Hitachi KP-FM500WCL Operation Manual Download Page 1

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High pixel CMOS camera

KP-FM500WCL
KP-FMD500WCL

Operation Manual

Hitachi Kokusai Electric Inc.

The first edition in August, 2018.

RoHS Compliant
These products comply with the requirement of the RoHS (Restriction of the
use of Certain Hazardous Substances in Electrical and electronic Equipment)
Directive 2002/95/EC.

Thank you for purchase this fine Hitachi Kokusai Electric CMOS camera.
Before using the camera, please read this operation manual carefully.

Summary of Contents for KP-FM500WCL

Page 1: ...18 RoHS Compliant These products comply with the requirement of the RoHS Restriction of the use of Certain Hazardous Substances in Electrical and electronic Equipment Directive 2002 95 EC Thank you for purchase this fine Hitachi Kokusai Electric CMOS camera Before using the camera please read this operation manual carefully ...

Page 2: ...ould be routed to that they are not likely to be walked on or pinched by items placed upon or against them paying particular attention to cords at plug convenience receptacles and the point where they exit from the product 14 Lightning For added protection for this product during a lightning storm or when it is left unattended and unused for long periods of time unplug it from the wall outlet This...

Page 3: ...lichst nicht darauf getreten wird und daß sie nicht eingeklemmt werden mit besonderer Beachtung der kabel an Stackern Verlängerungskabeln und dem Austritt des Kabels aus dem Erzeugnis 14 Blitzschlag Für zusätzlichen Schutz des Erzeugnisses während eines Gewitters oder bei Nichtverwendung für lange Zeit den Stecker aus der Steckdose ziehen Dies verhütet Beschädigung durch Blitzschlag und Netzspannu...

Page 4: ... Acheminer les cordons d alimentation de facon qu on ne risque pas de marcher dessus ou de les coincer sous un objet placé dessus ou contre eux Faire particuliérement attention aux fiches des cordons á la proximité des prises et á l endroit oú ils ressortent de l appareil 14 Foudre Pour renforcer la protection de l appareil pendant un orage ou si l on s en éloigne ou qu on reste longtemps sans l u...

Page 5: ... the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this product in a residential...

Page 6: ...E ...

Page 7: ...tion in picture quality will result 4 To obtain stable performance for long time When the camera is used continuously for long time under high ambient temperature the inside electrical parts become deteriorated resulting in shortening its life To use the camera continuously for long time the highest temperature must be below 40 5 Connectors Confirm the power is off before connecting or disconnecti...

Page 8: ...unlight etc next to subject It becomes easy to see by raising the camera sensitivity 7 Horizontal line noise when electronic shutter is used Depending on the exposure time setting horizontal line noise may appear The higher a camera sensitivity is the easier it is to see it 8 Attention about laser light Laser light may do damage to CMOS image sensor When you use laser light be careful not to irrad...

Page 9: ... functions 2 6 Camera mounting 3 7 Lens 3 8 Optical filter 3 9 Connector 4 10 Functions and operations 6 11 Remote control 9 12 Command list 16 13 Camera Link output timing chart 19 14 Trigger operation and timing chart 34 15 Input Output signal 38 16 Spectral response 39 17 Specifications 40 18 Dimensions 41 ...

Page 10: ...e rate The frame rate can be changed by setting the camera link configuration and the camera link clock frequency A further frame rate can improve if partial scan and binning function is used Small and lightweight The small SDR connector for digital output allows the camera size and mass to be drastically reduced to 44 W x 44 H x 41 D mm approx 130g Automatic power supply change The power supply t...

Page 11: ...gger input When the board supplies the power supply by way of the Camera Link connector the connection is unnecessary Camera Tripod adaptor mounting screw holes Camera Tripod adaptor mounting screw holes Camera Link connectors Use for digital video output and camera control signal input output signal The power supply from the board is also possible AC adaptor Power over type Camera Link frame grab...

Page 12: ...tical filter be sure to turn off the power Since garbage etc invades into image reception surface camera please work under the clean air such as a CLEAN ROOM CAUTION Observe the dimensions of the lens mounting selection as illustrated at the right If the dimensions are not observed do not use such a lens because the lens and the camera will be damaged Screw type Ｕ1 4 20 Length Ｌ 4 to 5 5mm Screws ...

