PRO Series 100 - 400 V2 Service Manual (Models 110 - 410)
DINAMAP® PRO 100-400 V2 Patient Monitor Service Manual NOTE The Model Numbers 100 through 400 are generic in nature and reflect the range of product codes available. Your product may be labeled with a specific product code such as DINAMAP® PRO Model 410. “V2” refers to the second version of the product’s design.
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DINAMAP® PRO 100-400 Patient Monitor Service Manual This manual is for DINAMAP PRO Monitors models 100, 200, 300, and 400, with or without printers. • PRO 100: BP, Pulse • PRO 200: BP, Pulse, and Temp • PRO 300: BP, Pulse, and SpO2 • PRO 400: BP, Pulse, Temp, and SpO2 The model of the Monitor determines which parameters are in your monitor. Please refer to applicable sections.
United States GE Medical Systems Information Technologies 4502 Woodland Corporate Boulevard Tampa, FL 33614 European Representative GE Medical Systems Information Technologies GmbH Postfach 60 02 65 D-79032 Freiburg, Germany Tel.
Table of Contents: Table of Contents Section 1 - Introduction 1.1 Introduction ....................................................................... 1-5 1.2 Addenda ........................................................................... 1-6 1.3 Trademarks and Trade Names ......................................... 1-6 1.4 Service Policy ................................................................... 1-6 1.5 Extended Warranties ........................................................
Table of Contents: 2.6.4 BP ................................................................................... 2-13 2.6.5 Temperature ................................................................... 2-13 2.6.6 SpO2............................................................................... 2-14 Section 3- Theory of Operation 3.1 Introduction ....................................................................... 3-5 3.2 Overall Theory Of Operation.............................................
Table of Contents: 4.4.1 Accessing the Clinician Mode ........................................... 4-8 4.4.2 Clinician Mode Main Menu ............................................... 4-9 4.4.3 Clinician More...Menu ..................................................... 4-10 4.5 Service Mode .................................................................. 4-11 4.5.1 Accessing the Service Mode .......................................... 4-11 4.5.2 Service Mode Main Menu ......................................
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1 Revision A Introduction PRO 100-400 V2 Patient Monitor Service Manual 2009829-001 1-1
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Introduction: Table of Contents 1.1. Introduction ....................................................................... 1-5 1.2. Addenda ........................................................................... 1-6 1.3. Trademarks and Trade Names ......................................... 1-6 1.4. Service Policy ................................................................... 1-6 1.5. Extended Warranties ........................................................ 1-6 1.6. Assistance .........
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Introduction: Section 1. INTRODUCTION Section 1. INTRODUCTION 1.1. SCOPE OF MANUAL This service manual provides service, parts, and repair information and functional descriptions for the DINAMAP® PRO Series Monitors, Models 100, 200, 300, and 400. The model number identifies the vital signs monitoring capabilities built into the unit.
1.2. ADDENDA When this manual was published it included the most up-to-date information and procedures available. However, the specifications, design, assembly, or software controls may change. These changes are incorporated into this manual by addenda. 1.3. TRADEMARKS AND TRADE NAMES This document references terms that are proprietary, and may be registered and protected by copyrights and other applicable laws and agreements.
Introduction: Section 1. INTRODUCTION A purchase order number if the product is to be sent for repairs or you order spare parts The facility's GE Medical Systems Information Technologies account number, if possible The part number for replacement assemblies or parts 1.7. SERVICE If your product requires repair service, call Customer Support and a representative will assist you. Prior to returning any product for repair, you must request a Return Authorization number.
All orders must include the following information: Facility's complete name, address, and phone number FAX number Your purchase order number Your GE Medical Systems Information Technologies account number Please allow one working day for confirmation of your order. 1.7.4. Replacement Accessories Replacements such as hoses, sensors, etc. must be purchased from GE Medical Systems Information Technologies at 1-800-558-5102 (fax 1-800-232-2599).
