UDL250 Long Distance Reader - highwaygmbh.de UDL250 Long Distance Reader Wiring and Installation ......
Transcript of UDL250 Long Distance Reader - highwaygmbh.de UDL250 Long Distance Reader Wiring and Installation ......
UDL250Long Distance Reader
Wiring and InstallationInstructions
V14/05/09
#896104
© Copyright 2009 by deister electronic GmbH
All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without prior written permission of deister electronic GmbH.
deister electronic GmbH reserves the right to make changes to any and all parts of this documentation without obligation to notify any person or entity of such changes.
May 2009 IO/SK/FH/BF
deister electronic GmbHHermann-Bahlsen Str. 1130890 BarsinghausenGermanyPhone: +49 (0) 51 05 - 51 61 11Fax: +49 (0) 51 05 - 51 62 17E-Mail: [email protected]: www.deister.com
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Contents
1. General Information...................................................4
2. Technical Data............................................................5
3. Mechanical Dimensions..............................................6 3.1 UDL250 Housing − Side View.............................................................................6 3.2 UDL250 Housing − Front View............................................................................6 3.3 UDL250 Housing − Rear View.............................................................................7
4. Wiring Diagram..........................................................8 4.1 Pin Assignment...................................................................................................8
5. Interfaces....................................................................9 5.1 RS485...............................................................................................................9 5.2 LEDs and Beeper...............................................................................................11
6. Mounting...................................................................12 6.1 Wall mounting with flexible pivot LRM1...............................................................12 6.2 Mast/Tube Mounting with base plate LRM3.........................................................13 6.3 Function Principle and Environmental Influences...................................................13 6.4 Radiation Patterns of the Transmitting Antenna.....................................................14
6.4.1 Cutting Plane Diagram.............................................................................14
7. Get Connection – Preparations.................................19 7.1 SNG3 Interface Converter..................................................................................19
8. Commissioning and Test Software RDemo...............20 8.1 Installing RDemo...............................................................................................20 8.2 Port setting – Get connection.............................................................................20
9. Configuration Software WebConfig..........................23 9.1 WebConfig.......................................................................................................25
9.1.1 Summary.................................................................................................25 9.1.2 Basic Setup..............................................................................................26 9.1.3 Antenna Power Table................................................................................27 9.1.4 Frequency Setup......................................................................................28 9.1.5 Table of Frequencies................................................................................29
10. Accessories..............................................................30
11. Regulatory Notices..................................................31
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1. General InformationThe UDL250 is a compact long distance reader of the UHF type with an integratedantenna. The frequency range is factory-set and depends on allowed regulations for the particular region (see also “Transmission Frequency” in chapter 1. “Technical Data”).The UDL250 has been specially developed for contactless identification of objects within a reading range up to 4 m.
The most innovative feature of the UDL250 is its intelligent antenna concept, where the polariza-tion of the antenna can be adjusted in four different ways (circular: RHCP or LHCP and linear: horizontal or vertical). This individual adjustment allows reliable reading and writing of unfavor-ably positioned UHF transponders (ISO 18000-6 C / EPC Class1 Gen2).
The large and easy to see LEDs signalize positive identification for the user.
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2. Technical DataDimensions (mm): 278 x 238 x 86
Weight: approx. 2500 g
Housing Material: ALU/VA, ABS/PMMA
Color: silver (RAL 9006)
Protection Class: IP 65
Operation Temperature: -20 °C...+50 °C
Voltage Supply: 12...24 V/DC
Power Consumption: 10 W (operation), 2 W (standby)
Electrical Protection: transient and reverse polarity protection
Transmission Frequency: 865-868 MHz (EU) or902-928 MHz (US) or953-956 MHz (JP)
Radiated Transmit Power: max. 2000 mW E.R.P. (ETSI EN 302 208),max. 3200 mW E.I.R.P. (FCC Part 15), configurable
Antenna:Beam Width: ≤70°Polarization: circular (LHCP or RHCP), adjustable or
linearly (vertical or horizontal), adjustable
Transponder Protocols: ISO18000-6 C (EPC Class1 Gen2)
Operating Modes: 1. One telegram per activation2. permanent transmission
Anticollision: Identification of several transponders in the antenna fieldpossible
Reading Distance: up to 4 m (depending on type of transponder andinstallation)
Signalling:Beeper internally controlledLEDs red, yellow, green: internally controlled
Interfaces: RS485
Electrical Connection: 4-pin M12 connector
Conformity:Human exposure EN 50364EMC/ERM:
−EMC EN 301 489−Air interface (EU) EN 302 208 v1.2 (DRM)
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3. Mechanical DimensionsAll dimensions in mm.