Page 13: ...KOUT 6 TYOUT 3 19 TYOUT 3 7 100Ω 20 100Ω 8 TZOUT 0 21 TZOUT 0 9 TZOUT 1 22 TZOUT 1 10 TZOUT 2 23 TZOUT 2 11 TZCLKOUT 24 TZCLKOUT 12 TZOUT 3 25 TZOUT 3 13 GND 26 12V PoCL GND non PoCL SDR connector 3M or equivalent N U Not Used The digital out cable should be comprised of a twisted pair of wires having 100Ω characteristic impedance and an outer heath shield type conductor Connect the shield ground ...

Page 14: ...U 12 GND N U Not Used Connector camera side SNH 10 12 RPCB SAMWOO or equivalent Plug matching cable plug HR10A 10P 12S HIROSE or equivalent Note Please do not unplug and insert cable digital out cable with a power supplied to a camera Note In the CE Marking or KCC region use the shield type and install clamp filter ZCAT2035 0930A TDK at both ends of the cable ...

Page 15: ...r to Trigger operation and timing chart from 34 page to 37 page for details concerning an external trigger mode 2 SHUTTER Setting of electronic shutter PRESET Setting speed of PRESET shutter OFF Factory setting Shutter operation set to OFF NORMAL shutter 1 60 1 100 1 250 1 500 1 1000 1 2000 1 10000 1 50000 second Electronic shutter set to preset shutter speed PRESET shutter VARIABLE Electronic shu...

Page 16: ...nd left V Image is reversed up and down HV Image is reversed right and left up and down 8 TEST PATTERN Setting of test pattern output OFF Factory setting Image is usually output H The horizontal ramp image is output V The vertical ramp image is output HV The horizontal and vertical ramp image is output 9 OUTPUT SIGNAL Setting of the tenth pin of DCIN SYNC connector OFF Factory setting No output LO...

Page 17: ...t capture width 4 2048 Factory setting line Please set the acquisition width as increments of 4 lines Note Don t operate normally when it is not increments of 4 lines 15 TEMPERATURE Acquire the temperature READ Acquire the temperature detected by the temperature sensor 16 NOISE CANCEL Setting of noise cancel 0 Factory setting 255 Adjust trigger noise cancellation threshold in 256 steps Factory set...

Page 18: ...ransferring TEXT data to the camera controller chip 3 Comms procedure The following pages indicate the camera controller chip and remote control software data protocol In the description the camera is designated as slave and the software as master Receive protect timer time out error The receive protect timer for master and slave processes is 1 second For example if 1 block of TEXT data is being r...

Page 19: ...ave acknowledges by returning ACK to master Master sends read command to slave Slave receives read command then acknowledges by returning ACK code to master Slave sends read data to master Master receives read data then acknowledges by returning ACK code to slave Slave KP FM500WCL KP FMD500WCL Master Machine 1 2 3 4 ENQ code 05h ACK code 06h ACK code 06h Transmit data ASCII code HITACHI Master Mac...

Page 20: ...aster Master sends data but slave detect error framing over run error Slave detects error and does not accept data Sequence 3 and 4 repeats then master transfers normal data Slave detects normal data and returns ACK code to master to end the session Master Machine 1 2 3 ENQ code 05h NACK code 15h ENQ code 05h NACK code 15h ENQ code 05h NACK code 15h ENQ code 05h NACK code 15h Slave KP FM500WCL KP ...

Page 21: ...r does not receive acknowledgment to the send code and repeats the sequence every 3 seconds for 3 times If unsuccessful after 3 attempts master aborts the sequence and ends communication Master Machine 1 2 3 ENQ code 05h ACK code 06h Send data ASCII code Send data ASCII code Send data ASCII code 4 5 Send data ASCII code 6 3 second elapse 3 second elapse 3 second elapse Slave KP FM500WCL KP FMD500W...