Introduction: Section 1. INTRODUCTION 1.10. SYMBOL DEFINITIONS Attention: consult accompanying documents Power Off/On Silence Alarms START/STOP BP AUTO BP Mean Arterial Pressure External Communications Port Connector Defibrillator-proof Type B.F.
1.11. GLOSSARY OF TERMS AND ABBREVIATIONS AC ADC Analog to Digital Convertor ADU Analog to Digital Units: The Main Board has 65,536 steps which equates to 5V full scale (76 µV/ADU) Secondary Processor ADC has 256 steps which equates to 5V full scale (19.
Introduction: Section 1.
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2 Revision A Product Description PRO 100-400 V2 Patient Monitor Service Manual 2009829-001 2-1
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Product Description: Table of Contents 2.1. Introduction ....................................................................... 2-5 2.2. Product Configurations ..................................................... 2-5 2.3. Controls, Indicators, and Connectors ............................... 2-5 2.3.1. PRO Series Monitor Rear Panel Connections .................. 2-6 2.3.2. Front Panel Controls and Indicators ................................. 2-7 2.4. Host Port Connector (rear panel).................
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Product Description: SECTION 2. PRODUCT DESCRIPTION SECTION 2. PRODUCT DESCRIPTION 2.1. INTRODUCTION DINAMAP® PRO Series 100-400 Monitors provide non-invasive determination of systolic blood pressure, diastolic blood pressure, mean arterial pressure, pulse rate, temperature, and oxygen saturation.
Product Description: SECTION 2. PRODUCT DESCRIPTION 2.3.1. PRO Series Monitor Rear Panel Connections 1. Battery compartment cover: Retains and protects the internal battery. 2. Mains input: Used to connect to AC power supply. 3. External power socket: To be used with approved AC-DC power converter ONLY. 4. Inactive temperature cable storage: Inactive temperature probe cable attaches here (Models 200 and 400). 5. Pole clamp: Used to clamp monitor to pole or stand. 6.
Product Description: SECTION 2. PRODUCT DESCRIPTION 2.3.2. Front Panel Controls and Indicators 7. Systolic pressure display: 3-digit red LED indicates measured systolic BP in mmHg. 8. Active temperature probe holster: Temperature probe that is being used stored here (Models 200 and 400). 9. Diastolic pressure display: 3-digit red LED indicates measured diastolic BP in mmHg. 10. Temperature probe cover storage: Box of probe covers stored here (Models 200 and 400). 11.
Product Description: SECTION 2. PRODUCT DESCRIPTION 16. ON/OFF switch: Controls on/off state of PRO Monitor; push for power on and push again for power off. 17. Battery power indicator: Yellow LED indicates operation and charge status of battery. 18. SpO2 sensor connector: SpO2 sensor extension cable attaches here (Models 300 and 400). 19. Mean arterial pressure display: 3-digit red LED indicates measured MAP in mmHg and shows instantaneous cuff pressure during BP determination. 20.
Product Description: SECTION 2. PRODUCT DESCRIPTION 2.4. HOST PORT CONNECTOR (REAR PANEL) WARNING! Auxiliary equipment connected to the DINAMAP® PRO Series Monitor will result in the formation of an electromedical system and thus, must comply with the requirements of EN 60601-1-1/ IEC 601-1. All host port signals are NON-ISOLATED and should be connected to equipment conforming to IEC-601-1, configured to comply with IEC 601-1-1 ONLY.
Product Description: SECTION 2. PRODUCT DESCRIPTION 2.5.
Product Description: SECTION 2. PRODUCT DESCRIPTION Product Product Code IVAC® TURBO TEMP Rectal Temp Probe, Long Cord 2008775-001 IVAC® Temperature Probe Covers 615118 ECAT E9050KK IVAC is a trademark of ALARIS Medical Systems SpO2: NELLCOR®: Pulse Oximeter Cable DOC-10 2008773-001 DuraSensor Adult Oxygen Sensor DS100A NELLCOR is a trademark of Mallinckrodt, Inc.
