Manual IF-4070 Terminal Controller V2017-07-26 - @Interflex · 7/26/2017 · Interflex...
Transcript of Manual IF-4070 Terminal Controller V2017-07-26 - @Interflex · 7/26/2017 · Interflex...
Copyright
Information in this documentation has been investigated and checked thoroughly in all conscience. Nonetheless, errors cannot be excluded completely. Interflex Datensysteme GmbH assumes no responsibility for the information in this manual, which is subject to change without prior notice.
Interflex Datensysteme GmbH does not enter into any commitment.
Copyright © 2017
Version Date: July 26, 2017
Interflex Datensysteme GmbH Allegion Zettachring 16 D-70567 Stuttgart, Germany Phone: +49 (0711) 1322 0 Internet e-mail: [email protected] Website: http://www.interflex.de
Interflex operates as part of Allegion plc.
For more information on Allegion, please visit www.allegion.com.
Contents i
Contents
1 General 1
1.1 Scope of delivery.................................................................................................................. 1 1.2 Target group ......................................................................................................................... 1 1.3 Symbols used in this document ........................................................................................... 1 1.4 Intended use ........................................................................................................................ 1 1.5 General safety instructions .................................................................................................. 2 1.6 All specifications are subject to change without notice ........................................................ 2 1.7 List of abbreviations ............................................................................................................. 2
2 System Overview 3
2.1 Range of functions ............................................................................................................... 3 2.2 Online/offline mode .............................................................................................................. 3 2.3 Encryption of data transfer ................................................................................................... 4 2.4 Cables .................................................................................................................................. 4 2.5 Sockets, LEDs and switches ................................................................................................ 5 2.6 Electronic assembly units .................................................................................................... 6 2.7 Circuit board connections .................................................................................................... 7 2.8 Emergency power accumulator (optional) ........................................................................... 7
3 Mounting the Device 8
4 Connecting the Device 8
4.1 Risk of electric shock ........................................................................................................... 8 4.2 Electrostatic discharge (ESD) .............................................................................................. 9 4.3 Removing the housing cover ............................................................................................... 9 4.4 Power supply ........................................................................................................................ 9 4.5 Jumper setting....................................................................................................................10 4.6 Power supply unit ...............................................................................................................10 4.7 PoE (Power over Ethernet) ................................................................................................10 4.8 Ethernet network ................................................................................................................11 4.9 Serial PC interface .............................................................................................................11 4.10 Bus data cables with slave terminals .......................................................................12 4.11 Floating status contacts and relays .........................................................................13 4.12 Service interface ......................................................................................................14
5 Configuring the Device 14
5.1 Configuring the device using "OC Task" ............................................................................14 5.2 Switching on the power supply ..........................................................................................15 5.3 Checking and setting network parameters ........................................................................15 5.4 Setting network parameters (netpar -x) .............................................................................15 5.5 Default IP address using switch/button ..............................................................................15 5.6 Setting serial/SSH connection ...........................................................................................16 5.7 Setting interfaces, booking memory and encryption ..........................................................16 5.8 Changing the password .....................................................................................................17 5.9 Listing slave terminals ........................................................................................................17 5.10 Activating configured data .......................................................................................17 5.11 Cold start via switch/button ......................................................................................18 5.12 Preparing to update software ..................................................................................18
ii Contents
5.13 Updating software ....................................................................................................18 5.14 Performing device license upgrade .........................................................................19
6 Maintenance and Service 20
6.1 Replacing the emergency power accumulator ...................................................................20
7 Technical Specifications 21
7.1 EU Declaration of Conformity ............................................................................................21 7.2 Open source program packages........................................................................................22
8 Disposal 22
1
1 General Thank you for choosing a product from Interflex. With this product, you have purchased a reliable device for time recording / access control.
Manufacturer of the product: Interflex Datensysteme GmbH
Zettachring 16, D-70567 Stuttgart, Germany Tel.: +49 (0711) 1322 0
Internet Email: [email protected] Websites: www.interflex.de www.allegion.com
1.1 Scope of delivery The package contains:
1 terminal controller with power supply unit
2 housing L-brackets for mounting in 19" rack
2 angle brackets for clipping into 19" rack
Accessory bag with mounting parts
Installation instructions
Please check the completeness and condition of the shipment upon receipt.
Report any damages caused during transport immediately.
1.2 Target group
This document is directed primarily to persons, who - based on their education, their training, or both - are able to install these devices properly and put them into operation.
Only perform the actions described in this document if you belong to this target group.
