EverFocus EFC-02-1-A User Manual
Volume
1
EverAccess
User Manual
FFlleexx SSeerriieess CCoonnttrroolllleerr
EEFFCC--0022--11AA
EVERFOCUS ELECTRONICS CORPORATION
EFC-02-1A
Instruction Guide
© 2005 EverFocus Electronics Corp
1801 Highland Ave Duarte CA 91010
Phone 626.844.8888 • Fax 626.844.8838
All rights reserved. No part of the contents of this manual may be reproduced or transmitted in any
form or by any means without written permission of the Everfocus Electronics Corporation.
T able of Contents
CHAPTER 1
Product O verview
Features
Parts List
Controller Layout
Install ati on R evi ew
Prepari ng for the Installat ion
Obtain a Floor Pl an
Determining the Hardware and Location
Determining System Structure as well as the Number of Controller and Modules
CHAPTER 2
Hardware Installation
Mounting the Enclosure and Controller
Installing a Module to Controller
Reader / Door Index Convers ion
Terminal/LED Definitions
Main Module Terminal Definition
Main Module LED Definition
Door Module Terminal Defi nition
Door Module LED D efinition
Alarm Module Term inal Definition
Alarm Modul e LED Defi nit io n
Connection to Readers
RS232 Format
Wiegand 26 Format
Connection to Door Lock
Connection to an Electric Strike
Connection to a Magnetic Lock
Connect ion to Door Sensor
Connection to Request-to-Exit
Connection to Fire & Alarm Input 0
Connection to Alarm Input
Connection to Alarm Output
1
1
2
3
5
6
6
6
7
8
8
10
11
11
11
12
13
14
15
16
16
17
17
18
18
19
19
20
20
20
21
CHAPTER 3
Connecting Contr oller to Computer
Connection to Computer vi a RS232
Connection to Desktop Reader via RS485
RS485 Bus Based N etworking S ystem
RS485 Bus Extensi on
Connection to Multiple Controller s via RS485
TCP/IP Based System
CHAPTER 4
Connecting Power
Connection to Power Supply
Mount a B ackup Battery in t he Enclosure (Optional)
Connection to Backup Battery
Reset Controller
Cover Placement
Before First Use
CHAPTER 5
Controll er Functi onality and Configuratio n
General Operation Guideline
Enter System Configuration
Display the Firmware Version
Display the number of the Installe d Modules
Main Setting Items
System Setting
Enter System Setting Menu
Set Date Format
Set Date
Auto Daylight Savings Time
Set Time
Set System PIN
Set Arm PIN
Erase All Eve nts
Reset All Data and Settings
Card Setting
Enter Card Setting Menu
Add Cards
23
23
24
24
25
26
27
29
29
30
30
30
31
31
33
33
33
34
34
34
35
35
35
36
36
36
37
37
37
38
38
38
39
Delete Cards
Delete a Card by Ser ial Num ber
Delete All Cards
Set Card Properties
Status Setting
Access Right Setting
Group Set ting
Set Card PIN Setting
Anti Passback (APB) Setting
Card ARM Setting
Show Card Nu mb er
Reader Set ting
Enter Reader Setting Menu
Keypad Setting
Reader to Door Allocation
System Read er Setti n g
Door Sett ing
Enter Door Setting Menu
Open Time Setting
Set Door Hold Open Time
Set Door Behavior at Fire Alarm
Alarm Setting
Components for Alarm
Alarm Confi gur at i on Bas ics
Enter Alarm Setting Menu
Alarm Setting Menu Structure
Enter Alarm Action Setting Sub-menu
Enter Extended Al arm Sett ing Sub-menu
Fire Alar m
Zone Alarm 1~8
SYS PIN Fail
ARM PIN Fail
Alarm IN 0
Remote Alarm
Unknown Card
Expired Car d
Invalid Card
Invalid Door
39
39
40
40
40
41
41
41
42
43
43
43
44
44
44
45
45
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45
46
46
47
47
47
48
48
49
50
50
51
51
51
52
52
52
52
53
53
Invalid Time
Card Anti-Passback Fail
Card PIN Fail
Door Forced Open
Door Held Open
Reader Lost
Enter Alarm Time Setting Sub-menu
Armzone Setting
Enter Armzone Setting Menu
Set Active Armzone
Set ARM Delay Time
Address Setting
ARM/DISARM
ARM The Sys tem using the Controller Keypad
Disarm the System using the Control ler Keyp ad
Clear the Alarm
Arm/Disarm the system using a reader
CHAPTER 6
Software Setup
Install the Software in the Control Computer
Setup the User Accounts for the Soft ware
Configure the Controller and All Other Hardw are
Configure the Hol idays, A ccess Gr oup and Door Contr ol Sched ule
Enroll Cards
Notes
53
53
54
54
54
55
55
55
55
56
56
57
57
57
58
58
59
61
61
62
62
63
63
65
Specifications
Items Parameter
Maximum cards 9999
Maximum records 16000
Supported readers 2 (expandable up to 8)
Maximum controllers connected via RS
485
Controlled doors 2 (expandable up to 8)
Communication format Wiegand26 or EverAccess RS-232 format
Cardholder PIN 6 digit
System PIN 6 digit