Page 22: ...aster fails to receive read data Slave fails to receive acknowledgment of read data and attempts to resend every 3 seconds for 3 times After the third failure slave aborts the sequence and ends communication Master Machine 1 2 6 ENQ code 05h ACK code 06h Read data ASCII code Read data ASCII code Read data ASCII code 7 Read data ASCII code 8 3 4 Read command ASCII code ACK code 06h 5 3 second elaps...

Page 23: ...yte ASCII code d Text data format details transmission sequence Status Transmission data status 2 byte ASCII code Used for EEPROM write 00 write absent 01 write present ID No Camera peculiar ID KP FM500WCL and KP FMD500WCL have FF 2 byte ASCII code Area address Classification of Send data 01 and Read command 81 2 byte ASCII code Relative No Sets number 00 to FF for each adjustment item 2 byte ASCI...

Page 24: ...a transfer sequence Data bytes 1st byte 2nd byte 3rd byte 1 Data 00 00 2 Upper Lower 00 3 Upper Mid Lower 5 Calculation method of checksum Example STX 1 2 3 4 5 6 7 ETX SUM STATUS ID NO AREA ADDRES S RELATIVE NO DATA 02h 01 FF 01 04 00 00 00 03h 28 1 STAUTUS to DATA are transformed into hexadecimal number on the basis of the ASCII code 0 30h 1 31h 4 34h F 46h STX 02h ETX 03h 2 STX to ETX are added...

Page 25: ...0 03h 2A 30110us 02h 01 FF 01 11 0B C1 00 03h 04 MAX 02h 01 FF 01 11 FF FF 00 03h D2 CONFIG BASE 02h 01 FF 01 12 00 00 00 03h 29 MEDIUM 02h 01 FF 01 12 01 00 00 03h 28 FULL 02h 01 FF 01 12 02 00 00 03h 27 DECA 02h 01 FF 01 12 03 00 00 03h 26 CLK 85MHz 02h 01 FF 01 19 00 00 00 03h 22 60MHz 02h 01 FF 01 19 01 00 00 03h 21 BINNING 3 OFF 02h 01 FF 01 13 00 00 00 03h 28 ON 02h 01 FF 01 13 01 00 00 03h ...

Page 26: ...01 FF 01 2A 00 00 00 03h 19 128 02h 01 FF 01 2A 80 00 00 03h 11 255 02h 01 FF 01 2A FF 00 00 03h ED B GAIN 0 02h 01 FF 01 2B 00 00 00 03h 18 128 02h 01 FF 01 2B 80 00 00 03h 10 255 02h 01 FF 01 2B FF 00 00 03h EC FACTORY SETTING SET 02h 01 FF 01 45 01 00 00 03h 22 6 START of partialscan can be set within the range of 0001h to 07FDh WIDTH of partialscan can be set within the range of 0004h to 0800h...

Page 27: ...h 00 FF 81 19 00 00 00 03h 1B BINNING 1 02h 00 FF 81 13 00 00 00 03h 21 DATA BIT 02h 00 FF 81 14 00 00 00 03h 20 GAIN 02h 00 FF 81 0C 00 00 00 03h 12 BLACK LEVEL 02h 00 FF 81 17 00 00 00 03h 1D TEST PATTERN 02h 00 FF 81 50 00 00 00 03h 20 FLIP 02h 00 FF 81 51 00 00 00 03h 1F PARTIAL SCAN MODE 02h 00 FF 81 1E 00 00 00 03h 0F START 02h 00 FF 81 1F 00 00 00 03h 0E WIDTH 02h 00 FF 81 20 00 00 00 03h 2...

Page 28: ...2439 2444 2443 2448 2447 20 19 DC DD 2434 2433 2438 2437 2442 2441 2446 2445 2 1 6 5 10 9 14 13 18 17 DA DB DATA Active Picture LVAL 612 clk 2 5 clk 4 3 8 7 12 11 16 15 2436 2435 2440 2439 2444 2443 2448 2447 20 19 DC DD 2434 2433 2438 2437 2442 2441 2446 2445 2 1 6 5 10 9 14 13 18 17 DA DB DATA Active Picture LVAL 1224 clk 2 5 clk 2 1 4 3 6 5 8 7 2442 2441 2444 2443 2446 2445 2448 2447 10 9 DA DB...

