Page 1 L1E-EA0229-1 CONFIDENTIALITY: This material contains proprietary information of Hitachi Medical Corporation and it shall not be disclosed to any third party or reproduced without the prior written permission of Hitachi Medical Corporation. Copyright © Hitachi Medical Corporation. 2003. All rights reserved.
Page 2: Table Of Contents
Principle of Operation ....................4 - 1 Section 4 Section 4 Principle of Operation Principle of Operation System Block of EUB-5500..................4 - 1 Basic Composition of EUB-5500 .................4 - 1 4.2.1 General and board description................4 - 1 4.2.2 PRBSW unit circuit description................4 - 4 4.2.3 DBF PCB circuit description................4 - 6...
Page 3 Section 8 Section 8 Section 8 Signal List Signal List Signal List Signal List ........................8 - 1 EUB-5500 Basic Unit....................8 - 1 8.1.1 PRB PCB .......................8 - 1 8.1.2 AWP PCB .......................8 - 3 8.1.3 DBF PVB .......................8 - 6 8.1.4...
Page 4 CW Unit EZU-ST5, EZU-CW4 ..................8 - 16 8.6.1 CW PCB .........................8 - 16 Section 9 Section 9 Section 9 Section 9 Maintenance Maintenance Maintenance Maintenance.......................9 - 1 Fan Filter ........................9 - 1 Other Maintenance Items....................9 - 1 Section 10 Parts list........ Section 10 Parts list ..............
Page 5: Introduction
Also, it is fully equipped with various functions such as cine memory, cardiac function measurement, patient report function and so on. In addition, EUB-5500 runs on WindowsXP allowing it to be easily connected with various interfaces such as DICOM3.0 and so on.
Page 6: System Specification
1.2 System Specification 1. Probe Convex type : 2.0 ~ 10MHz Linear type : 2.5 ~ 13MHz Phased array type : 2.0 ~ 7.5MHz 2. Image examination mode Standard configuration : B, B/B, B/M, M : B/PW, PW, CW, B/CW, CFM-B/CW, : CFM-B, CFM-B/CFM-B, CFM-B/CFM-M, CFM-M, CFM-B/PW, (2)Biplane probe connected...
Page 7: System Organization
1.3 System Organization ＭａｉｎＵｎｉｔ・EUB-5500 Basic System Ｍｏｎｉｔｏｒ PROBEs ・EZU-MT24-S1 ・EUP-XXX Option Units and Peripherals Network IF Unit SCSI Card IF Unit Steerable CW Unit BIO Unit CW Unit ・EZU-PI6 ・EZU-PI1 ・EZU-ST5 ・EZU-EK25 ・EZU-CW4 ・EZU-DA1 SCSI Printer MOD（USB） BW Printer Color Printer ・EZU-MO1...
Page 8 １.4 Peripheral Device Table 1.4-1 Recommended Peripheral Devices Manufacturer’s model, type Peripheral device Manufacturer NTSC (EIA)* PAL (CCIR)** SONY UP-895MD UP-895CE Black & white printer P90U P90E MITSUBISHI P91E UP-1800MD UP-1800EPM UP-2800P/UP-2850P SONY UP-2900MD/UP- 2950MD UP-21MD Color printer CP700U CP700E MITSUBISHI CP900E CP770DW with SB770(SCSI IF) Polaroid (UK) Ltd.
Page 9: Safety
Section 2 Safety 2.1 Classification of the Equipment Classification of this ultrasound scanner by IEC60601-1 and UL2601-1 is as follows: • Classification by type of protection against electric shock : Class I equipment • Classification by grade of protection against electric shock : Type B and BF equipment (General requirements of medical equipment safety by IEC and UL) 2.2 Cautions in Operating the Equipment For maintenance inspection, refer to [Section 14 Maintenance and Checkup] of the Instruction...
Page 10: Symbols
2.4 Symbols IEC establishes symbols to be used for the equipment. The following symbols are used outside and inside the equipment. Defibrillator-roof TYPE BF EQUIPMENT 2 - 2 8 L1E-EA0229...
Page 11: Operation
Section 3 Operation 3.1 General Operation Refer to the Instruction Manual. 3.2 Special Operation for Service Personnel NOTE: 1) In the following sentences, “click” means placing the arrow pointer onto the object and pressing the ENTER key. 2) Operations described below are special ones exclusive for the service personnel. Be sure not to open to the users.
Page 12 (5-A) If selecting “Yes” from “Reset Menu” and clicking the “OK” button, all the setup data is reset to those when shipped from the factory and the system is rebooted. NOTE: Time data is retained. （５−Ａ）（５−Ａ）（５−Ａ）（５−Ａ） (5-B) If clicking “Cancel”...
Page 13: Contents Of Backup Data
3.2.2 Contents of backup data （１）（１）（１）（１）（２）（２）（２）（２）（１３）（１３）（１３）（１３）（３）（３）（３）（３）（１４）（１４）（１４）（１４）（１５）（１５）（１５）（１５）（４）（４）（４）（４）（１６）（１６）（１６）（１６）（５）（５）（５）（５）...
Page 14 （１９）（１９）（１９）（１９） VCRSelect the type of VCR to be connected. Printer Select print time of the black/white video printer to be connected. Application Set application data. Measure Set a measurement method, measurement item and so on. Annotation Register the hospital name. Print/REC Select the recorder to be remotely controlled when clicking the print key and REC key.
Page 15 (16) Key click Select sounding a beep or not when clicking a key. (17) Logo Mark Select displaying characters of “HITACHI” at the upper left of screen or not. (18) Foot SW Select the foot SW. (19) Screen Saver Set the screen saver functions.
Page 16: Saving Backup Data
3.2.3 Saving backup data Select “Backup data” in “Setup” of “Main Menu”. Select “Copy” in “Backup data”. （２）（２）（２）（２）（１）（１）（１）（１） The following message appears. Set the CD-RW disk to the CD drive and click the “OK” button.
Page 17: Loading Backup Data
3.2.4 Loading backup data * Note that this operation deletes backup data saved in the system. Select “Backup data” in “Setup” of “Main Menu”. Select “Install” in “Backup data”. （２）（２）（２）（２）（１）（１）（１）（１） The following message appears. If the backup data is to be installed, click the “Yes”...
Page 18 Reading of backup data is performed, and equipment will be rebooted, if the O.K. button is clicked, since the message of the following figure is displayed after a while. Reading of backup data is an end after a reboot Note:　This case has time in equipment starting depending on the contents of backup data. This case has time in equipment starting depending on the contents of backup data.
Page 19: Displaying Software And Hardware Versions
3.2.5 Displaying software and hardware versions Start “Service Tools”. Refer to 3.2.1 (1), (2) and (3). Click the “Version” button in “Service Tools”. （２）（２）（２）（２） Versions are displayed as shown below: Software version Hardware version NOTE: “Not connected” in hardware version indicates no the board installed in the equipment.
Page 20: Action To Be Taken When The Hard Disk Crashes
The action to be taken in the two cases mentioned above will be described in the following subsections. 3.2.6.2 Preparation before the action Prepare the following media supplemented to EUB-5500. 1) EUB-5500 System CD (CD-R) Needs to start Recovery Medium and includes HDD recovery tools. Also, directly it can run the ultrasound scanner in place of HDD.