3.1 UDL250 Housing − Side View
Figure 3.1.1: UDL250 Side View
3.2 UDL250 Housing − Front View
Figure 3.2.1: UDL250 Front View
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3.3 UDL250 Housing − Rear View
Figure 3.3.1: UDL250 Rear View
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4. Wiring Diagram 4.1 Pin Assignment
Figure 4.1.1: Wiring Diagram male connector
The pin assignment of the male connector is as follows:
PIN Description
1 +Vcc
2 RS485–A
3 GND
4 RS485–B
Table 4.1.1: Pin Assignment male connector
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5. Interfaces 5.1 RS485Most RS485 buses require termination resistors across the conductor pair. The need for termination has to be checked for each installation. Especially for high data rates, steep edges or long cables termination resistors are absolutely mandatory. Only both ends of the main cable, i.e. at the first and the last device, require termination resistors, additional res-istors excessively load the drivers. The resistor value matches the cable´s differential mode characteristic impedance (in most cases 100...120 Ω).
Attention!This termination resistor (terminator, 120 Ω) is factory built-in into all UDL250 and has to be deactivated if necessary (see also chapter 9.1.2 “Basic Setup” –> “enable 485 termination” within the configuration menu “WebConfig”). The factory setting of this termination resistor is “on”.
At the RS485 bus you need fail-safe biasing containing a pull-up and a pull-down resistor on the cable which are both built-in into the UDL250. The fail-safe biasing provides a known state in which there is no active driver on the bus and is therefore absolutelymandatory regardless of data rates and length of cables. The pull-up and pull-down resistors can only be activated together with the termination resistor (within WebConfig).
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Figure 5.1.1: Diagram with switchable termination resistor on RS485 bus
Technical Data (for baud rates up to 115.2 kBps):
Max. bus length: 1200 mMax. stub length: because of reflections stubs should be kept as short
as possible; exceptions allow a length up to 30 cmCable recommendation: twisted pair, cable-cross section at least
0,22 mm2 (AWG 24) differential-mode characteristic impedance 100...120 Ω
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5.2 LEDs and BeeperThe standard settings for the LEDs and the beeper are as follows:
LED/Beeper Action Status UDL250
Yellow LED blinking field is switched off
constantly on field is switched on
Green LED blinking successful reading/writing of a transponder
Red LED constantly on malfunction
Beeper beep tone successful reading of a transponder
Table 5.2.1: Function LEDs and Beeper (factory settings)
Note:The LED characteristics may be different to those described above due to changes in configuration.
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6. MountingFor mounting on walls or ceilings deister electronic provides the ball joint bracket LRM1 (accessory) or the base plate for mast mounting LRM3 (accessory) as an ideal supplement.
For further details concerning accessories refer to chapter 10. “Accessories”.
6.1 Wall mounting with flexible pivot LRM1For mounting on walls or ceilings the the ball joint bracket can be mounted directly onto the UDL250. With the LRM1 the reader can be positioned in many directions.Both mounting plates of this device are connected via ball bearing to a rotatable axis. Fixing the correct position is carried out with a hexagon spanner.
