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3ULQWLQJ +LVWRU\ New editions of this document will incorporate all material updated since the previous edition. Update packages may be issued between editions and contain replacement and additional pages to be merged by a revision date at the bottom of the page.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Overview The $JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH is a combined reference guide and self- paced course featuring chapters on how to test, troubleshoot, and repair the monochrome Model V24, the color Model V24C/V26C, and the color battery Model V24CT/V26CT. The Agilent M1205A monochrome Model V24, color Model V24C/V26C, and color battery Model V24CT/V26CT will be referred to throughout this guide as “instrument”, “V24”, “V24C/V26C”, or “V24CT/V26CT”...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 0DLQWHQDQFH 3KLORVRSK\ The monochrome Model V24, color Model V24C/V26C, and color battery Model V24CT/ V26CT are maintained using one of two service strategies: 2QVLWH PDLQWHQDQFH This support philosophy is board or assembly replacement through the Support Materials Organization (SMO). <HDU 5DSLG 5HSDLU :DUUDQW\ 6HUYLFH This support philosophy provides unit repair service through a mail-in program.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH +RZ WR 8VH 7KLV *XLGH You begin the course by viewing the videotape. The videotape presentation will cover important points to remember when configuring, repairing, and troubleshooting the instrument. The video presentation also provides an overview of the key functions and features of the instrument.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 1 Introducing the Agilent V24/V26 Series 2EMHFWLYH After reading this chapter and completing the Practice Exercise, you will be able to identify and describe all of the major components and features of the Agilent Model V24, the Agilent Model V24C/V26C, and the Agilent Model V24CT/V26CT.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH )LJXUH $JLOHQW 99 6HULHV Features Some of the following features are release-dependent. For further information, see the appropriate 7HFKQLFDO 'DWD 6KHHW. • Flexible configuration and optional battery (Model V24CT/V26CT) permit monitoring patients in most critical and acute patient care areas of a hospital as well as in transport sit- uations.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH • Compatible with the Agilent patient care system. • Comprehensive Patient Data Management provides 24-hour storage of up to 16 continu- ously monitored parameters sampled at one-minute intervals. • Offers optional ST Segment Analysis software which measures the elevation or depression of the ST segment on up to 3 ECG leads and provides waveform recall capability.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Physical, Functional Overview The Agilent V24/V26 Series is a versatile patient monitoring system, allowing user-specific customization using a variety of hardware and software components. These components include: • Mainframe • Monochrome or Color Flat Panel for display of up to six waveforms •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH D8VÃÃÃÃ6qyÃÃà Ã6 vyÃ($Ã!)$ QVGT@ AÃCS W 135/72 (94) QG@UC TP Ã! TP @U8P DH8P ()#& 6XSS 6yh ÃWyà %$ RSTÃWyà $ )LJXUH ([DPSOH RI 0DLQ 6FUHHQ 'LVSOD\ The Flat Panel display assembly consists of a backlit, high-contrast monochrome or color panel with an anti-glare screen for superior readability.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6\VWHP %RDUG The microprocessors for the Agilent V24/V26 Series are all contained on the System Board. The System Board contains the circuitry to control all key operational functions including: • Acquire and process all physiological data from the plug-in parameter modules. •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ,QWHUIDFH &RQQHFWLRQV The System Board controls all interfaces to the instrument including: $JLOHQW 3DWLHQW &DUH 6\VWHP 1HWZRUN A single upstream Agilent monitoring network (SDN) connector allows connection to an Agilent patient care system network. This allows the V24/V26 Series to access waveforms, numerics, and alarms from other networked patient monitoring bedsides.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH )ODW 3DQHO $GDSWHU %RDUG The Monochrome Model V24 Flat Panel adapter board provides an interface between the monochrome Flat Panel display assembly and System Board. The board contains the backlight inverter assembly, Flat Panel bias and contrast/brightness circuitry. Flat Panel Adapter Board )LJXUH )ODW 3DQHO $GDSWHU %RDUG 3RZHU 6XSSO\...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3RZHU 6XSSO\ 2XWSXW 9ROWDJH The following table depicts the slight Power Supply output voltage differences between the monochrome Model V24, color Model V24C/V26C, and color battery Model V24/V26. Monochrome Model V24 Color Model V24C/V26C Color Model V24CT/V26CT +5 Volts @ 2.0 Amps, max +5 Volts @ 2.5 Amps, max...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3OXJLQ 6DWHOOLWH 5DFN The 6- or 8-slot Plug-in Satellite Rack houses parameter modules and connects to the mainframe by a standard front end cable. The rack may be conveniently mounted on IV pole or patient’s bedside. STANDARD 8 SLOT PLUG-IN RACK PARAMETER MODULES...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3DUDPHWHU 0RGXOHV The Agilent V24/V26 Series provides 6 or 8 slots to support the following parameter modules (Release C.0):. 3DUDPHWHU 0RGHO 1XPEHU 1XPEHU 6XSSRUWHG 0RGXOH M1001A/B Maximum of one M1001A/B or M1002A/B per monitor. M1002A/B ECG/RESP M1006A/B...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH )URQW 3DQHO The Agilent V24/V26 Series front panel contains the controls and indicators which operate the instrument. The front panel comprises softkeys and hardkeys. The softkeys perform multiple functions which correspond to labels displayed at the bottom of the screen. When no softkey labels are on the screen, the softkeys do not function.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH $JLOHQW 0RGHO 9&79&7 )URQW 3DQHO ,QGLFDWRUV Confirm Trends/ Module Calc Setup Delayed Record Battery Battery Charging Charged Power The front panel of the Model V24CT/V26CT has the following indicators: • AC Power - indicates the Model V24CT/V26CT is connected to an AC power source. •...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ,QWHUIDFHV There are two different types of interfaces available. One is the Agilent patient care system interface which comes standard with most Agilent V24/V26 Models. The second type of interface, the RS-232 interface, is optional and permits MECIF connectivity for data transfer to other computers and connection to the Agilent Anesthesia Gas Module.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH $JLOHQW 3DWLHQW &DUH 6\VWHP ,QWHUIDFH :KDW LV WKH $JLOHQW When connected to the Agilent patient care system network, or Agilent monitoring network SDWLHQW FDUH V\VWHP" (SDN), the Agilent V24/V26 Series is capable of receiving and displaying current vital signs, waves and alarms from other bedsides on the network.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Specifications )XQFWLRQDOLW\ DQG 2SWLRQ 6HWV For an overview of the functionality and options for each bundle in Releases A.0, B.0 and C.0, please refer to Table “Release C.0 Functionality and Options,” on page 2-46 and Table “Release A.0/B.0 Functionality and Options,”...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH (QYLURQPHQWDO 7HPSHUDWXUH 5DQJH 2SHUDWLQJ 0RGHOV 9 9& 9& +5 to 40°C (41 to 104°F) 0RGHOV 9&7 9&7 +5 to 35°C (41 to 95°F) 6WRUDJH 0RGHOV 9 9& 9& -20 to 60°C (4 to 140°F) 0RGHOV 9&7 9&7 -15 to 40°...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3DWLHQW 'DWD 0DQDJHPHQW &RQWLQXRXVO\ $FTXLUHG 'DWD 0D[LPXP QR RI SDUDPHWHUV 16 6DPSOH ,QWHUYDO 12 seconds, or 1 minute average (average of five 12-second intervals). 0D[LPXP QR RI YDOXHV IRU HDFK SDUDPHWHU 1441. 6WRUDJH up to 24 hours. $SHULRGLFDOO\ $FTXLUHG 'DWD 0D[LPXP QR RI SDUDPHWHUV 76 0D[LPXP QR RI YDOXHV IRU HDFK SDUDPHWHU 48/96 (bundle specific).
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Practice Exercise To check your understanding, please answer the following questions. After completing this exercise, check your answers to those provided at the end of this chapter. 1. Why should the Agilent V24/V26 Series be the last instrument on an Agilent monitoring network (SDN) branch? _________________________________________________________________ _________________________________________________________________...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5. What is the display resolution of the instruments? 460 x 280 Pixels 640 x 480 Pixels 820 x 480 Pixels 1020 x 640 Pixels none of the above 6. What parameter module(s) are NOT compatible with the instruments? ssCO Data Transfer /PLETH...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3UDFWLFH ([HUFLVH $QVZHUV The instruments only have one upstream Agilent monitoring network (SDN) connector. c. 8 Waves c. Arrhythmia status messages, delayed annotated waveform, and arrhythmia data management g. All of the listed functions. b.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 2 Testing & Maintaining the Agilent V24/V26 Series The first section in this chapter, “Test and Inspection Requirements”, describes the procedures required to ensure that the Agilent V24/V26 Series monitor is in safe working order.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 0DLQWHQDQFH &KHFNOLVW &KHFN +HUH 7RSLFV LQ WKLV &KDSWHU 6HH 3DJH Test and Inspection Requirements When to Perform Test Blocks Power On and Performance Tests Safety Tests 2-11 General Inspections of the System Inspect the System Hardware 2-15 Inspect the Cables and Cords 2-15...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Test and Inspection Requirements This section is intended primarily for Agilent customer engineers and lists the test requirements for servicing, installation and preventive maintenance. For some tests it is required that the Agilent engineer documents the results in a service record. Table 1-1 “When to Perform Test Blocks”...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Safety Tests For Europe and Asia-Pacific: according to IEC 601-1:1988+A1+1991+A2:1995 = EN60601-1:1990+A1:1991+A2:1995 For the US: according to UL 2601-1 The test procedures outlined in this section are to be used only for verifying safe installation or service of the product in question.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 7HVW DQG ,QVSHFWLRQ 5HTXLUHPHQWV ± 6DIHW\ 7HVW %ORFN 7HVW RU ³,QVSHFWLRQ´ WR 3HUIRUP ([SHFWHG 7HVW 5HVXOWV :KDW WR 5HFRUG RQ 1DPH 6HUYLFH 5HFRUG 6DIHW\ 63[ RU 6)[ Patient Leakage Current AC Maximum leakage current = x <= 50 µA @ 250V...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 6DIHW\ 7HVW 'LDJUDPV Test Block Name Test or Inspection to Perform Safety(1) System Enclosure HrqvphyÃryrp vphyÃr Leakage Current – OE (open earth) D rÃqr Ãr TvthyÃh TvthyÃh (**) vÃhq vÃhq à à GÃI Pur D rà 6yvrqÃh ...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 6DIHW\ 7HVW 'LDJUDPV Test Block Name Test or Inspection to Perform Safety(3) (*) Not present in Class 2 Patient Leakage D rÃqr Ãr Current – AC GÃI 6yvrqÃh IÃG Q@à T#ÃÃÃÃÃÃà TvthyÃh vÃhq à DyhvtÃhq GÃI ÃÃÃÃS...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH *HQHUDO ,QVSHFWLRQV RI WKH 6\VWHP ,QVSHFW WKH 6\VWHP +DUGZDUH 6WHS Examine the exterior of the unit for cleanliness and general physical condition. Ensure that plastic housings are intact, that all hardware is present and tight, and that there are no spilled liquids or other serious abuse.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ,QVSHFW WKH /('V RI WKH 6\VWHP The System Boot automatically starts every time the system is switched ON. 7(67 Turn the System On by pressing the power switch in the lower left-hand corner of the display. 5(68/7 The system will click and light-up the LEDs on the keypad.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ,QVSHFW WKH &RQWUROV RI WKH 6\VWHP 6WHS Examine all controls for physical condition. During the course of this examination, 7KH VHOIWHVW HQVXUHV WKDW WKH V\VWHP LV ensure that the controls perform their proper function IXQFWLRQLQJ FRUUHFWO\ LW GRHV QRW 6WHS ...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3HUIRUPDQFH $VVXUDQFH 7HVW The following performance assurance test is designed to be completed to verify proper operation when: • The monitor has been installed. • An assembly has been replaced. • To verify the operation any time the unit is suspect. To verify your monitor works properly, perform the following procedure: 6WHS Connect the power cord to the monitor and plug it in to an AC power source.