Page 21 (1) During the boot phase. A white bar will appear on the screen indicating that the unit is booting from the System CD when displaying HITACHI Logo mark. (2) When the start screen appears, ( Approximately 5 Mins ) depress “Ctrl + Alt + E” key This operation needs to be executed just when the start screen is displayed.
Page 22 (3) Explorer of Windows XP Embedded is started ( Approximately 2 Mins ) and the file directory in System CD is displayed as below. Install Folder Install Folder Install Folder Install Folder System CD System CD System CD System CD C drive: System CD: XP Embedded operating system and ultrasound program and Install program.
Page 23 (4) Open the “Install” folder on the CD and double click “shortcut of diskmgmt.exe” (C:/Install/diskmgmt.exe) A dialog “Computer Management” appears. (5)Check that the HDD is partitioned as below. Partition 1: D = 4GB(4,096MB, and primary area) NTFS: ( XP Embedded operating system and ultrasound program ) Partition 2: F = The other is expand Logical area NTFS: ( Ultrasound work area ) Format partition D drive and actives.
Page 24 (6) Press the “OK” button. (7) Check below, and then press the “OK” button. The file system is set the NTFS. The Allocation unit size is set the Default “Perform a quick format” is not checked. (There is no mark in check box) “Enable and folder compression”...
Page 25 (9)Double click “EUBsys.exe” in Install folder, and then automatically create XP Embedded operating system image. (10) Copy “Eub-us” folder from CD (C:/Install) to HDD partition D. 3 - 15 L1E-EA0229...
Page 26 (11) Press “Ctrl + Alt + Del” and select “Shutdown” Windows Security Log on information Shut down (12) Select the “shut down” and click the OK button. (13) Push the STBY SW after shutdown and start the system. ...
Page 27 (14) When the start screen appears, ( Approximately 5 Mins ) depress “Ctrl + Alt + E” key Explorer of Windows XP Embedded is started. ( Approximately 2 Mins ) Check the drive letter of CD drive. NOTICE: If it is not “H” , change the draive letter to “H” NOTICE: If system setting change is displayed ,select the “No”...
Page 28 (16) Move the cursor to D drive on disk0 . press undo key and click the “Change drive letter and Paths..”. (17) Click the “Change “ button. (18) Select the “F” from list and click the “OK” button 3 - 18 L1E-EA0229...
Page 29 (19) Click the “Yes” button. (20) Click the “Yes” button and continue assignment of drive. (21)Confirm the drive letter is changed from D to F. Close the dialog by clicking (22) Shut down in accordance with (11)(12). Procedure to repairing has been completed now. After this, the ultrasound scanner can be started as usual.
Page 30 If following dialog is displayed during re-booting up , select the “Yes”. 3.2.6.4 Action to be taken when harddisk crashes In case of Hard (HDD) crash, it is necessary to require the new HDD from factory and change it, and install all software to the HDD. It can be used the ultrasound system by attached System CD still sending the new HDD from factory.
Page 31 (1) Power on the ultrasound equipment. (2) Immediately insert System CD into the ultrasound scanner’s CD drive when displaying HITACHI Logo mark. (3) Displaying ultrasound boot up image and start up the equipment. Note1: In case of starting up System CD, it cannot be used the optional function (ex.
Page 32 (5) A dialog “Computer Management” appears. (6) Move cursor to Disk0 area and press UNDO key, then appear the followings dialog and select “New Partition…” and press ENTER key. Note: Not recognized still making partition and logical drive. (7) Click “Next>” button. 3 - 22 L1E-EA0229...
Page 33 (8) Recognized item of “Primary partition” and click “Next>” button. (9) Input “4096” (MB) for primary partition size and click “Next>” button. (10) Recognized “D” for drive letter and click “Next>” button. (11) Setting item as followings and click “Next>” button. Set File system to NTFS.
Page 34 (12) Click “Finish” button. (13) Start D drive formatting and finish to 100%. (14) Move cursor to D drive and press UNDO key, and select “Mark partition as Active” on menu. (15) Displaying “Active” mark to D drive. 3 - 24 L1E-EA0229...
Page 35 (16) Move cursor to Disk0 unallocated area and press UNDO key, and select “New partition…” on menu. (17) Click “Next>” button. (18) Select “Extended partition” and click “Next>” button. (19) Click “Next>” button. (Partition size is max.) 3 - 25 L1E-EA0229...
Page 36 (20) Click “Finish” Button. (21) Create the free space in the back of D drive. (22) Move cursor to the free space area and press UNDO key, and select “New logical drive” on menu. (23) Click “Next>” button. 3 - 26 L1E-EA0229...
Page 37 (24) Select Logical drive and click “Next>” button. (25) Click “Next>” button. (Logical drive size is max.) (26) Recognized “F” for drive letter and click “Next>” button. (27) Set item as followings and click “Next>” button. Set File system to NTFS. Set allocation unit Default.
Page 38 (34) Quite power off and power on ultrasound equipment, and start up it. When displayed bios image of HITACHI logo, immediately take off the System CD by using eject button in front of CD-R/RW drive. After ejected the System CD, closed CD-R/RW tray by using the eject button again.
Page 39 A drive: Floppy Disk drive C drive: XP Embedded operating system and ultrasound program D drive: MO Disk drive (Option) F drive: Ultrasound work area H drive: CD-R/RW Disk drive Note1: If the drive letter of device were different, change to correct drive letter by using C:/Eub-us/Tools/diskmgmt (shortcut) Note2: If displaying dialog of restart up or not, then select “no”...
Page 40: Others Of "Service Tools
3.2.7 Others of “Service Tools” Functions of (1) ~ (11) of “Service Tools” shown in the figure below: “Guide line” : Refer to the TECHNICAL GUIDE (Installation). “Color Bar” : Refer to the TECHNICAL GUIDE (Installation). “G-Scale” : Refer to the TECHNICAL GUIDE (Installation). “Diagnostic tests”...
Page 41 3.2.6 Displaying the error log. (1) Start the “Service tool” .(Refer to 3.2.1 (1),(2),(3). (2) Click the Event Viewer button in dialog of service tool. (3) Select the Application to display the Application log of EUB application software. (Refer to following) (4) The following list show the kind of application log.
Page 42 4099 Error Backup error. 12289 Error No Dus file of the probe selected. 12290 Error Dus file decompression failed. 12291 Error Dus file error. 12292 Error BWDSC file loading error. 12293 Error CFMDSC file loading error. 12294 Error DCFM file loading error. 12295 Error DDOP file loading error.
Page 43 20523 Error USSYNC RAM data is wrong. 20524 Error STCW PCB configuration error. 20673 Error WinDriver open werror 20674 Error EPI PCB is not Connected 20675 Error EPI : Open error. 20676 Error EPI : Boot error 28677 EPI : DCM error Error 28678 PRB : Config error.
Page 44 ３．２．７．２ Executing check program, Start “Service Tools”. --- See 3.2.1 (1), (2) and (3) (1) Start “Service Tools”. --- See 3.2.1 (1), (2) and (3) (2) The following functions are available as check programs. (3) RAM　Tesｔ１） A function to check if the memory that is an important component of each PCB works normally 2) Pattern　Test A function to check if any PCB is faulty by inserting test patterns into plural points in...
