™ DINAMAP Compact Vital Signs Monitor Portable Adult/Pediatric and Neonatal Monitoring Service Manual Part No: 776-856 1
List of Effective Pages Part No./Rev 776856 776856B Page No. All All U.S. Patent 5,579,776 U.S. Patent 5,170,795 U.S. Patent 4,349,034 U.S. Patent 5,052,397 U.S. Patent 4,360,029 U.S. Patent 4,543,962 Patents Pending Date of Latest Revision Original (May. 2000) June 2001 U.S. Patent 4,754,761 U.S. Patent 4,501,280 U.S. Patent 4,638,810 U.S. Patent 4,546,775 U.S. Patent 4,638,810 U.S. Patent 4,546,775 U.S. Patent 5,518,000 European Patents: 104771 104772 217918 225256 335357 CAUTION: Federal (U.S.A.
™ DINAMAP Compact Vital Signs Monitor Model TS 3
TABLE OF CONTENTS 1 INTRODUCTION 1.1 Scope of Manual 7 1.2 Warranty and Service 1.2.1 Packing Instructions 1.2.2 Service Loan Units 1.2.3 Repair Parts 1.2.4 Replacement Accessories 7 8 8 8 9 1.3 Service Centers 9 1.4 Installation and Operation 10 1.5 Warnings & Precautions 10 1.6 Symbol Definitions 1.6.1 Safety Symbols 1.6.2 Key and Display Symbols 1.6.3 Connector Symbols 10 10 10 11 1.7 11 Electrical, Mechanical & Environmental Specifications 2 PRODUCT DESCRIPTION 15 2.
3.2 Service Modes 3.2.1 The Clinician Menu (Service mode 1 2 3 4) 3.2.2 The Service Menu (Service mode 2 2 1 3) 29 31 32 3.3 Calibration - Checking & Re-calibrating 3.3.1 Checking of NIBP Calibration 3.3.2 NIBP Calibration 3.3.3 NIBP Pop Off Checking 3.3.4 NIBP Pop Off Pressure Calibration 3.3.5 Predictive Temperature Calibration Check 3.3.6 Predictive Temperature Calibration 36 36 37 38 39 40 40 3.4 Monitor Disassembly 3.4.1 Removal of the Front Panel 3.4.
7 GLOSSARY OF TERMS AND ABBREVIATIONS 77 8 SERVICE DIAGRAMS 78 6
1 Introduction 1.1 Scope of Manual This Service Manual provides service and parts repair information for the DINAMAP™ Compact Vital Signs Monitor. This manual is intended for use by service technicians who are familiar with electromechanical devices and digital and analog circuit techniques. ! WARNING To reduce the risk of electric shock, do not remove the instrument’s covers. Refer servicing to qualified service personnel. Only trained service technicians should perform repairs on this equipment.
If your monitor requires warranty, extended warranty, or non-warranty service, call Technical Support and a representative will assist you. To expedite service where the product has external chassis or case mechanical damage, please advise the Technical Service representative when you call. The representative will record all the necessary details and will provide the information, which is required for all returned products.
1.2.4 Replacement Accessories Replacements such as hoses and sensors must be purchased from GE Medical Systems. Tel: (877) 274-8456 Please have your account number and the reorder / product code available for the item you wish to order. A table of accessories and replacement part numbers appears in section 6.3. 1.
1.4 Installation and Operation For information on the installation and/or operation of the DINAMAP™ Compact Vital Signs Monitor, reference must be made to the DINAMAP™ Compact Vital Signs Monitor Operation Manual. This instrument is to be operated and serviced by authorized personnel only, and only in accordance with the Warnings and Precautions given in both the DINAMAP™ Compact Vital Signs Monitor Operation Manual and this document. 1.
1.6.3 Connector Symbols External Alarm Connector External Comms Port Connector Fuse External Power 1.
PREDICTIVE TEMPERATURE ACCURACY : ? 0.6oC, 36.1 - 39.4 oC ± 1oF, 97 - 103 oF UNSPECIFIED < 36.1OC, > 39.
