IntelliVue Patient Monitor - Frank`s Hospital Workshop
Contents
1. Figure 83 Replacement Parts M1026 60100 M1026 60330 M1026 60102 M1026 60503 M1026 69503 M1026 60105 M1026 60106 10260510 M1026 69510 M1026 60138 IM1026 69138 M1026 60112 Mto26 60155 M1026 60108 M1026 69108 Power Supply 2 output 3A 120mA Main PCB fully loaded for 5 AgencID Main PCB fully loaded for 5 AgencID Front Panel PCB Fan 12Vde M1026A 5 Agent Identification AID IM1026A 5 Agent Identification AD Oxygen Sensor Assy wl integrated peb Oxygen Sensor Assy wl integrated peb Sample Cell M1026 60119 M1026 60120 M1026 60121 Preventive Maintenance Kit Includes Naion ubing with internal bacterial Alters Room air filter Pump fiter Pump est tubing ueriap manifold seals Tubing Kit Includes Tubing 1 8 in ID x 3 16 in OD 1 Tubing 1 32 in ID x3 32in OD 5 f Tubing 039 in ID x 120 in OD 58 Tubing 060 in ID x 187 in OD 58 Tubing 1 14 mm ID x 1 57 mm OD 5 f Tube fiting Te for 1 16 in tubing Qry 2 per AGM Tube fiting Tee for 1 16 in ID amp 1 8 in ID tubing per AGM Pulse dampener kir with Ting low control wing assembly low restriction kit Power Buon Kit 5 pieces Includes Power buron Power button switch Coupler power switch Shaft shor power switch Pushrod power switch Power Module Kit I2. Figure 79 Removing the Top Cover PC Board Connection Figure 80 Removing the Top Cover PC Board Watertrap Manifold and Protector Removal To remove the manifold and protector refer to Figure 81 1 Remove the top cover of the module 2 Remove che Nafion tubing and purple connector tubing from the manifold connectors 1 on the inside of the front cover Using a cross tipped screwdriver unscrew the 4 screws 2 securing the protector to the front cover and remove the protector Using a cros tipped screwdriver unscrew the 2 screws 3 securing the manifold to the protector Replacement To replace the manifold and protector refer to Figure 81 Using cross tipped screwdriver replace the 2srews securing the manifold to the prorector Using cross tipped screwdriver replace the 4 screws securing the protector to the front cover Replace Nafion tubing and purple connector tubing onto the manifold connectors on the inside ofthe front cover Take care to attach the tubing with the red mark at the end to the connector with the red marking this indicates the drainage parh The gap beween the end of the nafion tubing and the manifold connectors visible through the purple connector tubing must be less than Imm Now perform the performance checks described Test and Inspection Matrix on page 262 259 Figure 81 Removing the Watertrap Manifold and Protector Power Fuses R
3. Module Server for troubleshooting tasks 1f no add one ar a time waiting 15 minutes beween esch modue to see if mage Replace module if Power High or MSL Power Overload INOPs will appear iil The MSL Power O will not occur for ar least 15 mine SL Power Overload Sor Cici wikin MSL yem Dionne all MSL connection Measurement Serer Mount 20d MSL Ist MSL merce Reconnect devices Jone aca cime penin replace main board n BAD SERVER Unexpected data detected on MSL Check cable and power cycle the LINK is issued monitor An FMS or MMS with am Connect EMS or MMS with incompatible software revision is compatible sofware revsion connected ro the monitor Jcomponens no functioning model umber of devices for for communicating ISERVERLINK MALF is vid the Server necessary layed audible i fuk board Replace Check FMS ard Replace if nece messuremencsuppord Label confer server not come already in use in lup on che monitor monito Check the confier endow ro selecr the Promp mesage Too There are more modules of he ype Remove the unsupported module lt label modules lt label connected rhan supported for use the lebel manager lconnected isi
4. On although the printer doce abies nox suppor color Configure printer color Printer not compatible support to OT Chek specifications Recorder System thinks that door is Defective door switch Replace door switch Exchange module oren when iris nor mem thinks har he Paperouremserdiny Clean paperoursemor recorder is ou of paper when iis nor Recorder nor Poor connection to he Unplug dhe module Plug i back in and Jcommunicaing with front end FMS again in a few seconds Watch for system the LED to flash Oniy one recorder module Remove one ofthe recorder modules may be used with each Sytem nor configured Check the configuration of che connect properly monitor Too many modules Check and remove the exta module connected Recorder won trun Recorder interlace nor Unplug the module Pug i back in and working correctly again in a few seconde Watch for the LED ro flash Poor peine qualiy Printhead diry Clean the Printhead as described in Cleaning the Recorder Module on page 2 24 of this manual Printhead aur Exchange the module Center paper roll on roller Clean roller Remove and exchange the locking plates MIB RS232 AGM connected w an The MIB RS232 porr is noc RS232 pore noe configured for AGM functioning The cable baween AGM and Check cable conn
5. funerioning Keyboard Mouse defective Replace Keyboard Mouse PS 2 O board in wrong lor Matrix in Theory oF Operation PSI2 UO Board enlace 170 board Remote Extension Box is not Check cabling and connections connected ro the monitor or Input Device is not connected to Remote Extension Box Keyboard Mouse Replace Keyboard Mouse Remote Extension Device desse Replace Remove Extension Remote Device board in wrong Check IO Matrix in Theory of sior Operation Remote Device 10 board defective Replace TO board Network related problems Prompt Message no The monitor label is nor set in the ceneral assigned to this bed monitor if the beds are monitor lis issued labeled in the Philips Information Cente Problem with the Philips PIC o Swich Information Center to Switch communication Switch communication ithe beds are configuration and Firmware pore mapped inthe Philips satus Information center HINOP Unsuppored _ Nework flare Check if witches Philips LAN is issued Information Center and Database Server are all running and connected nerwork Monitor connected wrong Check if monitor has been connected for example differen hospital nerwork instead ofthe Philips Clinical Nerwore IP address conflict after Reboor Database Server and infraserucruse reinstallation
6. 45V 2250 mV TP6 12V 4600 mV TP17 12V 4600 mV TP18 Analog Ground IF any of the above voltages are out of limits the checks again while systematically disconnecting the subassemblies remember power of the Module before removing cables and subassemblies If he voltages are still our of limits replace the power supply Defective ables Check die cables connecting the measurement head and the main PC board for signs of damage or wear Check the connectors for damaged or loose connections If any defects ae apparent replace the cable Defective main PC Ifthe checks above do noc solve the problem board replace main PC board Operating Temperature Diagnostic Checks Ope Temp shows Defective fan Check that the fan runs smoothly and check Problem its cable IF necessary replace fan or cable Insufficient air Check the f n aperture for blockages or dust circulation due to f n on the fan blade or guard IF necessary working inefficiently unblock or clean the fan aperture Operating environment Do not operate the module in such an for he module falls environment ouside of specified iir Defective IR Follow its corrective action measurement assembly bead Defective agent ID Follow is corrective action head Defective power supply Follow its corrective action Defective main PC Ifthe checks above do nor solve the problem board replace
7. Burons on the Remote Extension Device do funcion bur input device atached is functioning Remote Extension Device defective space Remove Extension Device Speed Point Speed Point amached Speed int nor connected properly Check cabling directly to the monitor not P572 170 board in wrong sor Check O Matrix in Theory of functioning Operation PSI2 UO Board defective replace board Replace SpeedPoine Speed Poincanached wo Remove Extension Device snot Check cabling and connections Remote Extension Box not connect ro che monitor functioning SpeedPoin nor connected properly Check cabling SpecdToint in the Remore Extension Device Speci Poine deci Replace Specdoine Remote Extension Device defective Replace Remove Extension Device Remote Device 10 board in the Check IO Marix in Theory of wrong dor Operation Remote Device TO board defective Replace board Speed Foin Knob Speed Paine defective Replace Speed Poine Rotation Joystick Control Selection control nor functioning Message CHECK SpecdPoint or other inpur device Perform a visual and funcional INPUTDEVICESis defective check ofall the monitor input issued Replace input devices if necesar Keyboard Mouse not functioning Keyboard Mouse atached Keyboard Mouse nor connected Check cabling directly tothe monitor not properly
8. If error conditions are detected the OS will hale monitoring operations and inform the operator abour the error condition System Servicer The System Services provide generic common system services In particular Ie uses realtime clack component rack time Ie synchronizes to network time sources and verifies the accuracy of the system time information I is also responsible for managing persistent configuration data for all Measurement Servers Flexible Module Servers and IntelliVue Patient Monitoring System software modules User configuration data is stored in a non volatile read write storage device 71 The Sei nieve current and mored pingi aa and data to format for pining paper documentation The following ate supposed Vital Signe Report Graphical Trend Report Event Review Repore Event Episode Report gt ECG Report 12 Lead Muli Lead Cardiac Ourpus Report Calculations Report Hemodynamic Oxygenation Ventilation Calculations Review Report Wedge Repore Test Report Other reports cg Loops Review Applications Drug repor The Reports service generates report data which can be printed on a local central prine m Record The Recond Service retrieves current and stored physiological data and starus dara to formar a continuous serip recording A recording can be triggered manually by th
9. 20 Insert and tighten the screw at the bottom of the FMS Mounting the Remote Extension Device to the FMS Figure 19 Mounting the Remote Extension Box to MBO48A Flexible Module Server Mounting the BIS Module to the FMS 1 Remove the existing handle for the FMS see Figure 20 2 the bracket to the FMS using a M4 x 8mm PHMS see Figure 21 the BIS engine onto the mount see Figure 22 Elslng Hande a Mixinn HS T Figure 21 Attaching the Philips BIS Flexible Measurement Server Mount Figure 22 Attaching the BIS Engine to Mount Mounting the FMS A universal damp for vertical ruil or pole solutions ships with cach FMS eo e The cable specifications and part numbers for through wall solutions of the M8048A and M3001A are described in the Site Preparation section of this manual MSL Cable Termination The following installation procedure describes how to install che wall installation cable kit when the patient monitor and the measurement server ate not located at the same site The kit consists of two connector boxes and a cable 15m or 25m For this procedure you need the insertion tol M3086 43801 and a small screwdriver 1 Draw the MSL cable through the wall from the site of the monitor to the site of the measurement Each MSL face plate kit contains two connector boxes one in going and one out going The US version contains an additional rectangular wall mou
10. Housing Rear and Snap Lock Front Housing Parts Figure 9 Single Width Plug In Module Bed and Front Housing Pars Snap Locks Figure 10 Double width Plug in Module m Plug in Module Replaceable Parts noue M1027 61601 reden ines M1001 64001 CHAMBER KIT New Calor EEG MODULE TEST DEVICE HOUSING FITS M11164 sc M1116 8 MODELS M11168 RECORDER CLEANING KIT SILICONE BUTTON amp FRAME PARTS KIT SWAP Lock SINGLE Plug In Module Language Specific Front Housings Table 1 MioB ECG 11001 60 201 201 203 201 201 201 203 203 203 210 os ECG Resp DMioorso zi 201 203 201 201 201 203 203 nos 210 203 MIOOGB ins Press Moog 201 zm 203 204 205 201 207 os 209 210 mi MIDE Press with Analog Our Mioneco 251 251 253 254 255 251 257 258 259 260 261 NBP M10080 201 202 201 204 205 206 207 208 201 210 mor Mi CO Morzes zr 202 203 201 205 zer 201 por 201 210 fzor Mio CCO CO wi Mieres zs s ps 251 ass pr pr pr 251 260 n c10 PICCO funciionaliy MIOISA CO2Siesam M1015460 201 201 201 201 201 201 201 mor 201 210 20 MIOI6A CO2 Mainstream M10660 201 zor zor 201 201 aor zor 210 201 MiorsA __ M10180 201 202 am 201 201 201 201 por 210 fzor
11. Refining the CO2 Scrubber Reiting the Pump Refining the Extension Bottom Cover 1 Refining Front Cover 4 General Reasembly Refting Comments 1 Following Reassembly 1 6 Parts us MPGO MP7O Parts n Exchange Parts n Replacement Parts Flexible Module Server Parts ns Exchange and Replacement Pars ns Multi Measurement Server Parts Measurement Server Extension Parts M3015A and M3016A 120 Exchange Parts List m Plug in Modules Part Numbers 124 Part Number Table 14 Exchange Modules Table 1 124 Exchange Modules able 2 us Plug In Modules Replaceable Parts 17 Singe Vidih Plug In Module 17 Double Width Plug In Module 127 Plugin Module Replaceable Parts E Plug In Module Language Specific Font Housing Table 1 128 Plug In Module Language Specific Front Housings Table 2 129 Plug in Module Specific Bezels 130 BIS Module Replaceable Parts 130 BIS Module Components m tepOZIcpCO2 Module Accessories 132 External Display Part Numbers 132 Remote Input Devices Part Numbers 133 Remote Alarm Device Part Numbers 134 Remote Extension Device Part Numbers 134 134 7 Installation Instructions 135 Unpacking the Equipment 135 ial Inspection 136 Mechanical Inspection 136 Electrical Inspection 136 Claims For Damage and Repackaging 136 Claims for Damage 136 Repackaging for Shipment or Storage 136 Installing the Monitor M8005A or M8007A 136 Mounting Instructions 137 Assembling Mounes 137 Connect