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BATTERIES. TO PREVENT DAMAGE TO THE BATTERIES, THE BATTERIES SHOULD BE CHARGED FULLY PRIOR TO USE. Only batteries obtained from Agilent Technologies specifically for use with the Model V24CT/V26CT should be used. Use of other batteries could damage the Model V24CT/ V26CT.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Never short the contacts of the battery together, as it can burn out the connections and could damage the monitor. To this end, never remove the display assembly with the batteries installed. Keep the batteries clean. Wipe the batteries with a dry cloth, or if necessary, use a water dampened cloth.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH of the batteries and comparing it to Figure 2-1. If the batteries discharge much more quickly than expected by the graph, the batteries have exceeded their useful life and should be replaced. Another way to test the capacity of the battery is to perform the charge and discharge test. Following a full charge, discharge the battery at 0.75 A to the end voltage of 10.5 V at an ambient temperature of 25°C (+2°C) and then let it sit at the same temperature for one hour.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &\FOLF /LIH The cyclic life of a battery can be estimated by measuring the duration time of one cycle. For this test, one cycle consists of a discharge through a 16 ohm resistor to the end voltage of 10.5 V per battery and a charge of six hours with a charger that uses a charging voltage of 14.70 V (+0.2 V) and an initial maximum current of 0.92 A.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &OHDQLQJ DQG 'LVLQIHFWLQJ 3URFHGXUHV This section details the cleaning procedures for the System as a whole and for the Recorder and Blood Analysis Modules in particular. 2EMHFWLYH In order to meet the chapter’s goals, you should be able to understand which cleaning and disinfecting agents you should use to safely clean an Agilent V24/V26 Series.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH *HQHUDO &OHDQLQJ RI WKH 6\VWHP • The V24/V26 Series should be kept free of dust and dirt. • Exterior cleaning of the case and screen is recommended. Clean it with a lint-free cloth, moistened with either warm water (40°C/104°F. max) and soap, a diluted non-caustic deter- gent or one of the approved cleaning agents listed below: 6RDSV mild soaps...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH *HQHUDO 'LVLQIHFWLQJ RI WKH 6\VWHP We recommend that you disinfect the product only when necessary as determined by your hospital’s policy, to avoid long term damage to the product. We also recommend that the products being disinfected be cleaned first, as described under “General Cleaning of the System”.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &OHDQLQJ WKH 5HFRUGHU 0RGXOH The paper roller and paper out sensors should be cleaned periodically. 6WHS Open the recorder door and remove the roll of paper, if present. 6WHS Use a lint free cloth and Isopropyl Alcohol to wipe the roller. Be sure to clean all sides of the roller.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WHS Open the door, re-thread the paper, and resume normal operation. (For best results use only Agilent Recorder Paper - P/N 40477A/B.) recln1 120mm H X 150mm W )LJXUH &OHDQLQJ WKH 3ULQWKHDG RI WKH 5HFRUGHU 0RGXOH 5HSODFLQJ 5HFRUGHU 3DSHU 6WHS Open paper loading door and remove the remaining paper core.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WHS Push roll into Thermal Recorder until it is centered securely on the roll hubs. Cut or tear off and discard first two inches of paper. Tear front edge of paper at an angle. Direct front point of paper towards recorder, and insert it over small plastic shelf under roll.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ 3DSHU /RDGHG %DFNZDUGV If paper is loaded backwards in the thermal recorder, perform the following: 6WHS Tear off paper and open thermal recorder door. 6WHS Pinch paper at shelf below roller, and pull paper off of the roller. 6WHS Gently push paper back on to paper roll.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WHS With paper rolled loosely, pinch several thicknesses of loose paper at the front of the roll, and pull roll out from thermal recorder. Perform paper changing procedure. &OHDQLQJ WKH %ORRG $QDO\VLV 0RGXOH The filter for the ventilator fan should be cleaned periodically.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 8SJUDGH DQG &ORQLQJ ,QVWUXFWLRQV In this section, you will learn how to use the Agilent Programming Tool to upgrade or reload software, and to perform EEPROM cloning of your V24/V26 Series monitor. To perform the procedures described in this section, you will need the Agilent Programming Tool Kit (M2300-67100) and a Flash Card.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &RQQHFWLQJ WKH )ODVK 3URJUDPPLQJ 7RRO Always power down monitor before connecting/disconnecting Flash Programming Tool or &$87,21 inserting/removing flash card. To connect the Flash Programming Tool to the V24/V26 Series monitor, complete the following steps: 6WHS Turn the monitor power switch OFF.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WHS Insert the appropriate flash card into the programming tool. 6WHS Connect one end of the service tool cable to the service port connector on the pro- gramming tool. Depending upon the task to be performed, you will connect the other end of the cable to the appropriate service port connector on the monitor.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 8SJUDGLQJ WKH 8WLOLW\ &38 6RIWZDUH &$87,21 Monitor power must be off before proceeding! 6WHS Connect the unattached end of the service port cable to the ORZHU service port on the V24/V26 Series monitor. 6WHS Turn the V24/V26 Series monitor power switch ON.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WHS 87,/ 6: 8SJUDGH Press the softkey to display the Utility CPU Software Upgrade screen. M1204 Utility CPU Upgrade Config Mode active - No Monitoring! 8WLOLW\ &38 6: 8SJUDGH Current Utility Revision: UK0005 New Revision will be: L_00_03 (UL0003) L.00.03 M1204-1401F UTILITY CPU (ENG)
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH M1204 Utility CPU Upgrade Config Mode active - No Monitoring! 8WLOLW\ &38 6: 8SJUDGH Current Utility Revision: UK0005 New Revision will be: L_00_03 (UL0003) UTILITY Programming complete..Turn power off, disconnect tool, and reconnect to the upper service port (Application CPU).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WHS 6RIWZDUH 8SJUDGH Press the softkey to display the Application Software Upgrade screen. M1204 UPGRADE A Config Mode active - NO MONITORING! 6RIWZDUH 8SJUDGH Monitor Serial Number is 3609A07285 Current SW Release is M1204-1401E New Revision will be L_00_03...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3HUIRUPLQJ DQ ((3520 8SJUDGH You may use this function when repairing a failed EEPROM, replacing a board, or for future upgrades. ((3520 8SJUDGH 6WHS From the Instrument Configuration screen, press the softkey to display the EEPROM Upgrade main screen. 6HOHFW ((3520 6WHS Press the...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH M1204 UPGRADE A Config Mode active - NO MONITORING! ((3520 8SJUDGH Monitor Serial Number is 3609A07285 Current EEPROM Number is M1204-10720 M1204-10820 Upgrade will be done to M1204-10202: Standard Config. (H06) 4 waves, 2 Press, 2 Temp, SDN, CO , C.O., Data Transfer, ADM, BAM 1H[W...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ((3520 1XPEHU 7DEOHV The following EEPROM tables show the only possible combinations of options 6RIWZDUH 5HOHDVH & ((3520 3DUW 1XPEHUV 99 6HULHV DOO VHULDO QXPEHUV ((3520 ((3520 2SWLRQ 2SWLRQ 3DUW QXPEHU 3DUW QXPEHU M1204-10820 M1204-11830 6rurvh...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 5HOHDVH & )XQFWLRQDOLW\ DQG 2SWLRQV Functionality Cardiac = Standard in this Model = Optional available = not available RS232 Recorder Data Transfer Drug Calculation Split Screen oxyCRG ST Segment Analysis Anesthetic Gas Module Neonatal Event Review EASI ECG Printer Package...
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7DEOH 5HOHDVH $% )XQFWLRQDOLW\ DQG 2SWLRQV Functionality = Standard in this Model = Optional available = not available RS232 Recorder Data Transfer Drug Calculation Split Screen oxyCRG ST Segment Analysis Anesthetic Gas Module Tabular Trends Neonatal Event Review Max. Plug-in Modules Number of Waves D21,C06 3,4,6...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ((3520 &RQILJXUDWLRQV $SSOLFDWLRQ %XQGOHV 5HYLVLRQ ( FRQWG $QHVWKHVLD + $QHVWKHVLD + • Special OR Config Set Defaults - OR Unit Type • Special OR Config Set Defaults - OR Unit Type Only Only •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3HUIRUPLQJ ((3520 &ORQLQJ You can use this function to copy EEPROM configurations from one unit to another, rather than program settings individually for each monitor. ((3520 &ORQLQJ From the Monitor Setup screen, press the softkey to display the EEPROM Cloning screen shown below.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH M1204 UPGRADE A Config Mode active - No Monitoring! ((3520 &ORQLQJ Monitor Serial Number is 3609A07285 M1204-10720 Current EEPROM Number is M1204-10820 Settings avail. for EEPROM - Press CONFIRM to read EEPROM to local memory 5HDG 3URJUDP 6HWWLQJV...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ((3520 8SJUDGHV %HWZHHQ $SSOLFDWLRQ %XQGOHV The following does 127 apply to CPC Tool programming cards designated for “Agilent use only”. With Software Release E, it is possible to reprogram the EEPROM to change the instrument configuration from any one of four application bundles to any other.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 3 Troubleshooting the Agilent V24/V26 Series 2EMHFWLYH After reading this chapter, you will be able to diagnose and isolate hardware failures at the level of the field-replaceable part. Use this chapter when you suspect you have a problem with your Agilent Model V24/V26, or when you are referred to this module from another procedure.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Isolating and Solving Instrument Problems You can use the following table to isolate and solve problems which may occur in the instrument. 7DEOH 6\PSWRP 5HODWHG 7URXEOHVKRRWLQJ 7DEOH 6\PSWRPV &DXVH RI )DLOXUH 5HPHG\ 6\VWHP UHODWHG SUREOHPV Unable to upgrade the instrument using Power was left on the instrument Replace the System Board.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 6\PSWRP 5HODWHG 7URXEOHVKRRWLQJ 7DEOH &RQWLQXHG 6\PSWRPV &DXVH RI )DLOXUH 5HPHG\ Display is blank No 12 volts present in the instrument Adjust monochrome contrast or contrast control not adjusted cor- control. rectly, or backlight failed. Power Supply LED is off for 12 volts.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 6\PSWRP 5HODWHG 7URXEOHVKRRWLQJ 7DEOH &RQWLQXHG 6\PSWRPV &DXVH RI )DLOXUH 5HPHG\ Contrast or Brightness control knob does Voltage control in Flat Panel Assem- Replace Flat Panel Adapter Board not adjust display contrast or intensity bly fails.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting Checklists &KHFN IRU 2EYLRXV 3UREOHPV When first troubleshooting the instrument, check for obvious problems by answering basic questions such as: If it is a battery model (V24CT/V26CT), are batteries installed? Power switch is turned on? AC power cord connected to instrument and plugged into AC wall outlet? Circuit breakers are working properly in circuit breaker panel and power is available at wall outlet?