LOSS OF PULSE: The monitor will detect loss of pulse from patient and enter a no signal state within 10 seconds. Mechanical DIMENSIONS: Height: Width: Depth: 9.1 in (23.0 cm) 7.3 in (18.5 cm) 6.9 in (17.5 cm) WEIGHT including battery: 8.3 lb (3.75 kg) MOUNTINGS: Self-supporting on rubber feet or pole mountable. PORTABILITY: Carried by recessed handle or pole mounted.
0086 IPX1 14 This product conforms with the essential requirements of the Medical Device Directive. Accessories without the CE Mark are not guaranteed to meet the Essential requirements of the Medical Device Directive. The DINAMAP™ Compact monitor is protected against vertically falling drops of water and conforms to the IEC 529 standard at level of IPX1. No harmful effects will come of vertically falling drops of water making contact with the monitor.
2 PRODUCT DESCRIPTION 2.1 Introduction The DINAMAP™ Compact series of monitors are portable devices, provide non-invasive determination systolic and diastolic blood pressure, mean arterial pressure (MAP), pulse rate, predictive temperature and blood oxygen saturation for neonatal and adult/Pediatric patients. Certain model variants are not equipped with all functions.
Rear Panel Connections 2 1 6 5 T3.15A 250V 4 3 16 1 POLE CLAMP Used to clamp the monitor to a pole or stand. 2 BATTERY COVER Securely retains and protects the internal battery. 3 EXTERNAL POWER Connection socket for the supplied external power converter ONLY. 4 FUSE HOLDER 5 DATA INTERFACE CONNECTOR Host communications port: 15 way D-type RS232 serial port for use with equipment conforming to IEC-601 only.
Front Panel Controls & Indicators (TS Model shown) 17 15 19 10 16 20 21 18 22 11 14 13 8 12 7 9 23 27 26 24 25 7 This push button switch controls the ON/ OFF state of the monitor. Push for power ON and again for power OFF. 18 8 This green LED indicates the external power and battery charging status of the monitor. 19 9 This yellow LED indicates operation and charge status of the internal battery.
This red LED display indicates the measured mean arterial B.P. in mmHg. It also shows instantaneous cuff pressure during an NIBP determination.
2.3 Overall Principles of Operation This section of the manual describes the principles of operation of the DINAMAP™ Compact monitor. The section is arranged to give an overall description of the instrument, the following sections then detail each of the functional systems. For full assembly drawings, circuit diagrams and parts lists of the component circuit boards, refer to section 8 of this manual. The system block diagram of the DINAMAP™ Compact monitor is shown in drawing 8600EB.
counter IC36 to provide the 1.23 MHz ADC clock. Communication between microprocessor IC22 and all bus devices is provided by a 24-bit address bus, 8-bits data bus and the three wire serial peripheral interface (SPI) bus. The system processor is equipped with a watchdog timer and reset circuit. The system program is stored in a 4 Mbit FLASH memory IC28 as 512k by 8 bit words. Program memory is provided by a low power 1 Mbit SRAM IC32 formatted as 128k by 8 bit words.
Compensation for drift in accuracy of the system is achieved by the unit recalibrating itself on switch on and after each measurement and at ten-minute intervals. Calibration is achieved by measuring two points on the high precision resistor chain of RV3, R70, and R74-77 which equate to 10°C and 37°C. Any changes in VREFI or voltage to frequency transfer characteristic can therefore be accommodated within reason.
Deflate and Dump valve control signals are also generated by latch IC3 (Main Board) and passed to the GAL IC1 (power supply board). Pump motor current is sensed in R31 and amplified by IC4. This is routed to the system processor as PUMPC and also compared to a reference to produce an over current input signal to the GAL. If pin 9 of GAL IC1 goes high, pin 12 (signal LATCHED_OVC) will be latched high and the pump enable output will go high switching off the pump.
buffered by IC12 to produce TH_VREF which can be measured by the system processor via multiplexer IC20 and ADC IC23. Upon clearance of the overpressure condition the Main Board system processor can reset the overpressure latch in GAL IC1 on the PSU Board, by asserting PNEU_RESET signal high, in order that another determination can be carried out. 2.4.