Page 29: ... 3 12 11 20 19 28 27 36 35 DC DD 2 1 10 9 18 17 26 25 34 33 DA DB 2420 2419 2428 2427 2436 2435 2444 2443 2418 2417 2426 2425 2434 2433 2442 2441 DATA Active Picture LVAL 306 clk 2 5 clk 8 7 16 15 24 23 32 31 2424 2423 2432 2431 2440 2439 2448 2447 40 39 DG DH 2422 2421 2430 2429 2438 2437 2446 2445 6 5 14 13 22 21 30 29 38 37 DE DF 4 3 12 11 20 19 28 27 36 35 DC DD 2 1 10 9 18 17 26 25 34 33 DA D...

Page 30: ... DA DB 2414 2413 2424 2423 2434 2433 2444 2443 2412 2411 2422 2421 2432 2431 2442 2441 9 19 29 39 2419 2429 2439 49 DＩ 10 20 30 40 2420 2430 2440 50 DＪ DATA Active Picture LVAL 245 clk 2 5 clk 8 7 18 17 28 27 38 37 2418 2417 2428 2427 2438 2437 2448 2447 48 47 DG DH 2416 2415 2426 2425 2436 2435 2446 2445 6 5 16 15 26 25 36 35 46 45 DE DF 4 3 14 13 24 23 34 33 44 43 DC DD 2 1 12 11 22 21 32 31 42 ...

Page 31: ...uration 85MHz 1H 14 438us Base Configuration 60MHz 1H 20 458us Medium Configuration 85MHz 1H 7 246us Medium Configuration 60MHz 1H 10 163us Full Configuration 85MHz 1H 3 636us Full Configuration 60MHz 1H 5 158us Deca 10TAP Configration 85MHz 1H 2 923us Deca 10TAP Configration 60MHz 1H 4 148us Active Picture DATA FVAL 1024H When partialscan is ON the width dividing 2 42H Active DATA FVAL 2048H When...

Page 32: ...765 ns 85MHz or 16 667ns 60MHz DA7 1 DA6 1 N U N U N U DB7 DB6 DA7 DA6 N U N U N U FVAL LVAL N U N U N U N U DB2 1 DB1 1 N U N U DB5 DB4 DB3 DB2 DB1 DA1 1 DA0 1 DB0 DA5 DA4 DA3 DA2 DA1 DA0 TXOUT 0 TXCLKOUT Next Cycle TXOUT 1 TXOUT 2 TXOUT 3 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DA7 1 DA6 1 N U DB7 DB6 N U N U DA7 DA6 DB3 1 DB2 1 N U FVAL LVAL DB5 DB4 DB3 DB2 N U DA9 1 DB1 DB0 DB9 D...

Page 33: ...able is connected to D OUT2 the machine may break down Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DA7 1 DA6 1 N U DB7 DB6 DB11 DB10 DA7 DA6 DB3 1 DB2 1 N U FVAL LVAL DB5 DB4 DB3 DB2 DA1 1 DA0 1 DA8 DA5 DA4 DA3 DA2 DA1 DA0 Next Cycle TXOUT 0 TXCLKOUT TXOUT 1 TXOUT 2 TXOUT 3 DA9 1 DB1 DB0 DB9 DB8 DA11 DA10 DA9 DA10 1 ...

Page 34: ...4 DC3 DC2 DB2 1 DB1 1 DC1 DC0 DB5 DB4 DB3 DB2 DB1 DA1 1 DA0 1 DB0 DA5 DA4 DA3 DA2 DA1 DA0 Next Cycle TXOUT 0 TXCLKOUT TXOUT 1 TXOUT 2 TXOUT 3 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DD7 1 DD6 1 N U N U N U N U N U DD7 DD6 N U N U N U FVAL LVAL N U N U N U N U N U N U N U N U N U N U N U N U N U DD1 1 DD0 1 N U DD5 DD4 DD3 DD2 DD1 DD0 Next Cycle TYOUT 0 TYCLKOUT TYOUT 1 TYOUT 2 TYOUT ...