12. The MIB RS232 board is defective Check board and replace if necessary Protocol Problem Consul dhe Data Export document Flexible Nurse Call Relay message CHECK Nurse Call Relay board defective Replace Nurse Call Relay NURSE CALL RELAY board issued Monitor alarmed Nurse Incorrect configuracion Rely Check monitor configuration ce Call did nor activate latency Rea rigger configuration guide Connection of cable vo monitor or Check cable connections nurse call system noc correer Nurse Call Relay board isin he Verily correct placement of the lwang slor O boards Tie Nune Cal Ray bondi Replace Nurse Call Relay Board defective Troubleshooting the ECG OUT INo marker puke ir Disconnec the MMS and Dei displayed on the Monitor or no ECG OUT signal to switch the Monitor olf hen on again Observe the red LED in the ECG OUT section Note thar the LED can nly be observed if he housing bortom is removed IF the red LED does nor switch on for about 1 second ar power on Cabling nor connected Check cabling ECG OUT board defective Replace ECG OUT board TIF che red LED switches on and remains on for more than 20 seconds ECG OUT Board defective Replace ECG OUT Board Main Board defective Replace Main Board Connect Known good Deib Def lable MMS and MMS cable Check Marker pulse and ECG OUT signal at
13. These tests check the performance ofthe BIS measurement ICIDSC Test 1 In monitoring mode connect the sensor simulator for maximum usage please refer to the documentation delivered with the sensor simulator to the paient interface cable 1 Enter the BIS menu and select Open Window 35 Startimpedance check by pressing Start CycLiccheck Check the displayed results Expected results are Electrode 1 4 6 Electrode 2 Ref 8 12 kO Electrode 3 1 1 3 kO Electrode 4 2 1 3 kO Nurse Call Relay Performance Test The nurse call relay performance test can be performed either at the phone jack type connector this only rests one relay or ar the multi port nurse connector to test three relays Phone Jack Type Connector Test This test checks the operation of the Nurse Call Relay The Nune Call Relay test is recommended for customer sires where the nurse call isin use The Nurse Call relay functions as follows Standard Operation Relay open Alarm Condition Relay closed Tools required Ohmmeter 1 Plug a phono connector into the Nurse Call Relay connector 2 Connect the ohmmeter Tf no alarm occurs the relay contacts are open When an alarm occurs che relay contacts close Multi Port Nurse Call Connector Test This test checks the operation of the Flexible Nurse Call Relay The Nurse Call Relay test is recommended for customer sites where the nurse is in use The following d
14. i agent ID assembly combining equipment per olio 145 removal and placement 251 Matri 125 ala lisie ranges 109 Marix 123 lide configarnion 182 INOP alr 170 Anche Gas haus 190 onde i cabo 14 178 chc Gn Moule poe hm mit rangs 169 Soren pore memes gig hope I S 10 deda M P acc IM pep FRO dune 170 1 Peformance Tan 7 bleed o OG euh 47 mg ey doen 1 pun 3 ad 178 am 259 siendo i NVRIM daa mir 295 m Exchange Pare pre V ting 122 eig pre tite unmet Doubles Plugin Module Shei p E i 213 lage check 184 194 214 x erc Cher Obvious Probleme ow meer mr poe fact tonal and replacement 245 E 5 ning Caliban Velim 4 qe Flow Rate Check and ON Cian 40 5 le Ck pa ing Pump hek puny S pe 24 coz 199 EJ Accuracy Ton 36 Vela Tet 37 sectas 3E Nune Cil Relay Performance Test 44 data asker 235 o o2 Span calibration 214 Spun bration checks 214 Zero calibration checks 213 sed placement 247 P pars and acces M Pint safey checks 48 placement evel support 5
15. IF the voltage is noe within 21036 of calculated value proceed to adjust O Zero snd Span potentiometers in following order Table continued on ne page 217 Zero Adjust Calculate the correct voltage as described above using the acral room air Oz eoncentation and measured pressure Adjust RV2 potentiometer on the PC Board the voltmeter reads the calculated voltage You can also gas which does nor contain O and adjust RV2 potentiometer on the PC Board until the voltmeter reading is O mV s1mV The pas must be applied athe room air filter Span Adjuse Apply Philips Calibration Gas M1660A containing 52 to the oom filer connect the calibration tubing to the open end of the room air filter Calculate the correct voltage as described above using the specific Oz concentration and measured barometric pressure Adjust RVI the voltmeter reads the calculated voltage 10 mV Disconnect the calibracion rubing from the room air ile Reconnect cable of solenoid 2 iit was disconnected Frese adjusemenes are not successful checke the pneumatic system for leakages IF the problem stil persists replace the sensor fany adjustment was necessary perform a Zero calibration followed by an O Span calibration Defective cables Check the cables connecting the Oz assembly and the main PC board for signs of damage or wear Check the connectors for damaged or loose con
16. filter and pump filter rwo internal bacterial filters and two watertrap manifold seals using the PM kit every 12 months Test the pump using the test procedure provided in the PM Kit every 12 months IF the test fails replace the pump Check electrical safety ground impedance and enclosure leakage current test at least every 12 months Cleaning Each time the top cover is removed from the AGM for repair or calibration you should take che opportuni to clean the inside of the module as the fan may draw debris such as dust and lint into the enclosure WARNING Switch off the instrument and disconnect it from the mains power supply Take standard electrostatic precautions For example wrist strap connected to electrical ground The user should be encouraged ro periodically clean the exterior casing of the AGM The outside ofthe gis sample tubing should be cleaned before connecting to the next patient Replace PM Parts Every 12 months the PM parts should be replaced for new with the PM kir Philips Parc Number M1026 60132 The PM kit comprises an internal Nafion tubing with two internal bacterial filters pump filter oom ai filter and internal bacterial filters and rwo seals for the manifold Internal Nafion Tubing with Bacterial Filters and manifold Seals Figure 41 Removing the Nafion Tubing Bacterial Filters and Watertrap Manifold Seals Removal To remove the Nafion tubing filters
17. main PC board Test Points Connectors and Jumpers Test Points The following cable lists he test points also refer to Figure 51 m Analog Gnd 1 AGNDI Analog Dark Level Clamp C10DLCL ud M1026A Preamp Signal 400mVpp 30mv ul M1026A A D Converter Input rs AC Pump Motor Reference not used res IR source voltage for IR measurement T 87 V 220mv lassembly head R178 per Thermal Electric Cooler Drive Voltage to 250mV 2100mV M1026A Head after at least 15 min warm up Oxygen Transducer Signal Output Examples 20 8 0819 Signal varies with is approx 208m Concentration 50 0 is approx 500mv e Analog Ground 2 AGND2 M1026A A D Converter Input men I source voltage for agent ID head 7 92 V220mV Q180 Isolated Ground for isolated RS 232 communications with the Host Computer mma uzvu 12 600mV eis esv 5 250mV HAG nv 12V 600mv uav 12 2600mV res Analog Ground 3 AGND3 TRESS PETES Connectors The following table lists the connectors on the main PCB n IR Measurement Assembly Head gt Agent ID Head LI Factory use only m Factory use only ls DC Power pins 182 12 VH pins 384 45V GND DGND pin 6 AGND pin 7 AGND pin 8 12V pin 9 12V lis PC Board connector also for data transfer 7 Hop cover jumper Pump driver for DC pump and AC pump DC PUMP AC PUMP
18. 50 60 Hz The adjustment is made automatically by the power supply inside the module 2 RS232 Connector RS232 Interface this is a 25 pin D type connector used to connect the AGM to the lower RJ45 connector of the monitor Slot 04 MIB Devices see Installation Instruction The connection can be made with the following cable MIO2GA KI1 1 m M1026 61001 1026 2 3 m 1026 61002 1026 10 m M1026 61003 System power outlet restricted usc this can be used to output power to the monitor CAUTION The system power outlet may not be used with any other devices 4 Equipotential Grounding Terminal this is used ro connect the AGM to the hospitals grounding system 5 Line protection fuses T1 6 H 250V 6 Anesthetic gas exhaust If NO and or other inhalation anesthetics are during anesthesia pollution of the operating roam should be prevented Once the gas sample has passed through the AGM it should either be returned to or removed from the anesthesia circuit ins to the Gas Exhaust Sample Gas Returning the Gas Sample You will need the following equipment to return the gas sample to the anesthesia circu Table 1 Gas Sample Return Equipment Gas Exhaust Rerum Line MIGSA Tubing includes pars Tube A 50cm long Tube B 3m long Exhaust Rerum Fiket M1656A single paient use only NOTE The 1655 may not be available in all countries
19. Philips Information Center connectivity to PIC no Hardware Defect Check LAN cable connection prompt or error message on Check NGN Connector bond in monitor Monitor Check Sich Configuration problem switch configuration and Firmware revision Other Bed Overview not Configuration Problem configuration in PIC available regarding orher bed overview core group assignment Verify configuration sering of multicast filters function is nor available for Switch to a wired configuration wireless beds Bed Alarms are nox Configuration problem Verify configuration in PIC lappearing Monitor Config Mode and check chat dhe is temporarily disabled by the user Bed Info Window Wireless Network central monitoring Monitor is out of range ofthe access Move monitor back possible see also Network poine in this case the yellow sync area problems LED on the wireless adapter on the borom of the device next to the power connector is not on steady Wireless Adapcer has no power Check spliter cable and replace if LEDs on adapter areall of necessary adapter board in monitor and replace if necessary coverage Verify size of coverage with the ite survey roo Check adapier iuc Replace iF necessary Only after fire neal Firmware Update adapter Fimware wih re
20. Preamp Assembly The ceramic IR source is heated to 600 C by applying a constant drive voltage across it The filer wheel assembly includes IR Alters for the anesthetic agent N O and a reference channel blank segment dark period marks the beginning and end of the filter series The sample cell is a stainless steel rube It has non IR absorbing sapphire windows ar both ends and barbed inler and ourlet pores The inlet and ourlet ports are placed as close as possible to the windows so that the gas flows effectively through the cell The preamplifier board assembly includes an IR detector an IR detector thermistor a TE cooler and a preamplificaion circuit The output from the preamplifier is a stream of pulses his pulse train has pulse for each IR filter and is terminated by a blank period dark level phase Figure 34 17 lt 10 msec gt Dark Ref Agent CO2 Level Pulse Pulse Pulse Pulse Pulse Figure 34 IR Detector Output Signal Installation and Patient Safety This chapter describes how to install che Philips M1026A Anesthetic Gas Module I details the operating environment required by the Philips M1026A Anesthetic Gas Module as well as instructions how affix che local language labels and physically connect it to the monitor Next the patient safety information is derailed Finally this chapter describes the software setup required and any post installation check
21. Setting Up the Gas Return see diagram Figure 37 1 Fit the male luer lock connection 2 of the shorter tube to che female side of the M1656A Gas Exhaust Rerum Filter 2 Fir the female lock connection 3 of the longer tube ro the male side of the M1656A Gas Exhaust Rerum Filter Fir the open end 7 of he longer rube to the AGM s Anesthetic Gas Exhaust 4 Fir the open end 5 of the shorter tube to the ventilation circuit Figure 37 Setting Up the Gas Return 1 MIGSGA Gas Exhaust Return Filter M1655A Gas Exhaust Return Line comprising m Female luer lock Male luer lock Dampener Shoner tube Connecting tube Longer tube connected ro AGM exhaust port Removing the Gas Sample To remove the gas sample from the anesthesia circuit a scavenging system needs to be connected to the Anesthetic Gas Exhaust If you intend to use scavenging system with the AGM one ofthe following parts must also be connected o protect it against malfunction 1 A ventilator reservoir where the suction pressure does not exceed 0 3 0 4 mmHg or 20 A scavenging interface properly set and maintained see scavenging interface manufacturers instructions Setup and Configuration Procedures This section describes final sering up and configuration procedures that must be completed after the is connected to the monitor and switched on bur before the AGM is used for monitoring Altitude Configuration The alti
22. os Analyzer VacLink 1 gt 69 805 aos 305 s05 sos sos 305 305 305 aos a0 Auxiliary Plus MiosA BIS so Gor coi oor cor oor cor oor cor oor cor IMINIGB Recorder Mines cor 62 Gos coi 005 sos sos os ero err MISSA Dam 1 62 enz 602 eoz eoz coz eoz 6o2 Transfer MBSA imerae M3536269 eor 61 cor eor cor aor eor oor Gor feor oor Module far Porat Exchange Modules Table 2 M1001 69 Mio02B ECGRep M10269 cor 613 615 oor sor eor ers 620 cor eor Inv Peu M10066 cor ara 614 615 oor sor eor 619 fezo cor oor TMT00GB Press wih M10066 651 663 664 665 61 ast 651 669 emi ost 001 Analog Our M10088 NBP M1008469 sm 613 614 615 eor eor eor 620 eor feor Miza co Miorzas so 613 coz 615 cor eor eor cor oor cor MIOIZA CO wih Miorr s esr 65s c cos 651 e esi em esr 51 ost picco coz feor ars coi cor eor feor or cor eor cor Sidesrcam Miosa coz moreas feor ars eoi cor aor eor eor aor cor eor cor Mainstream MIRA uepoz Moises eor 613 614 601 oor sor cor eor oor cor oor Mioa spoz eor ets 605 615