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Green LEDs on the keypad (4 arrow and Confirm keys) are on momentarily when power is applied to the instrument. Yellow Confirm Alarm Alarm Silence/ Trends/ Module Other Monitor GREEN LED Alarms Procedures Reset Calcs Setup Patients...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 0RGHOV 9 9& 9& 0RGHO 9&79&7 %DWWHU\ YHUVLRQ The location of the +5VDC, +12VDC, and +60VDC The location of the +18VDC, +5VDC, and +12/60VDC LEDs is illustrated. It is approximately the same for the LEDs is illustrated.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH /(' 7URXEOHVKRRWLQJ 6\VWHP %RDUG /(' &RQGLWLRQ DQG GHVFULSWLRQ 5HPHG\ SDN Functionality LED Should be OFF when operating properly. Replace System Board if LED is If ON, indicates reset error in SDN cir- cuitry (If you have the SDN Daughter Board, refer to Appendix A.)
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Check 60V LED. ___If only the 60V LED is still out or flashing after unplugging the rack from the monitor, then this indicates a power supply, internal 60V cable, or connector problem. ___Disconnect the 60V power supply to the System Board by disconnecting the 60V cable from the System Board.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH For the CT model only, check battery operation by disconnecting the AC power cord from the AC power source. ___The leftmost LED on the power supply should go out after a few seconds. The other two LEDs to the right of it should remain illuminated.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &KHFN 0RQRFKURPH )ODW 3DQHO $GDSWHU %RDUG Attach a voltmeter to two test points where shown. TP5 VLCD TP4 Flat Panel GND Monochrome Flat Panel Adapter Board Test Points Unplug Flat Panel cable. Turn contrast knob. The voltage reading should indicate a range of between -12 and -21 volts DC (approximate) as you adjust the potentiometer.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove the Front Housing (see “Removing the Front Housing Assembly” on page 9-2). If the LEFTMOST LED (AC Power) was extinguished, check fuses F1and F2 (AC fuses), and F6 (18V fuse). Fuses F1 and F2 can be checked visually. Fuse F6 must be checked with an ohmmeter and is considered good if it reads a short.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Reapply power to the monitor and see that fuses do not blow. If the fuses blow again, replace the Power Supply Assembly (see “Chapter 8 Repairing the Agilent Model V24CT/V26CT”). If the MIDDLE LED (+5Vdc logic supply to System Board) and the RIGHTMOST LED (12V) are extinguished.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If only the MIDDLE LED is extinguished, replace fuse F4. 3DUDPHWHU 5DFN0RGXOH )DXOW 0RGHO 9&79&7 Use this section if an error message stating “only 6 slots may be occupied by modules” is displayed or if the RIGHTMOST LED on the Power Supply assembly is flashing. If the message “only 6 slots may be occupied by modules”...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HVLGXDO &DSDFLW\ &KDUJLQJ /(' &KDUJHG /(' More than 40%, Less Steady than 90% More than 90% Steady Use a voltmeter and measure each battery. For battery 1, the battery voltage can be sensed between pin 8 and ground. For battery 2, the voltage can be sensed between pin 6 and ground.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If the voltage is less than 9 Vdc, the batteries have been over-discharged and the charger cannot be armed. If this is the case, the Charging LED on the front panel will not light when the batteries are being charged.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 4 Using Support Functions 2EMHFWLYH This chapter describes how to troubleshoot problems using error codes and other support functions. This chapter shows you: • How to use the Status Log to check for error codes, and other service information. •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Using Support Functions (UURU &RGHV The first line of fault isolation is the (UURU &RGHV. Whenever one of the subsystems is unable to perform an operation, an error code is generated. Error codes can be for fatal and non-fatal errors.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7R 8VH (UURU &RGHV Access the Status Log: From any of the operating modes, press the Hardkey. Monitor Setup 0RUH &KRLFHV Press the softkey. Use the ARROW keys to move the highlighting to the softkeys that include 6WDWXV /RJ 6WDWXV /RJ Press the...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WDWXV /RJ (UURUV - the decimal number range the error code gives in its status log entry. 6WDUWXS (UURU - the hexadecimal number range of the start up error code. 3RVVLEOH &DXVH - the possible cause for the error code report. &RUUHFWLYH $FWLRQ - actions recommended to isolate the fault to a replaceable assembly.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH (UURU &RGH /LVWLQJ IRU 'HYLFH ,' &RQWLQXHG 6WDWXV /RJ 3RVVLEOH &RUUHFWLYH 6WDUWXS (UURUV (UURUV &DXVH $FWLRQ 300 - 301 012CH- 012DH EPROM checksum incorrect. System Configuration problem - refer to the corrective action description in the appropriate section after this table.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH (UURU &RGH /LVWLQJ IRU 'HYLFH ,' &RQWLQXHG 6WDWXV /RJ 3RVVLEOH &RUUHFWLYH 6WDUWXS (UURUV (UURUV &DXVH $FWLRQ No response from the utility CPU System Configuration problem - refer to to a request for the VUF revision the corrective action description in the appropriate section after this table.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH (UURU &RGH /LVWLQJ IRU 'HYLFH ,' &RQWLQXHG 6WDWXV /RJ 3RVVLEOH &RUUHFWLYH 6WDUWXS (UURUV (UURUV &DXVH $FWLRQ 1096 - 1127 0448H - 0467H No Extended Test result due to Hardware/Software problem - refer to Hardware problem.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6\VWHP &RQILJXUDWLRQ 3UREOHPV This section tells you how to troubleshoot configuration problems identified in the error code listing. 3URFHGXUHV In general, the procedure for your configuration requires you to perform some visual checks, verify you are operating with the proper software revision for your Monitor, and then perform fault isolation procedures.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH *HQHUDO (UURU &RGH /LVW This section lists general error codes that you might see for Device ID codes other than 16400 (4010H). The source of the problem is not dependent on the Device ID 7DEOH 'HYLFH ,' (UURU &RGHV (UURU &RGH 3RVVLEOH &DXVH...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH (UURU &RGH /LVW IRU 6SHFLILF 'HYLFH ,'V 2WKHU 7KDQ + This section lists error codes with specific Device IDs other than 16400 (4010H). The source of the fault, and meaning of the error codes listed can only be determined by the identification of the error code’s specific Device ID.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Using the Service Mode $FFHVVLQJ 6HUYLFH 0RGH Press . The Monitor Setup screen is displayed. Monitor Setup 0RUH &KRLFHV Press Press the arrow key to highlight Operating Modes. 2SHUDWLQJ 0RGHV Press the softkey. The Operating Mode task window will appear.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &KDQJLQJ WKH *OREDO 6ZLWFKHV The Global Switches facility can be used to change the global configuration of the system. The global configuration is the same for all configuration sets. To enter the Global Switches task window: Press the hardkey.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH The following types of modules support Settings Transfer: • All modules with marked on the front panel • The Pressure, C.O., CO and Temperature Modules (also without the mark). The ECG and ST applications have settings stored in the ECG and ECG/RESP modules respectively.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7R $FFHVV 0RQLWRU 5HYLVLRQV 6FUHHQ Press . The Monitor Setup should appear. Monitor Setup 0RQLWRU 5HYLVLRQ Press softkey. The following screen will appear listing current parameter modules plugged into the instrument. Parameter Module Detection also functions in Monitor Mode 127( $/$506 6863(1'('('...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH +DUGZDUH 5HYLVLRQ • Subsystem (for example: System) • Part Number (hardware - for example: M1204-60107) • Firmware Revision (for example: 0) 6RIWZDUH 5HYLVLRQ The software revision screen lists the software revision of the monitor and the part number of the EEPROM.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &ROG 6WDUW 'XULQJ D FROG VWDUW WKH 6\VWHP %RDUG UXQV D GHWDLOHG WHVW RI PHPRU\ ZKLFK HUDVHV WKH &$87,21 V\VWHP GDWDEDVH IRU SDWLHQW GDWD PDQDJHPHQW $OO DFWLYH VHWWLQJV DQG SDWLHQW GDWD DUH ORVW All user default values for configurable items, including parameter module settings, are restored and an extensive self-test is carried out.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3RZHU 2Q 0RGH 3URFHGXUH 7KH SRZHU RQ PRGHV DUH SURYLGHG This facility enables the service engineer to perform a power on reset of the system. Use the IRU VHUYLFH Power On facility as follows: SXUSRVHV RQO\ 7KH\ GR QRW LQIOXHQFH WKH PRQLWRULQJ SRZHU...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &ROXPQ 81,7 Lists codes for the names of each device on each branch of the network. The codes, and the devices to which they refer, are as follows: &$5(3 78580A &/29 78534 Patient Monitor &203 Computer &203...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Additional lines are displayed below the device line when a device is assigned to a central station (as in the previous example). This does not signify that the central station is physically connected to the same branch as the device. When a device is assigned to a central station, the letter “C”...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &ROXPQ 67$786 This column provides information about the SDN state of each device. An example status line would be: 6'1 21 1(7 7 Which can be interpreted as follows: Device is connected to the SDN Network. Network is active.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3HUIRUPLQJ WKH 56 /RRSEDFN 7HVW An RS232 Transmit/Receive (loop back) test can be performed to check both the transmit and the receive capabilities of the RS232 port. The test is performed as follows: 6WHS Change to Service Mode.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 56 /RRSEDFN 7HVW &RQQHFWRU Pin Number Signal Connection Designation 25 Pin 9 Pin OPEN NOTES: 1. R= 1.21K 1/8W resistor (Agilent Part No. 0757-0274). The resistor is used for current limit protection. 2.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 'LVSOD\ 7HVWV 0RQRFKURPH 0RQLWRU 6HWXS Press hardkey. 0RQLWRU 6HWXS Press hardkey again (or use arrow keys) to highlight upper row of choices. 'LVSOD\ 7HVWV Press softkey. &RQILUP Select display test to be executed followed by the hardkey.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Description of the Boot Process 2YHUYLHZ The boot process takes place in the following four stages: Hardware self test. File transfer. Software initialization - phase 1. Software initialization - phase 2. When all tests are successful and no hardware failures are detected, the boot process lasts between 12-15 seconds before ECG monitoring can begin.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WDJH 6RIWZDUH ,QLWLDOL]DWLRQ 3KDVH In the first software initialization phase, each software module initializes its buffers. A check of the local buffer data is also made. If a hot start is made, the data should be correct in the local buffer on the CPU.