Product Description: SECTION 2. PRODUCT DESCRIPTION 2.6. SPECIFICATIONS This product conforms to 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. IPX1 The PRO Series Monitor is protected against vertically falling drops of water and conforms to the IEC 529 standard at level of IPX1. Vertically falling drops of water shall have no harmful effects to the Monitor. 2.6.1.
Product Description: SECTION 2. PRODUCT DESCRIPTION 2.6.3. Mechanical Dimensions Height: 9.8 in (25.0 cm) Width: 9.8 in (25.0 cm) Depth: 6.9 in (17.5 cm) Weight, Including Battery 7.8 lb (3.5 kg) Mountings Self-supporting on rubber feet or pole mountable Classification Information Mode of operation: continuous Degree of protection against harmful ingress of water: Drip-proof IPX1 2.6.4.
Product Description: SECTION 2. PRODUCT DESCRIPTION 2.6.5. TURBO TEMP Scale °Farenheit (F) °Celsius (C) Range Predictive Mode Max: 41.1° C; 106.0° F Min: 33.6° C; 96.0° F Monitor Mode Max: 41.1° C; 106.0° F Min: 26.7° C; 80.0° Predictive Mode Accuracy ± 1.0° F ± 0.6° C Monitor Mode Accuracy ± 0.1° C ± 0.2° F (when tested in a calibrated liquid bath; meets ASTM E1112, Table 1, in range specified) Determination Time less than 60 seconds Use only IVAC probes and probe covers.
Product Description: SECTION 2. PRODUCT DESCRIPTION Low Perfusion 20 to 250 beats/min ±3 digits * Adult specifications are shown for OXIMAX MAX-A and MAX-N sensors. Neonate specifications are shown for OXIMAX MAX-N. Saturation accuracy may vary by sensor type. ** Applicability: OXIMAX MAX-A, MAX-AL, MAX-P, MAX-I, and MAX-N sensors.
Product Description: SECTION 2. PRODUCT DESCRIPTION Low Perfusion‡ 70 to 100% ±2 digits 0 to 69% unspecified Pulse Rate Without Motion 25 to 240 beats/min ±3 digits With Motion normal physiologic range 25 to 240 beats/min ±5 digits *The Masimo SET®® SpO2 parameter with LNOP-Adt sensors has been validated for no motion accuracy in human blood studies on healthy adult volunteers in induced hypoxia studies in the range of 70-100% SpO2 against a laboratory co-oximeter and ECG monitor.
Product Description: SECTION 2. PRODUCT DESCRIPTION >0.02% Pulse Amplitude and % Transmission >5% Saturation (% SpO2) ±2 digits Pulse Rate ±3 digits Interfering Substances Carboxyhemoglobin may erroneously increase readings. The level of increase is approximately equal to the amount of carboxyhemoglobin present. Dyes, or any substance containing dyes, that change usual arterial pigmentation may cause erroneous readings.
Product Description: SECTION 2.
3 Revision A Theory of Operation PRO 100-400 V2 Patient Monitor Service Manual 2009829-001 3-1
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Theory of Operation: Table of Contents 3.1. Introduction ....................................................................... 3-5 3.2. Overall Theory Of Operation............................................. 3-5 3.2.1. Cuff Blood Pressure (BP) and Pulse ................................ 3-5 3.2.2. Temperature (Model 200 and 400) ................................... 3-6 3.2.3. SPO2 (Model 300 and 400) .............................................. 3-6 3.2.4. Host Communication Port.....................
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Theory of Operation: 3.1 INTRODUCTION 3.1 INTRODUCTION This section provides overall theory of operation and functional description of the DINAMAP PRO Monitor (hereinafter referred to as PRO Monitor).