Figure 6.1.1: Mounting with flexible pivot LRM1
Figure 6.1.2: Mounting with base plate LRM3
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6.2 Mast/Tube Mounting with base plate LRM3Mount the base plate LRM3 directly onto the back side of the UDL250 using the two supplied M6 screws with washers. Then mount the mast in the desired direction onto the LRM3 with a hose clamp.
6.3 Function Principle and Environmental InfluencesThe reader sends a high-frequent carrier signal. A transponder which is located within the area of this transmitted carrier transmits the signal back with its own transponder data in a modulated way. This very weak signal is being analyzed by the reader.Because of the particular small-bandwidth and the high carrier frequency within MHz-range this system is almost fail-safe. Nevertheless the range of the reader can be negatively influenced. The following list shows what to pay attention to:
1. The reader must have visual contact to the transponder. There must not be any walls or other devices between reader and transponder. Reading through plastic film, card board, papers or glass windows may be possible in some cases, but will reduce the reading range depending on the condition of the material.
2. Water, ice and snow will absorb the carrier signal. Therefore the installer should take care, that the front of the reader as well as the transponder can not be covered with water, ice or snow.
3. Reflexions within the surrounding of the reader can influence the reading result in a negative way. Therefore the reader should be mounted as free-standing as possible. We strictly discourage from sunk-in installations.
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6.4 Radiation Patterns of the Transmitting Antenna 6.4.1 Cutting Plane Diagram
The following diagram shows a perspective view of the UDL250 in order to help assigning the following cutting planes to the orientation of the reader within space.
Figure 6.4.1.1: Orientation of cutting planes of UDL250
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cutting plane: xzpolarization: verticalpictured frequency: 867 MHz
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Figure 6.4.1.2: Radiation pattern 1
cutting plane: yzpolarization: verticalpictured frequency: 867 MHz
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Figure 6.4.1.3: Radiation pattern 2
cutting plane: xzpolarization: horizontalpictured frequency: 867 MHz
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Figure 6.4.1.4: Radiation pattern 3
cutting plane: yzpolarization: horizontalpictured frequency: 867 MHz
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Figure 6.4.1.5: Radiation pattern 4
7. Get Connection – PreparationsConnection via USB will create a virtual serial COM Port and will therefore consequently ask for installation of the appropriate drivers. This driver installation is described in the according instruction manual of the SNG3.
7.1 SNG3 Interface Converter
Figure 7.1.1: Picture of SNG3
The interface converter SNG3 (optional, see chapter 10. “Accessories”) can be used for connecting a reader to a host/PC via USB. Powering of the reader is carried out as well by the SNG3 (in case this is connected to a power supply unit itself). For this a special wall power supply is available (optional, also see chapter 10. “Accessories”). The drivers needed can be found on the CD within delivery.
SNG3 Description Function UDL250
Pin 1 +VCC Supply voltage for UDL250 (12...24 V/DC) Pin 1
Pin 2 GND Ground Pin 3
Pin 3 RS485–A RS485 interface, data line A Pin 2
Pin 4 RS485–B RS485 interface, data line B Pin 4
Table 7.1.1: Pin Assignment for connection SNG3 to UDL250
Connect as follows:
PC SNG3 UDL250
Figure 7.1.2: Connection Scheme for UDL250 with SNG3
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8. Commissioning and Test Software RDemoThe software program “RDemo” is specially designed for testing purposes. It is a helpful tool for reading out data from and writing data into the memory of a transponder. The current RDemo version can be found at: www.deister.com – deister RFID Portal
8.1 Installing RDemoFor installing RDemo double click the folder “RDemo” and select “rdemo172.exe” (or the equivalent higher version delivered with your product):
Please follow the installation instructions. After successful installation start RDemo.