23. screws Arach the desired mounting device to bracket NOTE Do not mount the display in a position where liquid could spill onto it 139 Connections Connect the cables to the display as shown in the photograph Video Power Flexible Module Server and or Multi Measurement Server Attaching the MMS to a Mount 1 Make sure che Measurement Server is oriented correctly relative to the mount see the picture below 2 Place the Measurement Server on the back mount Iiis not tight against the mount slip it in the direction of the measurement connectors ir is 3 Slip che Measurement Server forward it clicks into place Detaching the Measurement Server from a Mount 1 Pessand hold che latch in the middle at the top of the mound away from the Measurement Server 2 Slide the Measurement Server off the mount n the direction of the measurement connectors Positioning the Measurement Server on a Clamp Mount Ifyou have your Measurement Server on the clamp mount you can have it in ane of four positions You can reposition it as follows 140 1 Pressand hold che mount latch toward che clamp screw Mount Lath Rotate che Measurement Server and mount you get it to the postion you want 2 Release the mount latch and make sure it is clicked into one of the four slots on the back of the Mounting the MMS Mount to the FMS M8048A 1 Consect the MMS Mount to the FMS and snap into place
24. 130 BIS Module Components 5 T ON SZ Module Cable n Figure 11 BIS Module Components m tcpOj tcpCO Module Accessories The flowing acessories an be ordered forthe FO yO Module Table3tepO tepCO Monitoring Accersories M15209 60010 Accessory Kir MIS210 60010 CAL 1 gas 6 bortles U S A only Mi5210 64010 CALI gas boule 15210 60020 Cal 2 gas 6 bontles U S A only Contains 0 Oz 10 M15210 64020 Cal 2 gas 6 bowls Contains 0 O 10 CO Missa Transducer M22054 Calibration Tubing 63 External Display Part Numbers Figure 12 External XGA Display 132 Table 4 External XGA Display Parts M1097A A02 M1097 60004 15 Dual Mode XGA Color Touch Screen Display SN gt TW412 1097 60002 15 XGA Color Touch Sereen Display SN M1097 68004 Exchange 15 Dual Mode XGA Color Touch Screen Display Order for displays with SN gt TW412 1097 68002 Exchange 15 XGA Color Touch Screen Display Order for displays with SN TW412 M1097 68001 Exchange 15 XGA Color Non Touch Display Onder for non touch displays MIISIA 4A7 M1181 61695 3m XGA Video Cable with right angled connector Computer module to M1097A display Mr181A 2a79 Mi81 61698 10m XGA Video Cable with right angled connector Computer module to M1097A M1097 64001 Power Supply Mounting Clamp for M1097A M1097 01201 Mounting Bracke for M1097A M1097 60005 Power Supply Du
25. A pair of large tweezers In addition for refitting che Pump you will need a lrge bladed screwdriver WARNING There is high voltage inside the Instrument 800V Do not connect the Measurement Server Extension to Monitor while che Extension housing is open As well parts inside the instrument may be contaminated with bacteria protect yourself from posible infection by wearing gloves during these procedures Refitting the CO Scrubber WARNING The CO Scrubber contains lithium hydroxide monohydrate This is a strong base Do not open or damage the Scrubber Ifyou come into contact with the Scrubber material lush the area immediately with water and consult a doctor To refit the CO Scrubber do following 1 Oz Scrubber through the bracket to meer che Extension intake rube 2 Push the intake tube firmly into the scrubber end to connect i 3 Holding the body of the CO Scrubber with tweezers feed the Scrubber fresh air intake under the second bracket and position it Refitting the Pump To refit the Pump do the following 1 Gently connect the power lead to the Extension NOTE The power lead can only be connected one way Do not to force the power lead into positon Instead align ic correctly and connect it gently 2 Connect the flow tubing to the Pamp NOTE Be sure to reconnect the inlet rube to the inlet valve and the outlet tube to the outlet valve 1 Being careful not to touch anything else
26. Detection Criteris 6 mmHg variation in CO N O Measurement Range OBS volte Accuracy 1 5 volt 59 relative Resolution Risesime 510 msec ypical Range Accuracy 2255 vl or 5 relative whichever is greater Resolution Reime 450 msec ypicl 16 J 10 60 rpm 0 59 rpm erco 20 76 mmg 10 75 mmHg Imco 2 20 mang none ango Jo 82 vols none 19100 18 99 vols Jet sev 02 90 vols 0 0 8 9 vor lin SEV 02 90 vols 0 0 8 9 vor let DES 0 2 20 0 vois 0 0 19 8 vol lin pes Jo2 20 0 vo 0 0 19 8 vols iatogthane Enflurane Isoflurane let 02 75 vol 0 0 74 vo in Joa 7 5 vols 0 0 74 vois Alarm Delay 10 seconds if no automatic zero calibration occurs within that time Apnea Alarm Delay Range 10 40 seconds No detected breath within ch adjusted delay time Mam Within 2 seconds afier dis criterion is met if no automatic zero INOP Alarms 170 INOP alarms are triggered i The Philips M1026A Anesthetic Gas Module is disconnected or switched off The equipment malfunctions The Agent ID malfunctions Zero calibration has failed Zero calibration is in progress The gas sample nube is occluded or the water trap is full The Philips M1026A Anesthetic Gas Module is unable to measure Gas contaminant is detected Agent detected Anesthetic agent detected but nor selected The module is in warm up mode No breath d
27. Storage up to 95 RH max 65 C 149 non condensing Aliisude Range Operating 305 3048m 1 000 to 10 000 fi Altitude Range Storage 305 5 486m 1 000 ro 18 000 fi Warm up Time After switching on 2 minutes to measure 8 minutes for full specification accuracy Performance Specifications All Performance and accuracy specifications are valid based on gas sample tubing M1658A including Wwatertrap M1657B and airway adapter 13902A Humidity Correction For CO the humidity correction can be set to wet or dry Wet p mmHg c Vol abs p_H 0 100 Diy p mmHg c Voli p abs 100 Where p partial pressure c gas concentration p_abs pressure in breathing circuit p HO 47 mmHg partial pressure of water vapor of exhaled gas 37 C 100 rh For all other gases the readings are always given as dry values Sample Flow Rate 150 ml min Sample Delay Time measurements and alarms are subject to a delay of 3 seconds Total System Response Time the sum of the delay time and the rise time 168 aaa Derr Ome Medea CO Measurement Range 010 76 mmHg Accuracy 1 5 mmHg 0 40 mmHg 25 mmHg 40 60 mmHg 40 mmHg 60 76 mmHg Resolution 1 mmHg Risetime 410 msec ypieal The total system response time is the sum of the sample delay time 3 seconds and the rise time 410 msec typical AWRR derived from CO Waveform Range rr Accuracy Resolution 1pm
28. another DC DC converter to create 60 V in order to supply power for the modules CPU Boards 20 The CPU boards have an MPC860 50 MHz processor that provides a number of on chip configurable interfaces An array of 12 fase UARTS with configurable protocol options are implemented in an ASIC along with other sytem functions such as independent watchdogs etc providing interfacing capabilities measurement modules and boards The serial interfaces can easily be electrically isolated The main board contains additional video hardware Module Server Intelvue Patent Monitor MulbMeasurementSener CPU Bank of 10s Modules The CPUs provide two LAN interfaces to interconnect CPUs via the Internal LAN or to connect to the Philips Clinical Network The CPU capabilities are identical Different loading options are coded on serial EEPROMs to support the automarie configuration of the operating system at boot time a Boards Interfaces to the monitor are implemented via JO boards The location of these boards is restricted by general rules The lO slot designations diagram and che I O matrix which outline the UO board placement rules can be found in the Installation Instructions section The following is a list of Interface I O boards which may be present in your moni your purchased configuration MSL Video analog Ph
29. assembly head 5 Replace the pneumatic connections 2 to the sample cell located on top of the IR measurement assembly head NOTE Check that all tubing is tightly connected and show no signs of damage 6 Replace the flat cable 1 connector to the main PC board Afer replacing the IR measurement assembly head check thar all la cable connectors are firmly seated and show signs of damage Now perform the performance checks described in the Test and Inspection Mat on page 262 27 Figure 60 Removing the IR Measurement Assembly Head Figure 61 Locating Screws for the IR Measurement Assembly Head Sa fa IN mecha Sample Cell Removal To remove the sample cell refer Figure 62 Figure 63 Figure 64 and Figure 65 1 Stand che IR measurement mounting bracket on end towards the main PC board refer to Lifting the IR Measurement Mounting Bracket on page 233 2 Remove che pneumatic connections 1 from the sample cell which are located on top of the IR measurement assembly head Using a cross tipped screwdriver remove the four screws 2 securing the sample cell cover plate and bracket 3 from the IR measurement assembly head Retain these parts for later replacement Lay the IR measurement assembly head flar and using a flat tipped screwdriver apply pressure from above to the overlapping part 4 of the sample cell cover and pry it off Carefully withdraw the sample cover and bracket 5 from t
30. oor sor eor eor 620 cor oor Mona wo Mones eor sts eor sor oor sor eor aor cor cor oor EEG 1 7 soi eor coi 615 cor oor sor oor cor oor cor us M1029A Temp M1029 cor ets 6o1 615 6o1 eor ers eor oor 6o1 Mis VacLink M1053269 sor soi sor soi aor sor sor sor faor aor MISA Vuelink M10326 802 a07 302 B02 302 soz 802 302 802 02 Venter IMIOS2A VucLink Gas M105269 so 803 203 303 803 803 803 303 303 805 o Analyzer MIA VaecLink M32 soi 804 soi 304 soi 804 sos 304 804 804 804 AM Anesthesia Machine MIO VaLink M10326 So 805 05 305 805 805 305 305 305 805 sans Auxiliary Plus Mios4a BIS Moses so Gor cor oor cor eor eor eor cor oor cor Minab Recorder Mee eor 613 614 615 oor sor eor ers 620 cor oor MISSA Dae N255 65 02 enz eor eoz eor eoz 602 oor cor Transfer MBSA imere M5626 61 61 oor em eor 601 cor cor oor Module far Porat Plug In Modules Replaceable Parts The photographs below are examples of the pares listed in the Replaceable Pars table Depending on the specifie module the language and the color of the connector bezel may vary Single Width Plug In Module
31. remove the two screws and washers 4 securing the O sensor to its mounting brackets 7 Carefully remove the O sensor b along with its PC board Myou are not operating Oz remove the appropriate jumper as described in Jumpers on page 103 247 Replacement To replace the sensor and its PC board follow the steps marked a and to replace the sensor with integrated PC board follow the steps marked b refer to Figure 70 and Figure 71 1 Ensure that the module is switched off and isolated from the mains power supply 2 Carefully place the sensor on its mounting so that the locating holes arc aligned with the threaded bores 3 Press the PC board onto its mounting until it dicks into place and is firmly secured by the clips 9 NOTE Make sure that the PC board i inserted so that the smaller connector points toward the main PC board 1 Place the bracket with the internal bacterial filters 5 onto the mounting bracket aligning the locating holes 2 Using a cross tipped screwdriver replace the rwo screws and washers 4 securing the O sensor to its mounting 3 Replace the flat cable connector 2 thar connects the main PC board to the PC board thar controls the O sensor 4 Replace the flat cable connection 2 to the top of the Oz sensor housing NOTE Verify the O jumper settings 5 Replace the 3 pneumatic connections 1 to the Oz sensor Connect the tubing with the T piece to the sensor inlets upper and lowe
32. zor ny i MIOIGA_ COZWainsweam Migo 201 ns zr 201 201 zr zr mor 201 201 j zr 213 214 201 z 201 201 por 201 201 mr Minn SpOZ MIo2060 zi 213 205 215 201 201 201 por zo 201 or Mionna 02 zi 213 201 201 201 201 201 por 201 201 201 Mioa EEG bros zi zm zm 215 zor zer zr por 201 201 or MIA Temp Moss zr 213 zm 215 201 gor zr pm 201 fzor MIOA VuelinkallTypes Mio32 co 201 201 201 a 201 201 201 mor zor 201 20 BIS wieso 201 zm 201 201 201 201 201 por pm 201 201 Recorder Mines 201 213 214 215 or zor 201 ns 201 por MIISA Data Transfer M12350 zz 202 202 202 201 mz 201 202 202 201 mor NGSGzA Interface Module for M3562460 201 20 201 201 201 or 201 or nor 201 201 Porat 19 Plug In Module Specific Bezels Jeo 1001 42201 ECCT MI0O1 42201 av Press M1006 42207 NEF M1008 42201 co M o16 42201 oz 42201 spoz M1020 42201 voz EEG Temp M1029 42201 1 2 42201 ns Dau Trans Interface Module for Por 3560 42201 BIS Module Replaceable Parts M1034 61650 M1034 68520 R M1034 61620 BIS PIC PATIENT INTERFACE CABLE BIS SENSOR SIMULATOR Bis ENGINE is pscxP BIS MODULE CABLE 08 m BIS MODULE CABLE 2 0 m n n
33. 10 to 12 all the gases that were out of tolerance are calibrated 14 any calibration was necessary perform a zero calibration and repeat the Span Calibration Check 15 Remove the calibration gas from the system and purge with room air for 10 seconds Then check thar the values in the Gas Analyzer Calibration window reflect the concentrations present room air inside he tolerance limits Oz at 20 9 4 02 CO ar 096 7 0 1 NO ar 0 4 03 Agent ar 0 0 196 If this is noc the case repeat all calibration checks and procedures These values are valid for the Philips M1660A Calibration Gas Mixture For other calibration gas mixtures use the values specified for the mixture applying the same tolerance limits as given in this table for the Philips mixture for example Japanese users should calibrate the Anesthetic GAs Module using the DOT29M1060 gas mixture of Schott Medical Products Disposal of Empty Calibration Gas Cylinder 1 Empty cylinder completely by pushing in che pin ofthe valve 2 Once the cylinder is emp dill hole in the cylinder CAUTION careful to assure thar the cylinder is completely empty before you try to drill the cylinder Weite Empey on the cylinder and place it with your serap metal if you do not collect scrap metal for recycling dispose of the cylinder 197 Maintaining the Anesthetic Gas Module WARNING Failure to implementa satisfactory maintenance schedule by the indiv