ARM PIN 6 digit
Alarm input 1 fire alarm, 1 general alarm input(Alarm In 0)and 8 alarm
Alarm output 2 alarm outputs on main module, 2 alarm outputs on each
Communication ports RS232 or RS485
Band rate 9600
Programmable duration Maximum 10 per day with minimum duration of 5 min
Programmable date 3 types, up to 255 date in total
Access group Max 64
Card Expiration Yes
Auto day-light saving Yes
Anti-passback Yes
Build-in keypad Yes
LCD screen 2 x 16 with background light
Real-time clock Yes
Max current draw for door control relay 5A
Max current draw for alarm relay 2A
Supply voltage DC 9~18V
Power Maximum power 50 w
Dimension length x width x height
Weight 7 lbs
127
input extendable
door module, 8 alarm outputs on alarm module
Maximum 18 alarm outputs with 4 installed door module
and 1 alarm module
DC 15V when backup battery connected
300 x 216 x 33 (cm)
118 x 85 x 13 (in)
Federal Communication Commission
Interference Statement
This equipment has been tested and found to comply with the limits for a Class B
digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to
provide reasonable protection against harmful interference in a residential installation.
This equipment generates, uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instructions, may cause harmful interference
to radio communications. However, there is no guarantee that interference will not
occur in a particular installation. If this equipment does cause harmful interference to
radio or television reception, which can be determined by turning the equipment off
and on, the user is encouraged to try to correct the interference by one of the
following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to
which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: Any changes or modifications not expressly approved by the party
responsible for compliance could void the user's authority to operate this equipment.
This device complies with Part 15 of the FCC Rules. Operation is subject to the
following two conditions: (1) This device may not cause harmful interference, and (2)
this device must accept any interference received, including interference that may
cause undesired operation.
Chapter
1
Product Overview
EverAccess® Flex Series controller (part number: EFC-02-1A) incorporates state-ofthe-art technology and modular design to provide reliable performance, user-friendly
installation, expansion capabilities, and flexible but powerful configuration options.
This controller is the ideal solution for any application that requires electronic access
control.
¾ Powerful management: each controller can be expanded with additional door
modules to support up to 8 readers.
¾ Stand alone or real time PC communication: the controller can operate stand-
alone without a PC connection, or can be managed by the Flex Series
software to communicate in real time, sending data to the PC once per
second.
¾ Expandable network: up to 127 controllers can be connected via RS-485 bus
or TCP/IP networking (requires additional LAN interface device).
¾ Easy-to-use: simple configuration operations can be performed at the
controller using the integrated keypad.
¾ Extra alarm module: an additional alarm module can be added to the
controller to offer up to 10 alarm inputs and 18 alarm outputs.
Fea tures
¾ Modular design, easy-to-expand
¾ Up to 4 door modules and 8 readers are supported by each controller
¾ The additional alarm module provides up to 18 alarm signal output interfaces
¾ Large capacity: 9,999 cards and 16,000 events can be stored in the controller
¾ Flexible work mode: the controller can operate stand-alone without a PC
connection, or can be managed by the Flex Series software to communicate
in real time, sending data to the PC once per second via RS-485 or TCP/IP.
¾ Powerful management capabilities: access can be managed based on time and
date, location, cardholder privileges, etc.
1
¾ Powerful alarm functions, ability to arm/disarm, specific fire alarm input with
corresponding door control, easy connection to alarm panel
¾ Built-in LCD screen and keypad allow basic configuration changes at the
controller
¾ Wiegand 26 and EverAccess RS232 formats supported
¾ Built-in transient voltage suppressor (TVS) to protect controller from electric
surge
Parts List
Please be careful when you unpack the box due to the electronics devices inside.