If there is no valid external DC line supply applied to the monitor, the monitor will default to use the battery. DC from the rechargeable battery arrives on thermal fuse FS1, from where it is routed to the source of TR2, a p-channel FET under the control of TR3. The battery supplies power to VRAW via transistor TR2 and diode D28. When operating from a battery, VRAW will be in the range 10.4 - 13.5 V depending on the battery charge.
Communications signals use the RS232 bi-directional serial format. Digital TTL level signals from the system processor are converted to RS232 level signals on the power supply board by IC13, which generates the necessary positive and negative voltage swings. In addition, inverted TTL data transmit and receive lines are provided. A 5-volt supply is also made available to the serial port, this being protected by a 0.1 amp thermal resetable fuse. 2.4.
viewing angle or contrast of the LCD display. The trimmed voltage is nominally set to -9.6V and may be measured across TP1 and TP2 of the switchboard. 2.4.11 Printer The monitor employs an Axiohm HPT4050 thermal printer module, fitted to the printer board, which contains the interface electronics. The PIC provides stepper motor control signals M_OE, M_PHASE1 and M_PHASE2 to IC3 on the printer board. This converts these to sequential drive signals MP1_1, MP1_2, MP2_1 and MP2_2 for the stepper motor.
3 Maintenance This section of the manual contains four parts: ?? ?? ?? ?? The first covers general maintenance functions, which can be performed without disassembly of the monitor. The second covers use of the built-in Service Software. The third describes how to calibrate the NIBP and overpressure detection of the monitor, or check their calibration. The fourth describes maintenance, which requires removal of the monitor’s covers, disassembly of the components and internal alignments.
?? ?? ?? ?? The adult DURA-CUF™ range supplied for use with this Monitor may be cleaned by hand washing in warm soapy water. Care should be exercised, however, to ensure that no water enters the cuff or cuff hoses at any time. In the event water accidentally enters the cuff, passing air through the cuff will dry it. The neonatal cuffs are supplied for single use and should be discarded if they become soiled. Do not immerse hoses. Do not immerse cuffs without prior application of cuff hose caps.
3.2 Service Modes There are three different service modes, each offering different levels of access to the monitor’s set-up and calibration. These modes can be accessed using the rotor control and display panel. The modes are: 1. The “Clinician Menu”mode, allowing: ? ? setting of temperature units, ? ? checking NIBP and temperature calibration dates, ? ? setting the alarms into “Permanent Silence”mode. (This mode is described in the DINAMAP™ Compact Monitor Operating Manual). 2.
then sequentially enter the access code for the required Service mode. The code choices are: 1 2 3 4 ............. for access to the Clinician Menu. 2 2 1 3 ............. for access to the Main Service Menu.
3.2.1 The Clinician Menu (Service mode 1 2 3 4) 3.2.1.1 Press Sets default target pressure for first NIBP cycle. 3.2.1.2 Temp Selection of this button allows the temperature units of the monitor to be toggled between degrees Celsius and degrees Fahrenheit. When Celsius is selected, the °C indicator lights. When Fahrenheit is selected, the °F indicator lights. Click on OK to clear and save the selection. Note that changing temperature units will clear the trend readings.
3.2.1.4 Silence Selection of this button will cause all alarms other than failsafe to be muted until either the monitor is powered off and on again, or the Alarm Silence button is pressed. A confirmation menu will appear on the display. Selection of either Yes or No will exit the menu. If silence is confirmed, the monitor’s Alarm Silence button illuminates. 3.2.1.5 Main Selection of this button exits the user service menu and returns to the Main Menu. 3.2.2 The Service Menu (Service mode 2 2 1 3) 3.2.
Cal Selection of this button initiates the calibration procedure. See section 3.4.1 for a more detailed description of using this mode. Pop Off Selection of this button initiates the Pop Off test. See section 3.4.3 for a more detailed description of using this mode. OK Selection of this button returns the display to the Service Menu. 3.2.2.2 Temp Selection of this button causes the Temperature service menu to appear.