1.3 Symbols used in this document
Warnings warn against hazards that may arise when using the devices described in the document. The hazard levels can be identified by the signal word:
Indicates a hazard that may result in severe personal injury or even death if proper precautions are not taken.
Indicates a hazard that may lead to actual damages if proper precautions are not taken.
1.4 Intended use
The IF-4070 terminal controller controls up to 16 slave terminals, switches external devices up to 30 V, 2 A and records the changes of status contacts.
The device is designed for fixed installation in dry rooms. Any other use is not in accordance with the intended purpose and is therefore not permitted.
Modifications to the device are not permitted.
2 General
1.5 General safety instructions
For the safety of you and others, please observe the following safety instructions:
Danger to life due to electric shock
People can be seriously hurt or killed through physical contact with live parts (e.g. 230 V~). Make sure that you cannot touch live lines during installation. Disconnect devices from the mains power supply. Please observe the accident prevention regulations and take all precautionary measures to ensure the safe installation of the devices.
Danger to life through explosion
Do not use this device in environments exposed to explosion hazards!
1.6 All specifications are subject to change without notice
All information contained in this documentation is accurate at the time of printing. All specifications are subject to change without notice. The product brand names and trademarks specified in this documentation are protected by commercial and patent laws.
1.7 List of abbreviations
Designation Description
EMC Electromagnetic compatibility
ESD Electrostatic discharge
GND Ground
IEEE Institute of Electrical and Electronics Engineers
NC contact Opener (normally closed)
NO contact Closer (normally open)
PAT terminal Cable connection
PoE Power over Ethernet
SH Shield
SSH Secure Shell (encrypted network connection)
TELNET Teletype network (network protocol)
System Overview 3
2 System Overview
1 Terminal controller 4 Bus data line for 8 slave terminals
1a 8 inputs for floating status contacts 5 Slave terminals for recording time data
1b 8 relays with switching contacts, 30 V, 2 A 6 Slave terminals for access control
2 Host with software 7 Locking device with access point actuator and status contact
3 Data cable to host, e.g. Ethernet or RS-232
2.1 Range of functions
The controller has the following functions:
Operation with a host system for access control or time recording (e.g. software IF-6020 or IF-6040).
Connecting and controlling up to 16 slave terminals.
Recording bookings (IN, OUT, absences and access).
Saving events recorded by slave terminals, actuators (e.g. door openers, racks, turnstiles) and inputs.
Offline operation. The device assumes functions of the time recording/access control program. It checks and acknowledges booking permissions during identification procedures on slave terminals.
Controlling external devices. 8 relays switch electrical devices up to 30 V, 2 A, e.g. electric door openers. The relay functions and switching times can be configured using the software.
Recording contact statuses. 8 digital inputs record the changes of floating status contacts, which can be configured as indicator contacts or counting contacts.
The terminal controller can be optionally equipped with an emergency power accumulator.
2.2 Online/offline mode
Online mode
In this operating mode, data is continuously exchanged between the IF-4070 device and the parent host system (e.g. the IF-60x0 system). In the process, the host system causes the status of the IF-4070 device to be cyclically queried. The IF-4070 device acknowledges the query either by sending a “sign of life” or status messages or booking data from the terminals.
After receiving the data, the host system evaluates it and reacts depending on the data received. For booking data, the IF-60x0 system sends back a positive or negative booking response, for example. Depending on the booking response, access is either permitted or denied.
The IF-60x0 system can also actuate relays or trigger an alarm if certain events occur. All booking data and events of the connected terminals are stored in the memory of the IF-4070 device.
Offline mode
If there is no transfer of data between the IF-4070 device and the parent host system (e.g. the IF-60x0 system), the device will automatically switch to offline mode. There, it records all bookings and events and autonomously makes decisions based on configured conditions.
4 System Overview
In the event of a positive decision, a booking response and/or a signal for activating an output relay, for example, are transmitted to the booking location. If the decision is negative, the reason for the booking rejection is transmitted.
All bookings and status changes recorded in offline mode are stored in the device, together with a special remark. The IF-4070 device transmits this data to the parent host system once an online connection has been established again.
2.3 Encryption of data transfer
Transmission, credential <-> reader/terminal
The transmission of data between the credential and the reader/terminal is subject to requirements which are constantly changing. Interflex is always up-to-date in supporting the current credential and reader technologies.
Transmission, reader/terminal <-> controller
Transmission, controller <-> host system
You can activate and deactivate the encryption for this data link in the host system. You will find details in the documentation of the host system.
