 12 RET 12 IN 13 RET 13 IN 14 RET 14 IN 15 RET 15 IN 16 RET 16 COM 9 N.C. 9 N.O. 9 COM 10 N.C. 10 N.O. 10 COM 11 N.C. 11 N.C. 11 COM 12 N.C. 12 N.O. 12 COM 13 N.C. 13 N.O. 13 COM 14 N.C. 14 N.O.14 COM 15 N.C. 15 N.O.15 COM 16 N.C. 16 N.O. 16

TB2

TB7

TB8 13 12 11 10 9 8 7 6 5 4 3 2 1

TB9

13 12 11 10 9 8 7 6 5 4

13 12 11 10 9 8 7 6 5 4

3 2 1

3 2 1

TB6

TB5

4 3 2 1

4 3 2 1

Figure 4. Elevator Control System Terminals

J1

J2

Figure 5. EVCRDRI Component Layout

6

EVC

Installation Guide

Installation

EVC #1 Main TB6-3

#1 PS

TB6-2

EVC #2 Main

EVC #1 Expansion TB6-3

TB6-2

TB6-3

+

TB6-2

EVC #2 Expansion

TB6-3

TB6-2

#2 + PS

*

*

* *

Fire Control Switch

* Factory supplied surge supression diode

Relay Pin Numbers 8

7

6

5

4

3

2

1

To next EVC in line

Power Supply FCR Coil Diode (Anode)

14 12

13 11 10

9

Figure 6. Elevator Control Systems Installation (Fire Control Switch) Note:

If a fire control switch is not used, a jumper must be installed between the Elevator Control Unit fire control switch terminal on the fire control relay socket and the power supply GND lug using 20-gauge wire. However, it is highly recommended that a fire control switch be used for safety purposes. 9. If an S/90 central computer is being utilized, interconnect a communications line, using customer supplied, 18-gauge, twisted pair, shielded wire (Belden No. 8760, or equivalent), between all applicable Elevator Control Units at TB1 of the logic board and the S/90 as shown in Figure7, “Elevator Control System Installation (Single Control Unit Configuration)”, Figure8, “Elevator Control System Installation (Multiple Control Unit Configuration)”, and Figure9, “Elevator Control System Installation (EVC16 with Expansion Interface)”. Ensure that each wire of the communications line is connected to the same applicable connector at each end of the line.

Warning:

EVC

Ensure that electrical power is not applied when performing Steps 9 and 10 below in order to prevent possible injury or death to personnel.

7

Installation

Installation Guide

Elevator Control Unit Logic Board

TB4

TB3

TB2

TB1

Outputs Of Relays 1 Thru 8 Consisting Of One Single-pole, Double-throw Contact Per Relay

Interface Board TB1

1 2 3

TB7

TB8

TB9

Two-wire W/shield Communications Line To CCU (when Used)

Six Twisted Pairs w/Shield

Outputs Of Relays 9 Thru 16 Consisting Of One Single-pole, Double-throw Contact Per Relay

Six Twisted Pairs w/Shield

Six Twisted Pairs W/shield

Lobby J1 J2

Key/Card Reader

Reader Interface Assy Mounted Outside Elevator Cab

J1

J2

Elevator 1 Key/Card Reader Located Inside Elevator Cab

Standard Key/Card Reader Cable

Reader Interface Assy Standard Key/Card Reader Cable

J1

J2

Elevator 2

Standard Key/Card Reader Cable

Key/Card Reader Located Inside Elevator Cab

Figure 7. Elevator Control System Installation (Single Control Unit Configuration)

8

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Installation Guide

Installation

* Outputs Of Relays 9 Thru 16

* Outputs Of Relays 9 Thru 16 Elevator Control Unit Logic Board

TB4

TB3

TB2

TB1

LOGIC BOARD

* Outputs Or Relays 1 Thru 8

Interface Board

B

TB3

TB2

TB1

Interface Board TB1 3 21

TB7 TB8 TB9

TB1 3 2 1

TB4

A

B

GND

TB7 TB8 TB9

* Outputs Of Relays 1 Thru 8

A

GND Up To Four Elevator Control Units

To Lobby Two Wire w/Shield Communications Line To CCU ** Six Twisted Pairs w/Shield