3.2.2.4 System Selection of this button causes the System service menu to appear. Error Log When selected will produce a printout of the system errors that have occurred on unit. The Main Board and PSU board software revision is printed out. Language Selection of this button allows the display language to be pre-set. Selection of any language button removes all other language buttons from the screen, indicating that the remaining button is the chosen language.
Selection of any of the check boxes causes that monitor feature to be toggled on or off. When on, a tick appears next to the box, denoting that the option is available. Monitors without certain features are supplied without the necessary hardware for that feature and thus will have that option unselected. Selection of OK saves changes and returns to the Service menu. OK Selection of this button returns the display to the Service Menu. 3.2.2.
3.3 Calibration - Checking & Re-calibrating This section details the following procedures: ?? ?? ?? ?? ?? ?? Checking NIBP calibration Recalibrating NIBP Checking NIBP overpressure detection (Pop Off) Re-calibrating NIBP overpressure detection Predictive temperature calibration checking Re-calibration of predictive temperature 3.3.1 Checking of NIBP Calibration The following section describes how to verify the NIBP calibration on a DINAMAP™ Compact Vital Signs Monitor.
DINAMAP™ COMPACT Calibration check or re-calibration 3.3.2 NIBP Calibration The following section describes how to perform NIBP re-calibration on a DINAMAP™ Compact Vital Signs Monitor. Refer also to the previous section for details on checking of the DINAMAP™ Compact calibration. NIBP calibration is possible without disassembling the DINAMAP™ Compact. I. Set up the DINAMAP™ Compact and calibration equipment as shown in Section 3.3.2. II. Switch on the DINAMAP™ Compact and allow 10 seconds to settle. III.
The DINAMAP™ Compact requests that the pressure be set to 0 mmHg. No action should be necessary other than to verify that the calibration pressure measurement system still displays 0 mmHg (0 mBar). XI. Approximately 6 seconds later, the DINAMAP™ Compact beeps and prompts for the pressure to be set to 200 mmHg. Apply 200 mmHg and maintain that pressure. XII. Approximately 12 seconds after prompting for 200 mmHg, the DINAMAP™ Compact will beep 3 times, then will vent the system to atmosphere.
VI. Select “Check”from the NIBP service menu. VII. Inflate the system and observe the calibration pressure measurement system - the pressure will be seen to rise and, at the “Pop Off Pressure”, will immediately deflate, with the pump stopping and DINAMAP™ Compact reporting an “Overpressure”alarm. VIII. Verify that the maximum pressure, as shown on the calibration pressure measurement system, was in the range 300 to 330 mmHg (400-440mBar). 3.3.
3.3.5 Predictive Temperature Calibration Check The predictive temperature calibration of the DINAMAP™ Compact monitor should be checked every 12 months or when there is doubt about the validity of the temperature readings. The temperature calibration plug (part number 320-635) may be used to check the calibration of the temperature detection circuits within the monitor.
IV. 3.3.6.2 If UUT is a T or a TS model with Main Board software revision of 8613-V4.1 or greater, proceed to the next section. Temperature Calibration Procedure (Software Version 8613-V4.7 and subsequent) I. Remove screws in recessed handle of the UUT and drop the front cover forward to reveal potentiometers RV2 and RV3 on the Main Board. II. III. IV. Connect AC Adapter to UUT DC input socket and switch on UUT. Connect Temperature Calibration Plug to the temperature probe socket on UUT.
3.4 Monitor Disassembly Most alignment and repair operations can only be performed with the monitor disassembled. This section describes how to remove the covers, disassemble the chassis and remove the circuit boards. The description refers to fully equipped DINAMAP™ Compact TS models. DINAMAP™ Compact T models do not have SpO2 functions and therefore the SpO2 related components are not fitted.
Before the panel can be separated from the case, it is necessary to disconnect the switchboard cable, temperature probe cable and SpO2 sensor cable if fitted. The switchboard ribbon cable plugs into socket PL10 on the Main Board via a ferrite, which clamps the cable to the front of the chassis metalwork. Detach the ferrite from the chassis front plate by separating the Dual-Lock™ fastener. With the ferrite detached, the ribbon cable can be unplugged from socket PL10.