Page 45 　　　１）　RAM Test Click the “Execute” button to check the memory. Boards to be checked are DBF, EPI, MAP1 and MAP2 PCB. The result of memory check is displayed as “SUCCESS” or “FAILURE”. After executing memory check, if clicking each button in “Diagnostic Tests” and “Close” button in “Service Tools”, the following message is displayed.
Page 46 he image mode in advance. button action recommended mode Fixed Displaying gradation pattern B mode Lattice Displaying the lattice pattern. B mode Moving Displaying the moving an axial B mode beam on US image. Or the test pattern for a scan is displayed every [ which was defined ] number of scan.
Page 47 NOTICE: After completing the check, close the dialog and click the “Close” button in “Service Tools” to display the following message. To return to the normal imaging mode, the system needs to be freeze ON/OFF. Above action is needed every transmission or reception check 　　　　...
Page 48 The following details display and operations: ① CH slide bar ② Status display ⑤ Close button ④ Reception 1 ch button ③ Transmission 1ch button Item Explanation Selects No. of any element to be checked. No. of the element thus ①　CH slide bar selected is displayed as the Elem.
Page 49: Cautions In Replacing Pcb
When replacing the EPI PCB, be sure to turn off the breaker switch located at left side of the system. EUB-5500 is numbered as individual ID number for each system, and this ID number is recorded in ID chip which is equipped on the EPI PCB. (Location on the PCB C8 : Refer to the figure below.)
Page 50: Backup Battery
3.2.9 Backup battery EUB-5500 is provided with the backup battery inside the equipment, which backs up data such as date and time and so on. The life of this battery is about three years, but it may differ according to usage of the equipment.
Page 51 3.2.10 Replacing the backup battery (1) Remove the covers. (2) Disconnect cables, loose M4 screws and withdraw the PC unit. (3) Replace the battery and restore the cables and covers to their original positions. (The battery may be replaced without removing the monitor.) PC unit M4 screw Battery...
Page 52: Principle Of Operation
★ mounted on PCB, and FPGA or DSP is configured (programmed) during reset period after booting the system. 4.2 Basic Composition of EUB-5500 4.2.1 General and board description Composition: PCBs and units composing the basic part of EUB-5500 are listed below: 1. PC unit 2. KB & KBIF 3. PRBSW unit 4. DBF 5.
Page 53 2. KB & KBIF Interfaces each key and switch on the control panel with the PC unit. Also controls turning on LED. 3. PRBSW A section to interface with the probe, which corresponds to the transmitter/receiver of ultrasound scanner. PRBSW gives high voltage pulse to the transducer for driving it, as well as amplifies echo returned from body tissue.
Page 54 KB ＆ＫＢＩＦ SERIAL MOUSE PC Keyboard SCSI EUB Key CARD SCSI PRINTER BASIC NETWORK,DICOM OPTION Fig. 4.1.1 Fig. 4.1.1 Fig. 4.1.1 Fig. 4.1.1　　　　 EUB- EUB- EUB- EUB-5500 5500 5500 5500 BLOCK BLOCK BLOCK DIAGRAM BLOCK DIAGRAM DIAGRAM DIAGRAM...
Page 55: Prbsw Unit Circuit Description
1. PROBE CONNECT (Probe connector block) ( PRB PCB ) Interfaces with the probe. EUB-5500 can connect three probes. 2. SEL_SW & RELAY (High voltage SW and relay block to switch the vibrator) ( PRB PCB ) A circuit to connect 48CH of transducer elements for transmit/receive out of maximum 192CH of transducer elements with the transmit/receive circuit system.
Page 56 PROBE CONNECT RELAY SEL_SW PROBE ＲｅｃｅｉｖｅＳｉｇｎａｌ CONNECT T/R DIV PREAMP R_FIR Ｔｏ DBF PROBE SEL_SW CONNECT T_AMP Transmit wave signal From DBF Fig. 4.2.1 Fig. 4.2.1 Fig. 4.2.1 Fig. 4.2.1 PRBSW PRBSW PRBSW PRBSW unit unit unit unit Block Diagram Block Diagram...
Page 57: Dbf Pcb Circuit Description
4.2.3 DBF PCB circuit description DBF PCB is divided into the following 4 blocks. 1. Digital Beam Former ASIC (Transmit/Receive beam forming block ••• ASIC) Generates transmit wave signals based on ultrasound transmit focus data. Also, beam-formes received signals based on receive focus data then demodulates them and outputs to EPI PCB as complex signal of I and Q.
Page 58 PRBSW Serial I/O TGC Control Controller DBF sPCI Bus (to AWP) (from EPI) ASIC Controller SRAM for Mixing SRAM SRAM SRAM SRAM SRAM SRAM SRAM ・・・・・・・・ Receiving Receiving Receiving Transmission Receiving Transmission Receiving Digital Digital Digital Digital Digital ・・・・・・・・ DBF_I,Q Beam Beam Beam...
Page 59 4.2.4 EPI board circuit explanation EPI Board consists of next 14 blocks. 1. P/S Conv.（Parallel Serial Conversion） The Parallel complex data from DBF Board is converted to Serial complex data in this block. 2. LPF （Low Pass Filter） Filter processing of the complex data from PS Conv Block is carried out by this LPF. 3.
Page 60 10. PCI Bridge It connects EPI Board to the PCI bus of the system PC section. 11. sPCI Bridge It connects EPI Board to the DBF and BIO Board by sPCI Bus. Therefore, port I/O of their Board can be accessed from PC. 12.
Page 61 FPGA FPGA FPGA FPGA from DBF to MAP USRF-I Digital (Fujinon Data) TCIA Decim TCI I/F Conv. -TGC USRF-Q TCIB from MAP Sound Data (I US-Scan Controller 125MHz TCI header TCI header TCI header TCI header Clock Generator OSC. Audio to SP US-Sync Sig Sel...
Page 62: Map Pcb Circuit Description
. 4.2.5 MAP PCB circuit description 4.2.5.1 General Description MAP PCB is divided into the following 6 blocks. These 6 Blocks are processed by four MAPs (Media Accelerated Processor) carried in two MAP PCBs. BW Echo Processing Video Board BWDSC Doppler Calculation From...
Page 63 5. CFMDSC This block performs image processing such as smoothing and SCC to CFM data, and constructs a CFM image data by Scan Conversion. 6. BWDSC This block performs image processing, such as Enhance and SCC to monochrome data, and constructs a monochrome image data by Scan Conversion.
Page 64 4.2.5.3 Doppler Calculation A processing flow is shown in the following Decimation １． Decimates complex data ２． Removes low frequency signal components from Doppler data Wall Filter by high pass filter. Gain Control ３． Amplifies and attenuates Doppler data. ４． Converts Doppler sound data into I S（Inter IC Sound）...
Page 65 4.2.5.4 Color Doppler Calculation A processing flow is shown in the following MTI Filter １． Removes unnecessary low velocity signal components form body tissue structure such as cardiac wall. Blood Flow Calculation ２． Calculates complex signal of velocity of body tissue motion Body Tissue Velocity (R &...
Page 66 4.2.5.6 CFMDSC A processing flow is shown in the following CFM Data Smoothing １． Applies smoothing process by median filter or Convolution filter ２． Applies frame correlation process. Cine Cine I/F Memory Data Selector ３． Interfaces with Cine Memory. (Velo/Abs or Velo/Vari) Scan Conversion ４． Selects two data from velocity data, velocity variance data and reflection intensity data according to color map.