Theory of Operation: 3.2 OVERALL PRINCIPLES OF OPERATION Main Board calculates the pulse rate/Mean Arterial Pressure (MAP). The results are then displayed on the front panel (seven segment Light Emitting Diodes (LEDs) and sent to the printer. The Pneumatic Valve/Manifold (PVM) device has an overpressure sensor built-in to protect against over-inflation. If an over-inflation condition occurs, the OVERPRESSURE signal is routed to the PVM to release the air pressure.
Theory of Operation: 3.3 FUNCTIONAL DESCRIPTION 3.3 FUNCTIONAL DESCRIPTION The following paragraphs provide the functional interface relationship. The Pro Monitor contains a number of electrical & electro-mechanical assemblies. These assemblies are: Power Supply Unit (PSU) PWA PSU Module Main Board SPO2 PWA (optional) Pneumatic control device Liquid Crystal Display (LCD) Assembly Printer PWA w/printer 3.3.1 PSU PWA The PSU PWA is a low voltage DC power supply.
Theory of Operation: 3.3 FUNCTIONAL DESCRIPTION 16 Bit ADC, Primary Processor, and Secondary Processor. The Primary Processor services and controls the Patient Parameter Interface (PPI) devices and display backlighting. The Secondary Processor controls the seven segment LED display, sound generation, real time clock, and system timing verification. The processors receive DC power from the PSU PWA.
Theory of Operation: 3.3 FUNCTIONAL DESCRIPTION communications, and isolation between SPO2 PWA and Primary Processor. Patient data received from the finger sensor is filtered, amplified, and analyzed on the SPO2 PWA. The information is sent to the Main Board via the optically coupled electrically isolated serial connection. The Primary Processor receives the data and distributes it to the appropriate display. The data is also sent to the printer via the Secondary Processor. 3.3.
Theory of Operation: 3.3 FUNCTIONAL DESCRIPTION presence. When a print command is sent to the printer from the Secondary Processor, the following will occur: CLOCK signal - transfer the data into print head DATA IN - serial dot to be printed LATCH signal - latch the data stream into the head STB1-6 - cause the head to print various sections Together these signals (CONTROL DATA) cause the printer to print a graphic hardcopy of the patient vital sign values and trend data.
Theory of Operation: 3.
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4 Revision A Calibration & Maintenance PRO 100-400 V2 Patient Monitor Service Manual 2009829-001 4-1
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Calibration & Maintenance: Table of Contents Table of Contents 4.1. Introduction ....................................................................... 4-5 4.2. Fuses ................................................................................ 4-5 4.3. Periodic Maintenance ....................................................... 4-5 4.3.1. Cleaning the Monitor ........................................................ 4-5 4.3.2. Power Up Checks ......................................................
Calibration & Maintenance: Table of Contents 4.7. PRO Monitor Calibration Procedures ............................. 4-21 4.7.1. Calibrating the NIBP Transducer.................................... 4-21 4.7.2. Overpressure Adjustment ............................................... 4-22 4.8. 4-4 Electrical System Safety Checks ....................................