The cable from the Temperature probe socket plugs into connector PL14 on the Main Board and is easily removed. The SpO2 cable runs from the small front panel connector printed circuit board to another small PCB with integral connector attached to the Nellcor Puritan Bennett™ module. To remove the PCB from the front panel, locate and remove the two small Pozidriv™ retaining screws, which fix the PCB metal support bracket to the front panel. The cable and PCB assembly can then be lifted away.
RFI earthing finger Rotor control Display board 8630AB LCD backlight cable LCD panel Switch board Temperature probe connector cable SpO2 connector (Model TS) Blanking plate (Model T) Display board ribbon cable Hose connector Switch board ribbon cable 45
3.4.3 Removal of the Chassis The chassis contains the Main board (revision 04 and earlier), the Power Supply board and the Pump assembly. SpO2 equipped models also have the Nellcor Puritan Bennett™ module fitted in a shield case fixed to the front plate of the chassis. This is connected to the Main Board via the ribbon cable to SK13. Unplug this connector. Note that there are no serviceable parts inside this module.
3.4.4 Removal of the Main Board and Power Supply board from the chassis To remove the Main and Power Supply boards from the chassis, the valve control and pump connector must first be removed. This is visible through the hole in the rear of the chassis. The chassis spade terminal must also be removed. This is located between the top of the chassis and the Power Supply board (Unit revision 06 only).
To separate the boards, use a fine nosed pliers to pinch the tip of the nylon pcb spacer while gently pulling the boards apart. Note that this will result in the loss of the user settings. To avoid damage to the PCB interconnection, ensure that the boards are not tilted or twisted relative to each other as they are separated. 3.4.5 Removal of the Pump and Pressure Transducer To remove the Pump assembly, take out the two Pozidriv™ screws holding the metal pump retaining strap.
3.4.6 Removal of the Printer The printer motor assembly and PCB are mounted upside-down inside the base of the rear enclosure. Before removing the printer, take out the paper roll if fitted and leave the printer door open. To remove the printer assembly, withdraw the three small Pozidriv™ screws. Support the printer with one hand as the screws are removed.
Printer module ZIF socket Printer board 8650AB 3.4.7 Reassembling the Monitor Re-assembly is a direct reversal of disassembly, however additional care must be taken to ensure that all cables and hoses are refitted correctly. The main points to note when reassembling are: ?? ?? ?? ?? ?? ?? 50 Pay particular attention to the wire dressing and ensure that all ferrite components are refitted correctly.
4 Manual Release Test Procedure The following procedure can be used to check the primary operation of the DINAMAP™ Compact monitor in order to release the unit for clinical use. 4.1 General The DINAMAP™ Compact unit is to be tested by applying various stimuli to the units’interfaces or measuring unit parameters. The unit test procedure utilizes functions from the operational software and also a service test mode attached to the operational software.
4.2 Test Procedure 4.2.1 Power Up Tests 4.2.1.1 LED Display Press and release the main power on switch. Check that all LED segments are illuminated momentarily. Press and release the main power on switch. Ensure unit shuts down. 4.2.1.2 LCD Display Press and release ROTOR push button. Confirm that all the Pixels of the LCD display are lit momentarily and that a series of three long beeps followed by three short beeps can be heard.
‘? ’then ‘? ? ’, and ‘? ? ? ’. Confirm first digit shows ‘-’indicating an oral probe is fitted. Confirm LED display indicate 98.6°F (+/- 0.1°F). 4.2.4 Pulse Oximeter Requirements The operation of the SpO2 module shall be tested if fitted (TS Model only). If no module is fitted continue from section 4.2.5. Switch on UUT. Enter Service Mode as detailed in section 3.3.2 Select SYSTEM from sub menu. Select SYSTEM from sub menu again.
4.2.5 NIBP Requirements 4.2.5.1 NIBP Calibration Check Note: Proceed to section 4.2.6 if NIBP system has already been calibrated and checked in accordance with section 3.4.1. The linearity and calibration for both pressure transducers (PT1 and PT2) shall be verified from 0 to 290 mmHg, the tolerance shall be ? 3 mmHg across the whole range. Set up unit and calibration kit as per diagram on page 41. Switch UUT on. Enter Service mode as detailed in section 3.3.2. Select NIBP from sub menu.