Page 35: ...U DA9 1 DB1 DB0 DB9 DB8 N U N U DA9 DA1 1 DA0 1 DA8 DA5 DA4 DA3 DA2 DA1 DA0 Next Cycle TXOUT 0 TXCLKOUT TXOUT 1 TXOUT 2 TXOUT 3 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DD7 1 DD6 1 N U N U N U DC7 DC6 DD7 DD6 N U N U N U FVAL LVAL DD9 DD8 N U N U DC2 1 DC1 1 DC9 DC8 DC5 DC4 DC3 DC2 DC1 DD1 1 DD0 1 DC0 DD5 DD4 DD3 DD2 DD1 DD0 Next Cycle TYOUT 0 TYCLKOUT TYOUT 1 TYOUT 2 TYOUT 3 ...

Page 36: ... 1 DA8 DA5 DA4 DA3 DA2 DA1 DA0 Next Cycle TXOUT 0 TXCLKOUT TXOUT 1 TXOUT 2 TXOUT 3 DA9 1 DB1 DB0 DB9 DB8 DA11 DA10 DA9 DA10 1 DC2 1 DC1 1 DC9 DC8 DC5 DC4 DC3 DC2 DC1 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DD7 1 DD6 1 N U DD11 DD10 DC7 DC6 DD7 DD6 DD1 1 DD0 1 DC0 DD5 DD4 DD3 DD2 DD1 DD0 Next Cycle TYOUT 0 TYCLKOUT TYOUT 1 TYOUT 2 TYOUT 3 N U FVAL LVAL DD9 DD8 DC11 DC10 DC11 1 DC10 1 ...

Page 37: ...E2 1 DE1 1 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DG7 1 DG6 1 N U N U N U DH7 DH6 DG7 DG6 N U N U N U FVAL LVAL N U N U N U N U DG1 1 DG0 1 DH0 DG5 DG4 DG3 DG2 DG1 DG0 Next Cycle TZOUT 0 TZCLKOUT TZOUT 1 TZOUT 2 TZOUT 3 N U N U DH5 DH4 DH3 DH2 DH1 DH2 1 DH1 1 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DA7 1 DA6 1 N U DC7 DC6 DB7 DB6 DA7 DA6 DC3 1 DC2 1 N U FVAL LVAL DC5 D...

Page 38: ...Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DD9 1 DD8 1 DC0 DF9 DF8 DE9 DE8 DD9 DD8 DF5 1 DF4 1 DB1 DB0 LVAL DF7 DF6 DF5 DF4 DD3 1 DD2 1 DE2 DD7 DD6 DD5 DD4 DD3 DD2 Next Cycle TYOUT 0 TYCLKOUT TYOUT 1 TYOUT 2 TYOUT 3 DF3 DF2 DE7 DE6 DE5 DE4 DE3 DE4 1 DE3 1 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DG9 1 DG8 1 DH1 DG0 DF1 DH9 DH8 DG9 DG8 DE0 1 DD1 1 DH0 DG1 LVAL DF0 DE1 DE0 DD...

Page 39: ...T 2 TXOUT 3 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DJ1 1 DJ0 1 DJ7 DJ6 DJ5 DJ3 DJ2 DJ1 DJ0 DG6 1 DG5 1 DH4 DH3 DH1 DH0 DG7 DG6 DG5 Next Cycle TZOUT 0 TZCLKOUT TZOUT 1 TZOUT 2 TZOUT 3 DI7 DI4 DI3 DI2 DI1 DH6 DH5 DH6 1 DH5 1 DH2 1 DJ4 DI6 DI5 DI0 DH7 DH2 LVAL LVAL 1 Previous Cycle TCLK 11 765 ns 85MHz or 16 667ns 60MHz DF6 1 DF5 1 DG4 DG3 DG2 DG0 DF7 DF6 DF5 DD3 1 DD2 1 DE1 DE0 DD6 DD...

Page 40: ...DE DF DG DH DI and DJ show output TAP of the cameralink Refer to Transmitter LVDS output pulse position measurement for details 1 Base Configuration 2 Medium Configuration 2448 pixels 2048 lines DA DB 2448 pixels 2048 lines DA DB DC DD ...

Page 41: ...32 3 Full Configuration 4 Deca Configuration 10TAP 2448 pixels 2048 lines DA DB DC DD DE DF DG DH 2448 pixels 2048 lines DA DB DC DD DE DF DG DH DI DJ ...