See also
Setting interfaces, booking memory and encryption .............................................................. 16
2.4 Cables
1 Power cable (not required for PoE)
2 RJ45 patch cable, shield braiding recommended
3 RS-485 branch cable from slave terminal to bus cable
4 Control cable
5 Cable to floating status contacts
6 Alternative host connection with RS-232 or RS-485
See also
Bus data cables with slave terminals ...................................................................................... 11 Ethernet network ..................................................................................................................... 10
System Overview 5
2.4.1 Cable lengths and cable types
Cable Function Max. Length Recommended Cable Type
230 VAC power supply to power supply unit (if not preinstalled)
NYM 3 x 1.5 mm²
Network cabling: RJ45 patch cable, preferably shield braiding
25 m As of cat. 5
Cable to floating status contacts, control cable 100 m JY(ST)Y 2 x 2 x 0.6 mm²
RS-485 bus cable to parent or child devices 1,200 m JY(ST)Y 2 x 2 x 0.6 mm²
RS-485 branch cable to bus cable 100 m JY(ST)Y 2 x 2 x 0.6 mm²
Cable lengths: The specifications indicate the maximum permitted cable lengths that guarantee
reliable function.
Cable types: Install only data and control cables with cable shielding, e.g., cable type JY(ST)Y.
Power loss in long cables can affect the function of the connected device. If cable lengths exceed 50 m, we recommend connecting "+5V" and "GND" with two conductors each.
2.4.2 Shielded cables
To ensure malfunction-free operation, we recommend the use of shielded bus cables.
Operation is also possible with unshielded cables. In case of transmission problems, you will have to examine the reasons in each case. Where necessary, a shielded cable should be used for the connection of the respective devices.
2.5 Sockets, LEDs and switches
Overview of connector sockets
Designation Function
Service RS-232 RJ45 socket with RS-232 interface for connection to a service device
Host RS-232 RJ45 socket with RS-232 interface for connection to the host
Host RS-485 RJ45 socket with RS-485 interface for connection to the host.
Terminal bus 1, 2, 3 3x RJ45 sockets with RS-485 interfaces for the connection of bus data cables with slave terminals
USB Intended for future functions
Ethernet 10/100Base-T
RJ45 socket for connection to the Ethernet network (host system)
6 System Overview
Overview of LEDs
LEDs indicate the current operating state of the terminal controller:
LED Status Description
Bus 1/2/3 Lights up Data exchange with slave terminal on bus 1/2/3
RUN Lights up Application started, controller ready for operation
AKKU Lights up Accumulator is on and is being charged (only on devices with optional accumulator)
LINK Flashing Network data exchange
SPEED Lights up / is off Network speed. Lights up at 100 Mb / is off at 10 Mb
Overview of switches and buttons
Designation Function
Reset The reset button ends active processes and triggers a restart.
Kaltst. The Kaltst. switch is used to delete stored data and to set default parameters.
SW The SW switch is used to set the default IP address 172.18.70.52 and temporarily store the set IP address.
AKKU On devices with an optionally installed emergency power supply, the accumulator is turned on and off with this switch.
See also
Default IP address using switch/button .................................................................................. 15 Cold start via switch/button ..................................................................................................... 18
2.6 Electronic assembly units
1 Connector for anti-tamper switch 4 Accumulator (optional)
2 Processor board 5 Network board with 250 mA fuse
3 Micro SD card 6 Power transformer
System Overview 7
2.7 Circuit board connections
1 Screw terminal Kl. 5 for connecting the power supply
2 Connection for optional emergency power accumulator
3 Screw terminal Kl. 2, 14-pin, for relay contacts
4 Screw terminal Kl. 3, 14-pin, for floating status contacts
5 Screw terminal Kl. 4, 14-pin, for floating status contacts
6 Screw terminal Kl. 5, 6-pin, for relay contacts
7 USB connection (will be used for future applications)
8 Screw terminal Kl. 6, 7-pin, for RS-485 data cables (same function as socket 11)
9 Screw terminal Kl. 7, 3-pin, for RS-232 service cables (same function as socket 10)
10 RJ45 socket with RS-232 interface for connection to a service device
11 3x RJ45 sockets with RS-485 interfaces for the connection of bus data cables 1, 2, 3
12 RJ45 socket for connection to the Ethernet network (host system)
2.8 Emergency power accumulator (optional)
If the device contains an optional accumulator, please observe the following points:
The device charges the accumulator with constant current.
Only use accumulators approved by Interflex as replacements, e.g. accumulator SP 38-0004.
The accumulator 38-0004 reaches its full capacity after a charging time of 24 h.
8 Mounting the Device
3 Mounting the Device Mount the device in a 19” rack or on the wall with the included housing brackets. Without brackets,
the device can also be placed on a tabletop or even stacked.