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE SECTION 4. GENERAL MAINTENANCE 4.1 INTRODUCTION This section contains maintenance procedures for the DINAMAP PRO Series 100-400 Monitor, including description of the software screens and menus used to adjust, configure and check the Monitor. Also included are procedures to recalibrate the Monitor. Procedures pertaining to SpO2 and temperature functions apply only to PRO Monitors equipped with these features. 4.2.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE Do not immerse hoses. Do not immerse cuffs without prior application of cuff hose caps. CAUTIONS Moisture or foreign substances introduced into the pneumatic system will cause damage to the unit. Calibration equipment should always be kept dry and clean. 4.3.2. Power Up Checks When the PRO Monitor is powered up, it conducts a series of selftests to ensure the displays and other functions are operating normally.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 4.3.3. External DC Supply and Battery The power indicators on the lower left on the front of the PRO Monitor show the power source and charge status of the battery. The external power indicator LED continuously glows green to show the battery is charging. The indicator flashes every four seconds to show an external power source is connected, but is not charging the battery.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 4.4 Clinician Mode The Clinician Mode enables the user to: Verify NIBP calibration dates Change the alarms to “Permanent Silence” mode Set target inflation pressure This section provides an overview of the Clinician menus. For more information and details of operation, see the PRO Series 100-400 Monitor Operation Manual. 4.4.1 Accessing the Clinician Mode To enter Clinician Mode from the Main menu, use the rotor control and LCD. 1.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 4.4.2. Clinician Mode Main Menu The Clinician Mode Main menu, pictured above, provides access to the options normally required for routine use of the PRO Monitor. The individual buttons on this menu are described briefly below. Press Button Selecting the Press button displays the target pressure dialog box, pictured above, which sets the default target inflation pressure for a BP cycle.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE Silence button is pressed. Choosing either Yes or No will exit the menu. If silence is confirmed, the Alarm Silence button lights. More... Menu Button The More... menu accesses more options that allow the user to permanently change the default settings. Main Button Select this button to exit the Service menu and return to the Main menu. 4.4.3. Clinician More...
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE Select Reset to return all the alarm limits to the default settings. The illustration above shows the default settings. The user can adjust the alarm limits within the ranges specified in the table below. The high limit must be at least one step higher than the low limit. Note: Predictive temperature has no alarm limit alarm. Select Save to save the displayed settings and return to the More… menu.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 2. Select the Service button. 3. The service menu requires an access code. Turn the rotor to highlight a number, and push to make a selection. Enter access code 2 2 1 3. 4.5.2 Service Mode Main Menu The options accessed through the Main Service menu, pictured above, allow the technician to check basic functions of the PRO Monitor, calibrate the NIBP system, and set the language of operation.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE NIBP Button The NIBP button accesses the NIBP Service menu. Use this menu to calibrate and check the NIBP transducers and the overpressure circuitry (Section 4.5.3). Info Button This button displays the date of the most recent NIBP calibration. Select OK to return the display to the Service menu. System Button This button accesses the System menu.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE Check Button This button allows the NIBP calibration to be checked. In this mode, the Monitor functions as a digital manometer. The systolic LED displays the output of PT1, and the diastolic LED displays the output of PT2. With no hose attached, the systolic and diastolic displays will indicate “000.” See Section 4.7 for a more detailed description of this mode and the calibration procedure.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE case, the Monitor prompts the user to select a language on every power up until a selection occurs. Comms Button This button accesses the Communications menu. The settings on this menu configure communications with a host computer when PRO Monitors are connected to a network. The Remote Op check box toggles remote operation. When on, a check mark (√) appears in the box.