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Fixing Recorder Problems The V24/V26 Series uses the M1116A and M1116B Recorder Modules to make hard-copy recordings of the patient data which is displayed on the screen. The method for troubleshooting is the same for either recorder: identify the physical or functional problem, then find it in the accompanying table and follow the corrective action that is recommended.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Fixing Printing Problems External printers can be connected to the V24/V26 Series through the RS232 Connector. This module shows you how to troubleshoot problems based on symptoms given by a printer. Use this module if your printer is causing a malfunction of the V24/V26 Series or if you are referred to this module from another procedure.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH +3 /DVHU-HW/DVHU-HW 3ULQWHUV The switch positions required to print locally on the HP LaserJet/LaserJet + printers are: S1: OFF ON ON OFF OFF OFF ON ON S2: All OFF S3: All OFF S4: All OFF. +3 /DVHU-HW ,,,,,,9 6HULHV 3ULQWHUV The configuration for printing locally to the HP LaserJet II/III/IV printers is set using the keys on the control panel of the printer:...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 5 Troubleshooting Plug-in Modules This chapter tells you how to troubleshoot problems that come from faults within the plug-in modules or the associated circuitry within the rest of the instrument. The modules use visual indications, error messages, and INOP messages to indicate a fault.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting tcpO /tcpCO Problems This section describes how to troubleshoot and correct faults associated with the tcpO /tcpCO module. The procedures for recognizing, isolating, and correcting faults using this module are as follows: • Identifying a problem based on visual indications or repeated INOPS. •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Replace the rack and plug in the tcpO /tcpCO module into the new rack. If the LED on the module does not light up, replace the rack interface card in the function box. If a " LQVWHDG RI D QXPHULF and one or more INOP messages are displayed for the tcpO /tcpCO...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 7DVN :LQGRZ PHVVDJHV IRU WKH WFS2 WFS&2 0RGXOH !Ã Message Possible Cause Corrective Action Prompt: insert trans- Microswitch in Calibra- Replace the Calibration chamber. ducer in chamber tion chamber is faulty. appears when the transducer is in the chamber and the cal- ibration is started.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH UHDGLQJV DUH TXHVWLRQDEOH, perform the following actions: If tcpO /tcpCO Perform a tcpO zero check and tcpCO gain check for the transducer. These checks tell you whether the tcpO /tcpCO transducer is working correctly. 7HVW (TXLSPHQW The following list gives you the test equipment recommended to perform the specification test on the tcpO...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6WHS Check the values displayed on the screen. The displayed tcpO must be < 6 mmHg (0.8kPa) within 10 minutes. The displayed tcpCO value must be within the range listed in the table within 10 minutes. If the tcpO is not <...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting ECG and ECG/RESP Problems This section describes how to troubleshoot and correct faults associated with the ECG/RESP module. The procedures for recognizing, isolating, and correcting faults using this module are as follows: • Identifying a problem based on visual indications or repeated INOPS. 7R 7URXEOHVKRRW WKH 0RGXOH If QHLWKHU QXPHULFV QRU D " are displayed for the ECG/RESP module, perform the following actions:...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If a " LQVWHDG RI D QXPHULF and one or more INOP messages are displayed for the ECG/RESP module, perform the following actions: 3OHDVH QRWH WKDW IRU SURFHHGLQJ WR WKH QH[W VWHSV D WUXQN FDEOH ZLWK OHDG VHW PXVW EH FRQQHFWHG WR WKH PRGXOH 6WHS Perform a module self-test (See “Performing the ECG or ECG/RESP Module Self- Test”...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting Pressure Problems This section describes how to troubleshoot and correct faults associated with the M1006A and M1006B Pressure plug-in modules. The procedures for recognizing, isolating, and correcting faults with this module are as follows: •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Replace the rack and plug in the PRESSURE module into the new rack. If the LED on the module does not light up, replace the rack interface card in the function box. If a " LQVWHDG RI D QXPHULF and one or more INOP messages are displayed for the PRESSURE module, perform the following actions: 3OHDVH QRWH WKDW IRU SURFHHGLQJ WR WKH QH[W VWHSV D WUDQVGXFHU PXVW EH FRQQHFWHG WR WKH PRGXOH...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting NBP Problems $JLOHQW XVHV To ensure accurate NIBP measurements, the NBP plug-in module can be calibrated. Agilent LQYDVLYH SUHVVXUH DV recommends that the module is calibrated once every 12 months. UHIHUHQFH IRU 1%3 'LDVWROLF This section describes how to troubleshoot and correct faults associated with the NBP module.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Plug any other (not faulty) module into the same slot and check if the LED lights up. If the LED of the alternative module lights up, the NBP module is defect and has to be replaced. If it does not, either the rack or the rack interface card is defect.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting Cardiac Output Problems This section describes how to troubleshoot and correct faults associated with the Cardiac Output plug-in module. The procedures for recognizing, isolating, and correcting faults with this module are as follows: •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If a " LQVWHDG RI D QXPHULF and one or more INOP messages are displayed for the C.O. module, perform the following actions: 3OHDVH QRWH WKDW IRU SURFHHGLQJ WR WKH QH[W VWHSV D &2 ,QWHUIDFH &DEOH SOXV FDWKHWHU DQG ,QMHFWDWH 7HPSHUDWXUH 3UREH RU WKH 6HUYLFH 7RRO 0 PXVW EH FRQQHFWHG WR WKH PRGXOH 6WHS Refer to the following table.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH module failures. The following table describes the messages and corrective actions to take. 7DEOH 7DVN :LQGRZ PHVVDJHV IRU WKH &2 0RGXOH 7DVN :LQGRZ 3RVVLEOH &DXVH &RUUHFWLYH $FWLRQ 0HVVDJH no Tinj transducer Cable of Injectate Make sure that cable of the Injectate Temperature Probe is connected Temperature...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting SpO /Pleth Problems This section describes how to troubleshoot and correct faults associated with the SpO /Pleth plug- in module. The procedures for recognizing, isolating, and correcting faults with this module are as follows: •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If a " LQVWHDG RI D QXPHULF and one or more INOP messages are displayed for the SpO2/Pleth module, perform the following actions: 3OHDVH QRWH WKDW IRU SURFHHGLQJ WR WKH QH[W VWHSV D WUDQVGXFHU PXVW EH FRQQHFWHG WR WKH PRGXOH 6WHS Perform a Self-Test (See “Performing the SpO2/Pleth Module Self-Test”...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting Temperature Module Problems This section describes how to troubleshoot and correct faults associated with the Temperature plug-in module. The procedures for recognizing, isolating, and correcting faults using this module are as follows: • Identifying a problem based on visual indications or repeated INOPS. 7R 7URXEOHVKRRW WKH 0RGXOH If QHLWKHU QXPHULFV QRU D " are displayed for the TEMP module, perform the following actions:...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If a " LQVWHDG RI D QXPHULF and a INOP message is displayed for the TEMP module, perform the following actions: 3OHDVH QRWH WKDW IRU SURFHHGLQJ WR WKH QH[W VWHSV D WUDQVGXFHU PXVW EH FRQQHFWHG WR WKH PRGXOH 6WHS Perform a Self-Test (See “Performing the Temperature Module Self-Test”...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting CO Problems This section describes how to troubleshoot and correct faults associated with the CO plug-in module. The procedures for recognizing, isolating, and correcting faults with this module are as follows: • Identifying a problem based on visual indications or repeated INOPS. 7R 7URXEOHVKRRW WKH 0RGXOH If QHLWKHU QXPHULFV QRU D " are displayed for the CO module, perform the...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If a " LQVWHDG RI D QXPHULF and one or more INOP messages are displayed for the module, perform the following actions: 3OHDVH QRWH WKDW IRU SURFHHGLQJ WR WKH QH[W VWHSV D WUDQVGXFHU PXVW EH FRQQHFWHG WR WKH PRGXOH 6WHS Perform a Self-Test (See “Performing the CO2 Module Self-Test”...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH ,123 0HVVDJH IRU &2 0RGXOH ,123 0HVVDJH 3RVVLEOH &DXVH &RUUHFWLYH $FWLRQ OCCLUSION Sidestream flow between 50-80 Replace tubing. ml for more than 10 minutes or Tubing locked in pump system, tubing or filter to patient. SIDESTRM Sidestream malfunction in the Replace module.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting Blood Analysis Problems This section describes how to troubleshoot and correct faults associated with the Blood Analysis plug-in module. The procedures for recognizing, isolating, and correcting faults with this module are as follows: •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If ,123 PHVVDJHV are displayed for the Blood Analysis module, perform the following actions. More detailed information relating to the cause of some of the INOPs can be found in the Blood Analysis Task Window (see Table 5-15 on page 5- 26).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 7DVN :LQGRZ PHVVDJHV IRU WKH %ORRG $QDO\VLV 0RGXOH 0HVVDJH LQ ,123 RU (UURU 7DVN SURPSW 3RVVLEOH &DXVH &RUUHFWLYH $FWLRQ &RGH :LQGRZ PHVVDJH Temperature out BLOOD- The room temperature Ensure that ambient tem- of range ANL ROOM is too cold or warm -...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 7DVN :LQGRZ PHVVDJHV IRU WKH %ORRG $QDO\VLV 0RGXOH 0HVVDJH LQ ,123 RU (UURU 7DVN SURPSW 3RVVLEOH &DXVH &RUUHFWLYH $FWLRQ &RGH :LQGRZ PHVVDJH Incompatible BLOOD- V24/V26 language and Call your service repre- Language ANL CON- module language are sentative.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH 7DVN :LQGRZ PHVVDJHV IRU WKH %ORRG $QDO\VLV 0RGXOH 0HVVDJH LQ ,123 RU (UURU 7DVN SURPSW 3RVVLEOH &DXVH &RUUHFWLYH $FWLRQ &RGH :LQGRZ PHVVDJH Unable to Posi- Blood Analy- 31, 34 No movement of sam- Perform a new measure- tion Sample sis failed...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting BIS Problems This section describes how to troubleshoot and correct faults associated with the BIS components. The procedures for recognizing, isolating, and correcting faults using these components are as follows: • Identifying a problem based on visual indications or repeated INOPS. 0$ 6HQVRU 3,&...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Replace the cable from the Satellite Rack to the function box. Again unplug and re-plug the BIS module and check if the LED lights up. If it does not, proceed with the following: Plug any other (not faulty) module into the same slot and check if the LED lights up.