Check and make sure that you have all the items listed below inside the original box:
¾ 1 EverAccess Flex Series Controller
¾ 1 controller user manual
¾ 1 Flex Series software CD
¾ 1 software manual
¾ 2 supporting frames (left and right)
¾ 2 (3mm*6mm) screws (to mount the controller to the frames)
Please Note: If an item appears to have been damaged in shipment, replace it
properly in its carton and notify the shipper. If any items are missing, notify your
Everfocus Electronics Corp. Sales Representative or Customer Service. The
shipping carton is the safest container in which the unit may be transported. Save
it for possible future use.
In addition, you may order the following EverAccess products which are
recommended for use with the controller to achieve the best performance:
¾ EverAccess metal enclosure (part number EPN-871-B)
¾ EverAccess desktop reader (part number ERS-871)
¾ EverAccess proximity readers (part numbers ERR-871, ERK-871, ERM-
871)
2
Controller Layout
T
T
T
L
A
T
p
Figure 1.1 shows the layout of the EverAccess Flex Series Controller along with its
main components and their functions.
erminals on
door module
erminals on
alarm module
erminals on
main module
Door module
LEDs on
door module
(1) Main module
The main module controls the fundamental functions of the controller,
including the power supply, event records, communication via RS232 or
RS485 port, fire alarm input, a general alarm input and two alarm outputs.
The LCD ③ and keypad ④ provide an interface for the users to directly
operate the controller. The main module also controls the door and alarm
modules.
larm
module
LEDs on
alarm module
Fig. 1.1 Controller Layout
LEDs on
main module
erminals on
main module
Base board
2*16
Key
Main
module
CD
ad
(2) Terminals on main module
Please refer to Ch 2 (p 11) for the definitions and wiring directions.
(3) LCD screen
The LCD screen displays the current status of the controller and the menu.
Please refer to Table 2.1 (p 12) for more details.
(4) The keypad
The keypad provides an interface to operate the controller.
(5) LEDs on the main module
There are 4 indication LEDs on the controller. Please refer to Ch 2 (p 12) for
their definitions.
3
(6) Door module
Each door module controls up to 2 readers and relays event signals to the
main module.
(7) Door module terminals
The door module terminals provide an interface to peripherals like door
sensors, door locks, request-to-exit devices and alarm outputs. Please refer to
Ch 2 (p 13) for more details.
(8) Door module LEDs
The LED on the door module shows the status of the door module. Please
refer to Ch 2 (p 14) for more details.
(9) Alarm module
The alarm module is used to extend the controller’s alarm function, adding
up to 8 alarm signal inputs and 8 alarm signal outputs.
(10) Alarm module terminals
The alarm module terminals provide an interface to connect the alarm signal
input and output devices. Please refer to Ch 2 (p 15) for the terminal
definitions.
(11) Alarm module LEDs
The LED indicates the alarm status. Please refer to Ch 2 (p 16) for details.
4
Installation Review
3
:
/
C
The overall installation steps are shown in the following block diagram. The detailed
descriptions are given in the subsection below.
Step 1: Preparing for the Installation
• Obtain a floor plan
• Determine the hardware and location
• Determine the number of controller and
modules and system architecture
Step 2: Hardware Installation
• Mount the controller and enclosure
• Install and connect the card readers
• Connect the electric strikes or mag locks
• Connect the controller to the system
computer and desktop reader
• Mount a backup battery in the enclosure
Step
Software Setup
• Install the software in the control computer
• Setup the user accounts who will use the software
• Configure the controller and all other hardware settings
• Configure the holidays, access group and the door control
schedule
• Enroll the cards and set the cardholders’ properties
onfiguration
5
Preparing for the Installation
Before beginning the installation process, EverAccess recommends that the user
properly prepares by gathering certain information. Proper preparation will help
ensure a smooth installation, and will save the installer time and hassle in the
long run. The following information is essential for a professional installation:
Obtain a Floor Plan
Obtain a floor plan of the building in which the access control system is to be
installed. Obtaining a floor plan helps the installer determine what components
need to be installed, and where. It also is essential in determining the length of
cable needed to connect readers to the controller. A floor plan can be a blue
print of the building, a design, or simply a drawing of the facility. Any document
showing the footprint of the building can be used. The dimensions are
important to note, especially when determining cable lengths. A floor plan may
be obtained from your local city hall.