Page 67 4.2.5.7 BWDSC A processing flow is shown in the following BW Data Dop Data Data Select & Enhance １． Selects monochrome data or Doppler data and applies enhance process. ２． Applies frame correlation process. Cine Cine I/F Memory ３． Interfaces with Cine Memory. Scan Conversion ４． Constructs a monochrome image data by Scan CFM Image Data...
Page 68: Kb & Kbif Pcb Description
4.2.6 KB & KBIF PCB description 4.2.6.1 KB Provides appropriate keystroke, key click and illumination by backlight LED as an control panel of rubber sheet. Two types of red and green LED. Turned ON/OFF according to the key status. Key switch Depressing the key switch outputs ON and releasing it outputs OFF signal.
Page 69 Transmits data detected by key scan (OADG standard keys) to the system. RS232C serial interface Communicates with the system via the RS232C serial interface to acquire a control command for the supplementary function section. Transmits data detected by key scan (exclusive keys for EUB), rotary switch scan, rotary encoder scan, slide variable resistor scan, etc.
Page 70 COM1 RS232C CN61 CN62 KEYBOARD CNK1 CNK1 CN62 CN63 MOUSE CN63 CN80 CN80 CNK2 CNK2 KBIF PCB Fig. 4.2.5 Fig. 4.2.5 Keyboard Unit Block Diagram Fig. 4.2.5 Fig. 4.2.5 Keyboard Unit Block Diagram Keyboard Unit Block Diagram Keyboard Unit Block Diagram 4 - 19 L1E-EA0229...
Page 71: Bio Unit Ezu-Ek25
BIO Unit EZU-EK25 4.3.1 General and board description : EZU-EK25 is an option of EUB-5500 and consists of the following Composition PCB. BIO PCB Outline of PCB : The PCB executes amplification and filter process of ECG signal, and controls for display on the monitor.
Page 72 12. Heart rate counter Counts the time between R-wave and next R-wave of ECG waveform and read its counted value with CPU to measure the heart rate value. 13. Time-stamp controller Controls the signal showing the time which synchronized with US Image, and makes Time-stamp data in accordance with the timing of ECG data creation.
Page 73 ECG R-Trig R-WAVE Detector （5) ECG signal ECG（３CH) Instrumentation Amplifier Volume Filter Amplifier （4) （2) （1) （3) 図４図４図４図４..３３３３ ..１１１１ BIO P.C.B. Block Diagram BIO P.C.B. Block Diagram BIO P.C.B. Block Diagram BIO P.C.B. Block Diagram 1 1 1 1...
Page 74 ECG（３CH) 　Analog part convert （6) ＦＰＧＡ To R-trig R-Trig control USB D+/D- （8) Digital Filter USB data generation （7) （14) SYNC1/2 SYNC1/ control （11) Clock Delay Heart late signal Heart late counter generation control （9) （10) （12) Time Stamp signal Time Stamp control circuit （13)
Page 75: Steerable Cw Doppler Unit Ezu-St5
Steerable CW Doppler Unit EZU-ST5 4.4.1 General and board description : EZU-ST5 is an option of EUB-5500 and consists of the following Composition PCBs. CW PCB Outline of PCB : This is for steerable CW Doppler by sector probe. CW PCB carry out phase arrangement, addition, demodulation and filter process.
Page 76: Cw Doppler Unit Ezu-Cw4
4.5 CW Doppler Unit EZU-CW4 4.5.1 General and board description : EZU-CW4 is an option of EUB-5500 and consists of the following Composition PCB. CW PCB Outline of PCB : This is for CW Doppler by single piece probe, and carries out transmission and reception, demodulation and filter process of Doppler signal.
Page 77 T_CWS<23..0> STCW<23..0> TRANSMITTING (From DBF) BUFFER MIXER USRF_I <23..0> HIGH PASS HIGH PASS (To EPI) FILTER FILTER PREOUT ANTI ANALOG <23..0> GAIN ALIASING WALL MIXER (From AWP ) FILTER FILTER HIGH PASS HIGH PASS USRF_Q FILTER FILTER <23..0> (To EPI) LO GENERATOR LO_I CONTROL...
Page 78: Power Unit
Section 5 Power Unit 5.1 General and Circuit Description Composition: EUB-5500 power is composed of the following units. HM-071C : Main power unit. HM-071K : DC-DC converter unit. Power unit circuit description: 1. LINE FILTER (Line filter block) Removes noise on the AC line.
Page 79 FILTER BＯＡＲＤ MAIN CONVERTOR DC BOARD HM－－－－ 071C 071C 071C 071C LINE INPUT MAIN CONVERTOR AC BOARD LINE FILTER PFC CIRCUIT CIRCUIT_ MAIN　CONVERTER BREAKER Analog HV Unit / CIRCUIT(DC) Analog LV Unit HM－－－－ 071K 071K 071K 071K...
Page 80: Power Unit Connectors
5.2 Power Unit Connectors HM-071C : CN1 : Connector for the circuit breaker. CN2 : DC output connector for the analog unit (high-voltage). CN3 : DC output connector for the analog unit (low-voltage). CN4 : DC output connector for the digital unit. CN5 : Connector to switch over AC input voltages.
Page 81 Connector Pin No. Signal name Output Remark voltage +6.0 Output for AWP PCB Output for AWP PCB ‐6.0 +12Vp +12V Output for PRB PCB and AWP PCB -12V Output for AWP PCB ‐12Vp +75V +75V Output for AWP PCB +75-GND +12Var +4.5〜+12V Controlled by STVC (5bit) of CN3.
Page 82 Connector Pin No. Signal name Output Remark voltage +12V +12V +12V-GND Output for HM-071K A2、A3、B3 +30V +30V A4、B2、B4 +30V-GND Output for PC and HM-071K. +5VSB Stand-by power of PC P-CONT − PROTECT Protection signal − Connector Input voltage Connection 100Ｖ/220V A1-B2, A2-B1 short 110Ｖ/230V A1-A3, A2-B1 short 120Ｖ/240V A1-B3, A2-B1 short Connector...
Page 83 HM-071K Signal name Output Remark GND (PCB terminal voltage terminal connector connector) 1a〜1e +12V-GND 2a〜2e 3a〜3e +12V 12a〜12e 5a〜5e 14a〜14e +30V-GND ↓ 16a〜16e 7a〜7e 18a〜18e 9a〜9e 20a〜20e +30V ↓ ↓ 11a〜11e 26a〜26e 13a〜e +5VSB ‐ 31a〜31e P-CONT ↓ PW-OK 38a〜38e PROTECT 43a〜43e 27a〜27e...
Page 84 HM－－－－ 071C 071C 071C 071C LINE INPUT HM－－－－ 071K 071K 071K 071K From/To Circuit Breaker To US-UNIT To US-UNIT To US-UNIT To US-UNIT PCB TERMINAL Input Voltage PRB PCB Select AWP PCB AC OUTLET CW PCB To MONITOR DBF PCB...
Page 85 Table Table 5.1 Table Table Table of Power Supplies by Unit and PCB Table of Power Supplies by Unit and PCB Table of Power Supplies by Unit and PCB Table of Power Supplies by Unit and PCB HM-071K(digital unit) HM-071C（analog low-voltage unit） HM-071C（analog high-voltage unit）...