8.2 Port setting – Get connectionIn order to establish a connection between the UDL250 and RDemo the according COM Port has to be adjusted within the program. Select the communication port of the UDL250 from the menu “Port” as shown below:
Figure 8.2.1: RDemo Port setting
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Click on button “deBus” in order to open the window “RDemo : deBus”:
Figure 8.2.2: RDemo – deBus button
Figure 8.2.3: RDemo – deBus configuration
In order to have the reader detected please proceed as follows:
1) Set “baud rate” to “all”.2) Click on button “Detect Device(s)”.3) After successful search the UDL250 will be shown in the list of detected devices.4) Select device from list.5) Click on button “Set As Current Device”.6) Close window.
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1
5
2
3+4
In order to check the communication between UDL250 and Host/PC click on the “Version” button (see red circle below). Then a “version information received”-message will be shown in a yellow pop-up bubble in the lower part of the window:
The data exchange concerning the communication between RDemo and the UDL250 can be viewed within the window “Monitor”.
In the standard configuration (i.e. factory settings) the device is set in “Trigger Mode“. This means the device waits for a “Trigger On“-command for switching the RF-field on and a ”Trigger Off“-command for switching the RF-field off. These software commands are sent to the device using RDemo (separate buttons for “Trigger on” and “Trigger off” in the left part beneath the main menu bar).
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9. Configuration Software WebConfigWebConfig is a program which allows configuration of the UDL250 to some extent. It can easily be reached from RDemo using the according button beneath the main menu bar (see red circle below):
Clicking on “WebConfig” will automatically close RDemo. A few seconds later WebConfig displays the current configuration of the UDL250 which contains device information about the version as well as basic settings, such as read mode, RF power settings and frequency settings. Closing WebConfig will automatically restart RDemo again.
Figure 9.2: WebConfig – Start Window
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Figure 9.1: RDemo – WebConfig Button
Alternatively, WebConfig can be started without using RDemo. To do so copy the file “WebConfig.exe” from the supplied CD into a suitable directory on your local drive and then open with double click.
Configuring the UDL250 has to be carried out as follows:
Step Configuration Software “WebConfig” Reader UDL250
1 connect reader to SNG3 (see Figure 7.1.2),connect SNG3 to PC via USB cable, connect wall power supply to SNG3
2 start configuration software “WebConfig”
3 select USB Serial Port
4 click on „Device“ – „Search addresses“
5 software searches for the reader which is connected to the selected COM Port
6 after successful search the reader found will be indicated
7 current reader configuration will be read
8 configuration menu will open
9 configuration can be modified by user
10 transfer changed configuration to the reader by click on “Apply Changes”
11 reader will store the new configuration within its internal non-volatile memory
12 end connection by clicking “Offline”
13 program will be closed by „File“ - „Exit“
Table 9.1: Configuration Steps for UDL250
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9.1 WebConfigFor a detailed description of the configuration parameters please refer to the document “UDK2/UDK20/UDK800 – deBus Protocol” (which can be obtained on request from your local sales and service partner or at deister electronic) and the application notes which can be found at the “deister RFID Portal” (www.deister.com – deister RFID Portal).The settings regarding EPC Class1 Gen2 transponders refer to the specification of EPCglobal™: “Specification for RFID Air Interface”.
9.1.1 Summary
This menu shows an example summary of a current reader configuration:
Figure 9.1.1.1: WebConfig – Summary
Device InfoSerial number: Serial number of deviceDevice: Identification code of deviceVersion: Firmware version (SW) and hardware version (HW) of deviceRegion: Region for which the device is authorizedHardware configuration: Hardware configuration code of device
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9.1.2 Basic Setup
Figure 9.1.2.1: WebConfig – Basic Setup
enable RS485 terminationIf this check box is activated, the internal RS485 termination of the device is on.
read modeThis parameter defines, if the reader expects only one tag in the antenna field or if there may be more tags within the antenna field. In case there are more tags, the reader has to execute an anticollision algorithm. It is also possible to configure the reader to “single shot” mode in which the read signalling for the same transponder is only done once or after a timeout defined by parameter “tag timeout”.
anticollision: Operating mode in case there is more than one tag in the field
single shot: Operating mode for reading tag data in case there is only one tagin the field. The tag data will be transmitted again after the time period specified in “tag timeout”.
tag timeout / ms (for read mode “single shot” only)Break between transmission of transponder data within single shot mode. After this timeout has expired reading the same tag will be signalled again.