Determining Hardware and Location
Determining which hardware to use and where it will be installed.This is the most
crucial step in the preparation stage. First, determine how many access points, or
doors, need to be managed by the access control system. These access points will
control the security of the facility, and can limit the entry and exit to and from any
given area of the building. After deciding which doors need to be controlled, the user
must also determine the level of security needed at each door. There are many ways
to manage each door, using different resources. These resources include, but are not
limited to: prox readers, mag stripe readers, relays, and request to exits. A few
common door configurations are described below:
1. One reader, basic access control
The most basic configuration involves one card reader and an electric
strike. In this configuration, a person presents a card to the reader, and is
either granted or denied access. The electric strike unlocks if the system
grants access. Another variation of this scenario involves setting the
system up to monitor whether the door is open, which allows the system
to protect against propped open doors, or doors being held open for too
long.
2. One reader, with request to exit device
Adding a request to exit device to scenario 1 allows the system to control
when to allow people to exit through a door. Request to exit devices
include buttons that a person must press in order to exit, or a motion
detector that automatically unlocks the door when a person approaches.
These devices are always installed on the secure side of the door.
6
Door
V+ V
Sensor
Entry Card
Readers
EverAccess
EXIT
Door lock
Request-to-exit
Additional
Power Supply
Fig. 1.2 A Common Door Configuration with Entry Reader
3. Two readers, entry and exit access control
If additional security is needed at a particular door, or if the administrator
needs a record of the time and date that people enter AND exit a door.
Adding a second reader on the secure side of the door will require people
to present a card to exit as well as enter. This scenario provides the
added security benefit of allowing the system to control who can enter,
and who can exit. It also allows the administrator to control when
people can enter and exit.
Scenario 1 and 2 require one reader. Scenario 3 requires two. Each door module
on the EverAccess controller can control two readers. Therefore, scenarios 1
and 2 allow one door module to control two doors. Scenario 3 requires one
door module for each door. This is important to consider when choosing the
appropriate number of modules and readers.
Determining System Structure as well as the Number of Controller
and Modules
Determine how many controllers are needed, and whether an Ethernet interface
is required.
1. Each EverAccess controller can accommodate up to 8 card readers. If
the system to be installed requires more than 8 readers, additional
controllers are necessary. These controllers can be connected to the
system as described in chapter 4.
2. If one or more controller is to be installed at a different location than the
system computer is to be installed, an Ethernet interface is required to
connect over the internet. An Ethernet interface may also be used in
locations at which the controllers are installed a long distance away from
the system PC. Please refer to chapter 4 for more details on installing the
Ethernet interface.
7
Chapter
2
Hardware Installation
In this chapter, after preparing for the installation, the user is ready to begin the
install. This section will describe, in general terms, how to install the hardware. Here
are the following processes:
• Mount the enclosure (enclosure optional) and controller
• Install and connect the card readers
• Connect the electric strikes or mag locks
• Connect the controller to the system computer and system reader (system
reader optional)
• Mount a backup battery in the enclosure (optional)
Mounting the Enclosure and Controller
The controller is an essential part of the access control system. We recommend
mounting it in an EverAccess EPN-871-B metal enclosure (also sometimes referred
to as a panel or a can). The controller should be mounted in a location that is
convenient and easily accessible, but also secure. The controller acts as the brain of
the access control system and can be used to make changes to the database. When
choosing a location to mount the controller, choose a clean, dry location that will
allow the administrator easy access to make changes to the system, but that can be
secured from the general public. The enclosure must be mounted on a sturdy wall
using fasteners or anchors (to be provided by the installer). If you are using an
EverAccess EPN-871-B metal enclosure there must be an AC power outlet for the
enclosure in order to power the controller. (The EverAccess EPN-871-B metal
enclosure uses a 24 V AC power supply with a built in 12 V DC converter.) In
addition, the system computer should be near the controller, so that the controller
can be connected to the PC, allowing the administrator to utilize the Flex Series
software. If the system requires additional door or alarm modules, install them in the
controller before mounting the controller in the enclosure or on the wall.
Please Note: If the controller screw holes due not line up properly with the
enclosure some filing may be needed for adjustment.
8
The EverAccess Controller package includes two support frames to elevate the
controller in order to make wire connections more convenient. The installation is
described in the steps below:
Step 1. Mount the two support frames on a wall or on the interior of the EverAccess
enclosure. When mounting to a wall, use the mounting template included in
the packaging to help position the holes to mount the controller on a wall. If
using the EverAccess enclosure, use the four pre-drilled holes on the back
wall of the enclosure.