Page 86: Monitor Unit
Section 6 Monitor Unit 6.1 Composition The EUB-5500 monitor consists of the following unit. EZU-MT24-S1 6.2 Specification (1) Signal input impedance : 75Ω terminated (2) Maximum gain : 32dB or more (with maximum contrast) (3) Frequency characteristic : 60Hz ~ 30MHz (±3dB)
Page 87 Display : See below Standard Standard When displaying external When displaying external When displaying external When displaying external Standard Standard TV signal TV signal TV signal TV signal 640×480 800×600 NTSC Horizontal 260±4mm 258±4mm 260±4mm 257±4mm Vertical 195±3mm 193.5±3mm 195±3mm 193±3mm (10) Input signal level: See below.
Page 88 Standard R.G.B. “H” (TTL level) SYNC “L” Displaying external TV signal R.G.B. SYNC Fig. 6.1 Fig. 6.1 Fig. 6.1 Fig. 6.1 Input Signal Level Input Signal Level Input Signal Level Input Signal Level HORIZONTAL VERTICAL Fig. 6.2 Fig.
Page 89: Installation
6.3 Installation 6.3.1 Cautions in installing the monitor Convergence of the color monitor is affected from external induction magnetic field. Avoid installing the equipment in any region where induction magnetic field exists. Also observe the following cautions to obtain stable performance for a long period of time. (1) Ventilation To obtain stable performance for a long period of time, keep temperature inside the cabinet below 50ºC.
Page 90: Cautions For Safety
To remove this dust periodically, use soft cloth moistened with silicone type glass cleaner. Never use thinner or the like instead of the cleaner. 6.3.2 Cautions for safety NOTE: Observe all the cautions and notices concerning safety labeled on the chassis or CRT. Hazardous voltage exists in the monitor.
Page 91: Main Board (Avb401)
The 3-beam electron gun is arranged in line, so section of three electron beams is arranged in line horizontally. Three electron beams emitted from the electron gun are deflected to scan whole fluorescent screen. Electron beam is blocked off by the shadow mask and hits fluorescent material only corresponding to each color when it passes through the hole.
Page 92: Video Board (Avb411)
High voltage is adjusted by VR105, and stabilized by switching of transistor (Q120) and control circuit (IC108). If high voltage increases abnormally in any trouble, the high voltage protection circuit (IC107) controls high voltage to reduce +B voltage, and stops switching of the horizontal AFC circuit (IC110) to stop output.
Page 93: Socket Board (Avb421)
6.4.4.3 NTSC/PAL signal detection circuit Converts frequency of NTSC (fv: 60Hz) and PAL (fv: 50Hz) to voltage by the F/V converter (IC301), and compares the voltage by the comparator (IC302) to output switchover signals. 6.4.4.4 Degauss control circuit The degauss switch is a momentary type. Once it is pressed, degaussing is kept for about 10 seconds.
Page 94: Block Diagram
6.4.8 Block diagram 6 - 9 L1E-EA0229...
Page 95: Adjustment
6.5 Adjustment 6.5.1 List of adjusters Front controller (AVB431) Name Name Name Name Polarity Polarity Polarity Polarity Function Function Position Position Remarks Remarks Function Function Position Position Remarks Remarks (clockwise) (clockwise) (clockwise) (clockwise) Device No. Device No. Symbol Symbol Device No. Device No.
Page 96 VIDEO board (AVB411) Name Name Name Name Polarity Polarity Polarity Polarity Function Function Function Function Position Position Position Position Remarks Remarks Remarks Remarks (clockwise) (clockwise) (clockwise) (clockwise) Device No. Device No. Symbol Symbol Device No. Device No. Symbol Symbol Raises VR300 B CUT OFF Rear...
Page 97: Vr Adjuster Layout
6.5.2 VR adjuster layout Front controls CONTRAST VR POWER ON LED (VR2) BRIGHTNESS VR (VR1) Layout of Front Control VR 6 - 12 L1E-EA0229...
Page 98 Upper controls P120 (VR100) H-HOLD (VR106) (Fixed with adhesive) (Fixed with adhesive) MAIN BOARD HV. ADJ (VR105) (AVB401) (Fixed with adhesive) SPC (VR104) FUSE (F100) WIDTH 2 (VR102) TRIP (VR103) WIDTH 1 (VR101) (Fixed with adhesive) Layout of Upper Control VR 6 - 13 L1E-EA0229...
Page 99 Rear controls R DRIV (VR304) G DRIV (VR305) B DRIV (VR306) SUB BRT (VR303) R CUT OFF (VR302) G CUT OFF (VR301) B CUT OFF (VR300) DEGAUSS SW (SW300) VIDEO board SUB CONT (AVB411) (VR308) F/V. ADJ (VR307) (Fixed with adhesive) Layout of Rear Control VR 6 - 14 L1E-EA0229...
Page 100 Side controls CONTROL board (AVB451) FOCUS SCREEN Layout of Side Control VR 6 - 15 L1E-EA0229...
Page 101: Troubleshooting
6.6 Troubleshooting Protection and Installation Internal adjustment Failure adjustment function Troubleshooting Find any failure from Adjustment is not correct. the column below. Follow along the line right where marked with “○” and then follow upward to find suspected cause and action to be taken described in the upper columns.
Page 102: Removing The Cover
6.7 Removing the Cover Remove M4×10 screws ① (4 locations). Withdraw the cover② backward to detach it. 6 - 17 L1E-EA0229...
Page 103: Detaching And Attaching The Filter
6.8 Detaching and Attaching the Filter Filter Bezel Slot (small) Slot (small) Slot (large) To protect the filter from wrong insertion 6.8.1 Detaching the filter Slide the filter to the right A gap appears between the bezel and filter 6 - 18 L1E-EA0229...
Page 104 While curving the filter, take the projections (2 locations) at the right side of filter out of the slots of bezel to detach the filter. Slot Slot 6.8.2 Attaching the filter Set the filter so that the projections of filter (large) come to the lower right facing to the bezel.
Page 105: Connector Arrangement
Section 7 Connector Arrangement 7.1 Connector Arrangement Fig 7.1.1 shows external appearance of the CN panel. Fig 7.1.2 shows connector arrangement of the overall system. Fig 7.1.1 CN panel 7 - 1 L1E-EA0229...
Page 106: Connection Of Cn Panel Connectors
Fig 7.1.2 Connector arrangement 7.2 Connection of CN panel connector CN No. PIN No. Signal Name From/To Remark F-FREEZE To KBIF FOOT SW F-SHUTTER CN42 7 - 2 L1E-EA0229...
Page 107 CN No. PIN No. Signal Name From/To Remark F-FREEZE To KBIF FOOT SW F-SHUTTER DOP out F From EPI DOP out R VCR_FWD DOP in F To EPI VCR_REV DOP in R B_OUT RGB-VIDEO OUT(B) From VIDEO G_OUT RGB-VIDEO OUT(G-sync) VBSOUT C-VIDEO OUT From VIDEO...