RF power / dBmThis value defines the radiated power for the antenna in dBm. The maximum output power of the antenna is 30 dBm (1 W E.R.P.; see also Table 9.1.3 “Antenna Power Table“)
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9.1.3 Antenna Power Table
WebConfigPower Value
Radiated Output Power of Antenna
0 dBm 1 mW
1 dBm 1.3 mW
2 dBm 1.6 mW
3 dBm 2 mW
4 dBm 2.5 mW
5 dBm 3.1 mW
6 dBm 4 mW
7 dBm 5 mW
8 dBm 6.3 mW
9 dBm 8 mW
10 dBm 10 mW
11 dBm 13 mW
12 dBm 16 mW
13 dBm 20 mW
14 dBm 25 mW
15 dBm 32 mW
16 dBm 40 mW
17 dBm 50 mW
18 dBm 63 mW
19 dBm 79 mW
20 dBm 100 mW
21 dBm 126 mW
22 dBm 158 mW
23 dBm 200 mW
24 dBm 250 mW
25 dBm 316 mW
26 dBm 400 mW
27 dBm 500 mW
28 dBm 630 mW
29 dBm 794 mW
30 dBm 1000 mW
31 dBm 1260 mW
32 dBm 1580 mW
33 dBm 2000 mW
Table 9.1.3.1: Antenna Power Table
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9.1.4 Frequency Setup
Figure 9.1.4.1: WebConfig – Frequency Setup
preferred channelThis value defines the channel number that the reader will preferably use prior to other channels.
channel maskThis mask defines the channels which may be used by the reader. Each activated check box enables the use of the corresponding channel (for more details see also chapter 9.1.5 “Table of Frequencies“).
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9.1.5 Table of Frequencies
ETSI 302 208v1.2 (EU) DRM
Ch. No. Frequency E.R.P.
1 865.1 MHz 1)
2 865.3 MHz 1)
3 865.5 MHz 1)
4 865.7 MHz ≤ 2.00 W 2)
5 865.9 MHz 1)
6 866.1 MHz 1)
7 866.3 MHz ≤ 2.00 W 2)
8 866.5 MHz 1)
9 866.7 MHz 1)
10 866.9 MHz ≤ 2.00 W 2)
11 867.1 MHz 1)
12 867.3 MHz 1)
13 867.5 MHz ≤ 2.00 W 2)
14 867.7 MHz 1)
15 867.9 MHz 1)
Table 9.1.5.1: Table of Frequencies
1) low power channel, tag response2) high power channel, interrogator signal
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10. AccessoriesArticle Description Article No.
CC4 Connection cable, grey, 3 m, M12 connector 4-pole to 4-pole Phoenix connector
9287.301
LRM1 Ball joint bracket 6103.000
LRM3 Base Plate for mast mounting 6106.000
AC/DC Adapter Euro
Wall power supply, input voltage 230 V/AC, output voltage 12 V/DC (1 A), Friwo® plug
8812.000
AC/DC Adapter International
Wall power supply, input voltage 100-240 V/AC, output voltage 12 V/DC (1.25 A), Friwo® plug
6757.000
AC/DC Power Supply
Rail power supply, input voltage 100-260 V/AC, output voltage 24 V/DC (2.5 A)
6756.000
SNG3Smart Network Gateway
Interface converter USB-to-RS485, incl. USB cable and driver software
8782.000
DCU1 Data Control Unit for operation with up to four UDL250 readers, interfaces: RS232, RS485, Ethernet, 4 trigger inputs, 4 switch outputs, rail mounting
9240.100
Table 10.1: Accessories
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11. Regulatory NoticesHereby, deister electronic GmbH declares that this equipment - if used according to the instructions - is in compliance with the essential requirements and other relevant provisions of the RTTE Directive 1999/5/EC.