Figure: Terminal controller in a 19” rack (illustrated without controller cover) 1 Angle bracket 2 Housing bracket
The illustration shows installation in a 19” rack with housing brackets (2). The angle brackets (1) allow the controller to be pulled out and hooked into the rack, e.g. to connect cables.
4 Connecting the Device
4.1 Risk of electric shock
Danger to life due to electric shock
People can be seriously hurt or killed through physical contact with live parts (e.g. 230 V~). Make sure that you cannot touch live lines during installation. Disconnect devices from the mains power supply. Please observe the accident prevention regulations and take all precautionary measures to ensure the safe installation of the devices.
Connection to power supply voltage and initial operation may only be carried out by qualified persons
trained in electrical engineering.
The electrical installation, in which the device is to be operated, must comply with national standards. To guarantee trouble-free operation, we recommend carrying out the electrical installation according to the principles of a TN-S system, which means using separate neutral and grounding conductors.
Secure the power cable with a strain relief, if necessary.
The device must be connected via an external separator to ensure that it can be disconnected from the mains power supply.
The device must be equipped with an external fuse protection with a maximum nominal current of 16 A.
Connecting the Device 9
4.2 Electrostatic discharge (ESD)
Electrical components and modules can be damaged by only slight, hardly noticeable electrostatic discharge (ESD) without this becoming immediately obvious. ESD damages result in malfunctions and even failure of the product. Therefore make sure that effective protective measures against electrostatic discharge are in place when working on the open device.
Protective measures
Therefore, please perform maintenance work in an ESD-protected environment, if possible:
ESD-compliant shoes, protective gloves, and outerwear.
ESD-compliant work surfaces with conductive mats as surfaces (if possible).
ESD-compliant tools.
ESD-compliant personal protective grounding, e.g., wrist grounding strap.
Where this is not possible (e.g. if a product is already installed), at least touch a grounded item in order to conduct electrostatic charge away from your body.
4.3 Removing the housing cover
1 Power cable with Schuko plug 4 Cables
2 Nuts for screwing on the housing cover 5 Cable strain relief with cable tie
3 Opening in the housing for feeding in cables
Disconnect the device from the power supply before opening the housing cover.
Remove the nuts (2) and take off the housing cover.
4.4 Power supply
The device can be supplied with power via:
The integrated power supply unit
PoE device IEE 802.3 of power class 3 (up to 13 W).
The power supply is selected by means of a jumper.
10 Connecting the Device
4.5 Jumper setting
Set the jumper as appropriate for the selected type of power supply:
Power supply unit: Place the jumper on the 2 outer pins
PoE: Place the jumper on the 2 inner pins
4.6 Power supply unit
1 Accumulator (optional)
2 Terminal for protective ground conductor (PE)
3 Mains cable
4 Mains supply board
5 Power supply unit
6 Screw-terminal Kl. 1 for connecting the power supply
Using the plug on the mains cable (3), connect the device to the power supply.
4.7 PoE (Power over Ethernet)
To comply with the required EMC limit values, the device requires functional grounding. The functional grounding connection is established via the PoE device and the patch cable.
Check if there is functional grounding on the PoE device.
Ground PoE devices without functional grounding via existing soldering lugs or screw terminals.
Ground the shields of the bus cables via the grounding screw on the housing.
Set the jumper.
See also
Jumper setting ........................................................................................................................ 10
Connecting the Device 11
4.8 Ethernet network
The device is set up for connection to 10/100-Mb Ethernet networks. The connection and speed are signaled by the LEDs on the front panel of the device.
For the initial connection, you can use the default, factory-set IP address marked on the housing.
Change the IP address after connection.
See also
Sockets, LEDs and switches .................................................................................................... 5 Configuring the Device ........................................................................................................... 14 Checking and setting network parameters ............................................................................. 15
4.9 Serial PC interface
An RS-232 connection can be used as an alternative to a network connection. An RS-485 connection can also be realized with a converter on the PC side.
The default data transfer rate is 9,600 Bd. 1,200 or 19,200 Bd are also possible.
The shields of the data cables are grounded via the RJ45 female connectors.
Therefore, only shielded cables and shielded connection components, such as Hirose male connectors, etc., are to be used.
Use an RS-232/485 converter for an RS-485 connection.
You must configure the serial port after connection.
12 Connecting the Device
4.10 Bus data cables with slave terminals
You can connect the data cables with slave terminals using RJ45 connectors (front panel) or screw terminals (internal).
The following applies in both cases:
You can connect up to 16 slave terminals to 3 RS-485 bus interfaces, with a maximum of 8 slave terminals per bus interface.