34. 2 Wait 10 seconds for the measurement to stabilize Afer these 10 seconds compare the manometer value with the displayed value 4 Document the value displayed by the monitor x3 5 If che difference is greater chan 3 mmHg calibrate che MMS sce steps 9 to 10 in the accuracy test procedure Valve Test 1 Raise the pressure again to 280 mmHg 1 SdexClose valves Off Wai five seconds and chen document che value displayed The value should be less than 10 mmHg 4 Document the value displayed by the monitor x4 Test Expected test results Accuracy test 31 value displayed by monitor Difference lt 3mmHg Leakage ree 32 leakage vr lue 12 lt 6mmHg incar vs 33 value displayed by monitor Difference lt 3mmHg D 4 value lt 10 mmHg Sidestream CO Performance Test Allow five seconds between individual service procedures t ensure stable equipment conditions When certain monitor procedures are running service procedures arc not possible and tying o start them will resultin a message Service Operation Failed in the monitor s starus line Wait until the monitor completes the current operation then restart the service procedure This test checks the performance of the CO measurement for the sidestream extension The CO performance test is required once per year and when the instrument is repaired or when parts are replaced This test uses calibration equipment chat you can o
35. Installation Manual Flexible Nurse Call Relay Connections peen Figure 26 Flexible Nurse Call Relay Connections at Monitor ECG Out Functionality Connections ECG Out Connector Monitor Sid The cable MI181A A62 has both ende terminated The photograph above shows the monitor side Fusing non terminated cable 1 Strip 5 mm 3 16 insulation from leads and twist conductor stands tightly 2 Solder leads ro the connector as shown in the following diagram mI Configuration Tasks You must configure these settings during installation in configuration mode Line Frequency Printer Altitude Equipment Label or wireless networked monitors or when the Information center is in flexible monitoring mode Setting Altitude Line Frequency and Barometric Pressure You require a local barometric pressure rating from a reliable source such as airport regional weather station or hospital weather station tha is located a the same altitude as the institution 1 From theMain Setup menu select Global Setting Select Altitude and enter the altitude 2 FromtheMain Setup menu select Global setting Select Line Frequency and choose the Line Frequency 3 Fromthemain Setup menu select Monitor Select Barometric Pressure and enter the pressure Configuring the Equipment Label Ifthe Information Center is in fixed monitoring mode it controls the equipment label You do not need to follow this proce
36. Instructions for Use for the Support Tool 26 Monitor Software Block Diagram Figure 4 shows the functional block diagram for the monitoring system A legend explaining terms and diagram clement follows The information below varies depending on the purchased monitor options Philips Clinical Video Out Visual Audio Input Devices ECG Out Network Indicators Indicators PS aeos ise rouen 5 Interfaces E3 Interface Managers Ee ES NI Services x Y E Measurement Sener ux mer Module Measurement Server T ee pee pum quem TEES ESL EIE m Plugin Modules Figure 4 IntelliVue Patient Monitoring System Functional Block Diagram x Block Diagram Legend Operating System The Operating System OS provides a layer of isolation between the specific hardware implementation and the application software The OS performs system checks and allocates resources to ensure safe operation when the sytem is first started This includes internal selftests on several hardware modules and configuration check for validity of configuration with the operating sofware During normal operation the OS continues ro run checks on system
37. Module description of the Module including is physical environmental and performance specifications A general explanation ofthe measurement principles that the Module uses to measure gas The theory of operation of the Module the layout of its components and how they work Description The Philips M1026A Anesthetic Gas Module works together with the IntelliVue MP60 and MP70 patient monitors through an RS232 serial interface Ie measures the airway gases of ventilated patients who are under general gas anesthesia or emerging from it The module produces graphical wave data and inspired and end tidal numeric data for the following gases coz One volatile anesthetic agent Oz optional Tr also generates numerics for the patient s airway respiration rate AWRR The Agent Identification feature identifies which anesthetic agent is being used Product Structure The only version ofthe M1026A Anesthetic Gas Module compatible with the IntelliVue Monitoring System is M1026A A05 M1026A Watertrap with 5 Agent ID Hal Iso Enf Des Sev 003 MUST Option adds fast Oz measurement Physical Specifications Size HxWxD x 370mm x 467mm 3 54 x 14 6 x 184 in 167 Weight 5 2 kg 1810 Environmental Specifications Opening Temperature 15 40 C 59 ro 104 40 to 65 C 40 to 149 F Hunidiy Lini Operating up to 95 RH max 40 C 104 F non condensing Humidity Limit
38. Oxygen Transducer Connection Factory use only 4 Connection to Host Computer for communications RS 232 jis Fan power FANI Ine Nor used 7 Power LED Factory only 20 Factory use only ha O Solenoid SOLD gt Optional rent Panel UO T Oe DC FT oy Jumpers The following table shows the correct jumper settings for the Oz sensor if installed OPEN OPEN OPEN Joren joias CLOSED joren The top cover Jumper JP7 must always be closed whether or not the top cover is connected zs e Figure 51 Potentiometers Jumpers and Test Points Legend 1 osse potentiometers R125 Purge and R126 Normal fow JR Source potentiometers R178 R180 Oz jumper 101RQ Top cover jumper JP7 EPROM Microprocessors Test pins How transducer PC board connector NVRAM transfer gt ORs Qux Mole Repairing the Anesthetic Gas Module Introduction This section contains detailed removal and replacement procedures for all field replaceable units in the Philips M1026A Anesthetic Gas Module CAUTION Use caution when handling tubing and other components of che patient circuit Wear gloves mask and gown while handling components that come into contact with the patient s exhalant gas or fluids Before you can remove any of these field replaceable units you first need to remove the top cover of the Anesthetic Gas Module The p
39. and electro magnetic interference may affect che measurements Zero calibration is not possible during warm up 192 Complet the following to perform a zero calibration in service mode 1 Inthe Setup Gas Analyzer menu select Service Window 2 Select calibration to access the Gas Analyzer Calibration window 3 Inthe Setup Gas Analyzer menu select Zero Cal and press Confirm when prompted to 4 Wait zero calibration is complete Inthe Gas Analyzer Calibration window a 0K Failed indication is displayed against each channel Ifa Fas Led indication cannot be cleared by another zero calibration refer tothe appropriate section of this manual and correct the fault Then repeat this procedure Barometric Pressure Check and Calibration For this calibration you need the absolure barometric pressure at your hospital location Normally this value can be provided by che hospital as ir is needed in the laboratory Ifthe hospital cannot provide an accurate value for the barometric pressure the local airport or westhenstation Since airports and weatherstations normally provide you with a pressure chat has been corrected to sea level ensure thar the value you are given is an uncorrected absolute barometric pressure reading The following table shows you typical barometric pressures various altitudes only a corrected to sea level or 0 meters reading is available uncorrect the reading for che aktitude you are on using the follow
40. anything else Scrubber out of the bracket the Extension use tweezers to pull the body af the 3 Holding the body of the Scrubber with your fingers carefully disconnect che Extension intake tube from the scrubber end and remove the CO Scrubber from the Extension 4 Dispose of the CO Scrubber according to local legal requirements for low volume chemical waste NOTE Now thar it is exposed do NOT allow anything to fill into the Infrared Lamp assembly Removing the Pump To remove the Pump do the following 1 Locate che Pump in the Extension 2 Being careful nor to rouch anything else in the Extension unscrew the screw holding the pump bracket in position Life the top part of the bracket away and lift out the pump Serew holdi pump bracket Gently disconnect the low tubing arrached to the Extension from the Pump NOTE Be sure to note which ube attaches tothe inler and which cube attaches to the outlet 4 Gently disconnect the power lead which attaches the Pump to the Extension 5 Remove the Pump na NOTE After replacing the Pump reser the displayed value displayed using the Reset PumpOpTime selection Service Mode CO Setup When the PumpOpTime has been reser an INOP will be generated CO OCCLUSION To dear this INOP you must perform a flow check and store the flow in Service Mode select Store Flow Refit Procedures for the Measurement Server Extension Tools Required A thin baded screwdriver
41. example on a measurement server Ms00xA monitor connected Prompe menage M300A Measurement Server Disconnect the measurement Mesurement Server Revision A is plugged This jener and cycle power supported unplug device Measurement Server is not switch monitor ofton and compatible with che IntelliVue Bad Measurement patient monitors Server are issued MSL related problems Measurement Server does No Power Check MSL cable and replace if oe sar up to LEDs ien civ no INOP or Check MSL connecor ard and Measurement Sever docs Communication lines in MSL able Check MSL cable and MSL Inoc sarebu LEDs are or MSL connector broken IMSL connector board defective Check MSL connector board and IMSL Foner High NOP device drawing oo mudh Reduce to a limit ofT FMS and T Power omn he monio Too many MMS connected vo the monitor l tons ifthe condiion FMS and MMS connected to the persists for longer than 15 monitor minutes the INOP MSL Power OR wil appear see below MSI Power Racked devie drawing oo much Dione al FMS and MMS FMS and MMS connected the Cycle power so restore povero the MSL devices ihe menage appear connect FMS and MMS one at latime waiting 15 minus fenem esch device to sec if IE yes the spective MMS or FMS is aly see Muki Measusemene Server or
42. external leads and accessories The expected test result is pass the system has no obvious signs of damage Power On Test 1 Switch on the monitor and connect the MMS 2 Observe whether the system boots up successfully and if an ECG wave appears on the screen The expected test result is pass the monitor boots up and displays an ECG wave The wave might bea flar line if no simulator is attache NBP Tests This section describes NBP test procedures The monitor must be in service mode to perform these NBP Accuracy Test This test checks the performance of the non invasive blood pressure measurement Connect the equipment as shown Expansion Chamber Tools required Reference manometer includes and pump and valve accuracy 0 2 of reading Expansion chamber volume 250 ml 10 Appropriate tubing In service mode the systolic and diastolic readings indicate the noise of NBP channels 1 and 2 respectively When static pressure is applied the reading in NBP channel 1 should be below 50 The value in parentheses indicates the actual pressure applied to the system 1 Connect the manometer and the pump with tubing to the connector on the MMS and to the expansion chamber In service mode select the Setup menu Select Close Valves On Raise the pressure ro 280 mmHg with the manometer pump Wait 10 seconds for the measurement to stabilize Compare the manometer values with the displayed valu
43. in the Extension insert the pump into the bracket on the PC board Make sure that the pump is horizontal and docs nor touch the PC board Vibration from the pump in operation will damage the Extension if the pump touches the PC board 2 Replace the top part ofthe bracket and screw firmly into postion n NOTE Afer replacing the Pump reser the displayed value using the Reset PumpOpTime selection Service Mode gt CO Setup When the PumpOpTime has been reser an INOP will be generated CO OCCLUSION To dear this INOP you must perform a flow check and store the flow in Service Mode elect Store Flow Refitting the Extension Bottom Cover refit the Extension bortom cover do the following 17 Lach the link bar end into place then press click the bottom cover back into place covering the interior of the Extension 2 Holding bortom cover firmly in place thread che rwo long mounting pins back into the Extension making sure to thread them all the way ro the end 2 Long Mounting Pins Refitting the Front Cover To refit he front cover press click it hack into place over the measurement connector hardware General Reassembly Refitting Comments Banery Door When inserting the Monitor chassis always open the battery compartment door to avoid striking the door clip Ribbon Connections Make sure male female ribbon connections are correctly lined up Open Component Do not allow anything to fill into the open co
44. kink is ible replace the fixture and use the new one Br 1 Ee araen p RE TEST FIXTURE To make the flowrate measurements and any necessary adjustment 1 Enter the service mode of the monitor and let che Philips M1026A Anesthetic Gas Module complete the warm up phase he GA WARMUP INOP disapears 2 Inthe Setup Gas Analyzer menu select Service Window then select Calibration to access the Gas Analyzer Calibration window Enter the Setup Gas Analyzer menu and select Start Flow Cal Select Flow Rate Select Norma for normal flow 150 ml min Remove the watertrap from its manifold and connect the flow split test fixture ro the Philips M1026A Anesthetic Gas Module 7 Connect the measurement line of the test fixture to the flowmeter using the mal Luer Lock Check Note the actual flowrate by following the instructions accompanying the flowmeter If the actual flowrate is outside the tolerance must be adjusted The target value for the flow is labelled on the test fixture If no adjustments are required select Stop Flow Cal m Eeee M labelled on Test Flowrate 9 Remove the Philips M1026A Anesthetic Gas Module top cover see the respective section in this Adjustment manual 10 Correct the flowrate by adjusting potentiometer R126 on the Main PC board the required value is achieved Flowrate 11 Ifyou have made adjustments you must save the