Step 1 Step 2
Step 2. Mount the controller base board.
a. Place the controller base board on the support frames. Line up the four
latches on the support frames with the holes on the controller base
board. Once lined up, slide the controller base board down to secure it
in place. At this point the two screw holes on the top two corners of
the controller base board should be aligned with the corresponding
holes on the support frame.
b. Secure the controller base board to the support frames with the two
screws (provided in the controller package).
Step 3. Install and mount additional door modules or the alarm module
a. Connect the pins on the lower right corner of the new module to the
connector on the bottom left corner of the installed module. Make sure
that the pins fit snugly into the receiving module.
b. Secure the module to the controller base board using the three screws
(provided in the module package).
9
Step 3
Installing a Module to Controller
EverAccess Flex series controller can hook up to 4 door modules and 1 alarm
module. Please note only ONE alarm module can be installed to the controller. Each
door module is cascaded to its left side module till the main module. The door
modules and the alarm module can be placed in any sequence. The index will follow
the same rules (refer to next subsection). The steps to install a new module are
described below:
1
2
Figure 2.1 Install a New Module to Controller
10
1. Connect the pins on the lower right corner of the new module to the connector
on the bottom left corner of the installed module. Make sure that the pins fit
snugly into the receiving module.
2. Secure the module to the controller base board using the three screws (provided
in the module package).
Reader/Door Index Conversion
One EverAccess Flex Series controller can accommodate up to 4 door modules,
each of which controls 2 readers. The index conversion of readers and is displayed
below. The readers/doors are counted 1 to 8 from right to left:
Figure 2.2 Reader/Door Index Conversions
Please Note: Each card reader can be associated with any door index.
Please refer to section 5 for more details.
T erminal / LED D efinitions
Main Module T erminal Definition
21 terminals are located on the main module, as shown in Figure 2.3:
11
Figure 2.3 The main module and its terminals
The terminal definitions are shown in the following table.
Table 2.1 The Definition of the Main Module Terminals
No Terminal name Function No Terminal name Function
1 Alarm In 0 General alarm input 0 12 COMM_GND GND of RS485 and RS232
2 GND Alarm input GND 13 RS232_RXD RXD of RS232
3 FireIn Fire alarm input 14 RS232_TXD TXD of RS232
4 AUXAlarmOutNo
5 AUXAlarmOutCom
6 AUXAlarmOutNC
7 MainAlarmOutNo
8 MainAlarmOutCOM
9 MainAlarmOutNC
10 RS485_A Signal A of RS 485 bus 21 BATT- Battery negative pin
11 RS485_B Signal B of RS 485 bus
Normally open pin of auxiliary
alarm output
Common pin of auxiliary
alarm output
Normally close pin of auxiliary
alarm output
Normally open pin of main
alarm output
Common pin of main alarm
output
Normally close pin of main
alarm output
15 Reserved
16 Reserved
17 Reserved
18 Power Power input
19 GND Power GND
20 BATT+ Battery positive pin
Main Module LED Definition
There are 4 LEDs on the main module. The positions and indexes are defined in Fig.
2.4 and table 2.2.
12
Figure 2.4 Main Module LED Definition
Table 2.2 The definition of the LEDs on the main module
LED Meaning
1 The power is on when the light is on
2 Fire alarm when the light is on
3 Data is received when the light is on
Data is transmitted when the light is on
4
Door Module Terminal Definition
The terminals on the door modules are classified into two groups, each of which
controls two doors and the corresponding card readers. The right side terminals
(indexed from #1~#16) control one reader, while the left side terminals (indexed
from #17~#32) are responsible for the 2
the “reader/door index conversion” section of the manual, the reader’s index
depends on the door module to which it is connected. For example, consider one
door module where terminals #1 ~#16 control Reader 1, and #17~#32 control
Reader 2. Table 2.3 shows the definition and wiring details for the door module
terminals. The definitions of the door module terminals are defined in the table 2.3.
nd
reader, as shown Fig. 3.5. As described in
Fig. 2.5 Door Module Terminal Definition
13
Table 2.3 The Definitions of the Door Module Terminals
No Terminal name Function No Terminal name Function
1 Reader1_Data0 Reader 1 Wiegand Data 0 17 Reader2_Data0 Reader 2 Wiegand Data 0
2 Reader1_Data1 Reader 1 Wiegand Data 1 18 Reader2_Data1 Reader 2 Wiegand Data 1
3 Reader1_DC
4 Reader1_GND GND for the Reader 1 20 Reader2_GND GND for the Reader 2
5 Reader1_Ctrl Control line for reader 1 21 Reader2_Ctrl Control line for Reader 2
6 RX_1 Port to TX signal to reader 1 22 RX_2 Port to TX signal to Reader 2
7 TX_1 Port to RX signal from reader 1 23 TX_2 Port to RX signal from Rader 2
8 Door1_ Button
9 Door1_GND GND for terminal 8 & 10 25 Door2_GND GND for terminal 24 & 26
10 Door1_ Sensor Door sensor input for Door 1 26 Door2_ Sensor Door sensor input for Door 2
11 Door1_NO
12 Door1_COM
13 Door1_NC
14 Alarm1_NO
15 Alarm1_COM
16 Alarm1_NC
Power supply for reader 1.