Always connect a slave terminal with address 1 to bus 1.
Distribute the slave terminals evenly between the three bus interfaces. The factory-set interface setting provides for the following:
Bus 1: up to 6 slave terminals.
Bus 2: up to 4 slave terminals.
Bus 3: up to 6 slave terminals.
Please note that every slave terminal has a different hardware address within the bus.
4.10.1 Bus data cable with RJ45 connector
For trouble-free operation, please observe the following:
Ground the shields of the data cables via the RJ45 female connector.
Only use shielded cables and shielded connection components, such as Hirose male connectors.
4.10.2 Bus data cables on screw terminal Kl. 6
You can also connect 3 RS-485 bus data cables to terminal Kl. 6.
Use shield terminals for grounding the cable shields.
Secure the data cables with the strain relief.
Connecting the Device 13
4.11 Floating status contacts and relays
You can connect the following to screw terminals Kl. 2 to Kl. 5:
Up to 8 floating status contacts, e.g. reed contacts.
Up to 8 electrical devices that can be switched via relay, such as electrical door openers or signal lamps up to 30 V, 2 A. An NO or an NC contact can be used for switching.
Connection of floating status contacts and relays up to 30 V, 2 A
Ground the cable shields via screw terminal 10.
Secure all cables with the strain relief wires.
Terminals for floating status contacts
Kl. 3 Kl. 4
Input 1 Input 2 Input 3 Input 4 Input 5 Input 6 Input 7 Input 8
11 IN 1 13 IN 2 1 IN 3 3 IN 4 5 IN 5 7 IN 6 9 IN 7 11 IN 8
12 GND 14 GND 2 GND 4 GND 6 GND 8 GND 10 GND 12 GND
Cable shield 10 Cable shield 13 or 14
Terminals for relays
Kl. 5 Kl. 2 Kl. 3
Relay 1 Relay 2 Relay 3 Relay 4 Relay 5 Relay 6 Relay 7 Relay 8
2 NO 1 NO 4 NO 7 NO 10 NO 13 NO 2 NO 5 NO
3 NC 2 NC 5 NC 8 NC 11 NC 14 NC 3 NC 6 NC
4 R1 3 R2 6 R3 9 R4 12 R5 1 R6 (on terminal 3)
4 R7 7 R8
14 Configuring the Device
4.12 Service interface
The following settings are used for the RS-232 service interface:
Baud rate: 115,200
Data bits: 8 data bits, no parity, 1 stop bit
Flow control: None
Access to the service interface is possible via the following connections:
Network via TELNET or SSH, e.g. via the factory-set IP address (see housing label)
Serial with RS-232 and a dialog device, e.g. a PC. RS-232 connection is possible:
On the front panel using a self-made data cable and an RJ45 connector
Internally using cable 75-4070-0001 (optional) and terminal Kl. 7
5 Configuring the Device Once the connection has been established, the device must be configured. Configuration requires extensive system knowledge and may be carried out only by authorized personnel.
5.1 Configuring the device using "OC Task"
The software for configuring the device and displaying device functions is called OC Task and is available on the device. OC Task contains a number of commands that are used for administrative purposes.
To access OC task, the device must be connected to a computer. This can take place:
with a TCP/IP network via TELNET or SSH connection. Use the factory-set IP address (see label on housing) or the IP address 172.18.70.52.
via the RS-232 service interface and the Hyper-Terminal software.
Access to the console and Linux commands is granted after logging in with root and entering the
corresponding password. If you have any questions, please contact your system administrator or the technical support team of Interflex Datensysteme GmbH.
The root@ prompt signals readiness to receive commands and data.
The following input syntax must be observed:
Commands are written in lowercase letters.
Options are separated from the command by a blank and the minus sign.
An overview of the command options can be retrieved with -?.
Press the "ENTER" key to confirm command lines and data.
To save new data, you must confirm the prompt Write to EEPROM (y/n)? with y.
Modified data only becomes effective after a "Restart", e.g. after a cold boot.
TELNET and SSH connections must be properly terminated after configuration.
Configuring the Device 15
5.2 Switching on the power supply
After the power supply has been switched on, the device executes the following functions:
The operating system is booted.
The applications are started.
The connected slave terminals are connected to each other.
The start-up procedure lasts up to 30 seconds. When the RUN LED lights up, a TELNET connection is possible.