If UUT fails re-calibrate unit as per section 3.4.2. 4.2.5.3.2 Adult Overpressure Limit Check Switch on UUT. Enter Service mode as detailed in section 3.3.2. Select NIBP and then CHECK. Increase applied pressure until overpressure failsafe occurs. Confirm the following: Pressure at failsafe point is between 300mmHg to 330mmHg (400mBar to 440mBar) The system pressure falls to less than 20mmHg (26.6mBar) within 4 seconds. Switch off UUT and disconnect calibration kit.
4.3 Manual Release Test Results Sheets Test Section 4.2.1.1 Test Description LED Display 4.2.1.2 LCD Display 4.2.2.1 4.2.3.1 4.2.4.1 All Pixels Lit UUT Software Revision UUT Supply Indicator Test - External DC LED Operation Battery LED Operation Predictive Temperature Accuracy Check - Oral/98.6? C Pulse data and saturation data verification SAT/PULSE 4.2.4.2 4.2.4.
Test Section 4.2.5.1 4.2.5.2 4.2.5.3.1 4.2.5.3.2 Test Description NIBP Calibration Check (Applied Pressure) Test Results PT1 (mmHg) PASS FAIL PT2 (mmHg) 0mBar 77.3mBar 155mBar 232mBar 309mBar 387mBar Pressure System Leakage Test. Target Pressure Pressure after 36s Neonate Overpressure Limit Check Overpressure Limit Final Pressure Adult Overpressure Limit Check 4.2.6.1 Overpressure Limit Final Pressure Print Quality 4.2.6.2 Printer Error - No paper Door open 4.2.
5 Trouble Shooting. UUT Problem UUT will not switch on from EXT DC source. UUT will not switch on when powered by Battery. Possible Causes EXT DC adapter o/p out of spec. Further Checks Measure o/p. EXT DC Fuse Blown. Check Fuse. PSU Board fault. Swap or test PSU Board. If unit can be powered from a battery source then a fault exists in the external DC detect circuitry on the PSU Board. Measure terminal voltage of battery. Battery discharged. PSU Board fault.
UUT Problem Incorrect or No LCD output. Possible Causes LCD Board fault. Addressing fault either:Switch Board or Main Board (will usually be accompanied by an audible alarm if Main Board Processor has stopped running). No LCD Backlight. Incorrect or No LED display output. Check Negative Supply reaches LCD Module. Display Board fault. Check Operation of backlight switch TR1 and confirm +Vbacklight is present on PL31 Pin 2 w.r.t Pin 1. Addressing fault either:Switch Board. Main Board.
UUT Problem After UUT power up sequence is complete UUT Alarm Sounds with the following error message displayed on LCD. System Error, P105 or System Error, P110 or System Error, P115 When the pump starts an NIBP Overpressure warning is displayed on LCD (even without cuff attached to unit) . When the pump starts an NIBP Overpressure warning displayed on LCD when a cuff is attached. When an NIBP determination is started pump is laboring i.e. pump sound is lower in frequency than normal.
UUT Problem N12 Displayed on Systolic display and alarm sounding. LCD display is blank. Possible Causes State of pneumatic system does not concur with the unit’s expected software state. e.g. pressure in system exceeds ambient level despite system being set open to atmosphere. If a failure condition arises in the valve control circuitry that does not allow the cuff to deflate an N12 error will be reported. Further Checks Determine status of valve drive and hence locate any valve drive problem.
UUT Problem Unit alarms with the following message on LCD Possible Causes A pump over current condition has been signaled to the Main Board processor. Further Checks ‘Pump Over Current 0,(code line failure),0,0 Pump failure. Swap or test Pump Assembly. PSU Board failure of pump current sense circuitry. Swap or test PSU Board. Main Board failure Unit has failed temperature calibration for its 54°F point. Swap or test Main Board. Main Board failure most likely.
