Cansec H1000 User manual
H1000 Elevator Control
INSTALLATION GUIDE
For use with H1000 V1.1 panel and daughter card EX100 V1.1
October 2015
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Installation Guide October 2015 • Rev. 1.7
Table of Contents
Introduction............................................................................................................................................................... 3
Overview.................................................................................................................................................................... 4
Requirements............................................................................................................................................................ 4
Elevator Control Configurations and Wirings........................................................................................................ 5
16 Floor Elevator System .................................................................................................................................5
32 Floor Elevator System .................................................................................................................................6
48 Floor Elevator System .................................................................................................................................7
64 Floor Elevator System .................................................................................................................................9
Master and Slave Control Panel LED Indicators.................................................................................................. 11
Master Panel Communication LEDS ..............................................................................................................12
Host Communication LEDs.......................................................................................................................... 12
Master EX100 Communication LEDs .......................................................................................................... 12
Slave Panel Communication LEDS ................................................................................................................13
Slave EX100 Communication LEDs ............................................................................................................13
Connection to the Elevator Controls .................................................................................................................... 14
Isolating Relays..............................................................................................................................................14
Safety ............................................................................................................................................................. 14
Fire Alarm.......................................................................................................................................................14
Service Override Switch .................................................................................................................................14
Host Communication Wiring.................................................................................................................................. 15
Using a CLAUSB (RS-485) ............................................................................................................................ 16
Using a CANLAN (RS-485) ............................................................................................................................17
Using AIR-485 (RS-485).................................................................................................................................18
Wiegand-Compatible Reader Wiring..................................................................................................................... 19
Appendix ................................................................................................................................................................. 20
Using a CLAUSB2 (RS-485) ..........................................................................................................................20
© Copyright 2014 - 2015 Cansec Systems, Ltd.
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Installation Guide October 2015 • Rev. 1.7
Introduction
The H1000 controller has been designed to handle access to 64 floors of elevator control. In the
elevator application, the credential owners simply present their credentials to the reader mounted
inside the elevator cab to gain access to their assigned floors. This prevents access to unauthorized
elevator floors and at the same time allows the building owner to isolate different organizations
that cohabit the same building.
The H1000 controller is a cost effective solution allowing the building owner to purchase the
correct number of controllers required to control the number of elevator floors. A single controller
can control up to 16 floors, and if necessary more controllers may be added to accommodate 32,
48 and 64 floors.
NOTE: Tech Support will only be provided where product installation guidelines have been
followed.
H1000 Controller
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Installation Guide October 2015 • Rev. 1.7
Overview
The H1000 control panel is designed to interface with the elevator electronics using the “Form C”
relay output contacts of the H1000 panel. These relay output contacts make or break the
connection to individual elevator floor buttons. The connection to these buttons is provided by
the elevator company.
The Wiegand Reader (located in the elevator cab) requires 6 conductors which will be connected
to the elevator travel cable used by the elevator. The elevator travel cable terminates in the elevator
control room, and from this location the 6 reader wires will be used to connect to the reader port
of the H1000 panel.
The H1000 “Form C” relay output contacts are designed to switch only low voltage. An Elevator
Relay Interface Box is required to make the actual connection to the floor buttons in the elevator
electronics. The Elevator Relay Interface Box must be supplied by the elevator contractor. 12 volt
relays are to be used in the interface box. The H1000 output relay contacts will switch the 12 volt
coil of the relay in the interface box.
Under no circumstance is 110/120 or higher voltage to be present in the access control panel
(many elevators use 110Volts AC or DC in the floor button circuitry which is considered a lethal
voltage). A service bypass switch must be installed in the Elevator Relay Interface Box to allow for
fire alarm release of all the floors in the event of a fire alarm and to allow service of either the
access control system or the physical elevator. If a bypass switch is not installed, both technical
parties need to be present during service of either the access control system or the elevator, and
that can be quite costly.
Requirements
Wiegand reader mounted inside the elevator cab.
Elevator Relay Interface Box, supplied by elevator contractor.