5.3 Checking and setting network parameters
The command netpar shows you the current network parameters, which you can then change. The following options are available:
login as: root
root@IF-xxxx:~ netpar
displays or changes network parameters
usage:
netpar -i show network settings
netpar -x change IP addr., gateway, netmask and port no
netpar -s reboot system
netpar -y enable DHCP
netpar -y print this screen
5.4 Setting network parameters (netpar -x)
The command netpar-x shows you the current network parameters (e.g. the IP address and port), which you can then change.
login as: root
root@IF-xxxx:~ netpar -x
IP address [172.18.20.110] :
Gateway [172.18.70.1] :
Netmask [255.255.0.0] :
Port number [2001] :
hostname [IF-xxxx] :
Confirm other settings (e.g. Gateway, Netmask, etc.) that are not to be changed by pressing the "Enter" key.
Please note: A TELNET connection is immediately terminated after network parameters have been changed.
With the oc –o command, you can prevent a TELNET connection.
5.5 Default IP address using switch/button
You must do the following to reset the device to the default IP address:
Move the switch SW on the front panel downward to position ON.
Press Reset-Taster briefly.
Wait until the RUN LED lights up again (procedure can take up to 30 seconds).
Return switch SW to the OFF position.
16 Configuring the Device
5.6 Setting serial/SSH connection
With the command oc -o, you can set the following connections:
Serial to host. The TCP/IP process is not started.
SSH. The startup of a TELNET process is disabled.
root@IF-xxxx:~ oc -o
Start TCP/IP : y
Start TELNETD : y
Start TCP/IP (y/n) ? : y ==>
Start telnet deamon (y/n) ? : y ==>
Enter TCP/IP: n for a serial host connection when starting.
For an SSH connection upon startup, enter TELNET deamon: n.
5.7 Setting interfaces, booking memory and encryption
With the command oc -h, you can:
Change interface settings
Encrypt data transmission
Adjust the size of the booking memory
root@IF-xxxx:~ oc -h
base address : 1
No. of term. bus 1 : 6
bus 2 : 4
bus 3 : 6
IF-LT64 at bus 2 : 0
Protocol bus 1 : 0
bus 2 : 0
bus 3 : 0
KryptAddrbus 1 : 0
bus 2 : 0
bus 3 : 0
Baudrate host : 3
Baudrate bus 1 : 2
bus 2 : 2
bus 3 : 2
Number of bookings (1000) : 50
Notice: Baudrate terminalbus: 2 (9600, 8, ep), 3 (19200 , 8, ep) appropr. terminals only
Your license allows 8 terminals as maximum
Explanation for devices of the IF-1xxx series
Term Description
host baud rate 1 = 1,200
2 = 9,600
3 = 19,200
Token ring baud rate Baud rate, TCP/IP network:
0 = 4 MB
1 = 16 MB
Baud rate terminal bus 'n'
2 = 9,600
3 = 19,200)
See also
Performing device license upgrade ........................................................................................ 19
Configuring the Device 17
5.8 Changing the password
Change the password with the command passwd.
Recommendation: Choose an encrypted password and keep it in a safe place.
If it is lost, the commands can no longer be accessed. The device must then be returned to the manufacturer to be reset.
root@IF-xxxx:~ passwd
New password:
Retype new password:
passwd: password updated successfully
Once you have changed the password, you have to login again for it to take effect.
5.9 Listing slave terminals
With the cfg command, you can list the configuration data of slave terminals.
Terminal configuration IF-xxxx V7.xx
--------------------------------------------------------------------
No B A HA TNo type HWU SWU display keys read.1 read.2 In/Out I/O
-- - - -- --- ---- --- --- ------- ---- ------ ------ ------ ----
1 1 A 1 0 IFx 2.04 6.b OL/2x20 ..NF PSCR/P ...... ...... --
2 1 B 2 0
............
16 3 F 15 0 IFx 2.04 6.b ../.... ..NF PSCR/P ...... ...... -+
Column List of
B 3 bus interfaces with the terminal distribution, e.g. the factory-configured default distribution of 6, 4 and 6 slave terminals
TNo Host administration number. The numbers are configured in the time recording/access control program and are only displayed after the data has been loaded.
type Device type, e.g. the slave terminal IFxx
HWU Hardware status, e.g. 2.04 for MPU hardware HCS12
SWU Software status, e.g. version 6.b
read.1 First reader type, e.g. PSCR/P for MIFARE readers
read.2 Second reader type, e.g. FIP for slave terminals with fingerprint
In/Out Configured RS-232 interface, e.g. >RKASS< for a cashbox
I/O I/O controller boards of the slave terminals. The characters - + mean:
- + = 1st First I/O controller board for door control is ready for operation.
+ - = 2nd Second I/O controller board (I/O extension board) is ready for operation.