Page 108 CN No. PIN No. Signal Name From/To Remark SP_OFFSET2 SP_OFFSET1 Not used SP_OFFSET0 SP_RENC SP_RENCZ SP_LENC To EPI SP_PULL SP-711UA control SP_LAREA SP_FRQ1 To EPI SP_FRQ0 SP_SPEED1 SP_SPEED0 From EPI SP_UNITON* VCR_VSEL1* To DBF VCR_VSEL0* VCR_SM2* VCR_SM1* VCR_SM0* From DBF VCR_STOP* CN13 VCR_FSFT*...
Page 109: Termination Of Video Signals
7.3 Termination of Video signals In EUB-5500, video terminals for the monitor and printer are independent each other. Therefore, every terminal should be terminated when connecting the video device. 7 - 5 L1E-EA0229...
Page 110: Signal List
Section 8 Signal List EUB-5500 Basic Unit 8.1.1 PRB PCB (PRBSW) Signal Name Terminal No. IN/OUT From/To Description SNSRT PRB‑26C Voltage level of temperature detection for MPTEE AWP‑26B Voltage level of angle detection for MPTEE AWP‑26A Voltage level of angle detection for MPTEE 5VUS AWP‑26D +5V supply for MPTEE DBF̲PRB̲D DBF‑113D DBF to PRBSW serial data PRB̲LCK DBF‑111D PRBSW I/O latch clock. PRB̲DBF̲D DBF‑114D PRBSW to DBF serial data. PRB̲CK DBF‑112D PRBSW I/O serial clock.
Page 111 Signal Name Terminal No. IN/OUT From/To Description 25 AD̲ANGLE* AWP‑23E Select signal for AD converter input. Voltage level of angle detection is selected. 26 AD̲0V* AWP‑24B Select signal for AD converter input. GND voltage level is selected. 27 AD̲THERM* AWP‑24D Select signal for AD converter input. Voltage level of temperature detection is selected. 28 ADJCNT<1..0> 27B,27D AWP‑25B,25D Select AD̲ADJUST̲RETUERN signal (PTGC ATGC voltage) 29 TDO̲PRB CNF3‑11 JTAG Signal (Not used) 30 TCK̲PRB CNF3‑1 JTAG Signal (Not used) 31 TDI̲COM CNF3‑4 JTAG Signal (Not used)
Page 112: Awp Pcb
8.1.2 AWP PCB (PRBSW) Signal Name Terminal No. IN/OUT From/To Description T<47..0> 58E,58C,58A,57D, DBF‑ Ultrasound Transmit Signal 57B,56E,56C,56A, 23C〜23A, 55D,55B,54E,54C, 22E〜22A, 54A,53D,53B,52E, 21E〜21A, 52C,52A,51D,51B, 20E〜20A, 50E,50C,50A,49D, 19E〜19A, 49B,48E,48C,48A, 18E〜18A, 47D,47B,46E,46C, 17E〜17A, 46A,45D,45B,44E, 16E〜16A, 44C,44A,43D,43B, 15E〜15A, 42E,42C,42A,41D, 14E〜14A 41B,40E,40C,40A ADIN̲N<47..0> 111C〜111A, DBF‑ Ultrasound Reception 108E〜108A, 86B,84E,84C,84A, Signal 105E〜105A, 82D,82B,80E,80C,...
Page 113 Signal Name Terminal No. IN/OUT From/To Description STCW̲N<23..0> 80D〜80A, CW‑ Steerable CW Reception signal 77E〜77A, 29D〜29A, 74E〜74A, 26E〜26A, 71E〜71A, 23E〜23A, 68E〜68A 19E〜19A, 16E〜16A STCW̲P<23..0> 81D〜81A, CW‑ Steerable CW Reception signal 78E〜78A, 30D〜30A, 75E〜75A, 27E〜27A, 72E〜72A, 24E〜24A, 69E〜69A 20E〜20A, 17E〜17A PTGCCNT̲N1 DBF‑88D Pre‑attenuater control (10V Differential Negative Pole). PTGCCNT̲P1 DBF‑89D Pre‑attenuater control (10V Differential Positive Pole) ATGCCNT̲N1 DBF‑88E Analog‑TGC control (10V Differential Negative Pole).
Page 114 Signal Name Terminal No. IN/OUT From/To Description 22 AD̲MP5V* PRB‑25C Select signal for AD converter input. MPTEE supply voltage is selected. 23 AD̲ANGLE* PRB‑25E Select signal for AD converter input. Voltage level of angle detection is selected. 24 AD̲0V* PRB‑26B Select signal for AD converter input. GND voltage level is selected. 25 AD̲THERM* PRB‑26D Select signal for AD converter input. Voltage level of temperature detection is selected. 26 ADJCNY<1..0> 25B,25D PRB‑27B,27D Select AD̲ADJUST̲RETUERN signal (PTGC ATGC voltage) 8 - 5 L1E-EA0229...
Page 115 8.1.3 DBF PCB Signal Name Terminal No. IN/OUT From/To Description T<47..0> 23C〜23A, PRBSW‑ Ultrasound transmit signal 22E〜22A, 58E,58C,58A,57D, 21E〜21A, 57B,56E,56C,56A, 20E〜20A, 55D,55B,54E,54C, 19E〜19A, 54A,53D,53B,52E, 18E〜18A, 52C,52A,51D,51B, 17E〜17A, 50E,50C,50A,49D, 16E〜16A, 49B,48E,48C,48A, 15E〜15A, 47D,47B,46E,46C, 14E〜14A 46A,45D,45B,44E, 44C,44A,43D,43B, 42E,42C,42A,41D, 41B,40E,40C,40A ADIN̲N<47..0> 86B,84E,84C,84A, PRBSW‑ Ultrasound Reception Signal 82D,82B,80E,80C, 111C〜111A, (Differential voltage output) 80A,78D,78B,76E, 108E〜108A, 76C,76A,74D,74B,...
Page 116 Signal Name Terminal No. IN/OUT From/To Description DBF̲BEAM1* 113B CNF1‑97 Not used DBF̲RSTART* 113C CNF1‑99 Reception Start Signal CWSYNC* 112A CNF2‑21 Not used CK32ON 139C CNF2‑23 Not used 10 DBFCONFDONE 138D CNF2‑27 DBF FPGA config. Done signal 11 DMAFC<2..0> 128D,129D,129E CNF2‑33,35,37 DMA function control number 12 ADJ̲YSYNC* 121E CNF2‑45 DBF Ysync adjustment 13 DBF̲YSYNC* 122E CNF2‑47 DBF Ysync 14 LCK 122D...
Page 117 Signal Name Terminal No. IN/OUT From/To Description 47 TRDIV̲P 107E PRB‑16A Trans/Receive switch control (LVDS Positive Pole). 48 BCLK̲N 110E PRB‑15E 128ns PRBSW clock (LVDS Negative Pole). This stops at reception timing. 49 BCLK̲P 109E PRB‑16E 128ns PRBSW clock (LVDS Positive Pole). 50 CWEN̲N 112E PRB‑17D Steering CW mode (LVDS Negative Pole) 51 CWEN̲P 111E PRB‑18D Steering CW mode (LVDS Positive Pole) 52 PTGCCNT̲N1 AWP‑62B Pre‑attenuator control (10V...