H1000 controller mounted in the elevator control room.
Refer to reader manufacturer for reader wire specifications.
H1000 relays should be used to switch low DC voltage, e.g. 12VDC.
H1000 V1.1 controller and daughter card EX100 V1.1.
H1000 Panel
Wiegand Reader
6 conductors
Travel Cable
6 conductors
Elevator Cab
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Installation Guide October 2015 • Rev. 1.7
Elevator Control Configurations and Wirings
16 FLOOR ELEVATOR SYSTEM
This configuration is used when connecting to an elevator system of up to 16 floors. This
consists of one H1000 control panel.
See Hurricane Operator Guide for more information.
Edit->Panel Definitions. Select 16 Floor Elevator Board.
Edit->Elevator Sets. Select 16 Floors.
Dipswitch Settings:
OPT1: ON
OPT2: OFF
OPT3: OFF
OPT4: OFF
Panel address is set to 1 in this example.
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32 FLOOR ELEVATOR SYSTEM
This configuration is used when connecting to an elevator system of up to 32 floors. This
consists of two H1000 control panels, designated as a master panel and a slave panel.
Master Panel
Slave 1 Panel
1. Dipswitch Settings:
OPT1: ON
OPT2: ON
OPT3: OFF
OPT4: OFF
1. Dipswitch Settings:
OPT1: ON
OPT2: OFF
OPT3: OFF
OPT4: OFF
2. Jumper Setting:
2. Jumper Setting:
3. Address Setting:
3. Address Setting:
Panel address is set to the same as Master Panel
Master
Slave 1
Master and slave RS485 communication wires
RS485 Communication wires to host computer using Cansec
communication line driver, e.g. CLAUSB, Canlan or Air-485
Master Panel:
Controls floor 1 to 16
Slave 1 Panel:
Controls floor 17 to 32
Panel address is set to 1 in this example
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Installation Guide October 2015 • Rev. 1.7
See Hurricane Operator Guide for more information.
Edit->Panel Definitions. Select 32, 48, 64 Floor Elevator Board.
Edit->Elevator Sets. Select 32 Floors.
48 FLOOR ELEVATOR SYSTEM
This configuration is used when connecting to an elevator of up to 48 floors. This consists of
three H1000 control panels, designated as a master panel and a two slave panels.
Master
Slave 1
Slave 2
RS485 Communication wires to host computer using Cansec
communication line driver e.g. CLAUSB, Canlan or Air-485
Master and slave RS485 communication wires
Master Panel: Controls floor 1 to 16
Slave Panel 1: Controls floor 17 to 32
Slave Panel 2: Controls floor 33 to 48
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Installation Guide October 2015 • Rev. 1.7
Master Panel
Slave 1 Panel
1. Dipswitch Settings:
OPT1: ON
OPT2: ON
OPT3: OFF
OPT4: OFF
1. Dipswitch Settings:
OPT1: ON
OPT2: OFF
OPT3: OFF
OPT4: OFF
2. Jumper Setting:
2. Jumper Setting:
3. Address Setting:
3. Address Setting:
Panel address is set to the same as Master Panel
Slave 2 Panel
1. Dipswitch Settings:
OPT1: OFF
OPT2: ON
OPT3: OFF
OPT4: OFF
2. Jumper Setting:
3. Address Setting:
Panel address is set to the same as Master Panel
See Hurricane Operator Guide for more information.
Edit->Panel Definitions. Select 32, 48, 64 Elevator Floor Board.
Panel address is set to 1 in this example
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Edit->Elevator Sets. Select 48 Floors.
64 FLOOR ELEVATOR SYSTEM
This configuration is used when connecting to an elevator of up to 64 floors. This consists of
four H1000 control panels, designated as a master panel and three slave panels.