45. or measurement related INOPs occur Je details how to proceed when errors are lagged for Failed calibration checks and procedures Failed diagnostic checks In addition it provides flow charts for communication and measurement problems Equipment needed for troubleshooting Flowmeter Flow Split Tes Kit PM KE Multimeter Calibration equipment Tubing kit Compatibility Criteria for the AGM and the IntelliVue Monitors Compatibility criteria can be checked in the Gas Analyzer Diagnostic Window For compatibility wih the IntelliVue patient monitors the AGM must fulfll the follwoing requirements Protocol Revision C21 xx or greater Age ID Option 3 Assembly 2 Flow Charts for Communication and Measurement Type Problems The first flow chart shows three common types of problems and the identification information needed about the AGM 203 Oban AGM Serial No AGM SW Revision Problem Call pa Options se lables on rearpancl and Gas Analyzer Diagnostic window Y x AGMIIsiVuc Communi Measurement ype problem Hardware related solid iiin No INOP available or intermittent problems H 4 See INOPs Check Gas Analyzer Calibration andDiagostic window and follow the trouble shooting tables if problems are reported igure 44 Troubleshooting Problem Identification To access the identification infor
46. pneumatic system are Pump assembly including pump outlet ier Two solenoid valves Tubing system including Differential pressure transducer and restrictor for control of the total flow Measurement path Drainage path parallel o measurement path Ambient air reference filter Pump Figure 31 Pneumatic System The pneumatic system works inthe following way 1 Eliminates residual water and fluids from patient sample gs using che waterrap and eliminates water vapor using Nafion Tubing 2 Splits the patient s sample gas flow 150ml min inco the measurement path 120ml min and drainage path ml min 35 Passes che patients sample gas in the measurement path at 120ml min through the measurement benches 4 Delivers zero calibration gas to che sample cells for the periodic zeroing Exhausts the patients sample gas the zero calibration gas and the span calibration gas Monitors for an occlusion in the sampling pneumatics The servo controlled pump is attached to the exhaust of the Anesthetic Gas Module It generates the How through the system and pulls the gas from the airway adapter through the measurement subsystems to the exhaust outlet Ir also delivers the zero calibration gasto the sample cells of the measurement subsystems for the periodic zero procedures and it exhausts the patient s sample gas the zero calibration and field calibration gases The flow rate control logie drives the pump as
47. possible bur the replacement head has default information for pump hours and no serial number However before installing the new measurement head you need to verify that the head is funcional a Replace the old measurement head withthe new one b Repeat the NVRAM transfer procedure from step Ifthe LED blinks alternately red and green the head is functional and you can continue with the installation of the new head Ifthe LED is solid red cither the new head and or the cable from 25 the head to the main PC board is defective In his cae you must replace the head or the cable or both NOTE When installing new measurement head and using the default NVRAM data a flow rate calibration must be performed because no flow rates will be transferred If no flow rate calibration is performed a problem with the pneumatic system will be flagged during Anesthetic Gas Module operation Ifthe LED blinks alternately red and gren a problem occurred reading the new analyzer head Turn off the power and check all connections Make sure the ribbon cables are not broken and correctly seated Repeat the procedure staring with step TF the LED is still blinking red and green you need check whether the failed NVRAM transfer is due to a defective NTB andlor cable connection Replace the old measurement head with the new one b Repeat the NVRAM transfer procedure from step Lf the LED is solid red the new measurement head is def
48. required Patient simulator ECG Performance 1 Connect the patient simulator to the ECG Resp connector on the measurement server 2 Configure che paient simulator as follows ECG sinus rhythm HR 100 bpm Check the displayed ECG wave and HR value against che simulator configuration The value should be 100bpm bpm Respiration Performance 1 Change the Patient Simulator configuration to Base impedance line 1500 Ohm Delta impedance 0 5 Ohm Respiration rare 40 rpm 2 The value should be 40 rpm 2 rpm Invasive Pressure Performance Test This test checks the performance of the invasive pressure measurement Tools required Patient simulator 1 Connect the patient simulator to the pressure connector on the MMS or the measurement server Set the paient simulator to 0 pressure Make a zero calibration Configure che patient simulator as P satic 200 mmHg Wait for the display The value should be 200 mmHg 5 mmHg Ifthe value is outside these tolerances calibrate che MMS or t server extension Ifthe MMS was calibrated with a dedicated reusable catheter check the calibration together with this catheter SpO Performance Test Thin at hacks the of he Sp mesures Tools required none 1o Connect an adult p03 transducer the SpOz connector onthe MMS Mesure the SpO vale on your finge sume hat yo ar hay 3 The value shouldbe berween 95 and 100 Cardiac Output Perfo
49. top cover refer tothe section The Top Cover Refer the following tables for possible causes of Problem indications and their recommended as Pneumatic System Diagnostic Checks Pneumatic Sys shows Weak pump IF this Problem flagged temporarily during Problem a zero calibration or purge mode chis could indicate a weak pump Replace the pump if problem persists Occluded pneumatics Check for an occlusion such a bent or collapsed tubing or dirty room iler Listen for a louder or higher frequency pump noise This can indicare rhat the pump is working to compensare for an internal occlusion Replace warertrap tubing flter if necessary Defective cables Check the cables for signs of damage or wear Check the connectors for damaged or loose connections If any defects are apparent replace the cable Solenoid air reference Check the solenoid while running a Zero Fiter problem calibration by feeling whether is being pulled in the room air filer IF no first replace rhe room air filer Ifthe problem still persists replace the solenoid Flowrate problem Perform leakage check IF problem sill persists perform flowrate check Flow transducer Check thar the transducer parts and on incorrectly connected to che Main PC board are connected to the onec side of the low restrictor Pump problem Block the gas inler pore and verify thar the pump is driven harder to compensate for t
50. 01 68124 exchange Measurement Server Traditional diot Shown Chinese Rel A 3001 68134 exchange Measurement Server Simplified Not Shown Chinese Rel A M3001 6814A exchange Measurement Server Portuguese diot Shown RelA 3001 68154 exchange Measurement Server Greek Nor Shown 3001 6817 exchange Measurement Server Rusian Rel Shown la 3001 68200 exchange Measurement Server Polish Rel Nor Shown GIOIA adang MGOISA Measurement Sener Shown Extension English For all languages apa from french danish and chinese order also the local language bezel as shown in the List of Pan change MBOIGA Measurement Sener Extension English For all languages apa from french danish and chinese order also local language bezet as shown in the List of Pan us EN OMEN Plug in Modules Part Numbers For inspection procedures preventive maintenance procedures cleaning procedures and battery handling maintenance and good practices used to maintain the instrument in good working order see Tating and Maintenance Part Number Table The following table shows the part numbers ofthe plug in modules that can be replaced Find the right number for your language combining che PIN Prefix with the language specific suffix for the wanted module For example to order a TEMP module for the French language the correct order number would be M1029 68801 Exchange Modules Tabl
51. 065 67041 M4046 62201 4046 04105 Msos6 44101 M4046 42301 M4046 67002 0950 4319 2090 0890 M4o4644103 Msos6 44104 M4o46 61401 M4046 62301 Moco 4046 62351 Ms000 64001 Carrier Alarm LED Carrier Power On LED Cover Rear Top Bezel Cover Rear Top Cover Rear Top Holder VO Board Universal Touch Bezel Assembly with controller board Backlight Inverter Blank Cover Rear Middle Blank Cover Rear Bonom SpecdPoine MMS Mount Assembly Cover Blank LO slots Mounting Assembly small Pares n7 Flexible Module Server Parts Figure 7 Flexible Module Server Parts Exchange and Replacement Parts us i Measurement Server Parts The Multi Measurement Server does not contain servicable pars and can only be replaced n its Figure amp M3001A Multi Measurement Server Multi Measurement Servers are shipped with English front bezels only If you require a bezel in another language compare the part numbers of your language to the English ones to check this che front bezel has to be ordered additionally Arach the appropriate bezel before puting the MMS into operation Mens Sener M3001 68101 M3001 68201 3001 68301 M3001 65407 Front Bezel M3001 64101 M3001 44101 M3001 64101 3001 44101 Mens Server M3001 68501 M3001 68601 M3001 68701 M3001 65801 Front Bezel M3001 64102 M3001 44102 M3001 64102 43001 410
52. 2 Mea Server 3007 68501 M3001 68601 M3001 68701 M3001 65801 Frome Bezel__ M3001 64103 M3001 44103 M3001 64103 M3001 44103 R Mens Server 3001 48501 M3001 68601 3001 65701 M3001 G5807 Front Bezel M3001 64104 M3001 44106 M3001 64104 M3001 44104 pem Mea Server 3007 49501 M3001 68601 3001 68701 M3001 GBB0T Frome Bezel M3001 64105 M3001 44105 3001 64105 M001 4105 Eom Meat Server M3001 68501 M3001 68601 3001 65701 M3001 G5807 43001 64106 M3001 44106 M3001 64106 3001 44106 Mens Server M3001 68301 M3001 68701 M3ODI GEBUT m Fron Bezel 3001 64107 M3001 44107 M3001 64107 M3001 44107 n Meas Server M3001 68501 M3001 G8801 Front Bezel _ 3001 64108 M3001 44108 M3001 64108 M3o01 44108 Sever M3001 68501 3001 68601 M3001 68701 M3001 68801 Bezel _ 3001 64109 M3001 44109 M3001 64109 M3001 44109 Meas Server M3001 G8501 3001 8601 M3001 68701 M3001 68801 Front Bezel M3001 64101 M3001 44101 M3001 64101 M3001 44101 Mess Server M3001 G8501 3001 68601 M3001 68701 M3001 68801 Front Bezel 3001 64111 M3001 44111 3001 64111 M3001 44111 Serer M3001 68501 001 801 M3001 65701 M3001 GEB01 Front Bezel 3001 64101 M3001 44101 M3001 64101 M3001 44101 Meas Server M3001 68301 M3001 68601 M3001 68701 M3001 68
53. 5 Modele CO2 Module 152 Power On Tes 36 power supply fans removal and placement 260 104 tile removal and Pres formance deck 6 182 preventive maintenance 198 vada 12 pamp t mnl ind and replacement 252 Teur pandi connectors 180 libi 14 Reme Phan Module Plug In Module Disenbiy 107 Recorder Module Paper 109 soap C02 Calibration psu Ld apo ID head 251 introduction 227 head 236 power supply unit 244 Pump 252 Pamp er 201 200 ample edl 259 ample line 199 Solenoid valve 242 solenoid valve 2 256 op comer 230 top cover PC board 258 Repin qualified personnel 53 Replacement ee 53 PCB 53 Replacement put SeSpue pas the gas sample 180 tee ud e s ey consideratione 183 Sy Ares S Tem Procedures 49 sample ll removal and replacement 239 224 mora and stp for Gat Eus Return Tin at Sidetram CO2 Peformance Tes PES mas Span calibration 196 Spare pas ining 33 so Performance Tet 4 symbol explanations 183 T curacy check 43 et pints 225 Theory of Operation 15 theory f operation 171 Time counen 258 and replacement 230 Troubleshooting 53 mbing removal and replacement 199 w 7 removal and replaceme
54. 801 Simplified Chinese Front Bezel 3001 64101 M3001 44101 M3001 64101 M3001 44101 Meas Server M3001 68501 M3001 65601 M3001 68701 M3001 G8801 parens Front Bezel MS001 64114 3001 44114 M3001 64114 M3oo1 44114 pum Mess Server M3001 G8501 3001 68601 M3001 68701 M3001 68801 Front Bezel _ 3001 64115 M3001 44115 M3001 64115 M3oo1 44115 Sever M3001 68501 M3001 68601 M3001 68701 M3001 68801 Front Bezel MS001 64101 M3001 44101 M3001 64101 M3001 44101 FE Meas Server M3001 68501 M3001 68601 M3001 68701 M3001 G8801 Front Bezel M3001 64117 M5001 44117 M3001 64117 M3001 44117 Sever M3001 68501 M3001 68601 M3001 68701 M3001 68801 Front Bezel M3001 64101 M3001 44101 M3001 64101 M3001 44101 Meas Server M3001 68501 M3001 65601 M5001 68701 001 68807 Front Bezel 3001 64119 M3001 44119 M3001 64119 M3oo1 44119 Meas Server M3001 68301 3001 68601 M3001 68701 M3001 68801 Front Bezel M3001 64120 M3001 44120 M3001 64120 M3001 44120 Meas Server M3001 68501 M3001 G8601 M3001 68701 M3001 G8801 Front Bezel 3001 64101 M3001 44101 M3001 64101 M3001 44101 Mess Server M3001 G8501 Front Bezel 3001 64101 M3001 44101 M3001 64101 M3001 44101 Measurement Server Extension Parts M3015A and M3016A The part numbers in the following pars table below are used to order parts from your Philips
55. Alam Lamps Alm Tones am Behavior Individual Parameter INOPS 5 Serer 76 Module Slots 76 7 MIB RS232 Flexible Nune Cal Relay n ioubeshooing he ECG OUT n Dia Flow Marker In and ECG Wave Sams Log 5 Toubleshooting withthe Support Tol Troubledioting the Individual Meanurements ar Applications 5 Repair and Disassembly s Tools Required 87 Minimal Monitor Dizmerbly s7 Disconnecting the SpeedPoinr 87 Removing the UO Boards 5 Removing ECG board if no SRL2 board is plugged 0 Removing the Integrated Module Slot the Measurement Server Mount or blank covers 91 Separating the front and back half of the monitor Removing Power Switch board Removing the Backlighs Further Disassembly Exchanging the Touchscreen Exchanging the LCD Assembly Removing Power Supply Removing the Speaker Removing the ECG Board with an SRL Board plugged 100 Removing the Video Board m Removing the Main Board m Flexible Module Server FMS Disassembly 103 Removing the Handle and the Measurement Server Mount 103 Plug in Modules 107 Plug In Module Disassembly 107 2 C liburion Chamber Kit 108 Recorder Module Paper 109 Disassembly Procedures for the Measurement Server Extension 109 Removing the Front Cover no Removing the Extension Bottom Cover no Removing the CO2 Serubber m Removing the Pump m Refit Procedures for the Measurement Server Extension