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 4.6. PRE-SERVICE TEST PROCEDURES The following procedures can be used to check the primary functions of the PRO Monitor before releasing the unit for clinical service. The Monitor is tested by applying various stimuli to the sensor interfaces or by measuring of specific parameters. The test procedures employ features of the operational software and test modes of the service menus.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 1. Connect the appropriate SpO2 simulator and cable to the SpO2 connector. 2. Verify the unit displays: Pulse value Saturation value Signal Strength bar graph 3. Disconnect the SpO2 cable from the simulator. 4. Verify the unit generates an “SpO2 SENSOR OFF” alarm and the speaker is sounding. 5. Press the Silence button. 6. Verify the sound has stopped but the error remains displayed. 7. Reconnect the SpO2 sensor. 8.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE pressure value will be displayed in mmHg on the LCD. The system will maintain the pressure for 36 seconds and will continue to display the pressure in the pneumatic system on the LCD screen. Confirm that the pressure has fallen no more than 10 mmHg while the system is pressurized. 4.6.3. NIBP Calibration Check This procedure verifies the linearity and calibration for both pressure transducers (PT1 and PT2) over the range 0-250 mmHg.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 2. Power on the PRO Monitor and select More... 3. Select the Service mode and input 2 2 1 3. 4. From the Service menu, select the NIBP button. 5. From the NIBP menu, select the Check button. 6. Apply the following pressures (measured by an external digital manometer) and confirm that the Monitor readings agree with the following table for both PT1 and PT2 channels. 7. If calibration is required, refer to Section 4.7.1. 4.6.4.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 4.6.5. Adult Overpressure Check 1. Set up the unit and calibration equipment as shown in Figure 4-1. 2. Power on the PRO Monitor and select More... 3. Select the Service mode and input 2 2 1 3. 4. From the Service menu, select the NIBP button. 5. Select the Check button. 6. Increase applied pressure until overpressure occurs.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE ±0.2°F. Next. press BROKEN PROBE on the simulator, verify that the LED display on the Monitor changes to four dashes, indicating a fault condition. If the PRO Monitor temperature system does not pass these tests, the Main PWA needs to be replaced. 4.6.7. Printer Test This test generates a sample printout from the printer. If no paper is in the printer, the Monitor generates no alarm. 1. Power on the PRO Monitor and select More... 2.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 8. Select Cal from the NIBP menu. 9. The Monitor displays “Set Pressure to 0 mmHg.” 10. Ensure calibration test equipment is at 0 mmHg. 11. Press Accept to continue or Cancel to quit this procedure. 12. The Monitor displays “Set Pressure to 200 mmHg.” 13. Apply the pressure (200 mmHg) and HOLD the pressure. Press Accept to continue or Cancel to quit this procedure. 14. If Accept is chosen, the Monitor will vent the system to atmosphere.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE Figure 4-2 Adjusting the overpressure requires opening the PRO Monitor and adjusting the overpressure potentiometers on the Main board. 1. Enable Service Mode. a. Power on the Monitor. b. Select the More… button from the Main menu. c. Select the Service button. d. Enter the Service Mode access code 2 2 1 3. e. Select NIBP. 2. Adjust potentiometer VR1 fully counter-clockwise. 3.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE d. Enter the Service Mode access code 2 2 1 3. e. Select NIBP. 8. Select Pop off. 9. The unit will display three zeros in the systolic and diastolic windows. 10. Adjust VR2 (more to the middle of board) fully counter-clockwise. 11. Set the cuff pressure to 157 mmHg ±2 mmHg using your connected NIBP test setup. 12. The air pressure within the system may fluctuate initially. Verify pressure with your external manometer. 13.
Calibration & Maintenance: SECTION 4. GENERAL MAINTENANCE 4.8. ELECTRICAL SYSTEM SAFETY CHECKS The PRO Monitor is designed to protect the patient from electric shock. To ensure the integrity of these safeguards, use a safety analyzer to perform the following leakage current tests. These tests should be performed on every unit whenever the case is opened before it is returned to clinical service. If any reading exceeds the limit specified, do not return the unit to clinical service.
Calibration & Maintenance: SECTION 4.
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Table of Contents 5.1 Field Replaceable Parts .................................................. 5-3 Drawing, Front Case with Temp (3 sheets)..................5-7/8 Drawing, Rear Case (4 sheets)................................5-13/14 Schematic, Main Board (9 sheets) ...........................