Reader Interface Assy Mounted Outside Elevator Cab

To Elevator 2 (if Used)

Six Twisted Pairs w/Shield

To Elevator 1

To Elevator 2 (if Used) Standard Key/card Reader Cable J1

J2

ELEVATOR 1 Key/card Reader Located Inside Elevator Cab

* Each relay output consists of one single-pole, double-throw contact and is intended to control one floor of one elevator. ** Connect elevator controller interface bard TB7, TB8, and TB9 to reader interface assembly J1 such that pin 1 connects to pin 1, pin 2 connects to pin 2 and so forth. Connect shield of cable to TB7, TB8, and TB9 pin 13 and J1 pin 13.

Lobby J1 J2

Reader Interface Assy Standard Key/card Reader Cable Key/card Reader

Figure 8. Elevator Control System Installation (Multiple Control Unit Configuration)

EVC

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Installation

Installation Guide

Elevator Control Expansion Interface TB3

TB4 J1 TB2

TB1 * Outputs Of Relays 1 Trhru 8

Interface Board TB6 4 3 2 1

Ribbon Cable (supplied)

To Fire Control Socket On Elevator Control Unit

* Outputs Of Relays 9 Thru 16

20 Gauge Twisted Pair (customer supplied)

Elevator Control Unit

Logic Board J3

TB4

TB3

TB2

TB1

*

Interface Board TB1

1 2 3

TB7

Two Wire w/Shield Communications Line To S90 (when used)

TB8

Outputs Of Relays 1 Thru 8

TB9

Six Twisted Pairs w/Shield *

Outputs Of Relays 9 Thru 16 To Elevator 1

To Lobby

To Elevator 2 *

Each relay output consists of one single-pole, double-throw contact and is intended to control one floor of one elevator.

Figure 9. Elevator Control System Installation (EVC16 with Expansion Interface)

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Installation Guide

Installation

10. The Elevator Controller comes from the factory wired for 110 VAC, 60 Hz. If you will be using 220 VAC, 50 Hz you must rewire TB5 as shown in Figure 10. 11. The Elevator Control Expansion Interface comes from the factory wired for 110 VAC, 60 Hz. If you will be using 220 VAC, 50 Hz you must rewire TB5 as shown in Figure 10. Using a standard three-wire power cable (customer supplied) connect either 110 VAC, 60 Hz or 220 VAC, 50 Hz operating power, as applicable, by wiring the power source directly to the unit at the power terminals (fuse terminal block) and the GND lug. Replace and secure the power supply cover. TB5 must be rewired as shown when operating on 220V 1

2

3

4

220 Vac

Figure 10. 220V Wiring Diagram

Addressing the Elevator Control Unit Each Elevator Control Unit in a system must have its own unique identification number. This is accomplished by adjusting the setting of 8-position DIP Switch S1 located on the logic board (see Figure 2 on page 2). This switch, on each unit, is preset at the factory with an identification number of 1. Therefore, if more than one Elevator Control Unit is connected in a system, each one must be assigned a unique number, and Switch S1 must be adjusted to reflect the assigned number in binary code. Table 1 shows the required settings for the first 16 units in a system. If more than 16 units are utilized, consult your CSI representative for further unit number settings with S1 as required. Table 1. EVC Identification Switch Settings 1 DIP Switch Settings Elevator Control Unit No.

EVC

1

2

3

4

5

1

Off

On

On

On

On

2

On

Off

On

On

On

3

Off

Off

On

On

On

4

On

On

Off

On

On

5

Off

On

Off

On

On

6

On

Off

Off

On

On

6

7

8

Positions 6, 7, and 8 are not used at this time.