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH ,123 0HVVDJHV IRU WKH %,6 0RGXOH ,123 0HVVDJH 3RVVLEOH &DXVH &RUUHFWLYH $FWLRQ BIS ENGINE INCOMPAT BIS Engine Software is A software upgrade may be required. not supported. Enter BIS Task Window and write down the Revision numbers displayed for “Module FW Rev”...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH ,123 0HVVDJHV IRU WKH %,6 0RGXOH ,123 0HVVDJH 3RVVLEOH &DXVH &RUUHFWLYH $FWLRQ BIS SENSOR DISCONN Sensor not properly con- Make sure that the BIS Sensor is prop- nected to PIC and/or PIC erly connected to the PIC and the PIC is not properly connected to properly connected to the DSC.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7DEOH ,123 0HVVDJHV IRU WKH %,6 0RGXOH ,123 0HVVDJH 3RVVLEOH &DXVH &RUUHFWLYH $FWLRQ BIS HIGH IMPEDANCE Impedance of one or Press the electrode pads firmly. more electrode(s) is If INOP persists, replace Sensor provid- above the valid range, ing proper skin preparation.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6HOI7HVW 3URFHGXUHV IRU %,6 FRPSRQHQWV 3,&'6& 7HVW 7(67 In Monitoring mode connect the 6HQVRU 6LPXODWRU (for maximum usage please refer to the documentation delivered with the Sensor Simulator) to the Patient Interface Cable (for part number please refer to Table 6-16 on page 6-25). 0RGXOH 6HWXS Enter the BIS Task Window by pressing , followed by...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5(68/76 DSC is functioning correctly and the test is passed with the following results displayed: Module: 7HVW SDVVHG BIS Engine: 7HVW SDVVHG DSC: 7HVW SDVVHG The small table located right of the “DSC Test passed / failed” entry lists more detailed results of the DSC Self-Test.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 0RGXOH '6& FW Rev Installed Firmware Revision of the BIS Type of DSC used. module. Supported types: 9 (DSC-3). Serial Number of the BIS module used. FW Rev Installed Firmware Revision of the DSC. Test passed / Result of the automatic BIS Self-Test Test passed / failed...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Troubleshooting VueLink Module Problems 127( For detailed troubleshooting information on the VueLink module, please refer to the documentation delivered with your external device driver. For general testing of the VueLink module the following test procedure can be performed: 0$ 9XH/LQN 7HVWV XVLQJ 9XH/LQN 7HVW 0RGXOH The VueLink Test Module (part number M1186-60510) is a plug-in module used to test M1032A VueLink modules in the Agilent V24/V26.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH The test module acts in the same way as an external device would, and sends signals to the VueLink module in both analog and digital form. The computer module checks these signals for validity, and then displays “passed” or “failed” on the screen. The Task Window displays two waveforms, a triangular one and a rectangular one.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Performing Plug-In Module Self-Tests The Agilent V24/V26 Series contains auto-tests and self-tests that are designed to demonstrate that the monitor is interacting with the plug-in modules. 2EMHFWLYH In order to meet the chapter’s goals, you should be able to perform a plug-in module self-test and identify the normal outputs of a self-test.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6HOI7HVW 3URFHGXUH 2YHUYLHZ 6WHS Choose a patient category (Adult/Pedi/Neo) by pressing the following key sequence: 0RGXOH 6HWXS &RQILJ 6HWV &KDQJH 3DW &DWHJ 6WHS Display 30 seconds of the waveforms and numerics of all connected modules by pressing: 0RQLWRU 6HWXS 7HVW 6LJQDOV...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH BED 17 Adult 23 FEB 89 18:19 Test Signals active - No monitoring! Non-paced mode M HR 120/O (60) 120/0 (58) ETCO IMCO 18:19 PLETH RESP 5.00 C.O. RESP AWRR Tblood 37.0 10nm ([DPSOH RI DQ H[WHQGHG 6HOI7HVW GLVSOD\ VKRZLQJ DOO SRVVLEOH ZDYHIRUPV Troubleshooting Plug-in Modules 5-41...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3HUIRUPLQJ WKH (&* RU (&*5(63 0RGXOH 6HOI7HVW $XWR &KHFN: None. 6HOI7HVW: The ECG and ECG/RESP self-test may be performed at any time as the lead selector (&* WHVW VLJQDOV DUH UHFWDQJXODU SXOVHV and pace pulse detection are inhibited during the check. The module will produce ECG test ZKLFK UHSUHVHQW EHDW signals at the beginning of the processing circuitry, and process the test signals in the same way WREHDW KHDUW UDWH DQG...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7LQM 0C + 0.1C 3HUIRUPLQJ WKH WFS2 WFS&2 0RGXOH 6HOI7HVW 7KLV PRGXOH RQO\ GLVSOD\V QXPHULFV $XWR &KHFN The check is performed automatically when the system is switched on, during calibration, and continuously when no transducer is connected. When the auto check fails, the INOP message: Equipment Malfunction is given (refer to the Troubleshooting Chapter in this manual for troubleshooting details).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH $:55 25 rpm 3HUIRUPLQJ WKH 7HPSHUDWXUH 0RGXOH 6HOI7HVW $XWR &KHFN None. 6HOI7HVW The Temperature module self-test may be performed at any time as the switch network 7KLV PRGXOH RQO\ GLVSOD\V D QXPHULF switches to the reference resistors for the duration of the check. The system connects the reference resistors to the beginning of the processing circuitry, and processes this test value in the same way as the patient values are processed.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 1R IODVK Module processors are not working properly and the module should be replaced. 3HUIRUPLQJ WKH 9XH/LQN 0RGXOH 6HOI7HVW 0$ 5HIHU WR 9XH/LQN 0RGXOH $XWR &KHFN The VueLink Module performs an automatic check when the module is plugged in +DQGERRN IXUWKHU VHUYLFH GHWDLOV to the module rack of the system.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 6 Repairing the Agilent Model V24 2EMHFWLYH After reading this chapter and completing the Practice Exercise you will be able to UHPRYH and UHSODFH the following Agilent Model V24 major assemblies: • Front Housing Assembly and major components •...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Removal Procedures This section presents procedures to disassemble the instrument to the extent required to remove and replace faulty assemblies. Do not further disassemble the product past the point described in these procedures. High Voltage - Voltages dangerous to life are present in the instrument. Do not perform any :$51,1* disassembly procedures (other than parameter module removal) with power applied to the instrument.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )URQW +RXVLQJ $VVHPEO\ Remove 4 screws from the rear of the Front Housing Assembly. Separate Front Housing Assembly from Rear Housing and lay it down on a flat surface. Front Housing Assembly Rear Housing Disconnect the Keypad cable from the System Board.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )ODW 3DQHO 'LVSOD\ $VVHPEO\ )LQJHUSULQWV DQG GLUW EHWZHHQ WKH )ODW 3DQHO 'LVSOD\ DQG SODVWLF DQWLJODUH VFUHHQ VKRZ &$87,21 &$87,21 XS SURPLQHQWO\ GXULQJ LQVWUXPHQW RSHUDWLRQ 7DNH FDUH QRW WR WRXFK WKH )ODW 3DQHO VFUHHQ RU WKH LQVLGH RI WKH FOHDU SODVWLF DQWLJODUH VFUHHQ 5HPRYH DQ\ ILQJHUSULQWV RU GLUW XVLQJ D QRQUHVLGXH IRUPLQJ FOHDQHU VXFK DV DOFRKRO DQG D OLQWIUHH FORWK Remove the Front Housing Assembly as described above.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )URQW +RXVLQJ .H\SDG Remove power to the instrument and disconnect the AC power cord. Remove the Front Housing Assembly and keypad ribbon cable. Remove four nuts securing keypad to the Front Housing. Remove keypad from Front Housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )ODW 3DQHO $GDSWHU %RDUG Disconnect the Flat Panel interface cable from the Flat Panel Adapter Board. Disconnect the Backlight cable from the Flat Panel Adapter Board. Remove the 4 screws connecting the Flat Panel Adapter Board to the Flat Panel Bracket. Flat Panel Adapter Board Flat Panel interface cable Backlight cable...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )ODW 3DQHO %DFNOLJKW 7XEH Remove the Flat Panel Display Assembly as described above Disconnect Flat Panel interface cable from Flat Panel Adapter Board. Disconnect Flat Panel Backlight connector from Flat Panel Adapter Board. Turn the Flat Panel Bracket over and lay on a flat surface (Display side up).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Loosen screw connecting LOOSEN SCREW the Backlight cover to the Flat Panel using a jeweler size Phillips screw driver, but do not remove completely. Push up on 3 tabs to release cover. PUSH UP Slide cover forward and up to remove...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH 6\VWHP %RDUG Remove the Front Housing Assembly. Disconnect the cables from the System Board as shown below. 6\VWHP %RDUG LQWHUIDFH FRQQHFWRUV 1. Keypad connector 2. Flat Panel Data Connector 3. 5V and 12V power supply connector 4.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove the 5 screws securing the System Board to the Rear Housing. Remove the System Board from the Rear Housing. 5HSDLULQJ WKH $JLOHQW 0RGHO 9 ...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH From underneath the instrument, remove 4 screws securing the instrument feet to the rear housing. Remove feet. From underneath the instrument, remove one retaining screw at the front center of the rear housing. Depending on the type of rear housing, remove the following: •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH • On rear housings with a serial prefix code of >= 3608, remove the 6 screws at the rear of the instrument. Slide the Power Supply Chassis Assembly from the front of the Rear Housing. Power Supply Chassis 5HSDLULQJ WKH $JLOHQW 0RGHO 9...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove 5 screws connecting the Power Supply Board to the chassis. Power Switch Cable ON/OFF Switch Power Switch Harness (not shown, under Power Supply) Disconnect the Power Switch Cable from the Power Supply Board. Lift Power Supply Board off the chassis.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Reassembly Procedures The procedures described in this section begin with the instrument’s power turned off, and the instrument is disassembled. +LJK 9ROWDJH 9ROWDJHV GDQJHURXV WR OLIH DUH SUHVHQW LQ WKH LQVWUXPHQW 'R QRW SHUIRUP :$51,1* DQ\ DVVHPEO\ SURFHGXUHV RWKHU WKDQ SDUDPHWHU PRGXOH LQVWDOODWLRQ ZLWK SRZHU DSSOLHG WR WKH LQVWUXPHQW )DLOXUH WR DGKHUH WR WKLV ZDUQLQJ FRXOG FDXVH VHULRXV LQMXU\...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Attach the Front Housing Assembly to the Rear Housing. Replace the 4 screws at the rear of the Front Housing Assembly. Front Housing Assembly Rear Housing Connect the Local Distribution Cable, AC power cable, Plug-in Satellite Rack cable, Defib sync cable, and RS232 Cable (where appropriate).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ WKH )ODW 3DQHO 'LVSOD\ $VVHPEO\ )LQJHUSULQWV DQG GLUW EHWZHHQ WKH )ODW 3DQHO 'LVSOD\ DQG SODVWLF DQWLJODUH VFUHHQ VKRZ &$87,21 XS SURPLQHQWO\ GXULQJ LQVWUXPHQW RSHUDWLRQ 7DNH FDUH QRW WR WRXFK WKH )ODW 3DQHO VFUHHQ RU WKH LQVLGH RI WKH FOHDU SODVWLF DQWLJODUH VFUHHQ 5HPRYH DQ\ ILQJHUSULQWV RU GLUW XVLQJ D QRQUHVLGXH IRUPLQJ FOHDQHU VXFK DV DOFRKRO DQG D OLQWIUHH FORWK Grasp the sides and insert the Flat Panel Bracket (containing the Flat Panel) into the Front Housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ WKH )URQW +RXVLQJ .H\SDG Insert the keypad onto the Front Housing. Replace four nuts securing keypad to the Front Housing. Install the Front Housing Assembly 5HSDLULQJ WKH $JLOHQW 0RGHO 9 ...