Master
Slave 1
Slave 3
Slave 2
Master Panel: Controls floor 1 to 16
Slave 1 Panel: Controls floor 17 to 32
Slave Panel 2: Controls floor 33 to 48
Master and slave RS485 communication wires
RS485 Communication wires to host computer using Cansec
communication line driver, e.g. CLAUSB, Canlan or Air-485
Slave 3 Panel: Controls floor 49 to 64
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Master Panel
Slave 1 Panel
1. Dipswitch Settings:
OPT1: ON
OPT2: ON
OPT3: OFF
OPT4: OFF
1. Dipswitch Settings:
OPT1: ON
OPT2: OFF
OPT3: OFF
OPT4: OFF
2. Jumper Setting:
2. Jumper Setting:
3. Address Setting:
3. Address Setting:
Panel address is set to the same as Master Panel
Slave 2 Panel
Slave 3 Panel
1. Dipswitch Settings:
OPT1: OFF
OPT2: ON
OPT3: OFF
OPT4: OFF
1. Dipswitch Settings:
OPT1: ON
OPT2: ON
OPT3: OFF
OPT4: OFF
2. Jumper Setting:
2. Jumper Setting:
3. Address Setting:
Panel address is set to the same as Master Panel
3. Address Setting:
Panel address is set to the same as Master Panel
See Hurricane Operator Guide for more information.
Edit->Panel Definitions. Select 32, 48, 64 Floor Elevator Board.
Panel address is set to 1 in this example
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Installation Guide October 2015 • Rev. 1.7
Edit->Elevator Sets. Select 64 Floors.
Master and Slave Control Panel LED Indicators
H1000 control panels used in 32 to 64 floor elevator configurations use a second RS485
communication channel which enables the Master H1000 control panel to communicate to the
Slave H1000 control panels. There are LEDs associated with this communication channel, which
are described below.
All H1000 panels have 16 output relays, and each of these relays have an associated relay LED
which will illuminate when the relay is activated. These LEDs are labeled OLED1 to
OLED16.
OLED1
OLED16
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MASTER PANEL COMMUNICATION LEDS
Host Communication LEDs
The Master H1000 control panel uses two LEDs to indicate Host communication. One
LED indicates Transmit (TX) and the other LED indicates Receive (RX). The LEDs are
labeled RS-485 TX (Green LED2) and RX (Red LED3). If Host communication is
present these LEDs toggle on and off. See location below on the H1000 panel.
Master EX100 Communication LEDs
If the Master H1000 panel has been correctly configured as a 32 to 64 floor elevator
system, the two LEDs on the EX100 daughter board will indicate the RS485
communication to the Slave H1000 control panels. The EX100 LEDs are labeled
TX485 (Green LED1) and RX485 (Red LED2). If no Slave H1000 panels are
connected to the Master H1000 control panel, the TX485 (Green LED1) will toggle
On and Off. If all the H1000 Slave control panels are configured and connected
correctly, both TX485 (Green LED1) and RX485 (RED LED2) will toggle On and Off.
Receive (RX) LED
Transmit (TX) LED
RX485 LED
TX485 LED
RS485 Host Communication
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SLAVE PANEL COMMUNICATION LEDS
Slave EX100 Communication LEDs
The slave EX100 RS485 communications are indicated by RX485 - LED1 and TX485 -
LED2. The green TX RS485 LED will only toggle when the address of the Slave H1000
is sent from the Master H1000 control panel. When the Slave H1000 receives this poll
it will send the response to the Master H1000 panel. See previous section which
describes the “Master H1000 EX100 Communications”
Slave H1000 RD8, RD7, RD6 LEDs
An additional H1000 Slave setup verification is implemented in this firmware. Three
LEDs are used to indicate what address the H1000 Slave panel is set to. These LEDs
near the reader ports RD8, RD7 and RD6 are labeled as RLED8, RLED7 and RLED6
respectively. Each time the Master control panel communicates to the H1000 Slave one
of these LEDs will toggle. If the Slaves have been correctly configured, the correct LED
that will toggle is indicated below:
Slave 1 = RLED8
Slave 2 = RLED7
Slave 3 = RLED6
RLED8
RLED7
RLED6
TX485 LED
RX485 LED
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Connection to the Elevator Controls
ISOLATING RELAYS
For safety and system serviceability the access control system should be isolated from the
power connections of the elevator buttons. An Elevator Interface Relay Box must be used
for this purpose, to prevent high voltage and high voltage spikes from interfering with the
access control system. This Elevator Relay Interface Box must be supplied by the elevator
company to avoid potential liability issues. The Elevator Interface Relay Box must provide
isolating relays which physically isolate the voltage present on the elevator buttons from the
H1000 outputs.