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Installation Guide

Table 1. EVC Identification Switch Settings (Continued) 1 DIP Switch Settings Elevator Control Unit No. 1

2

3

4

5

7

Off

Off

Off

On

ON

8

On

On

On

Off

On

9

Off

On

On

Off

On

10

On

Off

On

Off

On

11

Off

Off

On

Off

On

12

On

On

Off

Off

On

13

Off

On

Off

Off

On

14

On

Off

Off

Off

On

15

Off

Off

Off

Off

On

16

On

On

On

On

Off

6

7

8

For units 17 and above, consult your CSI representative for switch S1 settings as required.

System Configuration Switch The 8-position DIP Switch, S2, located on the Elevator Control Unit logic board, must be set in accordance with the system configuration. Table 2 shows the switch settings for each configuration. To change the system configuration, reset the switch settings as desired, press the reset switch on the logic board, and program the system as required. Table 2. EVC System Configuration Switch Settings S2 DIP SW Position 1

S2 DIP SW Setting

System Configuration

Off On

Double elevator system. Single elevator system.

Off

Keys/cards 1 through 25 (inclusive) automatically given complete access privileges (provided issue number is correct, facility code programmed, etc.).

On

All user keys/cars act the same.

Off

Auto Unlock will not become active for the lobby until a valid key/card read, using the lobby reader, is performed during an unlock cycle.

2

3 On

Off

Auto Unlock for lobby becomes active as soon as the unlock cycle time is reached. Auto Unlock will not become active for any controlled floor until a valid key/card read, using the cab reader, is performed during an unlock cycle.

4

12

On

Auto Unlock for all controlled floors becomes active as soon as the unlock cycle time is reached for a controlled floor.

5

***

Not used at this time.

6

***

Not used at this time.

7

***

Not used at this time.

8

***

Not used at this time.

EVC

Installation Guide

Operation

Operation The following information contains instructions for initializing the Elevator Control System for operation after initial installation. In addition, operation of the equipment, after accomplishing installation and initialization, is described.

Initializing the EVC16 and EVC32 After all components of the Elevator Control System have been properly installed and interconnected, initialize the system for operation using the following procedure: 1. Apply operating power to the Elevator Control Unit and the Elevator Control Expansion Interface as applicable. (The Reader Interface Assembly(ies) and Key/Card Reader(s) receive operating power from the Elevator Control Unit.) Observe that the Elevator Control Unit accomplishes the automatic self-test as described above. 2. Press the reset switch on the Elevator Control Unit logic board, observe that LED 1 illuminates in approximately one second. While the LED is still illuminated, press the reset switch again. This causes a cold start and must be completed before the Elevator Control Unit will function properly. This may take up to three minutes. During the cold start process, observe that LED 1 is illuminated constantly, and if a key/card reader is connected, the readers LED is illuminated to an orange color. Note:

If the self-test is not successfully accomplished, the Elevator Control Unit will not operate properly. If the malfunction has been defined in software, LED 1 (red) on the Elevator Control Unit logic board will flash one of six number codes to identify a possible source of the problem (refer to Table 3). If that occurs, perform maintenance as applicable. 3. If an S/90 system is being utilized, connect the program unit to the S/90 host to accomplish programming. If an S/90 system is not being utilized, connect the Portable Program Unit directly to J6 on the Elevator Control Unit logic board to accomplish programming.

Note:

During normal operation, when an S/90 system is utilized, LED 1 on the Elevator Control Unit logic board will remain constantly lit, indicating that the EVC is communicating with the S/90 host. Table 3. EVC Malfunction Code Definitions * Malfunction Number Code

Malfunction Definition

1

Processor error (8031 chip probably bad).

2

Insufficient RAM in system (less than 16K of RAM).

Note: * The malfunction number code is indicated by LED 1 on the elevator control unit logic board with a series of short flashes (1 to 6)

EVC

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Operation

Installation Guide

Table 3. EVC Malfunction Code Definitions (Continued) * Malfunction Number Code 3

Malfunction Definition RAM failure (RAM chip bad).