56. CaL ibrat ion window reflects these changes and the status Flow Cal Stored appears 11 Disconnect flowmeter from the exhaust port Measurement Path Flowrate Check and Adjustment The flowrate of measurement path is checked using a test fixture in the form of a modified waterrap In order to perform the flow rate check the following equipment is required Flow Split Test Tool M1026 60136 Electronic Flowmeter M1026 60144 NOTE 1 Check that the test iure is still valid for use Ie must be less than two years old The test fixture is labelled with a Received date that needs to be filled in when the test fixture is received 2 The flow value that is labelled on che test fixture is to be used ro perform the measurement path flowrate check It is only valid for this test fixture Check the test visually for leaks Regularly perform a leakage check with the test fixture attached instead ofthe watertap Block both lines drainage and measurement at the same time 190 while performing the leakage check Block the measurement line with a luer cap similar device and the drainage line with your fingertip If a leak exists replace the test fixture WARNING Always handle the test fure carefully and avoid contact with dust Do not change or modify the test as this can change the flow resistance Make sure that there are no sharp bends or kinks in the tubing that leads to the test fixture Ifa
57. Check whether the ambient pressure value 1 matches within the acceprable tolerance of 412mm Hg the reference value you have received If so proceed to the leakage check If the value is not correct calibrate as follows Select then select Barom Press to activate a table of values b Select rhe value in the table which matches the reference value received from a reliable local source airport regional weather station or hospital weather station The values are displayed with a resolution of 2 mmHg up to 500 mmHg and a resolution of 1 mmHg from 500 mmHg to 825 mmHg Note the selected value must be within 10 of the current measured ambient pressure otherwise an error message will occur at restarting the monitor Confirm the barometric pressure setting d Check that the ambient pressure displayed in the status line ar the bortom of the sereen is the same as the value which you selected from the list in step b Leakage Check The leakage check consists of checking the tubing beween the pump outlet and the measurement server extension outer and the pump inlet and FilterLine inler Check the user s guide of the flowmeter for details how to make a correct reading Part1 1 Go into service mode and select Setup CO men 2 Connect a Filterline to the sidestream CO input to start the pump running Check the ambient pressure and the cell pressure shown in the monitor status line The cell pressure should be appr
58. Claims for Damage When the equipment is received if physical damage is evident or if the monitor does not meet the specified operational requirements of the patient safety checks or the extended self check notify che carrier and che nearest Philips Sales Suppore Office at once Philips will arrange for immediate repair or replacement of the instrument without waiting for the claim sertlement bythe carrier Repackaging for Shipment or Storage Ifthe instrument is to be shipped to a Philips Sales Support Offic securely attach a label showing the name and addres of the owner the instrument model and serial numbers and the repair required or symptoms of de fault If available and reusable the original Philips packaging should be used to provide adequate protection during transit If the original Philips packaging is not available or reusable please contact che Philips Sales Support Office who will provide information about adequate packaging materials and methods Installing the Monitor M8005A or M8007A NOTE There are different mounting options available for the monitor This section covers the general concepts of safe mount installations and specifie steps for the mounting options sold by Philip Instructions which ship with a mounting solution should always take precedence over the instructions described in his chapter You MUST follow the instructions thar ship with the mounting solution regardless of manufacturer 136 Moun ig In
59. F so Error Diagnosic check is PD F passed Does the starus ofeach subassembly display s OK incas Analyzer Diagnostic window where P Passand The subassemblies are Meas Assembly Meas Opt Path Agent ID 02 Assembly Main PCB Power Supply Pneumatic System Operat Temperature Performance Zero Does the starus of each channel display as Expeced answer is yes PZCP or Calibration Check OK in Gas Analyzer Pan mer Calibration window afer zero calibration The channels are Press 02 c02 N20 Subse Ff Block Name Testor Inspection te be performed Expected Tert Revut What to Record Record Tour D senchewemamul EE Pressure Check where Pa Pasand Performance Span Perform the Span Calibration Check 1 1 0 002 iain vac ptor CO2 value 2 0 1910 PSH F h23 Document the actual measured values for CO2 calibration value N2O value 3 2 209610 N20 calibration value If filed our of specified wlerances morm a span or speci gas Agent value x4 0 1 0 e e gene vale When calibration of EACH gas dernativly channel was necessary sanus of leach channel shows Dane Resul ro report in his case is PSH P or PSH P without individual gas pun where P Pass and Peformance Monitoring mode and chec
60. Gas Measurement Calibration Check Calibration Verification a Reset Time Counters a Temperature Accuracy ECG Resp Performance Test ECG Performance Respiration Performance Invasive Pressure Performance Test pO Performance Test Cardiac Output Performance Test Service Tool Procedure Version 1 Service Tool Procedure Venima 2 BIS Performance Test PICIDSC Tee Nune Call Relay Performance Test hone Jack Type Connector Ton Muki Port Nune Cll Connector Tot 4 ECG Sync Peformance Test 47 Vuelink Tess wing VueLink Tet Module 47 Tec Procedure b Safety Testing 48 Waning Cations and Say 48 Sae Tes Procedures 4 Touchscreen Calibration 52 4 Troubleshooting 5 Tooducion 5 How To Use This Section 53 Who Should Perform Repairs 3 Replacement Level Supported 53 Software Revision Check 54 Obtaining Replacement Parts 54 Troubleshooting Guide 54 Checks for Obvious Problems Cheda Before Opening the Instrument 5 Checks wth he Instrument switched OFF 5 Clic wth the Instrument Swiched On AC connected 5 Boor Phase 56 Toublabootng Tiber E How Toubleshooing aber Boot Phase 5 blank a is blank p Enema Toc Diplo nx incising General Monitor INOP Messages 6 Remote Alarm Device P Remote Exon Device p Speed ic P Keyboard Mouse a rete problems Wires 70 Serer MSLerehted problems n p
61. Green Red Green 55 Initial Instrument Boot Phase The following tables describe the regular initial boot phase of the monitor and its components Ifthe boor phase does proceed as described below go to Boot Phase Failures for Troubleshooting information Monitor Boot Phase For these steps it is assumed thar che Monitor is powered correctly and the 5V System Board supply voltage is okay This is indicated by the green Power On LED When the Power On Off buon is pressed the green Power On LED and the ed error LED switch on immediately The alarm LEDs are switched on with low intensity Colors Left LED eyan Middle LED sed Alarm Suspend LED right red Red Error LED is switched off Boot Sereen with the Philips Logo appears on the display Test Sound is issued All Alum LEDs are switched off LEDs ae vested in che following sequence Cyan on off et LED only Yellow on off amp middle LED ed on off all LEDS Fixed sereen elements for example smart keys alarm fields appear on the screen Boor Sereen with the Philips Logo disappears Fire measurement information appears on the scren usr input devices for example Mouse Touch Speed Pong are functional Flexible Module Server Boot Phase For these steps it is assumed thar the Flexible Module Server is connected via SRL cable to the monitor s Troubleshooting Tables The following tables list troubleshooting activities sorted
62. IntelliVue MP60 70 Service Guide IntelliVue Patient Monitor MP60 70 Patient Monitoring amp PHILIPS Pare Number M8000 9301A PHILIPS Table of Contents 1 Introduction 13 Who Should Use This Guide How to Use This Guide Abbreviations Responsibility of the Manufacturer Passwords 2 Theory of Operation 15 Integrated Monitor Theory of Operation 5 System Boundaries 5 Hardware Building Blocks v ImcliVae MP60 7 IneliVae MP70 E Opcional Hardware m Compatible Devices Power Supply 20 CPU Boards 20 1O Boards n Data Flow E Data Acquisition Dara Provider Sytem Service Penistent Data Storage System Service Display and User Interface Service E Data Ourpur E Monitor Applications Internal LAN Measurement Server Link E Philips Clinical Nerwork 26 How docs the Support Tool Work with the Monitor 26 Monitor Software Block Diagram x Block Diagram Legend E 32 3 Testing and Maintenance Concepts 3 Test Reporting 3 Recommended Frequency Tests Recommended When Performing 35 Installation Repair Preventive Maintenance Performance Verifications E Upgrades Tess E Visual Test 36 Power On Test 36 NBP Tests 36 NBP Accuracy Test 36 NBP Leakage Test Linearity Test 37 Valve Tet 38 Sidestream CO Performance Test 38 Baromesric Pressure Check and Calibration Leakage Check Pump Check 4 Flow Rate Check and Calibration 4 Noise Check 41
63. MSLILAN _ Muse be in slor 01 m n n for for for for Device Must be in slor 02 used For the treated Speed 02 02 02 o 02 fo aere Point Remote Device Must be in dor 03 iF supporting the Remote Aum 03 03 s os mere Device Parallel Printer Preferred slot 03 of p fos pe foz fos Interface Nurse Call Mase be in slots 02 03 or OF 4 qe E peer e Relay Flexible MISI Preferred doris 04 x x Te amp CC ESN LEL 77 This board is assumed to not be required for the configuration 7X This board cannot be assigned in this configuration This section provides instructions for Philips products Installation instructions for devices not sold by Philips must be provided by the device manufactures Mounting the Remote Display M8031A The Philips M8031A XGA Color Flatscreen Display is designed for use with che MP60 MP70 monitor as a slave display A bracket is supplied with the display to connect it to variety of Philips mounting devices A Removing the desktop stand 1 Remove the covers from the screws on the back of the flatscreen display 2 Remove the four screws from the back cover of the display and detach the cover 3 Remove the four screws from the desktop stand and detach the desktop stand B Attaching the bracket 1 Place the bracket on the back of the display with the slits facing upwards 2 Arach the bracket to the display with four
64. Minn SpOZ MIo20 60 zi 201 201 201 205 205 201 pos wm 210 201 MIA 502 MIGO zer aor a aor aor 201 po or 201 or EEG Dios 201 zm 201 201 201 201 201 por wm 201 MIA Temp M0296 zr zm zm 201 201 ger zr por 209 210 or M1032A VaeLika Types M1032640 201 201 201 201 zm 201 201 201 201 201 201 MiosA BIS M1036 zi 201 201 201 zor 201 201 por 201 201 or Recorder wieso zr 202 203 201 205 206 nii pos 209 210 mi MISSA Dara Transfer M123560 zr 202 202 202 202 202 202 202 noz 202 202 NGSGzA fierce Module for M3562460 201 201 201 201 201 201 201 or nor 201 2 Porat 128 Plug In Module Language Specific Front Housings Table 2 MiB ECG Mioo1 60 zr 213 201 215 201 201 201 pos 201 201 or Moan ECGIRep 201 213 201 215 201 por 201 219 zo 201 or MIOOGB Inv Press zi 213 214 215 zor ger zr ns zo 1 or MI00GB Press with Analog Our M10660 251 263 264 265 251 251 251 209 270 251 251 NBP 201 213 214 215 201 201 201 por zo 201 fzor CO zr 213 202 215 201 201 201 por mm 201 201 CCO CO wih 251 263 252 265 asi psv 251 251 251 251 251 c10 PICCO funciionaliy MIOISA _ CO2Sidesweam MioTS o 201 213 201 201 201 or zr
65. NOD on page 210 2 After the first zero calibration always check which AGM INOP are displayed in Monitoring Mode Refer to INOD on page 210 where you can find listing of possible root causes and their corrective actions to the most common hardware and measurement related AGM INO Check the posible problems inthe order given inthe able Afer the firs zero calibration always check which problems are flagged in the Gas Analyzer Diagnostic window Troubleshoot flagged problems in the Gas Analyzer Diagnostic window following the hierarchy given in Problem Solving Hierarchy on page 215 and the related troubleshooting tables andlor troubleshoot zero calibration failures INOPs Check out the possible problems in the order given in the following table IGA NOT AGM not switched on Switch on AGM AVAILABLE AGM nor properly connected Check physical connections lca This version ofthe AGM is Disconnect AGM INCOMPATIBLE incompatible wih the monitor GAEQUIP MALF Either monitor connection Check RS232 connection RS232 problem serious problem with a cable and MIB board of monitor IF subassembly or Main PC Board check whether starus OK or problem PROBLEM is shown in AG Diag Window If yes woubleshooe subassemblies according hierarchy IF starus UNKNOWN i shown for al assemblies for more dan 4 min afer Power On replace main peb Serious IR measurement head seh E problem Chede IR hea
66. Operating 959 RH max 40 C 104 F Storage 85 RH max 50 C 1225 Alicude Operating Up to 4600m 15000 f Storage Up to 4600m 15000 fe Electrical and Safety Requirements Voltage anges 90V to 264V 13 5A fue Voltage selection Wide range input no voltage selection required Power consumption Maximum Cabling Options and Conduit Size Requirements The following table describes the cabling options for the M8031A 15 TFT Medical Grade Touch Display 161 Table 7 M8031A 15 TFT Touch Display Cables Mion VA MSIE Lim Analoge Video Ge rye HBO VAS ogee Video te Mma vasa Resi Vio Ge Roa VA agi Ves Cie soa AS MSO pm lop Vio Ge oc ends are with HDSUBIS connecons Built on demand The following table describes the cabling options for the M8039A Remote Display Table8 M8039A 21 Remote Display Cables Msoz2A K02 15m Cable Kir nor yer available not yer available Msoma skos Cable Kir C Tom Cable Ki Remote Alarm De Space Requi Cabling Options and Conduit Size Requirements jirements Size WxDxH 62mm x 125mm x 63 mm 24 x 5 2 57 Weight 300g lt 0 715 The following table describes the cabling options for the Remote Alarm Device M8025A Table9 M8025A Remote Alarm Device Cables not yet available nor yer available MBO22A HF2 M3086 61003 5m Monitor to Re