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ WKH )ODW 3DQHO $GDSWHU %RDUG Place the Flat Panel Adapter Board over the 4 spacers attached to the Flat Panel Bracket. Flat Panel Adapter Board Flat Panel interface cable Backlight cable Replace the 4 screws connecting the Flat Panel Adapter Board to the Flat Panel Bracket. Connect the Backlight cable to the Flat Panel Adapter Board.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Slide the Power Supply Chassis Assembly into the front of the Rear Housing. Power Supply Chassis Depending on the type of Rear Housing, install the following: • On rear housings with a serial prefix <3608, secure the 5 screws and ground lug at the rear of the instrument as shown below.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH • On rear housings with a serial prefix code of >= 3608, secure the 6 screws at the rear of the instrument. From underneath the instrument, replace one retaining screw. From underneath the instrument, replace the 4 screws securing the instrument feet to the Rear Housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Connect all cables to the System Board as shown. Install the Front Housing Assembly. 5HSODFLQJ WKH 6\VWHP %RDUG Insert the System Board into the Rear Housing. Replace the 5 screws securing the System Board to the Rear Housing. If the System Board was replaced, reprogram the Flash Memory.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Connect the cables to the System Board as shown. System Board interface connectors: 1. Keypad connector 2. Flat Panel Data Connector 3. 5V and 12V power supply connector 4. Service ports (not cabled) 5. SDN interface cable 6.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Practice Exercise To check your understanding, please complete the following exercise. Write the name of each assembly in the space provided which correspond to each letter shown in the illustration. After naming each replaceable assembly, check your answer with the answers provided on the following page.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3UDFWLFH ([HUFLVH $QVZHUV A. Front Housing B. Flat Panel Interface Cable C. Flat Panel Adapter Board D. Keypad Cable E. Flat Panel Data Cable F. System Board G. Flat Panel Display Assembly (or Flat Panel Bracket containing the Flat Panel) H.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 7 Repairing the Agilent Model V24C/V26C 2EMHFWLYH After reading this chapter and Chapter 9 )URQW +RXVLQJ $VVHPEO\ 9&9& 9&7 9&7, and completing the Practice Exercises, you will be able to UHPRYH and UHSODFH the following Agilent Model V24C/V26C major assemblies: •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Which one you have depends on the country to which it was shipped by the factory. You can differentiate them by looking at the “option string” on the serial number label on the right-hand side of the monitor.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Removal Procedures This section presents procedures to disassemble the instrument to the extent required to remove and replace faulty assemblies. Do not further disassemble the product past the point described in these procedures. +LJK 9ROWDJH 9ROWDJHV GDQJHURXV WR OLIH DUH SUHVHQW LQ WKH LQVWUXPHQW :$51,1* 'R QRW SHUIRUP DQ\ GLVDVVHPEO\ RU UHDVVHPEO\ SURFHGXUHV RWKHU WKDQ SDUDPHWHU PRGXOH UHPRYDO ZLWK SRZHU DSSOLHG WR WKH LQVWUXPHQW...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Removing the Front Housing See Chapter 9 Removing the Rear Housing Disassembling the Rear Housing consists of two parts: Removing the System Board Removing the power supply 5HPRYLQJ WKH 6\VWHP %RDUG Remove the Front Housing. Disconnect the cables from the System Board as shown below.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH System Board interface connectors: 1. Keypad connector 2. Flat Panel Data Connector 3. 5V and 12V power supply connector 4. Service ports (not cabled) 5. SDN interface cable 6. Defib sync connector (not cabled) 7.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove the 5 screws securing the System Board to the Rear Housing. Remove the System Board from the Rear Housing. 5HSDLULQJ WKH $JLOHQW 0RGHO 9&9& ...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH From underneath the instrument, remove 4 screws securing the instrument feet to the Rear Housing. Remove feet. From underneath the instrument, remove one retaining screw at the front center of the Rear Housing. Remove the 6 screws at the rear of the instrument. 5HSDLULQJ WKH $JLOHQW 0RGHO 9&9&...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Slide the Power Supply Chassis Assembly from the front of the Rear Housing Power Supply Chassis Disconnect the 5v/12v Power Supply cable ground lug from the chassis. Disconnect the power switch cable from the Power Supply Board by pushing in the 2 tabs on the connector and pulling up.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove 5 screws connecting the Power Supply Board to the chassis. ON/OFF Switch Power Switch Harness (not shown, under Power Supply) Lift Power Supply Board off the chassis. If replacing the Power Supply Board, move the 5v/12v cable and 60v cable to the 127( replacement Power Supply Board.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Replacement Procedures The procedures described in this section begin with the instrument’s power turned off and the instrument disassembled. High Voltage - Voltages dangerous to life are present in the instrument. Do not perform any :$51,1* assembly procedures (other than parameter module installation) with power applied to the instrument.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH If replacing the Power Supply Board, move the 5v/12v cable and 60v cable to the 127( replacement Power Supply Board. Slide the Power Supply Chassis Assembly into the Rear Housing. Power Supply Chassis Secure the 6 screws at the rear of the instrument. From underneath the instrument, replace one retaining screw at the front center of the Rear Housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH From underneath the instrument, replace the 4 screws securing the instrument feet to the Rear Housing. If the System board is currently installed, connect all cables to the System Board as shown, otherwise proceed to the following section, 5HSODFLQJ WKH 6\VWHP %RDUG. 5HSDLULQJ WKH $JLOHQW 0RGHO 9&9&...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH System Board interface connectors: 1. Keypad connector 2. Flat Panel Data Connector 3. 5V and 12V power supply connector 4. Service ports (not cabled) 5. SDN interface cable 6. Defib sync connector (not cabled) 7.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 8 Repairing the Agilent Model V24CT/V26CT 2EMHFWLYH After reading this chapter and Chapter 9 )URQW +RXVLQJ $VVHPEO\ 9&9& 9&7 9&7, and completing the Practice Exercises, you will be able to UHPRYH and UHSODFH the following Agilent Model V24CT/V26CT major assemblies: •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Your Model V24CT/V26CT is one of four different versions: 127( Opt. 024 = Standard Opt. 025 = Asian Opt. 028 = Asian, New Display Opt. 029 = Standard, New Display Which one you have depends on the country to which it was shipped by the factory. You can differentiate them by looking at the “option string”...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Overview Removal Procedures This section presents procedures to disassemble the instrument to the extent required to remove and replace faulty assemblies. Do not further disassemble the product past the point described in these procedures. +LJK 9ROWDJH 9ROWDJHV GDQJHURXV WR OLIH DUH SUHVHQW LQ WKH LQVWUXPHQW :$51,1* 'R QRW SHUIRUP DQ\ GLVDVVHPEO\ RU UHDVVHPEO\ SURFHGXUHV RWKHU WKDQ...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Front Housing Removal Procedures The procedures below processes are listed in the order they would occur should the front housings require complete disassembly. Should complete disassembly not be necessary, follow the procedures below only to the point required to remove and replace faulty assemblies.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH /HDG $FLG %DWWHULHV Remove power to the Model V24CT/V26CT by pressing the power switch to OFF and disconnecting the AC power cord. At the rear of the Model V24CT/V26CT, open the battery door (swings downward). Lift up on the battery retaining switch and the battery pops out.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH 3DUDPHWHU 0RGXOH 5DFN Press the power switch to OFF and disconnect the AC power cord. Remove Lead Acid batteries. Remove parameter modules from parameter module rack by pressing up on retaining tab and sliding parameter modules from rack.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Rear Housing Removal Procedures Disassembling the Rear Housing consists of: Removing power to the Model V24CT/V26CT by pressing the power switch to OFF and disconnecting the AC power cord. Removing Lead Acid Batteries (see 9-5). Removing Parameter Module Rack (see 9-6).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH 6\VWHP %RDUG Remove the Front Housing. See 9-2. Disconnect the cables from the System Board as shown below. System Board interface connectors: 1. Keypad connector 2. Flat Panel Data Connector 3. 5V and 12V power supply connector 4.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove the 5 screws securing the System Board to the Rear Housing. Remove the System Board from the Rear Housing. 5HSDLULQJ WKH $JLOHQW 0RGHO 9&79&7 ...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH From underneath the instrument, remove 4 screws securing the instrument feet to the Rear Housing and 1 retaining screw. Remove feet. 5HSDLULQJ WKH $JLOHQW 0RGHO 9&79&7 ...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH At the rear of the instrument, remove six screws and ground lug securing assembly to rear of the rear housing. Lift on the battery release levers so power supply assembly comes free from the rear housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ 3DUDPHWHU 0RGXOH 5DFN 'RFNLQJ &RQQHFWRU Remove power to the Model V24CT/V26CT by pressing the power switch to OFF and disconnecting the AC power cord. Remove Lead Acid Batteries (see 9-5). Remove Front Housing Assembly (see 9-2). Remove Power Supply Assembly (see 9-10).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove two screws and remove rack connector. 5HSDLULQJ WKH $JLOHQW 0RGHO 9&79&7...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ 6\VWHP %RDUG Verify power to the Model V24CT/V26CT is OFF and that the AC power cord is discon- nected. Verify that the Lead-Acid batteries have been removed. Insert the System Board into the Rear Housing. Replace the 5 screws securing the System Board to the Rear Housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ %DWWHU\ &RQWDFW %RDUG Verify power to the Model V24CT/V26CT is OFF and that the AC power cord is discon- nected. Verify that the Lead-Acid batteries have been removed. Secure Battery Contact Board to Power Supply Assembly using four screws. Replace Front Housing Assembly.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Practice Exercise To check your understanding, please complete the following exercise. Write the name of each assembly in the space provided which correspond to each letter shown in the illustration. After naming each replaceable assembly, check your answer with the answers provided on the following page.