Page 118 Signal Name Terminal No. IN/OUT From/To Description 63 FSFT* 149C CNPNL VCR Control Signal CN32‑29 64 VSEL1,0* 148A,147E CNPNL VCR Condition Signal CN32‑27, 26 65 RREW* 147A CNPNL VCR Condition Signal CN32‑24 66 RREC* 147D CNPNL VCR Condition Signal CN32‑21 67 RFF* 147B CNPNL VCR Condition Signal CN32‑23 68 RPLAY* 147C CNPNL VCR Condition Signal CN32‑22 69 VCRRSTART* 146C...
Page 119: Epi Pcb
8.1.4 EPI PCB Signal Name Terminal No. IN/OUT From/To Description USRF̲I<23..0> CNF1‑ DBF‑ Beamformed Signal(I‑Data) 1,3,5,7,9, 114A,115A,116A, 11,13,15,17,19, 117A,118A,119A, 21,23,25,27,29, 120A,121A,114B, 31,33,35,37,39, 115B,116B,117B, 41,43,45,47 118B,119B,120B, 121B,114C,115C, 116C,117C,118C, 119C,120C,121C, CW‑ 108A,108B,108C, 108D,108E,109A, 109B,109C,109D, 109E,110A,110B, 110C,110D,110E, 111A USRF̲Q<23..0> CNF1‑ DBF‑ Beamformed Signal(Q‑Data) 122A,123A,124A, 51,53,55,57,59, 125A,126A,127A, 61,63,65,67,69, 128A,129A,122B, 71,73,75,77,79, 123B,124B,125B,...
Page 120 Signal Name Terminal No. IN/OUT From/To Description ADJ̲YSYNC* CNF2‑45 DBF‑121E DBF̲Ysync Adjustment DBF̲YSYNC* CNF2‑47 DBF‑122E DBF Ysync YSYNC* CNF2‑49 Ysync CNF2‑51 DBF‑122D Latch Clock. US Beam parameters I latched previous to Y‑SYNC* assertion. FFTSTART* CNF2‑53 DBF‑137C FFT Calculation Start Signal CNAD* CNF2‑55 DBF‑137D CFM Calculation Start Signal SYNCERR CNF2‑63 CN80‑3 Sync Error Signal SP̲SPEED<1..0> CNF2‑65,67 CN8‑35,36 Fujinon Probe Rotation Speed SP̲USTRIG* CNF2‑71 DBF‑118E Fujinon Scan Timing Signal FPGARESET* CNF2‑73...
Page 121 Signal Name Terminal No. IN/OUT From/To Description S̲CBE<1..0>* CNF3‑33,35 DBF‑132B,132C, S‑PCI Local Bus Control Signal BIO‑31A,33A S̲AD<15..0> CNF3‑ IN/OUT DBF‑ S‑PCI Local Bus Data Signal 37,39,41,43,45,47, 132A,133A,134A, 49,51,53,55,57,59, 135A,133B,134B, 61,63,65,67 135B,133C,134C, 135C,133D,134D, 135D,133E,134E, 135E BIO‑ 23C,24C,25C,26C, 27C,28C,29C,30C, 31C,32C,33C,34C, 35C,36C,37C,38C TCICLK CNF6‑1 MAP1,2‑CNF6‑1 TCI Bus 40ns(25MHz) Clock TCISYNC CNF6‑3 MAP1,2‑CNF6‑3 TCI Bus Sync Signal TCIEN CNF6‑5 MAP1,2‑CNF6‑5 TCI Bus Enable Signal TCIERR* CNF6‑7...
Page 122 Signal Name Terminal No. IN/OUT From/To Description CK64DBF̲N CNF4‑19 DBF‑126D DBF 15.6MHz (64nS) Clock. (Negative Pole) CK64BIO̲P CNF4‑23 BIO‑15D BIO 15.6MHz (64nS) Clock. (Positive Pole) CK64BIO̲N CNF4‑21 BIO‑16D BIO 15.6MHz (64nS) Clock. (Negative Pole) PRB̲YSYNC̲P CNF4‑31 PRB‑16C PRB YSYNC* (Positive Pole) PRB̲YSYNC̲N CNF4‑29 PRB‑15C PRB YSYNC* (Negative Pole) CWADCLK̲P CNF4‑39 CW‑114D CW AD Clock (Positive Pole) CWADCLK̲N CNF4‑37 CW‑114E CW AD Clock (Negative Pole) RPWSW+ CNF7‑1 PCMB‑ PCMB Power‑On signal. RPWSW‑...
Page 123: Map Pcb
8.1.5 MAP PCB Signal Name Terminal No. IN/OUT From/To Description TCICLK CNF6‑1 EPI‑CNF6‑1 TCI Bus 40ns(25MHz) Clock TCISYNC CNF6‑3 EPI‑CNF6‑3 TCI Bus Sync Signal TCIEN CNF6‑5 EPI‑CNF6‑5 TCI Bus Enable Signal TCIERR* CNF6‑7 EPI‑CNF6‑7 TCI Bus Error Signal TCIDA<7..0> CNF6‑ EPI‑CNF6‑ TCI Bus Data Signal (I‑Data) 9,11,13,15, 9,11,13,15, 17,19,21,23 17,19,21,23 TCIDB<7..0> CNF6‑ EPI‑CNF6‑ TCI Bus Data Signal (Q‑Data) 25,27,29,31, 25,27,29,31, 33,35,37,39 33,35,37,39 IIS̲SDATA CNF6‑43 EPI‑CNF6‑43...
Page 124: Bio Unit
8.2 BIO Unit EZU-EK25 8.2.1 BIO PCB Signal Name Terminal No. IN/OUT From/To Description 1 SCK̲BIO̲N CNF4‑27 Spci Clock 2 SCK̲BIO̲P CNF4‑25 Spci Clock 3 S̲AD15〜1 23C,24C,25C,26C, IN/OUT CNF3‑ Spci Address Data bus. 27C,28C,29C,30C, 37,39,41,43,45,47, 31C,32C,33C,34C, 49,51,53,55,57,59, 35C,36C,37C,38C 61,63,65,67 4 S̲CBE<1..0> 31A,33A CNF3‑33,35 Byte Enable 5 S̲FRME* CNF3‑27 Spci Cycle Frame 6 S̲IRDY* CNF3‑25...
Page 125: Cw Unit Ezu-St5,Ezu-Cw4
8.3 CW Unit EZU-ST5,EZU-CW4 8.3.1 CW PCB Signal Name Terminal No. IN/OUT From/To Description 1 T̲CWS<23..0> 5D〜5A, DBF‑29D〜29A, Steerable CW Transmission input 4E〜4A, 28E〜28A, Signal 3E〜3A, 27E〜27A, 2E〜2A, 26E〜26A, 1E〜1A 25E〜25A 2 STCW<23..0> 11D〜11A, AWP‑37B, 36E, Steerable CW Transmission output 10E〜10A, 36C, 36A, 35D, Signal 9E〜9A, 35B, 34E, 34C, 8E〜8A,...
Page 126 20 CWSYNC* 103E EPI‑CNF2‑21 Not used. Signal Name Terminal No. IN/OUT From/To Description 21 TCK̲CW 105B EPI‑CNF3‑3 Not used. 22 TDO̲CW 104B EPI‑CNF3‑13 Not used. 23 TMS̲COM 103B EPI‑CNF3‑2 Not used. 24 TDI̲COM 102B EPI‑CNF3‑4 Not used. 8 - 17 L1E-EA0229...