Output +12 V voltage.
The request-to-exit button for
Door 1
Normally open pin for door
control relay 1
Common pin for door control
relay 1
Normally close pin for door
control relay 1
Normally open pin for alarm
output relay 1
Common pin for alarm output
relay 1
Normally close pin for alarm
output relay 1
19 Reader2_DC
24 Door2_ Button
27 Door2_NO
28 Door2_COM
29 Door2_NC
30 Alarm2_NO
31 Alarm2_COM
32 Alarm2_NC
Power supply for Reader 2.
Output +12 V voltage.
The request-to-exit button for
Door 2
Normally open pin for door
control relay 2
Common pin for door control
relay 2
Normally close pin for door
control relay 2
Normally open pin for alarm
output relay 2
Common pin for alarm output
relay 2
Normally close pin for alarm
output relay 2
Door Module LED Definition
There are 8 LED indicators on each door module. The positions and indexes are
shown in Fig. 2.6. The definitions of these LED indicators are presented in Table 2.4
Fig. 2.6 Door Module LED Definition
The definitions of LEDs on the door module are defined in the following table:
Table 2.4 The Definition of LEDs on the Door Module
LED Meaning
1 On indicates the alarm relay #2 energized
2 On indicates reader #2 connected
3 On indicates the door sensor #2 is off (the door’s open)
4 On indicates door control relay #2 energized
5 On indicates the alarm relay #1 energized
6 On indicates reader #1 connected
7 On indicates the door sensor #1 is off (the door’s open)
8 On indicates door control relay #1 energized
14
Alarm Module Terminal Definition
There are 36 terminals on the alarm module. The positions and indexes are described
in Fig 2.7. The definitions are described in Table 2.5.
Fig. 2.7 Alarm Module Terminal Definition
The definitions of the alarm module terminals are defined in the following table:
Table 2.5 The Definition of LEDs on the Alarm Module
Terminal
No
10 Alarm2_ NO Alarm 2 output for normally-open 28 Alarm6_ NO Alarm 6 output for normally-open
11 Alarm2_ COM Alarm 2 output in common 29 Alarm6_ COM Alarm 6 output in common
12 Alarm2_ NC Alarm 2 output for normally-close 30 Alarm6_ NC Alarm 6 output for normally-close
13 Alarm3_ NO Alarm 3 output for normally-open 31 Alarm7_ NO Alarm 7 output for normally-open
14 Alarm3_ COM Alarm 3 output in common 32 Alarm7_ COM Alarm 7 output in common
15 Alarm3_ NC Alarm 3 output for normally-close 33 Alarm7_ NC Alarm 7 output for normally-close
16 Alarm4_ NO Alarm 4 output for normally-open 34 Alarm8_ NO Alarm 8 output for normally-open
17 Alarm4_ COM Alarm 4 output in common 35 Alarm8_ COM Alarm 8 output in common
18 Alarm4_ NC Alarm 4 output for normally-close 36 Alarm8_ NC Alarm 8 output for normally-close
name
1 Alarm1_In Alarm signal input 1 19 Alarm5_In Alarm signal input 5
2 GND GND 20 GND GND
3 Alarm2_In Alarm signal input 2 21 Alarm6_In Alarm signal input 6
4 Alarm3_In Alarm signal input 3 22 Alarm7_In Alarm signal input 7
5 GND GND 23 GND GND
6 Alarm4_In Alarm signal input 4 24 Alarm8_In Alarm signal input 8
7 Alarm1_NO Alarm 1 output for normally-open 25 Alarm5_NO Alarm 5 output for normally-open
8 Alarm1_COM Alarm 1 output in common 26 Alarm5_COM Alarm 5 output in common
9 Alarm1_NC Alarm 1 output for normally-close 27 Alarm5_NC Alarm 5 output for normally-close
Function No
Terminal
name
Function
15
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