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3UDFWLFH ([HUFLVH $QVZHUV A. Keypad Cable B. Flat Panel Bracket C. Flat Panel Adapter Board D. DSPC Board E. 12v Cable F. CDCI Board G. Front Housing H. Flat Panel Data Cable I. Flat Panel Brightness Control Assembly J.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 9 Front Housing Assembly V24C/V26C & V24CT/V26CT 2EMHFWLYH After reading this chapter and completing the Practice Exercise you will be able to UHPRYH and UHSODFH the following Agilent Model V24C/V26C/V24CT/V26CT major assemblies: • Front Housing Assembly and major components ,Q WKLV FKDSWHU The removal and replacement procedures for the instrument are easy to complete when following the step-by-step procedures.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Removing the Front Housing Assembly +LJK 9ROWDJH 9ROWDJHV GDQJHURXV WR OLIH DUH SUHVHQW LQ WKH LQVWUXPHQW 'R QRW :$51,1* SHUIRUP DQ\ GLVDVVHPEO\ RU UHDVVHPEO\ SURFHGXUHV RWKHU WKDQ SDUDPHWHU PRGXOH UHPRYDO ZLWK SRZHU DSSOLHG WR WKH LQVWUXPHQW )DLOXUH WR DGKHUH WR WKLV ZDUQLQJ FRXOG FDXVH VHULRXV LQMXU\ RU GHDWK 7R UHPRYH WKH IURQW KRXVLQJ DVVHPEO\ Remove power to the Model V24C/V26C/V24CT/V26CT by pressing the power switch to OFF...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove the 4 screws from the rear of the front housing assembly. Separate front housing assembly from rear housing and continue to hold the front housing assembly for support. Front Housing Assembly Rear Housing Assembly While supporting the front housing assembly, disconnect the Flat Panel data cable from the System board.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Lay the display down on a flat surface. Srh ÃCvt FrhqÃ8hiyrÃB qÃGtÃp r Tr vpr H99Ãr vÃy Q FrhqÃ8hiyr 8r A ÃCvt 6vtyh rÃTp rr AyhÃQhryÃ7 vtur 8 yÃ6riy AyhÃQhryÃ7 vturà AyhÃQhryÃ9hh 8 yÃ6riy AyhÃQhryÃ9hh 8hiyr B qÃGtà 8hiyr B qÃGt H99Ãr vÃy AyhÃQhryÃ7 hpxr SADÃT vt If your monitor has a new type of flat screen display it will look slightly different from the 127( above picture.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Version 1: Assembly procedure for Display Options 021 to 025 and J90 with PDC 3931 or greater 5HPRYLQJ WKH %RDUG 6KLHOG Remove the Front Housing Assembly (see "Removing the Front Housing Assembly" on page 9-2). Remove the 2 hex stand-off screws (5 mm) located in the narrow channel securing the Board Shield and Flat Panel Bracket to the top of the Front Housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Gently lift up on the Flat Panel Bracket containing the Flat Panel and remove it from the Front Housing. )URQW +RXVLQJ $VVHPEO\ 9&9& 9&79&7 ...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH %RDUG $VVHPEO\ The 3-Board Assembly consists of the DSPC Board, CDCI Board, and Flat Panel Adapter 127( Board. Remove the Board Shield (see page 9-5). Remove the 2 hex stand-off nuts securing the ferrite block and wide Flat Panel Ribbon Cable to the Flat Panel Bracket.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Lifting the entire 3-board assembly off the Flat Panel assembly. If necessary to remove individual boards from the board assembly, grip either the CDCI Board or the Flat Panel Adapter Board securely and gently pull so that the board connec- tor separates from the DSPC board.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )ODW 3DQHO Remove the Front Housing Assembly. See "Removing the Front Housing Assembly" on page 9-2. Remove the Flat Panel Display Assembly. See "Removing the Flat Panel Display Assem- bly" on page 9-6. Remove the Board Shield.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )ODW 3DQHO %DFNOLJKW 7XEH When removing backlight, carefully place the Flat Panel with display side down on a clean 127( flat surface. Using a jeweler size Phillips screwdriver, remove the backlight cover housing the 2 back- light wires by unscrewing the 2 screws.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYH WKH )URQW +RXVLQJ .H\SDG Remove the Front Housing Assembly. See "Removing the Front Housing Assembly" on page 9-2. Remove four nuts securing Keypad to the Front Housing. Remove Keypad from Front Housing. To UHDVVHPEOH the unit, follow the disassembly procedures in reverse order. 127( +LJK 9ROWDJH ²...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Version 2: Assembly Procedure for Display Options 026 to 029 less than PDC 3927 5HPRYLQJ WKH %RDUG 6KLHOG Remove the Front Housing Assembly (see "Removing the Front Housing Assembly" on page 9-2). Remove the two screws located in the narrow channel and the two hex stand-off screws securing the Board Shield and Flat Panel Bracket to the top of the Front Housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Lay the flex cable assembly over the edge of the Front Housing. Disconnect the 12V cable connecting the CDCI Board to the Flat Panel Adapter Board. Remove the 3-Board assembly by: Removing the 3 screws securing the middle DPSC board to the Flat Panel Bracket. Removing the six screws securing the CDCI Board and the Flat Panel Adapter Board to the Flat Panel Bracket.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Flat Panel Adapter Board DSPC Board CDCI Board 5HPRYLQJ WKH )ODW 3DQHO Remove the Front Housing Assembly. Remove the Flat Panel Display Assembly. Turn the Flat Panel Display Assembly over and lay on a clean flat surface (Display side up).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )ODW 3DQHO %DFNOLJKW 7XEH :LWKRXW IXOO\ GLVDVVHPEOLQJ WKH )URQW +RXVLQJ Remove the Front Housing Assembly. Remove the Flat Panel Display Assembly. Turn the Flat Panel Display Assembly over and lay on a clean flat surface (Display side up) with the 3-wire backlight cable connector side facing you.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYH WKH )URQW +RXVLQJ .H\SDG Remove the Front Housing Assembly. See "Removing the Front Housing Assembly" on page 9-2. Remove four nuts securing Keypad to the Front Housing. Remove Keypad from Front Housing. To UHDVVHPEOH the unit, follow the disassembly procedures in reverse order. 127( +LJK 9ROWDJH ²...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Version 3&4: Assembly Procedure for Display Options 027 and 028 with PDC 3927 and above Keyboard Cable LCD Data Cable Color Display Flex Cable Brightness Control Assy. Color Display Frame Color Display Bracket Converter Board (part of Flat Panel) Display Driver Board Converter Cable The newest front housing assembly (PDC = 3927 or greater) has no board shield.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )ODW 3DQHO 'LVSOD\ $VVHPEO\ )LQJHUSULQWV DQG GLUW EHWZHHQ WKH )ODW 3DQHO 'LVSOD\ DQG SODVWLF DQWLJODUH VFUHHQ VKRZ &$87,21 XS SURPLQHQWO\ GXULQJ LQVWUXPHQW RSHUDWLRQ 7DNH FDUH QRW WR WRXFK WKH )ODW 3DQHO VFUHHQ RU WKH LQVLGH RI WKH FOHDU SODVWLF DQWLJODUH VFUHHQ 5HPRYH DQ\ ILQJHUSULQWV RU GLUW XVLQJ D QRQUHVLGXHIRUPLQJ FOHDQHU VXFK DV DOFRKRO DQG D OLQWIUHH FORWK Remove Front Housing Assembly (see "Removing the Front Housing Assembly"...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH 'LVSOD\ 'ULYHU %RDUG DQG &RQYHUWHU $VVHPEOLHV To remove the flat panel it is not necessary to remove the Display Driver and Converter 127( Boards. Carefully disconnect the flex cable connector from the Display Driver Board. To remove the Display Driver Board, remove the four screws securing it to the flat panel frame.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYLQJ WKH )ODW 3DQHO %DFNOLJKW 7XEH :LWKRXW IXOO\ GLVDVVHPEOLQJ WKH )URQW +RXVLQJ Remove the Front Housing Assembly. Disconnect the large flex cable from Display Driver Board and remove the flex circuit connector from Flat Panel Display. Disconnect the 3-wire backlight cable from the end of the Converter Board.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HPRYH WKH )URQW +RXVLQJ .H\SDG Remove the Front Housing Assembly. See "Removing the Front Housing Assembly" on page 9-2. Remove four nuts securing Keypad to the Front Housing. Remove Keypad from Front Housing. To UHDVVHPEOH the unit, follow the disassembly procedures in reverse order. 127( +LJK 9ROWDJH ²...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Front Housing Replacement Procedures If your monitor has the new type (Version 2 to 4) of flatscreen display some of the reassembly procedures may be slightly different from the following sections. Refer back to the disassembly procedures for the detailed differences.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ )URQW +RXVLQJ .H\SDG Verify power to the monitor is OFF and that the AC power cord is disconnected. If it is a CT model, verify that the Lead-Acid batteries have been removed. Insert the keypad onto the Front Housing. Replace four nuts securing Keypad to the Front Housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Gently slide the backlight into its channel. Using a small flat-bladed screwdriver, plug the backlight connector into the Flat Panel and reposition the 2 backlight wires into their channels. Screw in the screw next to the 2 backlight wires to secure the backlight to the Flat Panel. Backlight Wires Slide the backlight cover back and down and push down on 2 tabs to secure the cover.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ WKH )ODW 3DQHO Insert the Flat Panel (Display side up) into the Flat Panel Bracket and replace 4 screws securing the Flat Panel to the Flat Panel Bracket. Flat Panel Flat Panel Chassis Grasping carefully by the sides, turn the Flat Panel over and place it (Display side down) into the Front Housing Assembly (with Antiglare screen).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ WKH %RDUG $VVHPEO\ Reassemble the 3 boards after replacing any individual boards. To form a complete board assembly, grip either the CDCI Board or the Flat Panel Adapter Board securely and gen- tly push so that the board connector connects to the middle DSPC board. )ODW 3DQHO $GDSWHU %RDUG '63&...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ,167$// ),567 '63& %RDUG Plug in the 12V cable connecting the CDCI Board to the Flat Panel Adapter Board. )HUULWH %ORFN Plug the Flat Panel cable into the Flat Panel Adapter Board and secure the ferrite block with the 2 hex stand-off nuts.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ WKH )ODW 3DQHO 'LVSOD\ $VVHPEO\ )LQJHUSULQWV DQG GLUW EHWZHHQ WKH )ODW 3DQHO 'LVSOD\ DQG SODVWLF DQWLJODUH VFUHHQ VKRZ &$87,21 XS SURPLQHQWO\ GXULQJ LQVWUXPHQW RSHUDWLRQ 7DNH FDUH QRW WR WRXFK WKH )ODW 3DQHO VFUHHQ RU WKH LQVLGH RI WKH FOHDU SODVWLF DQWLJODUH VFUHHQ 5HPRYH DQ\ ILQJHUSULQWV RU GLUW XVLQJ D QRQUHVLGXHIRUPLQJ FOHDQHU VXFK DV DOFRKRO DQG D OLQWIUHH FORWK Verify power to the monitor is OFF and that the AC power cord is disconnected.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ WKH )URQW +RXVLQJ $VVHPEO\ Connect the Brightness Control Assembly to the CDCI Board (and ground lug for the MDD version of the instrument). Connect the Flat Panel Data cable from the System Board to the CDCI Board (and ground lug).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Attach the Front Housing Assembly to the Rear Housing. Replace the 4 screws at the rear of the Front Housing Assembly. Front Housing Assembly Rear Housing Assembly Connect the Local Distribution Cable, AC power cable, Plug-in Satellite Rack cable, Defib sync cable, and RS232 cable (where appropriate).