Schematics & Drawings: Field Replaceable Parts Field Replaceable Parts Kits and Assemblies Description Part Number Assembly, Power Supply, DP 110-410 2012401-001 Includes: PWA, PSU, DINAMAP PRO Assembly, PWA Main Board, DP 110 2012402-001 Assembly, PWA Main Board, DP 210 2012403-001 Assembly, PWA Main Board, DP 310 2012564-001 Assembly, PWA Main Board, DP 410 2012565-001 Kit, Rear Case DP 110-410 2012404-001 Includes: Rear Case Molding, DP 210/410 w/temp Label, Patent, Side Case Label, Batter
Schematics & Drawings: Field Replaceable Parts Kit, Hardware & Fasteners (continued) 2012407-001 Circlip, .625 Shaft, .485 GROOVE 'E' Screw, M2.5 X 16 CSK POZI, SST, DIN965A Locknut, M2.5 DIN 985 Fastener, Wire Saddle, Top Entry Grommet, Isodamp, Rubber Clip, Retaining FT,RND,12.7 DIA X 3.5H Self-Adhesive Spacer PCB, 7/16, Nylon Snap-In Spacer, Push Mount Spacer, LED Adhesive INS. Red Glyptol Gasket, Battery Support, Adhesive FT, RND, 12.7 DIA X 3.5H Self-Adhesive Tape, Foam, Single Sided Adhesive, 25X.
Schematics & Drawings: Field Replaceable Parts Screw, Pole Clamp, Molded Kit, Printer 2012411-001 Includes: Printer Module Assy Kit, Printer Door 2012563-001 Includes: Printer Door Label, Printer Paper Loading Kit, Pneumatic ASSY w/ Valves 2012412-001 Includes: Pneumatic Assembly Single Valve, 12VDC Assembly, VALVE, 12VDC, NC Cable ASSY, Dump Valve Tubing, Silicone, 1/8 ID x 1/4 OD Filter, 40 Micron TYWRAP, Nylon, 1.38 BDL DIA.
Schematics & Drawings: Field Replaceable Parts Includes: Printer PWA, DINAMAP PRO Kit, NELLCOR SPO2, DP 310/410 2012399-001 Includes: Assembly, Front Case, Nellcor* SPO2 PWA w/spacers Label, Nellcor OXIMAX ® Assembly, Masimo SPO2 PWA DP310M/410M 2012400-001 Includes: Assembly, Front Case, Masimo** SPO2 PWA w/spacers Label, Masimo** SET Fascias Description Part Number English, US, DP410 2012419-001 French, DP410 2012419-001 German, DP410 2012421-001 Spanish, DP 410 2012423-001 English, UK, DP
Schematics & Drawings: Field Replaceable Parts 5-8 PRO 100-400 V2 Patient Monitor Service Manual 2009829-001 Revision A
PRO 100-400 Assembly Drawing Front Case Drawing Shown with Temp Assembly Page 1 of 3
PRO 100-400 Assembly Drawing Front Case Drawing Shown with Temp Assembly Page 2 of 3
PRO 100-400 Assembly Drawing Front Case Drawing Shown with Masimo Board Page 3 of 3
PRO 100-400 Assembly Drawing Rear Case Drawing Page 1 of 4
PRO 100-400 Assembly Drawing Rear Case Drawing Page 2 of 4
PRO 100-400 Assembly Drawing Rear Case Drawing Pnuematic Assembly Drawing Page 3 of 4
PRO 100-400 Assembly Drawing Rear Case Drawing Pneumatic Hose Routing Page 4 of 4
RAMCS[L] RAMCSB[L] OE[L] OE[L] LWE[L] LWE[L] +5VD +5VP L1 HZ0805E601R U10 AM29F040B C2 100NF 25V C105 47uF 25V C57 22uF C64 10nF C63 10nF 16V 22 31 24 +5VD UWE[L] +5VP R114 10K D1 10nF 10nF C69 10nF C67 C70 10nF 5 BAS16 UNFIL_0VP[L] 6 +5VP LATCHED_0VC 8 LATCHED_0VP 9 +5VP R190 10K D_FROM_TEMP C96 12 15 16 22pF R88 DCLK_X2 11 17 R51 10M 180R 18 XL2 4.