UUT Problem Unit alarms with the following message on LCD: Possible Causes The PSU Board PIC software has detected that the +12VR or 12VR rails are operating out of spec. ‘PIC: +/-12V Out of Spec.’ (Filtered Voltage),(Code Line Failure), 0,0 Unit alarms with the following message on LCD:- The software has detected an incorrect PIC software version to run with Main Board software. Further Checks Check and isolate faulty supply. Fault is most likely to be on the PSU Board or the Main Board.
6 TECHNICAL INFORMATION 6.1 Host Port Connector (rear panel) Pin 15 Pin 1 Important! For use ONLY with equipment conforming to IEC-601. Pin Function 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Ground Inverted TTL Transmit Data Inverted TTL Receive Data Fused +5 volts No connection No connection Ground No connection RS232 Request to Send (RTS) RS232 Clear to Send (CTS) RS232 Transmit Data (TxD) No connection RS232 Receive Data (RxD) No connection No connection 6.
6.
Description of Compatible Part AC/DC Power Converter 300978 Printer Paper, 10 rolls per box 89100 SpO2 Extension cable EC-8 Nellcor Puritan Bennett™ Finger Sensor 66 Code DS100A Oral Temperature Probe, Blue, 21”Coiled 8978 Rectal Temperature Probe, Red 8976 Temperature Probe Covers (5000 per case) 8815
DINAMAP™ Compact Vital Signs Monitor 6.
DINAMAP™ Compact Vital Signs Monitor Pfx CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CBL CHM CHM CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON 68 GE Medical Systems.
DINAMAP™ Compact Vital Signs Monitor Pfx CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CON CUS CUS CUS ENC ENC ENC ENC FIX FIX FIX FIX FSE FSE FSE FSE HWR HWR HWR HWR HWR HWR HWR HWR HWR ICS ICS GE Medical Systems.
DINAMAP™ Compact Vital Signs Monitor Pfx ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS ICS IND IND IND 70 GE Medical Systems.
DINAMAP™ Compact Vital Signs Monitor Pfx IND IND IND IND IND IND IND IND IND IND IND IND IND LAB LAB LAB LAB MET MET MSC MSC MSC MSC OPT OPT OPT OPT OPT OPT OPT OPT OPT RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES GE Medical Systems.
DINAMAP™ Compact Vital Signs Monitor Pfx RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES 72 GE Medical Systems.
DINAMAP™ Compact Vital Signs Monitor Pfx RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD GE Medical Systems.
DINAMAP™ Compact Vital Signs Monitor Pfx SCD SCD SCD SCD SCD SCD SCD SCR SCR SCR SCR SCR SCR SCR SDR SDR SWS SWS SWS SWS SWS TDC XTL XTL XTL 74 CRITIKON U.S.
DINAMAP™ Compact Vital Signs Monitor 6.5 Procedural & Error Alarm Code Table Alarm Code LED Display LCD Display N99 No change N99-NIBP FAILED Audio Tone & Volume Effect of Alarm Silence switch Effect of Clear via Rotor Probable Cause Unable to make an NIBP determination due to insufficient signal. N55 N55TIMEOUT: PRESS N44 High priority alarm. Volume adjustable. 2 minutes silence Clear N33 Determination time exceeds 2 minutes. Motion artifact.
DINAMAP™ Compact Vital Signs Monitor Procedural & Error Alarm Code Table continued Alarm Code LED Display LCD Display Audio Tone & Volume No change Low Battery Flashing battery icon 3 beeps every 10 sec, adjustable volume. Blank No code No change Blank Low Battery System Disabled Printer - No Paper NIBP Range error Other: N,P,E,I,S.
DINAMAP™ Compact Vital Signs Monitor 7 Glossary Of Terms and Abbreviations AC ADC ADU : Alternating Current : Analog to Digital Converter : Analog to Digital Units:Main Board ADC has 4096 steps which equates to 5V full scale (1.2207mV/Bit) PSU PIC processor ADC has 256 steps which equates to 5V full scale (19.
DINAMAP™ Compact Vital Signs Monitor 8 Service Diagrams This section include the part lists, assembly drawings and circuit diagrams for the following boards for unit revision levels 02, 04, 06: I. II. III. IV. V. VI.