4

Real time clock failure (MC1468818 bad).

5

Insufficient EEPROM in system (less than 16K of EEPROM).

6

EEPROM failure (EEPROM chip bad).

Note: * The malfunction number code is indicated by LED 1 on the elevator control unit logic board with a series of short flashes (1 to 6)

After the Elevator Control System has been installed and initialized, operation will be as described in the following paragraphs.

Using Key/Cards When a valid user key/card that has been programmed into the system is inserted and withdrawn from the Key/Card Reader in one smooth, continuous motion, a valid read signal will be received by the Elevator Control Unit. Also, the LED on the Key/Card Reader will illuminate green and the elevator may be operated in accordance with system programming. In addition, if a Central Control Unit is connected to the system, a VALID KEY/CARD with KEY/CARD NUMBER will be printed. If a key/card which is not programmed into the system is used, the Elevator Control Unit will receive an invalid read signal, the LED on the Key/Card Reader will illuminate red, and the elevator will not respond. In addition, if a Central Control Unit is connected to the system, an INVALID KEY/CARD with KEY/CARD NUMBER will be printed. If a bad key/card read occurs, due to either improper insertion and withdrawal or leaving the key/card in the reader, the Elevator Control Unit will receive an invalid read signal, the LED on the Key/Card Reader will flash red, and the elevator will not respond. In addition, if a Central Control Unit is connected to the system, a BAD READ message will be printed.

Elevator Control Unit Tampering If the Elevator Control Unit cabinet is opened during operation, a TAMPER ALARM message will be enabled by the Elevator Control Unit. This message will be routed to and printed by the Central Control Unit printer if that unit is connected to the system.

Loss of Power In the event primary operating power is lost from the Elevator Control Unit during normal operation, a POWER FAIL message will be enabled by the Elevator Control Unit. This message will be routed to and printed by the Central Control Unit printer if that unit is connected to the system.

14

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Installation Guide

Specifications

Specifications ELEVATOR CONTROL UNIT Dimensions: 24 in. H × 12 in. W × 6 in. D (60.96 cm × 30.48 cm × 15.24 cm) Weight: 35 lbs. (16 kg) Operating Temperature: 0°F to 125°F (-18°C to 52°C) Operating Humidity: 0 to 80% noncondensing

Floor Control Capacity: 16 floors for one elevator; 8 floors each for two elevators Auxiliary Function Inputs: 16 (for future system expansion)

READER INTERFACE UNIT Dimensions: 3.7 in. H × 4.7 in. W × 2.1 in. D (9.37 cm × 11.91 cm × 5.24 cm) Weight: 1.5 lbs. (0.68 kg)

Power: Standard: 110 VAC, 60 Hz Optional: 220 VAC, 50 Hz

Operating Temperature: 0°F to 125°F (-18°C to 52°C) Operating Humidity: 0 to 80% noncondensing Power: 12 VDC (from Elevator Control Unit)

Elevator Control Capacity: Two elevators Floor Control Capacity: One Elevator: 16 floors maximum Two Elevators: Any combination of floors for the two elevators up to a maximum of 16 floors. With Expansion Interface: 32 floors for one elevator; any combination of floors for two elevators up to a maximum of 32 floors. Auxiliary Function Inputs: 16 (for future system expansion); 32 (with elevator control expansion interface)

ELEVATOR CONTROL EXPANSION INTERFACE Dimensions: 24 in. H × 12 in. W × 6 in. D (60.96 cm × 30.48 cm × 15.24 cm) Weight: 28 lbs. (12.7 kg) Operating Temperature: 0°F to 125°F (-18°C to 52°C) Operating Humidity: 0 to 80% noncondensing Power: Standard: 110 VAC, 60 Hz Optional: 220 VAC, 50 Hz