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HSODFLQJ WKH %RDUG 6KLHOG Place the Board Shield on the Flat Panel Bracket. Screw in the 2 hex stand-off screws (5mm) located in the narrow channel securing the Board Shield and Flat Panel Bracket to the top of the Front Housing. Screw on the 4 hex nuts (5.5mm) securing the rest of the Board Shield to the Flat Panel Bracket.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Practice Exercise To check your understanding, please complete the following exercise. Write the name of each assembly in the space provided which correspond to each letter shown in the illustration. After naming each replaceable assembly, check your answer with the answers provided on the following page.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3UDFWLFH ([HUFLVH $QVZHUV A. Keypad Cable B. Flat Panel Bracket C. Flat Panel Adapter Board D. DSPC Board E. 12v Cable F. CDCI Board G. Front Housing H. Flat Panel Data Cable I. Flat Panel Brightness Control Assembly J.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 10 Removing & Replacing Plug-in Modules 2EMHFWLYH After reading this chapter you will be able to UHPRYH and UHSODFH the Agilent V24/V26 Series Plug-in Modules listed in the following table. ,Q WKLV FKDSWHU The removal and replacement procedures for the Plug-in Modules are easy to complete when following the step-by-step procedures outlined in this chapter.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6QDS /RFN 7KH VQDS ORFN KROGV WKH SOXJLQ PRGXOH LQ WKH VDWHOOLWH UDFN rsnaplck.mif ‘ rsnapcth.mif 7R 5HPRYH WKH 6QDS /RFN 6WHS Grip the module firmly in one hand and using your thumb, pull the front edge of the snap lock away from the plug-in module so that the lug on the snap lock clears the retaining edge of the module.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 3OXJ,Q 0RGXOH 5HPRYDO 5HPRYDO RI WKH SDUDPHWHU PRGXOH The work-flow for plug-in module removal is as follows. HQDEOHV UHSODFHPHQW RI WKH IURQW DVVHPEO\ RYHUOD\ PLGGOH Remove Remove Remove Replace IUDPH /('V Front Module Frame Parts VZLWFKHV DQG Housing...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7R 5HPRYH D 3OXJ,Q 0RGXOH 6WHS Remove the Front Housing. Place the module on a flat surface and insert a card (similar to a credit or cheque type card) into one side of the module to disengage the 2 tabs securing the front housing to the module housing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 1%3 ,QOHW &RQQHFWRU ,QVHUW 7KH 1%3 ,QOHW &RQQHFWRU LV oplevel.mif UHSODFHG ZLWKRXW RSHQLQJ WKH PRGXOH 'R QRW UHPRYH WKH WUDQVSDUHQW FRYHU RQ WKH FRQQHFWRU 7R 5HPRYH WKH 1%3 ,QOHW &RQQHFWRU ,QVHUW 6WHS Use a 6mm Allen key to unscrew the defective connector insert from the inlet of the NBP module.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7KH 1%3 SXPS LQIODWHV WKH 1%3 3XPS SUHVVXUH FXII Disassemble the Remove the Replace Parts module down to Pump the frame 7R 5HPRYH WKH 1%3 3XPS 6WHS Using a small screwdriver or similar tool, unplug the white 4-pin connector from the socket through the access hole on the top rear module casing.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH WFS2 WFS&2 &DOLEUDWLRQ &KDPEHU .LW tcpO /tcpCO M1018A 80x100 CALIBRATION CHAMBER 7R 5HPRYH WKH &DOLEUDWLRQ &KDPEHU 6WHS Using a flat-tipped screwdriver, remove the screw holding the calibration chamber in place on the front of the plug-in module. 6WHS Lift the chamber off the plug-in module.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HFRUGHU 0RGXOH 3DSHU The recorder will not run when the door is open or when the recorder is out of paper. To prevent damage to the recorder module, use only Agilent approved paper (Agilent re-order number 40477A/B) STEP STEP...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Chapter 11 Replacement Parts 2EMHFWLYH After reading this chapter, you will be able to identify the replaceable components and know which subassemblies you can order for the instrument. ,Q WKLV FKDSWHU The instrument is comprised of several components which may be exchanged or replaced if they break.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Product Identification The Agilent V24/V26 Series monitor comes in the following versions: • One monochrome version (Model V24 option 020) • Five color versions - MDD version (Model V24C/V26C option 022) - Standard version (Model V24C/V26C option 021) - Asian Version (Model V24C/V26C option 023) - Standard, new display, MDD-compatible (Model V24C/V26C option 026) - Standard and Asian, new display (Model V24C/V26C option 027)
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Model V24C/V26C Field Replaceable Parts (Color Mainframe) The Agilent V24C/V26C and V24CT/V26CT Models exist with 4 different front housing assembly versions. To help you identify the correct parts for your front housing version, refer to the following table: 2SWLRQ 3UHIL[ 'DWH &RGH...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Model V24CT/V26CT Field Replaceable Parts (Color Battery Mainframe) The Agilent V24C/V26C and V24CT/V26CT Models exist with 4 different front housing assembly versions. To help you identify the correct parts for your front housing version, refer to the following table: 2SWLRQ 3UHIL[ 'DWH &RGH...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Front Housing Kit does not include Flat Panel Display Assembly. Insulator attaches to Board Shield to insulate Flat Panel Display Cable (old insulator not reusable). RFI shielding for external defib sync cable. Color Flat Panel bracket includes RFI springs. When ordering the color display controller (DSPC Bd.), bracket with RFI springs used for CMS must be removed (2 screws) prior to installation into Model V24CT/V26CT.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Plug-In Modules The following table shows the part-numbers of the plug-in modules that can be replaced. Find the right number for your language combining the P/N-Prefix with the language-specific suffix for the wanted module E.g.: To order a TEMP module for a French language model, the correct order number would be M1029-68801.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ([SORGHG YLHZ RI VLQJOH ZLGWK 3DUDPHWHU 0RGXOH Parts include: (also shown on next page) 1. Typical overlay label 2. Housing front single 3. Housing front double 4. Frame right (Part of Frame Kit) 5. Frame left (Part of Frame Kit) 6.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH ([SORGHG YLHZ RI GRXEOH ZLGWK 3DUDPHWHU 0RGXOH Parts include: 1. Typical overlay label 2. Housing front single 3. Housing front double 4. Frame right (Part of Frame Kit) 5. Frame left (Part of Frame Kit) 6.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 127( Module labels are not available for all languages. 7DEOH 3OXJ,Q 0RGXOH /DEHO 3DUW 1XPEHUV ZLWK 7 2OG 'DUN 1HZ /LJKW 0RGXOH &RORU &RORU VueLink M1032-443xx M1032-444xx ’01 ’01 ’01 ’01 ’01 ’01 ’01 ’01 ’01...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Patient Connectors and Accessories *HQHUDO 7DEOH *HQHUDO $FFHVVRULHV 1HZ 3DUW 1XPEHU 'HVFULSWLRQ M2281A Patient Cable Organizer (pack of 8 hooks) (&* (&*5HVSLUDWLRQ 0RGXOH $FFHVVRULHV The cabling and associated parts that can be ordered for the ECG and ECG/Respiration modules are: mrx-ecg1 M1510A...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &DUGLDF 2XWSXW 0RGXOH $FFHVVRULHV The following accessories can be ordered for the Cardiac Output Module: 14455A 23001A 23002A 7DEOH &DUGLDF 2XWSXW 7HPSHUDWXUH 3UREHV $FFHVVRULHV 3DUW 1XPEHU 'HVFULSWLRQ 14454A IV pole mount 14455A Ice bucket for Cardiac Output; styrofoam 15244A Hand switch 23001A...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &2 0RGXOH $FFHVVRULHV The following accessories can be ordered for the CO Module: mrx-co2 To Patient Inspiratory Limb Y-Piece To Anesthesia Machine Expiratory Limb To Anesthesia Machine 14360A 14363A 14365A 14373C 7DEOH &2 *DV 0RQLWRULQJ $FFHVVRULHV 1HZ 3DUW 1XPEHU 'HVFULSWLRQ...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 6LGHVWUHDP &2 0RGXOH $FFHVVRULHV The following accessories can be ordered for the Sidestream CO Module: 7DEOH 6LGHVWUHDP &2 *DV 0RQLWRULQJ $FFHVVRULHV 1HZ 3DUW 1XPEHU 'HVFULSWLRQ 13901A Sample tube, 2.4 m Nafion 13902A Elbow airway adaptor, 15 mm 1612AA Straight airway adaptor 13904A...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH %ORRG $QDO\VLV 0RGXOH $FFHVVRULHV The following accessories can be ordered for the Blood Analysis Module. 7DEOH %ORRG $QDO\VLV &DUWULGJHV 3DUW 1XPEHU 'HVFULSWLRQ order from Abbott EG7+ Cartridge order from Abbott EG6+ Cartridge order from Abbott G3+ Cartridge order from Abbott EC8+ Cartridge...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Appendix A SDN Daughter Board 2EMHFWLYHV After reading this appendix, you will be able to do the following: • How to know if you have the SDN Daughter Board configuration in your Model V24. •...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Section 1 - Functional Description The SDN Daughter Board provides the Model V24 with internal electronics to enable it to connect to the Agilent patient care system. A description of the Agilent patient care system interface is found in Chapter 1 of this book.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Section 2 - Troubleshooting SDN Daughter Board Problems This section tells you how to troubleshoot the SDN problems in the Model V24 if you have the SDN Daughter Board configuration. Before using the procedures in this section, make sure you have performed the troubleshooting procedures contained in Chapter 3 of this manual.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Section 3 - Repairing the Instrument (units with the SDN Daughter Board) 2EMHFWLYH After reading this section you will be able to UHPRYH and UHSODFH the following Model V24 SDN Daughter Board assemblies: • SDN Daughter Board •...
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 7R 5HPRYH WKH 6'1 'DXJKWHU %RDUG Remove the four screws that secure the Display Assembly to the rear housing and sepa- rate the two. Lay the Display Assembly flat. Refer to chapter 7 of this manual if you need any more information.
$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Remove the two screws securing the mounting to the Power Supply Assembly and remove the mounting bracket. 7R 5HSODFH WKH 0RXQWLQJ %UDFNHW Secure the mounting bracket to the power supply assembly using two screws. Secure the SDN Daughter Board to he mounting bracket using four screws.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Appendix B Nurse-Call Relay Board 2EMHFWLYHV After reading this appendix, you will be able to do the following: • Access the relay board. • Configure the Nurse-Call relay board to specific requirements. • Test the correct function of the Nurse-Call relay board. ,Q WKLV DSSHQGL[ The following topics are contained in this appendix: 7RSLF...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH The 6-pin connector to the relay board is located at the rear of the Agilent V24/24C monitor. The relay board is installed inside the Agilent V24/24C monitor. )LJXUH /RFDWLRQ RI WKH 1XUVH&DOO 5HOD\ %RDUG &RQQHFWRU The following situations may cause the relays to briefly indicate an incorrect level of alarm.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Configuring the Relay Board 5HVSRQVH RI 5HOD\V The response of the relays depends on the type of alarm: 5HG DODUP DQG \HOORZ Relay responds immediately when the monitor generates or deactivates DODUP UHOD\V the alarm. ,123 DODUP UHOD\V Two possibilities: •...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH &RQQHFWRU 3LQ $VVLJQPHQWV The output pins of the connector are floating (they are isolated from the monitor and ground). (Insulation: 500 Vrms for 1minute.) SLQ &RQQHFWRU (as seen from the rear of the monitor) )LJXUH 5HOD\ %RDUG 3LQ DQG &DEOH $VVLJQPHQWV Devices that are connected to external systems should include a second ground wire to ensure that leakage specifications are maintained.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH $FFHVVLQJ WKH 5HOD\ %RDUG No installation or maintenance is required. &$87,21 7R SUHYHQW GDPDJH GR QRW KDQGOH LQWHJUDWHG FLUFXLWV RU SULQWHG FLUFXLW ERDUGV XQWLO WKH IROORZLQJ FRQGLWLRQV DUH VDWLVILHG A recommended anti-static mat is the Minnesota Mining and Manufacturing Company (3M) Part Number 8210.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH )LJXUH $FFHVVLQJ WKH 5HOD\ %RDUG The location of the Relay Board is shown in the following figure % 1XUVH&DOO 5HOD\ %RDUG...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Configuring Options &$87,21 7KH VHWWLQJV GHVFULEHG LQ WKLV VHFWLRQ DIIHFW ZKDW LV ODEHOHG RQ WKH 3& ERDUG 5HOD\ -XPSHU VHWWLQJV )LJXUH /RFDWLRQ RI -XPSHUV 'HIDXOW &RQILJXUDWLRQ The default configuration of the relay board is: 5HG UHOD\ closes on red alarm <HOORZ UHOD\...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Because the relay’s response is derived from the audible alarms, it is not possible for the relay board to reflect if the monitor is, for example, in red alarm ++and++ INOP at the same time. The relay board handles this by responding to the highest priority alarm.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH 5HOD\ -XPSHU 6HWWLQJV IRU (PXODWLQJ $JLOHQW &RPSRQHQW 0RQLWRULQJ 6\VWHPV $JLOHQW &06 5HOD\ &RQILJXUDWLRQV The Agilent CMS Nurse Call Relay becomes active (closes) in one of four situations depending on the way it has been configured: Red only alarms Red and Yellow alarms Red and INOP alarms...
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Installation and Maintenance The following parts will be set up at SMO/PCE to support the Nurse Call option. The V24/24C system boards in products with the Nurse Call option have a cable permanently soldered to it for the alarm board connection and therefore have different part numbers from the standard boards.
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$JLOHQW 0$ 99 6HULHV 6HUYLFH *XLGH Test Procedures The test procedures are as follows (for relays closing on alarm event): Put an Ohmmeter on connector pins 1 and 2 of the nurse-call connector. Generate a UHG alarm condition and check if the resistance changes from high resistance to less than 0.3 Ohm.