Page 42: ...33 5 Color Output sequence KP FMD500WCL FLIP OFF 2048 lines R G G B 2448 pixels R G G B R G G B R G G B R G B G R G G B R G G B R G G B ...

Page 43: ...on 85MHz 1H 3 636us Full Configuration 60MHz 1H 5 158us Deca 10TAP Configration 85MHz 1H 2 923us Deca 10TAP Configration 60MHz 1H 4 148us 1 Normal mode The exposure and the image output are repeated at the set shutter speed a Partial scan OFF b Partial scan ON Trigger operation and timing chart Shutter time Shutter time Camera setting value DATA VD OUT FVAL 30H 13H 3H 2048H 2094H FLASH OUT Shutter...

Page 44: ... Width 46 762 Full Configuration 85MHz 74250000 Width 46 270 Full Configuration 60MHz 74250000 Width 46 383 Deca 10TAP Configuration 85MHz 74250000 Width 46 217 Deca 10TAP Configuration 60MHz 74250000 Width 46 307 Note Please set the acquisition width as increments of 4 lines Graph following shows frame rate in each of picture grabbing in the partial scan mode 10 100 1000 10000 0 500 1000 1500 200...

Page 45: ...fter the end of fixed exposure a Partial scan OFF b Partial scan ON More than width 46 H Trigger input POSITIVE High Low Shutter time Shutter time Camera setting value DATA More than 5us FLASH OUT Approx 0 3us VD OUT 3H FVAL 13H width H 22H 13 73us More than 2094H Trigger input POSITIVE High Low Shutter time Shutter time Camera setting value DATA More than 5us FLASH OUT Approx 0 3us VD OUT 3H FVAL...

Page 46: ...output a Partial scan OFF b Partial scan ON Trigger input POSITIVE High Low Shutter time Shutter time Integration time DATA More than width 46 H FLASH OUT Approx 0 3us VD OUT 3H FVAL 13H 13 73us More than 5us width H 22H Trigger input POSITIVE High Low Shutter time Shutter time Integration time DATA More than 2094H FLASH OUT Approx 0 3us VD OUT 3H FVAL 13H 13 73us More than 5us 2048H 22H ...

Page 47: ...WCL is as follows 1 Input from CameraLink cable LVDS level 2 Input from DCIN SYNC connector High level 2 5 to 5 0 V Low level 0 to 0 3 V 2 Output signal The level of the VD and FLASH output from KP FM500WCL and KP FMD500WCL is as follows High level 5 0V Low level 0V Input Output signal ...

Page 48: ...500WCL Spectral response 0 10 20 30 40 50 60 70 80 90 100 400 450 500 550 600 650 700 750 800 850 900 950 1000 Relative Response Wave Length nm 0 10 20 30 40 50 60 70 80 90 100 400 450 500 550 600 650 700 750 800 850 900 950 1000 Relative Response Wave length nm R G B IR CUT Filter R G B ...

Page 49: ...aLink Base Configuration 2TAP 85MHz or 60MHz Medium Configuration 4TAP 85MHz or 60MHz Full Configuration 8TAP 85MHz or 60MHz Deca Configuration 10TAP 85MHz or 60MHz Output image size 2048 H x 2048 V full pixel readout 12 Resolution Horizontal Vertical 2000TV lines Horizontal Vertical 1400TV lines 13 Sensitivity 500 lux F8 3200 K 1600 lux F8 3200 K 14 S N 50 dB 15 Electronic shutter Preset OFF 1 60...

Page 50: ...41 Dimensions UNIT mm SCALE NTS ...

Page 51: ...90 5124 Facsimile 1 516 496 3718 URL http www hitachikokusai us Hitachi Kokusai Electric Europe GmbH Frankfurt Head Office SiemensStrasse 9 D 63263 Neu Isenburg Germany Phone 49 0 6102 8332 0 Fax 49 0 6102 202616 London Office Windsor House Queensgate Britannia Road Waltham Cross Hertfordshire EN8 7NX United Kingdom Phone 44 0 845 1212177 Fax 44 0 845 1212180 URL http www hitachi keu com Hitachi K...

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