System Wiring: EVC16 and EVC32 Interconnect Cable: (For Elevator Control Unit and Elevator Control Expansion Interface output relays to customer elevator controls.) 18 AWG (0.897 mm2) stranded, twisted-pair wire. Maximum length 250 feet (76.2 meters). (Customer supplied.) EVC16 To Reader Interface Assembly Interface Cable: 22 AWG (0.324 mm2), twisted pair, shielded (six pairs required) (Belden No. 8778 cable, or equivalent, recommended). Maximum length 1000 feet (304.8 meters). (Customer supplied.) Key/Card Reader Interface Cable: (For key/card reader to reader interface assembly.) Up to 25 foot (7.62 meters) lengths available, 8-pin modular plugs. Communication Line: (For elevator control unit to central control unit.) 18 AWG (0.897 mm2), twisted-pair, shielded (Belden No. 8760 cable, or equivalent, is recommended). Maximum length 4000 feet (1219.20 meters) (Customer supplied.) Fire Control Switch Cable: (For elevator control unit to customer supplied fire control switch.) 20 gauge, stranded wire; Length determined by customer (Customer supplied.)

Elevator Control Capacity: Two elevators

EVC

15

Index Self-test EVC16 EVC32

A–C

Tamper switch EVC16 14

Addressing 11 Cable type of

13 13

5, 15

Configuration EVC16 12

E error codes

13

EVC16 13 initialization of

13

I Installation electrical EVC16 5 EVC32 5 EVCRDRI 5 fire control switch 5 physical EVC16 4 EVC32 4 EVCRDRI 4 key/card reader 4 physical Expansion Interface

4

K–T Key/card reader use of 14 Power loss EVC16

EVC

14

16

Warranty

Warranty Repair or Replacement

Purchaser’s Responsibility

If this unit fails to operate because of a defect in materials or workmanship within two (2) years of the date you purchased it, it will either be repaired or replaced by Control Systems International, Inc. (CSI) at no charge to you. Before contacting CSI, it is recommended that you first contact the dealer from whom you purchased this equipment to determine whether they will have it repaired or replaced. If the dealer will not, please contact CSI to arrange to have this equipment repaired or replaced.

In order to obtain service under this warranty, you must deliver the equipment to the place of purchase or to CSI and provide proof of the original purchase date along with the returned equipment. Failure to provide adequate proof of the original purchase date could result in denial of warranty service.

CSI EXPRESSLY RESERVES THE RIGHT TO REPAIR OR REPLACE THIS EQUIPMENT WITH NEW OR REFURBISHED PARTS OR EQUIPMENT.

Direct requests for information on out-of-warranty service to Product Service Manager at the address below.

Exclusions and Limitations Your warranty does not cover:



Damage by negligence, misuse, or accident



Compatibility with the equipment of any other manufacturer



Modifications to the equipment to make it compatible with the equipment of any other manufacturer



Damage to the equipment resulting from improper installation or operation.

Legal Rights and Limits All applicable implied warranties, including the implied warranty of merchantability and of fitness for a particular purpose given to you by law are hereby limited in durability to the duration of this warranty. Under no circumstances will CSI be liable for any incidental or consequential damages.

Out of Warranty Service

Control Systems International

®

P.O. Box 59469, Dallas, Tx 75229 Phone: (972) 323-1111 FAX Phone: (972) 242-0026 CSI Europe Unit B3, Armstrong Mall Southwood, Farnborough Hampshire GU14 ONR, United Kingdom Phone: 44 1252 370900 FAX Phone: 44 1252 372470 CSI Pacific 36 Hasler Rd. Osborne Park, Western Australia 6017 Phone: 61-9-244 2799 FAX Phone: 61-9-244 4335 You may obtain copies of this document by ordering document number TCON078.

Some states in the U.S.A. do not allow limitations on how long implied warranties last, or exclusions or limitations of incidental or consequential damages, so exclusions or limitations mentioned may not apply to you. This warranty gives you specific legal rights, and you may also have other rights which vary from state to state.

TCON078.–.04/97