+ + = 1st First I/O controller board and 2nd I/O controller board ready for operation
- - = Slave terminal is operated without I/O controller board
5.10 Activating configured data
Restart the device in order to activate the configured data.
Changes to the password or the network parameters do not require a restart.
Restart without deleting data (warm start)
Select this variant – particularly during operation – in order to keep the stored data.
Syntax: oc -s
Function: This function causes a system reset that corresponds to a warm start via a button or a voltage breakdown. The system restarts, no data is deleted.
18 Configuring the Device
Restart with deletion of data (cold start)
You can use this command during startup of the device.
Syntax: oc -c
Function: Deletes the entire memory (including credentials with booking permission, data for offline operation) except the system log book and reboots. The network parameters and the password are retained unchanged.
5.11 Cold start via switch/button
The cold start deletes stored data (e.g. data for access control, booking data) and sets default values.
A cold start is required under the following circumstances:
During initial operation.
When malfunctions occur which cannot be rectified by other means, e.g. a restart.
To initiate a cold start you must:
Move the switch Kaltst. on the front panel downward to position ON.
Press Reset-Taster briefly.
Wait until the RUN LED lights up again (procedure can take up to 30 seconds).
Return switch Kaltst. to the OFF position.
5.12 Preparing to update software
You require the PuTTY program package for execution. This is a free, open-source SSH, Telnet and Rlogin client that facilitates remote operation of Unix systems by Windows computers.
Install the PuTTY program package (entire package, version >= 0.62).
Updates or upgrades are performed using batch files, in which C:\Programs\PuTTY is specified as
default installation path for PuTTY.
The path for the programs pscp.exe and plink.exe (part of PuTTY) is defined in the batch file
setpathvars.bat. The system password can also be found here.
Open setpathvars.bat in an editor and enter the system password.
Adjust the paths for the programs pscp.exe and plink.exe if required, for example if you have
saved PuTTY on a USB stick.
5.13 Updating software
In order to update the software, the PuTTY program package must be installed on the service PC.
Updates are performed by means of batch files and the Windows input prompt cmd.exe.
The update files should be located in the same folder as the batch files, to avoid error messages.
The following batch files are available:
File name Purpose
setpathvars.bat You require this file for all updates. You can enter the system password
here in order to make it invisible in cmd.exe. You can also change the
paths of the programs pscp.exe and plink.exe here, e.g. in the event
of an update using a USB stick (default: C:\Programs\PuTTY).
tc802-1x-cert.bat Loading/exchanging the client certificate that is required for authentication in acc. with IEEE 802.1X (EAP-TLS with X.509 client and server certificates).
tclicence.bat License file replacement. Necessary when upgrading the device’s license.
tcdiag.bat Gathers diagnostic information on the device in a file which is saved in the same folder as the batch file.
tctermfwup.bat Firmware update via the network of the controller or recording unit
tcswup.bat Software update of the device
Configuring the Device 19
Performing update
Start cmd.exe and run the desired batch file:
File name Command
setpathvars.bat setpathvars.bat (displays the paths of pscp.exe and plink.exe)
tc802-1x-cert.bat tc802-1x-cert.bat <Certificate> <IP address controller>
tclicence.bat tclicence.bat <License file> <IP address controller>
tcdiag.bat tcdiag.bat <IP address controller>
The file with the diagnostic information is saved in the same folder as the batch file. Name:
tc_<IP address controller>_diag.tar.gz
tctermfwup.bat tctermfwup.bat <terminal firmware file> <IP address
controller>
The terminal number is hard-coded in the batch file, e.g.:
sh% -pw %ctrl_password% root@%2 "%dest_bin_dir%/etp 1 -fun %1
Updates to multiple controllers are performed individually for each one. To do so, open the batch file in an editor and change the number of the controller.
tcswup.bat tcswup.bat <TC software file> <IP address controller>
5.14 Performing device license upgrade
The functional scope of a device is dependent upon the purchased license. You can expand (upgrade) this license.
Example: Upgrade from an IF-5725 terminal to IF-5735:
After you have ordered the upgrade, Interflex will send you:
The batch file tclicence.bat
The license file named if5735-00403755-2016-05-21.xml.
Meaning of the name:
The new file is of type if5735.
The serial number is 00403755.
The file was created on 2016-05-21.
Performing upgrade
Start cmd.exe and run batch file:
File name Command
tclicence.bat tclicence.bat <License file> <IP address controller>
The license is automatically copied to the right location in the controller.
The license is activated.
A restart of the application is initiated.