A full declaration of conformity can be requested at:
Approved for use in all European countries.
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Index of FiguresFigure 3.1.1: UDL250 Side View.................................................................................6Figure 3.2.1: UDL250 Front View...............................................................................6Figure 3.3.1: UDL250 Rear View................................................................................7Figure 4.1.1: Wiring Diagram male connector.............................................................8Figure 5.1.1: Diagram with switchable termination resistor on RS485 bus.....................10Figure 6.1.1: Mounting with flexible pivot LRM1.........................................................12Figure 6.1.2: Mounting with base plate LRM3............................................................12Figure 6.4.1.1: Orientation of cutting planes of UDL250............................................14Figure 6.4.1.2: Radiation pattern 1...........................................................................15Figure 6.4.1.3: Radiation pattern 2...........................................................................16Figure 6.4.1.4: Radiation pattern 3...........................................................................17Figure 6.4.1.5: Radiation pattern 4...........................................................................18Figure 7.1.1: Picture of SNG3..................................................................................19Figure 7.1.2: Connection Scheme for UDL250 with SNG3..........................................19Figure 8.2.1: RDemo Port setting..............................................................................20Figure 8.2.2: RDemo – deBus button........................................................................21Figure 8.2.3: RDemo – deBus configuration...............................................................21Figure 9.1: RDemo – WebConfig Button ...................................................................23Figure 9.2: WebConfig – Start Window.....................................................................23Figure 9.1.1.1: WebConfig – Summary.....................................................................25Figure 9.1.2.1: WebConfig – Basic Setup..................................................................26Figure 9.1.4.1: WebConfig – Frequency Setup...........................................................28
Index of TablesTable 4.1.1: Pin Assignment male connector................................................................8Table 5.2.1: Function LEDs and Beeper (factory settings).............................................11Table 7.1.1: Pin Assignment for connection SNG3 to UDL250....................................19Table 9.1: Configuration Steps for UDL250...............................................................24Table 9.1.3.1: Antenna Power Table.........................................................................27Table 9.1.5.1: Table of Frequencies..........................................................................29Table 10.1: Accessories...........................................................................................30
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Notes:
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Notes:
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Notes:
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Germany:deister electronic GmbHHermann-Bahlsen Str. 1130890 BarsinghausenTel.: +49 (0) 51 05 - 51 61 11Fax: +49 (0) 51 05 - 51 62 [email protected]
www.deister.com
deister worldwide
Canada:Deister Electronics Inc.1099 Kingston Road, Suite 212Pickering, ON L1V 1B5Tel.: +1 905 - 837 5666Fax: +1 905 - 837 [email protected]
Japan:deister electronic Japan, LTD.Toshiba Hoshikawa Bldg. 4F2-4 Kawabe-chôHodogaya-ku, Yokohama-shi Kanagawa, 240-0001Tel.: +81 (0) 45 340 1831Fax: +81 (0) 45 340 [email protected]
USA:Deister Electronics USA, Inc.9303 Grant AvenueManassas, VA 20110Tel.: +1 703 - 368 2739Fax: +1 703 - 368 [email protected]
Benelux:deister electronic officeBusiness Park E 19Battelsesteenweg 455/A2800 MechelenTel.: +32 (0) 15 - 28 09 68Fax: +32 (0) 15 - 28 09 [email protected]
France:deister electronic france101 rue Pierre Semard92320 ChatillonTel.: +33 (0) 1 47 - 35 78 78Fax: +33 (0) 1 47 - 35 92 [email protected]
Great Britain:deister electronic (UK) Ltd.Stapleton Way, Enterprise Park Spalding, LincolnshirePE11 3YQTel.: +44 (0) 1775 - 717100Fax: +44 (0) 1775 - [email protected]
The Netherlands:deister electronic officeTolnasingel 32411 PV BodegravenTel.: +31 (0) 1726 - 32970Fax: +31 (0) 1726 - [email protected]