VRAM VRAM 13 14 R126 10K R125 10K 15 16 ROTOR[L] 1 POWER[L] 2 5 17 4 3 18 U3 BU4S81 19 EXT_DC_INPUT[L] 40 P61 P06 P62 P07 P63 IRQ0 P65 IRQ1 P66 IRQ2 P67 22 ALARM2 21 ALARM3 20 IRQ4 P70 IRQ5 P71 P72 EVENT P73 P17 P75 P30 P31 P76 P32 PS15 31 30 PSTB1 29 PSTB2 28 PSTB3 27 PSTB4 26 PSTB5 25 PSTB6 24 P77 P40 P81 P41 P82 P42 P83 P43 P84 P44 P85 P45 P86 P46 P87 SCK1 4K7 SO1 SCK2 CS 4K7 R187 R186 4K7 R185 4K7 R182 4K7 4K7 R184 4K7
+12VA VALVESENSE R2 10R C109 47uF 25V +12VA C12 U34 LM78L12 8 2 1 VOUT VIN C107 47uF G1 G2 G3 G4 C92 330nF 2 3 6 7 VIN U16 VOUT 6 5.
+5VD +5VD C77 R72 1R0 10nF R168 20K +5VD C20 R75 C52 3K3 10uF 16V U29 HEF4066B 100nF 25V 2.
+5VD +5VD R30 2K21 R31 2K21 +5VD +5VD R132 10K +5VD R130 10K +12VP 220uF PL3 C78 10nF 25V ROTOR R137 10K +5VD C31 SWBUS[0:7] R136 10K 100nF 25V SWBUS0 B A' B' SWBUS1 BAS16 SWBUS2 SWBUS3 D6 BAS16 1 POWER PUMP- D8 SW2 A 2 R133 10K +5VD D7 SW4 A +12VP C112 +5VD B A' B' BAS16 3 4 5 6 SW3 A VALVESENSE 7 STAT A' B SWBUS4 B' SWBUS5 SWBUS6 SWBUS7 A R176 15K 1% +12VP START/STOP +12VP H8_RES[L] SW1 B A' B' VALVE SENSE LEVELS R54 56K 1% 0 0 = 0.
PL7 VDC_OP U38 MIC5203-4.
+5VIT C38 17 V_THERM AVDD DVDD 11 AD0 12 AD1 13 AD2 14 AD3 +5VIT R157 1K0 15 CLK_TADC 2 3 6 7 C54 10uF 16 16V 0VITA 5 TEMP PGM CONNECTOR 4 NOT INSTALLED 3 2 ISOLATED SIDE 1 DRDY_FROM_T_ADC U31 ADS1240 +5VIT 0VITA 10K C37 R22 100nF 25V 5 6 4 0VITA 0VITA R23 10K E 2 CTH 0VITA L5 1 +5VIT R107 100nF 25V C117 100NF 25V D13 BAS16 BLM11B221SB C42 100NF 25V C B 2 CTH E 5 D_FROM_TEMP 6 4 R32 2K21 0VITA R160 1K0 AN 2K0 C39 1K0 L2 R16 10K U6 4N35 R17 B
ISOLATED POWER SUPPLY DO NOT STUFF FOR PRO310 D18 L7 2 MCB1608S102C 2 VIN 1 1 EN C88 10uF +5VD 20V 1 : 1.
SPO2 PATIENT CONNECTOR SPO2 MODULE CONNECTOR NELLCOR J5 DET + A 1 INRSHIELD_1 FL3 J7 8 OUTSHIELD_2 2 7 INRSHIELD_2 DET_C_1 3 6 DET_C_2 DET_A_1 4 5 DET_A_2 1 2 5 6 8 9 4 DET - C 5 GND 6 N/C 7 LED - 8 N/C LED+_1 3 LED-_1 4 FL1 2 LED+_2 1 LED-_2 DET CATHODE LED - RED LED CATHODE DIGICAL 11 12 PCB LAYOUT NOTE: KEEP "LED" TRACES SEPERATED FROM "DET" TRACES 13 14 15 10 GND INNER SHIELD DET ANODE RCAL/DIGICAL RETURN 10 Z>200/100MHZ NC 9 LED + INNER SHIELD 7
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