Page 127: Maintenance
Section 9 Maintenance Every day Once a week Once a month Others 9.1 Fan Filter Clean the dust-proof air filter at the air inlet of power unit located at the bottom front of equipment. If the filter is choked, the breaker may be cut off or the power unit may possibly be damaged.
Page 128 4. Monitor Every day Once a week Once a month Others Before cleaning the monitor, turn OFF the power to the main unit and extract the power cable from the power outlet. Use cloth supplemented to the equipment to clean the surface of monitor. Use soft cloth and glass cleaner to wipe off any sticky stains.
Page 129 grip ring ball holder Cleaning of the trackball 9 - 3 73 L1E-EA0173...
Page 130: Section 10 Parts List
Section 10 Parts List 1. CART1 10-1 L1E-EA0229...
Page 131: Cart2
2. CART2 10-4 L1E-EA0229...
Page 132 2. CART2 KEY No. PARTS NO. PART NAME REMARKS 7319017A TOP SHEILED/6500 J839A106 FG CLAMP/6500 7319215E CORE/6500 7511408A MB PCB/5500 7321641A TOP SHASSIS/5500 7312642A BTM SHASSIS/5500 1481564B GUIDE 3.5MM for DBF J8991105 GUIDE 50-6030 7416598A SLD PLATE/6500 7418415A SLD PLATE/5500 7323765A PCB COVER/5500 7416827A...
Page 133 1. CART1 KEY No. PARTS NO. PART NAME REMARKS 7218905A CART/5500 7312175B CASTER/6500 7324997B CASTER COVER 7415673B HANDLE/5500 7319012A VCR BASE/6500 7319011A OP-PLATE/6500 7319019A TRAY/6500 7416594C CN-COVER/5500 7415783A F-SPONGE A/6500 7415784A F-SPONGE B/6500 1434754A ADJUSTING KNOB 1427110A SLIDING PLATE B 144095XA KNOB WASHER 1416371A...
Page 134 KEY No. PARTS NO. PART NAME REMARKS 7319731A OUTLET(N)/6500 100V J8310501 OUTLET NC-183C 230V 7416600A OUT-PNL(E)/6500 230V 7319732A OUTLET(E)/6500 230V 7319018A CN-PANEL/6500 7510161A CN-PCB/5500 7419749A CN-SHIELD/5500 7420022A CN-PNL UNIT/5500 7216682A P.S. HM-071C 100V 7216682B P.S. HM-071CE 230V 7319377B P.S. HM-071C 120V 7418968A ECG PANEL/EK25...
Page 135: Keyboard
3. KEYBOARD 10-6 L1E-EA0229...
Page 136 3. KEYBOARD KEY No. PARTS NO. PART NAME REMARKS 7319385F KEYBOARD UNIT(E) ENGLISH 7319385G KEYBOARD UNIT(F) FRANCH 7320775B KB COVER(E) ENGLISH 7320775C KB COVER(F) FRANCH 7320775W RUBBER KEY SET-E ENGLISH 7320775Y RUBBER KEY SET-F FRANCH 7320775L PADDLE SET 7320775M ENCORDER 7320775N PDL RUBBER SET 7320775P...
Page 137: Pc Unit
4. PC UNIT L1E-EA0229 10-8...
Page 138 4. PC UNIT KEY No. PARTS NO. PART NAME REMARKS 7218910A PC UNIT/5500 w/o HDD 7218756A PC RACK/5500 7416847A PC RAIL/6500 7419926A PC FAN UNIT/5500 7323252Ｂ PCMB/8500 7413124A FD CABLE 7413123A HD CABLE 7319181A MEMORY PCB K641A005 PCMB BATTERY 7413437C CPU2 7325076A CPU FAN...
Page 139: Cover
5. COVER 10-10 L1E-EA0229...
Page 140 5. COVER KEY No. PARTS NO. PART NAME REMARKS 7112095A S-COVER L/6500 7112096A S-COVER R/6500 7112097A B-COVER L/6500 7112098A B-COVER R/6500 7112099B OPTION BASE/5500 7112100A BUMPER/6500 7111880A PRB HOLDER/6500 L931A049 HOLDER KNOB/6500 7215817D F-COVER/5500 7215818C TOP COVER/5500 7415788A SW LABEL/6500 7417225A UREA SCREW L=6 7417225C...
Page 141: Pcb
6. PCB 10-12 L1E-EA0229...
Page 142 6. PCB KEY NO. PARTS NO. PART NAME REMARKS 7323170A PRB-SW UNIT/5500 7511409A PRB PCB/6500 7511410A AWP PCB/5500 7418408A PRB PLATE/5500 7323183A PRB SHLD F/5500 7321646A PRB SHLD R/5500 UoF281 EZU-ST5 UoF320 EZU-CW4 7511411A DBF PCB/5500 7511406A BIO PCB/EK25 EZU-EK25 7319339A POWER PCB/5500 10-13...
Page 143: Accessories
7. ACCESSORIES 10-14 L1E-EA0229...
Page 144 7. ACCESSORIES KEY No. PARTS NO. PART NAME REMARKS 7416612A VCR CASE/6500 7416613A CASE PLATE/6500 1384039B PRB HANGER/6500 7421322A RUBBER FOOT/5500 J8611101 ECG CLIP EZU-EK25 S290A007 BELT/6500 M6450316 M3 SCREW 7417225A UREA SCREW L=6 J839A124 CABLE CLIP 1469554B MO DISK (230MB) 7412783A MO DISK (640MB) J749A019...
Page 145: Monitor
8. MONITOR 10-16 L1E-EA0229...
Page 146 8. MONITOR KEY NO. PARTS NO. PART NAME REMARKS 7313483N FILTER/MT24 7313483B B-CVR/MT24 7313483C TILT/MT24 7313483D CRT/MT24 7313483E BASE/MT24 7313483F SIDE/MT24 7313483G FTG/MT24 7313483H MAIN BOARD/MT24 7321445A VIDEO BRD/MT24-1 7313483K CONT BRD/MT24 7321445B VR BOARD/MT24-1 7313483M LED BOARD/MT24 7313483V BEZEL/MT24 7313483P KNOB/MT24 7313483Q...
Page 147 9. POWER SUPPLY ⑩ ⑲ ⑨ ⑱ ⑰ ⑭ ⑫ ⑯ ⑮ ⑪ ②③ ⑬ ① ④ ① ⑤ ⑥ ⑦⑧ 10-18 L1E-EA0229...
Page 148: Power
9. POWER SUPPLY KEY NO. PARTS NO. PART NAME REMARKS 7320729A FILTER /071C 7320729B FUSE 6.3A/250V 100V 7320729C FUSE 3.15A/250V 230V 7320729D FUSE 1.6A/250V 7320729E BONNET/071C 7320729F SHIELD PLT/071C 7320729G TRANSFOMER/07C 100~120V 7320729H TRANSFOMER/07C 220~240V 7320729J A-LV PCB/071C 7320729K A-HV PCB/071C 7320729L SUB-PS BD/071C 7320729M...

Hitachi EUB-5500 Technical Manual

Quick Links

Need help?

Questions and answers

Related Manuals for Hitachi EUB-5500

Summary of Contents for Hitachi EUB-5500

Table of Contents