67. P appears on the monitor Now wait for another 10 seconds to ler the Anesthetic Gas Module completely evacuate the reservoir bag 7 Now fill the reservoir bag with gas 195 CAUTION Do not pressurize the reservoir bag Do not attempt the calibration proces if tere are any visible leaks in the bag or tubing Prevent the bag from emying before the calibration procedure is complere Check Calibration 8 Check ifthe readings for the different gases in the Gas Analyzer Calibration window are within the specified tolerance limits o E Ed zx LI or Halocarbon 9 Perform a span calibration for cach gas that you find out of ies tolerance limits 10 Inthe Setup Gas Analyzer menu select the calibration item foreach gas that you want to calibrate You must have completed the flow adjusment in order to perform these calibrations The different items are Start cal Start CO Cal Start Cal Start agent cal 11 Sect the concentration of the appropriate gas in your test gas and confirm when prompted to 12 Wait for the calibration to finish Check that in the Gas Analyzer Calibration window a Done indication is displayed against the gas that you wanted to calibrare If not repeat the span calibration for this gas TF you still ger a failure refer to the troubleshooting section of this chapter and correct the fault Then repeat span calibration 13 Repeat steps
68. Philips makes no warranty of any kind with regard to this material including but nor limited to the implied warranties or merchantability and fitness for a particular purpose Philips shall nor be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing performance or use of this material Passwords In order ro access different modes within che monitor a password may be required The paswords are listed below Monitoring Mode No password required Configurarion Mode 71034 Demo Mode 14432 Service Mode 1345 Consult he configuration guide before making any changes to the monitor configuration Theory of Operation Integrated Monitor Theory of Operation The IntelliVue Patient Monitor displays real time data the attached measurement servers alarms in the cate of patient or equipment problems offers limited data storage and rerrieval rending interfices to the Philips Clinical Network and other equipment A monitor with just a single integrated measurement server can be connected to additional building blocks to form a monitoring system with a large number of measurements additional inrerface capabilities and multiple slave displays These elements cooperate as one single integrated real time measurement system System Boundaries The following diagram discusses specific boundaries within the overall system with respect to their openness an
69. Red Error LED flashes Hardware selfest error IF systern comes up check status log Otherwise see above Module Server Messuremene Module or Replace Measurement Module LEDs ok End Measurement Module Connector Measurement Module not defective recognized no prompt or Ns Fronc End power because MSL new MSL able Race voltage from the monitor is roo high failure is rectified for 100 low Mother board or connecror onthe voltage isin range or there Mother Board defective is obvious damage to a connector replace mother board Integrated Module Slots Prompt Message An unsupported module has been Unplug the unsupported module Unrecognized plugged into che Integrated Module Measuremene Module in Slor orm is issued Teo many modules of the same Kind Unplug module in dor Measurement Modulen have heen plugged into the orn is currently ignored Incegrated Module Sor fis issued Inserted Module LEDs The monitor software version docs Check software version and usce e model Modules not recognised 12 conic Module damaged function ribbon cable Printer Prompt message Print job Printer is disabled in the Serup Enable the correct printer in the could nor be queued is Printers mena Serup Prints menu issued No print device py p
70. Removal 253 Replacement 254 Solenoid Valve 2 2 Removal 256 Replacement 256 Top Cover PC Board 258 Removal 258 Replacement 258 Watertrap Manifold and Protector 259 Removal 259 Replacement 259 Power Fuses 260 Removal 260 Replacement 260 Test and Inspection Matrix 262 When to Perform Test Blocks 266 Safety Test Appendix 267 Parts List 270 Calibration Equipment 274 2 Introduction This Service Guide contains technical details for the IntelliVue MPGO and MP70 Patient Monitor the Multi Measurement Server MMS the Flexible Module Server FMS and the Measurement Server Extensions This guide provides a technical foundation to support effective troubleshooting and repair It is not a comprehensive in depth explanation of the product architecture or technical implementation I offers enough information on the functions and operations of the monitoring systems so thar engineers who repair chem are better able to understand how they work Ic covers che physiological measurements thatthe products provide the Measurement Server that acquires those measurements and the monitoring system that displays hem Who Should Use This Guide This guide is for biomedical engineers or technicians responsible for troubleshooting repairing and maintaining Philip patient monitoring systems How to Use This Guide This guide is divided into eight sections Navigate through the table of contents a the left of the
71. Replace the top cover cable 8 to the PC board NOTE After replacing the main PC board check thar all flat cable connectors are firmly seated and show no signs of damage Verify the Oz jumper settings as described in Jumpers on page 225 Make a flowrate check as described in Performance Flowrate Check on page 55 13 Replace che top cover of che module Ensure chat the top cover jumper JP7 is set to closed 14 Doa configuration check in service mode Agent ID sensor Now perform the performance checks described in the Test and Inspection Matrix on page 262 246 Figure 69 Removing the Main PC Board Sensor Removal NOTE The O sensor is always replaced together with the small PC board that controls i The newer O sensors have the board integrated inside the sensor housing To remove the Oz sensor and its PC board follow the steps marked a and to remove the Oz sensor wich integrated PC board follow the steps marked b refer to Figure 70 and Figure 71 1 Ensure that the module is switched off and isolated from the mains power supply Remove the top cover of the module Remove the 3 pneumatic connections 1 ftom the O sensor Remove the flat cable connector 2 from che PC board that controls che sensor Remove the flat cable connector 2 from the connector on the top of the sensor housing Release the dips 3 securing the PC board to its mounting Using a cros tipped screwdriver
72. SN in pue eee GENTIDENT Serious problem Agen 1D and elicit MALE Es eas Minor wasnt IR head problem ifie amer oly for a few seconds and DISTURBED Hom iuc NO ACTION 000 NO loner nien sensor problem REQUIRED eei i doesn t cear deor IR head sensor and replace ir if necessary m 22 GASAN Accuracy Jo UNABLE TO MEASURE UNABLE TO MEASURE AGT UNABLE TO MEASURE N20 UNABLE TO MEASURE No flaw calibration after low adjustment Partial occlusion IR head problem Flow rare error No flaw calibration after low adjustment data nor valid CO span failed CO data nor valid Agent span filed Agen dara no valid N20 span filed N20 dara nor valid Ched purge and normal adjust and calibrate if necessary Perform flow calibration Troubleshoot for occlusion Troubleshooc IR head and replace t iF necessary Fi Las only for a few seconds and cleats itself NO ACTION REQUIRED Ched flow purge and normal adjust and calibrate if necessary Perform flow calibration Troubleshoot sensor and replace fir if necessary Check CO span calibration Iit ais troubleshoot span calibration IR head and replace it if necessary Ched agent span calibration IF ie ails woubleshoot span calibration head and replace it if necessary Check N20 span calibration IF ie ais t
73. Service Event When performing Perform Power Repairs where the monitor has been damaged by impact Perform Power On and Safety 2 and Test Blocks Repairs where the power supply is replaced Perform Safety 2 Test Block All other InedlliVue Monitoring System repairs Perform Power On Block Preventive Maintenance Perform preventive maintenance tests NBP calibration Sidestream CO calibration Pump and scrubber replacement Performance Verifications Perform all safety accuracy and performance test procedures listed in the following sections Ifa particular measurement is in question perform the measurement performance test only Upgrades Service Event When performing Test Blocks Required Complete these tests Hardware and software upgrades Perform Power On Block unless otherwise specified in the Upgrade Installation Notes shipped wich che upgrade Tests Some ofthe following testprocedures must be performed in service mode To enter service mode select Operating Modes in the main menu Then select Service Mode and enter the password required open the screen menu in the monitor inf line at the top of the screen and select Service to access the service sereen This is required particularly for Anesthetic Gas Module testing procedures Visual Test Inspect the system for obvious signs of damage Also check
74. The test module acts in the same way as an extemal device would and sends signals to the VueLinke module in both analog and digital form The computer module checks these signals for validity and then displays passed or failed on the sereen The wave segment displays two waveforms triangular one and rectangular one These are displayed slernately and for a period of ten seconds cach The expected curve ype is indicated below the wave There are two pairs of gridlines thar indicate the permitted range for the max min values of these waves Ifall che dara received by che test module is correct the waves will lie within the specified ranges If either limit of either wave falls outside the respective gridlines then the module being tested is faulty regardless of the passed failed messages When the test is complete 1 Disconnect the cable thar joins the test module to the VueLink module 2 In configuration mode ensure that the test module is nor selected and the preselected devices are the same ones as before the test Also verify the setings for these devices Rerum to monitoring mode 4 Press the Setup key on the front of the VaeLink module and select the required device by selecting Device inthe Setup VueLink menu NOTE Tis important to ensure that the preselected device drivers are configured exactly the same as they were before the test including their defaul settings Safety Testing You are recommended to
75. able to che SpeedPoint if installed w Tools Required Reassembly Note Reach under and plug in the cable on the side without the sheet metal 35 Remove the six screws on the back and lift the board out together with its meral stabilizer Reassembly Note Replacement main boards do not come with a metal stabilizer You must remove the stabilizer from the old board and attach it to the new one 102 Cet nnn Ser gts eamm Flexible Module Server FMS Disassembly Removing the Handle and the Measurement Server Mount lease note tha any combination of handles and mounts is possible 1 Remove the two screws on the bottom with a T20 screwdriver Remove che connector housings on each side of che FMS by compressing the cover slightly using screwdrivers 103 4 Remove the ro white pins on each side with small screwdriver 7 Remove the four remaining screws on the mainboard Pull offside connector brackets by pulling chem gently away from the housing on cach side and lifting carefully Lift up and pull on the tabs to remove the connector holders Reassembly Note The connector holders are side specific 10 Unsnap the lightpipe Reasembly Note You must snap the lightpipe bottom into place before inserting the top into the tab 11 Pull off the main board Reassembly Note Make sure chat he rubber seal around the module connecrrs is inserted properly into he fron
76. according to symptoms Click on the links below to view a particular rable How to use the Troubleshooting tables The possible causes of failure and the remedies listed in the troubleshooting tables should be checked and performed in order they appear in che tables Always move on to next symptom until the problem is solved Boor Phase Failures Integrated Display is blank Integrated Touch Display not functioning External Display is blank External Touch Display nor functioni Remote Alarm Device Remote Extension Device Speed Point Keyboard Mouse noe functioning Nerwork related problems Wireless Nerwork Mulii Measurement Server MSL related problems Alarm Lamps Alarm Tones Individual Parameter INOPS Flexible Module Server Integrated Module Slots Printer MIB 89232 Flexible Nurse Call Relay 38 Boot Phase Failures FAC LED does AC Connection nor ok Check thar the AC Mains are powered and not light up the power cord is ok and connected TED defective switch on the monitor Fie operater normally the LED is defective gt exchange Power Switch board Power Switch board nor connected to the Check if power switch board is connected main board tothe Main Board Power supply defective Remove power supply and check iF ourpur voltage is within the specifications 47V 49V Measure on multi colored wired connection beween red and black wi
77. ace recy dockage any remove tiem ga in SERVICE MODE eo in Manitoring mod and perform ched aspect age and wrt checks Erion mus lia iem fixed Ten prm Ly BORE ET Ea PRE parecer O2 ison face um it on Agen io so tum on mu ree not Fixed DONE Diagnostic Checks TIT EEE able ID Assembly Diagnostic DONE ACM Fes flies Clics Tipton a EE DONE RENT nxn coy Fala ueni table Calibration Checks for fied cuibean Figure 47 Troubleshooting Measurement Problems with No INOPS Flow charts illustrated in Figure 48 and Figure 49 follow on from here 206 The fourth flow chart continues from the third from point C Agent ID Probleme re DET a a e e ID Rennes m mod Care ong i poss Follow roubleshooung able im Tan d s No agene Problem fixed detected time until the old agent n er ci i for feu e NOR Agee Mie incl ice ton goer Tanga me y Deer Gone an E mh Cee nition _ ORE TT TFT eee hesenbly Diagnostic checks Figure 48 Troubleshoot