It is important to understand that the H1000 panel’s output relays (“Form C”) will be
controlling the coils of the relays in the interface box and that a single shielded single pair
must be used for each relay connection. Multi-pair cable must not be used as inductive
voltage spikes will be passed onto the adjacent wires. These voltage spikes can cause the
access control panel to be intermittent. To eliminate relay coil voltage spikes it is important
to place a power diode (1N4007) right at the coil connection.
SAFETY
If the elevator relay interface box contains 110/220 VAC, it should be labeled outside with
“DANGER High Voltage Contained Inside”. This is important for the safety of personnel
doing maintenance.
FIRE ALARM
In the event that a building fire alarm occurs it is imperative that all floor selector buttons
in the cab are operational. When a fire alarm occurs, the fire alarm panel typically operates
a dry relay contact. In normal operation (No Fire Alarm) this “Form C” relay contact is
“Closed”. In the event of a fire alarm this “Form C” relay contact goes “Open”. This relay
is used to automatically bypass the access control system in the event of a fire alarm so that
all floor selection buttons are operational.
SERVICE OVERRIDE SWITCH
It is advisable to have an Elevator Access Controller Bypass Switch present. This allows the
elevator company an easy means to work on the elevator without requiring the presence of
the company in charge of maintaining the access control equipment. Similarly, if there is a
failure with the elevator access control system, the bypass switch will allow elevator
operation until the access control system is repaired.
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Host Communication Wiring
H1000 Version 1.1 controllers are equipped with two RS485 connectors (see image below) to
allow easy connection of new panels. This eliminates the need to connect 2 wires into one
connector.
The 2-wire RS-485 connections are A and B. The shield wire should be connected to GND.
H1000 Version 1.0 controllers are equipped with one RS485 connector. Two wires have to be
connected into one connector for the next added panel.
RS-485 Communication Port (H1000 Version 1.1)
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USING A CLAUSB (RS-485)
For CLAUSB2, please see Appendix.
Communication Wiring Using a CLAUSB
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Installation Guide October 2015 • Rev. 1.7
USING A CANLAN (RS-485)
Refer to the CanLan Installation Manual for instructions on how to configure the CanLan
software.
NOTE: It’s recommended to use Option 2 below and connect to a battery backup power
source to avoid communication failure when there is a power outage.
Communication Wiring Using a CanLan
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Installation Guide October 2015 • Rev. 1.7
USING AIR-485 (RS-485)
Please refer to the Air-485 Installation Manual for instructions on how to configure the
Air-485. It is recommended that the Air-485 modems are connected to a battery backup
power source to avoid communication failure during a power outage.
Communication Wiring Using an Air-485
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Installation Guide October 2015 • Rev. 1.7
Wiegand-Compatible Reader Wiring
The elevator reader, which is mounted in the elevator cab, can read a standard 26-bit or Cansec
37-bit Wiegand proprietary format card or the HID Corporate 1000 format card. The H1000 uses
a small 6 pin keyed connector to terminate the reader wiring.
The H1000 reader connections are labeled below the reader connectors, as shown below. The 12
VDC power is supplied to the reader through the reader connector.
The H1000 reader uses an auto-resettable fuse with a 1 amp maximum rating.
A 6-conductor overall shield wire is required for proper Wiegand reader connection. See the
reader manufacturer for the wire gauge requirement for different reader distances to the control
panel.
Connecting Wiegand-Compatible Reader
Connect elevator reader to port RD1 only.
This reader is mounted in the
elevator cab.
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Installation Guide October 2015 • Rev. 1.7
Appendix
USING A CLAUSB2 (RS-485)
Communication Wiring Using a CLAUSB2
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