20 Maintenance and Service
6 Maintenance and Service The device IF-4070 does not require any regular maintenance.
Use an off-the-shelf glass or plastic cleaning agent for cleaning. For touch displays, we recommend using methylated spirit or an anti-bacterial cleaning agent for plastic materials.
Do not use cleaning agents that contain benzine or solvents.
Conduct the device tests prescribed by law.
6.1 Replacing the emergency power accumulator
Please adhere to the basic rules for using batteries:
Only use the specified batteries. Please pay attention to the polarity of the battery(ies) when inserting it/them. An incorrectly inserted battery can damage the device. The batteries must not be charged, opened or heated up! Hazard of fire and explosion if you heat up the batteries or the product!When you change batteries, always change all batteries, even if individual batteries of the battery set still have sufficient voltage available.
With respect to lithium batteries, please also consider the specific hazards of this battery type:
Improper handling of lithium batteries can result in fires and explosions! Adhere to all provisions for lithium batteries that are applicable to your area, e. g. provisions concerning the storage, transport of hazardous goods, packaging provisions for air transport, protection against charging and total discharge, special disposal regulations.
The accumulator must be replaced every 4 years.
Set the accumulator switch to the Off position.
Disconnect the mains plug.
Open the housing cover.
Remove the accumulator.
Follow instructions in reverse order to install.
Technical Specifications 21
7 Technical Specifications
Power Supply
Voltage 230 VAC, +/- 10%, 50 Hz (115 VAC, 60 Hz optional)
Protection 250 mA, slow-blowing fuse type TR5 (48-1007)
(500 mA, slow-blowing fuse type TR5 for devices with 110 VAC)
Power consumption Approx. 16 VA
External power supply unit (optional) 18 to 24 VAC/ VDC
PoE (Power over Ethernet) PoE device IEE 802.3 of power class 3 (up to 13 W).
Internal emergency power supply (optional) Battery bridging period approx. 25 min
Interfaces
Interfaces to host system Ethernet as per IEEE 802.3 TCP/IP
Serial interfaces RS-232 or RS-485 with 9600 baud (1200 baud, 19200 baud possible)
Interfaces to terminals (slaves) 3x RS-485 with 9600/19200 baud (default setting = 19200 baud)
Service interfaces Ethernet network connection for TELNET or SSH
Serial connection (optional) RS-232 with 115200 baud
Inputs 8 inputs for floating status contacts. Debounce time of contacts at least 100 ms
Output relay/ switching capacity 8 relays with 'normally closed’ (NC) and 'normally open’ (NO) contacts 30 V, 2 A maximum switching capacity
Operating status indicators 7 LEDs on front side
General Data
Ambient temperature +5 °C to +40 °C
Humidity Max. 95%, non-condensing
Degree of protection IP30
Housing dimensions in mm (H x W x D) 44 x 420 x 225
Weight 3 kg
Housing material Zincor sheet metal, coated front panel
Installation Type Desktop housing stackable, or installation in 19" rack Complete slide-in module, 1HE (height unit), 84 TE (depth unit).
Connections
I/O data cable Screw connectors for cables up to 0.5 mm²
Bus data cable RJ45 receptacles or screw connectors for cables up to 0.5 mm²
Power Supply 1.5 m long power cable with plug; for low voltage, screw connectors for cables up to 0.5 mm²
Storage In a dry place. In devices with optional emergency power supply, set the battery switch to OFF.
7.1 EU Declaration of Conformity
Interflex hereby declares that the products comply with the directives 2014/30/EU, 2014/35/EU and 2011/65/EU.
The complete EU Declaration of Conformity is available at the following Internet address: www.interflex.de/en/header/downloads/ce_declaration_of_conformity.html
22 Disposal
7.2 Open source program packages
This product uses program packages that are subject to Open Source License Terms (e.g. GNU GPL License Version 2).
Upon request and for a charge no more than your cost of physically performing source distribution, Interflex offers to provide you with a medium customarily used for software interchange containing a complete machine-readable copy of the source code of the programs used. This offer is valid for a period of three years, starting on the date the product is purchased.
8 Disposal
Dispose of this device and the batteries according to the laws and regulations of your country.
Once its service life comes to an end, the device must be disposed of properly as electronic waste. You can dispose of the device yourself or return it to the supplier.
Dispose of the batteries yourself or send the batteries with insulated contacts to the supplier of the product with the note "Old battery to be disposed of".
Copyright © 2017 Version Date: July 26, 2017
Interflex Datensysteme GmbH
Zettachring 16, D-70567 Stuttgart, Germany Tel.: +49 (0711) 1322 0
Internet E-Mail: [email protected] Websites: www.interflex.de www.allegion.com