78. ach replacement head Procedure for Transferring Data 1 Disconnect the Anesthetic Gas Module from the monitor 2 Turn off power to the Anesthetic Gas Module Remove the Anesthetic Gas Module top cover and disconnect it from the Main PC board 4 Connect the 40 pin cable of the NTB to the 40 pin connector of the new replacement IR Measurement head Connect the 10 pin cable of the NTB to the top cover connector J6 on the Main PC board Power up the Anesthetic Gas Module and observe the LED on the NTB 7 For about the first seconds the LED on the NTB will be amber Whenever the LED is amber the NTB is processing information and you must stand by until the LED changes color again During these first 5 seconds the of both the old and che new measurement heads are being read and checked If the LED changes to a solid green color the transfer process can begin Please skip to step 8 if the LED is green When ether cannot be read it may take up to one minute before the LED changes color and you will observe one of two error conditions Ithe LED changes to a solid red color a problem reading the old measurement head has occurred Turn off the power and check all connections Make sure the ribbon cables are not broken and correctly seared Repeat the procedure staring with step 6 Ifthe LED is still on red proceed with the installation of the new analyzer head regardless The transfer will not be
79. age path serves to withdraw fluid separated from the gas sample into the watertap reservoir so that the AGM interior is protected from fluid that might cause an occlusion in the measurement path The drainage path leads nto the large waterrp reservoir where all liquid water and other fluids are collected When the drainage path leaves the watertrap through a water separation filter and through a water fuse it leads through internal Nafion tubing then through a bacterial protection filter and flow restrictor directly the pump This flow restrictor determines the percentage distribution berween drainage and measurement path How The measurement path leads through a water separation filter and through a water fase on into the measurement system The patient sample gas on the measurement path then flows through internal Nafion tubing and through a bacterial protection filter to the first solenoid valve Room air for the zero calibration is alternatively input via dust filer to this solenoid valve The solenoid valve switches berween the wo gases depending on the current mode of operation normal measurement or zero calibration 174 The patient sample gas or ero calibration gas then flows through the measurement subassemblies the IR Measurement Assembly for measurement of anesthetic agent CO and N20 the Oz call if present the Agent Identification assembly second solenoid valve besween the cell and the Agent Identific
80. aintenance schedule by the individual hospital or instiution responsible for the operation of this equipment may cause equipment failure and possible health hazards Post Installation Checks Sce Test and Inspection Matic for details WARNING Do not use the instrument for any monitoring procedure a patient if you identify anything which indicates impaired functioning of the instrument Safety Requirements Compliance and Considerations The Philips M1026A Anesthetic Gas Module complies with the following international safety requirements for medical electrical equipment UL 2601 1 TEC 60601 1 CSA C222 No 601 1 M90 EN 60601 1 EN 60601 1 2 Explanation of Symbols Used Ancation cons accompanying documents Indicates thar the instrument is rype CF and is designed to have special pni regarding allowable leakage L currents having an E Type isolated Floating applied part and is proof A gas ourpur this symbol is also used to indicate an electrical ouput on the Qe 5 5 A gas inpur on the monitor this symbol can also stand for a video or GOV de 183 i Equiporensal grounding terminal 25232 communication port Fuse Protective earth ground Electrical shock hazard The Anesthetic Gas Module is protected against the effects of defibrillation and clcrosurgery Power Supply Requirements The system and t
81. al Mode MI097A Touch Sereen Display SN gt TWAI2 1097 61902 Adapter Cable 1097 04702 Desk Stand for MI097A Display Single Mode Touch SN lt 412 and Non Touch Sereen Display M107A M1097 04701 Desk Sand for M1097A Display Remote Input Devices Part Numbers The SpeedPoint Device contains no servicable parts and can only be replaced in its entirety Figure 13 SpeedPoint Input Device M4046 61401 13 Remote Alarm Device Part Numbers The Remote Alarm Device contains no servicable parts and can only be replaced in entirety exchange part number M8025 68001 For cable part numbers please see the Site Preparation chapter Figure 14 Remote Alarm Device Front and Rear View Remote Extension Device Part Numbers The Remote Extension Device contains servicable parts and can only be replaced in its entirety exchange number M8026 68001 Figure 15 Remote Extension Device Front and Rear View 134 7 Installation Instructions The information contained in this chapter should enable che MPG0 MP7O to be installed ready for use che preparation and planning should be adhered ro as specified in che Se Preparation section Safety checks and inspection procedures for mounts are explained che Testing and Maintenance Section and configuration of he system is explained in the Configuration Guide Unpacking the Equipment Your equipment will arrive in a carton similar to the ones pictu
82. alue 2 6 mmHg Ifthe value is ouside the tolerance calibrate as described in step 9 in chis procedure onwards 5 Disconnect the 5 calibration gas and connect the 10 calibration gas 6 Calculate the expected measurement value and tolerance in mmHg as follows 0 1 x ambient pressure value mmHg 20 07 x value mmHg tolerance for example 0 1 x 737 mmHg 73 7 mmHg with an ambient pressure of 737 mmHg 40 07 x737 mmHg 25 16 mmHg tolerance 7 Open the valve on the flow regulator to allow 10 CO gas to flow into the extension Allow the value to stabilize 8 Check cha che value on the instrument x8 matches the calculated mmHg value within the calculated tolerance Iso the measurement extension is correctly calibrated If the value is outside the tolerance calibrate as follows Inor already connected connect the 5 calibration gas 10 Select cal CO 11 Select the value for the calibration gas The default value is 5 0 a 12 Open the valve on the calibration gas to allow CO gas to flow into the extension Allow the value to stabilize before the start of the calibration Leave the valve open until he instrument gives a prompt that gas can be removed 13 The extension calibrates and prompts when calibration is successful Calibration Verification 1 Reopen the 5 gas valve and allow the value to stabilize 2 Check cha che value displayed on the monitor is correct within the tolerance see step 2 above Disconne
83. and manifold seals refer to Figure 41 1 Ensure that the module is switched off and isolated from the mains power supply Remove the top cover of the module Check if the module needs cleaning because of dus lint etc Unscrew the cable clamps 1 holding the Nafion tubing in place on the main PC board Unscrew the bacterial filters 2 atthe metal bracket Remove the Nafion tubing connections 3 from the watertap manifold Remove che vo screws 4 holding the waterrap manifold on the protector The screws are accesible from che rear side of the front cover through two holes provide for this purpose 19 6 Pull our two seals from che tubing connectors of the manifold using pointed tweezers slide one Side of the tweezers between the seal and the connector then grasp and pull Replacement To replace che Nafion tubing filters and manifold seals refer to Figure 41 1 Take new seal in the tweezers and press it onto the firing in the tubing connector Push down on the seal using che handle of the tweezers or another blunt instrument raking care nor to damage the seal until ic sis properly Repeat with the second seal 2 the waterrap manifold onto the protector through the holes in the front cover Replace the Nafion tubing connection to the watertrap manifold Take care to attach the tubing with the red mark ar the end the connector with the red marking this indicates the drainage path The gap betwee
84. ara Measures ge current of exposed met pars of UT with one supply led interrupted S1 openJ normal land evened pola S2 For ype BE CF Applied Pars measures ih AP GND switch S3 open and closed S y rer according to EC 60601 1 Cle 19 4gRegor ages value S 6 Enclosure Sige Ful 7 Earth Ground pple w Class 1 equipament ype B BE amp CF Applied Pam Mesue leakage carer af exposed mel parts of UIT wi Protective Earth open cii S4 open nomma amp evened platy ing SA Forope Ar CF Applied Pura means ih with sich S5 open and sed ufo ter according s EC 60601 1 lae 1949 Report args value This chapter provides the replacement and exchange part numbers if available for the Philips M1026A Anesthetic Gas Module and calibration equipment Refer to Figure 83 and the following table identify rhe pare and pare number The circuit boards used in the Anesthetic Gas Module contain Surface Mounted Devices SMD which can only be repaired with special equipment not available in che field For this reason the majority of the parts used in the system can only be replaced at board level When ordering please refer to Appendix A for addresses and contact information Table legend R Replacement Pare E Exchange Part Standard Agent Identification Extended Agent Identification
85. ategories indicated in che following sections and tables Check for obvious problems first If further troubleshooting instructions are required refer the Troubleshooting Tables Taking the recommended actions discussed in this section will correct the majority of problems you may encounter However problems not covered here can be resolved by calling Philips Response Center or your local representative Checks for Obvious Problems When first troubleshooting the instrument check for obvious problems by answering basic questions such as the following 1 Is the power switch turned on 2 dede AC power cord connected to the instrument and plugged into an AC oude Are the MMS and if present the measurement server extension inserted correctly 4 Are the cables connected properly to the FMS 5 Are the parameter modules plugged into the FMS correctly Checks Before Opening the Instrument Yon cn nat many befits ener m ope the instrument NOTE Te takes several seconds for the AC Power LED to switch on of after the mains power cord has been connected disconnected Checks with the Instrument switched Off AC connected AC Power LED is on green No AC connected All LEDs are off Checks with the Instrument Switched On AC connected When the monitor is first switched all the front panel LEDs and keys location of the front panel LEDs is shown in the following photograph Power OLED AC PowerLED
86. ation Assembly routes room air direc ro the Agent Identification Assembly for optimal purging of the assembly during zero calibration From the Agent Identification Assembly the patient sample gas or zero calibration gas flows to the pump Before reaching che pump i joins the drainage path again From here itis passed through a filter and damper to the flow sensor which consists of a differential pressure transducer and a flow restrictor The flow sensor determines stabilizes and limits the ow rate of the sampled gas After the gas has passed through the flow sensor it is routed through a second damper to he Sample Gas output Agent Identification Assembly The agent ID analyze identifies which anche agents are preset in gas sample drawn from the pasa ony The ane Deslurane Measurement Principle Sample gas passes through the agen identification head where che absorption characteristics of the gas are measured This is done using NDIR technology as described in General Measurement Principles on page 171 The head analog signals and sends chem for processing to identify the anesthetic agent Data averaging is vo ensure accurate measurements when agent concentrations are low The information used to calculate the concentrations of the three agents includes The preamplified outputs fom the IR detector The thermistor output from the agent identification head Zero calibration constant
87. can be exchanged between the monitoring system and a central station bi directionally Additional protocols are supported for networked applications for example for the other bed overview function which allows viewing of monitoring data from other patients on the network For plug and play operation the monitoring system uses the standard BootP protocol to automatically acquire a network addres How does the Support Tool Work with the Monitor The support tool is an NT application typically installed on the laptop of a customer engineer or a biomedical engineer working in the customer s own service department The purpose of che support tool is to upgrade configure and diagnose all monitoring components modules measurement servers and monitors in che system over the network The monitors route neswork traffic between the Philips Clinical Network to the internal LAN The service protocol developed for this purpose uses a raw acces to the devices without the need for IP addresses ete over a standard customer network installation so that even defective devices can be upgraded as long as the few KBytes of initial boot code are working The boot code itself can also be upgraded using the same protocol The tool allows access to internal service information and to serial numbers I can be remote controlled for example via a dial up connection from a response center provided the proper infeastrueture is in place For details see the
88. char the flow is se as dose as possible to 50 ml per minute select Store Flow and confirm the seing Ifyou do nor store the adjusted flow within 60 seconds of the adjustment the old flow sexng is restored 5 Ifyou cannot adjust che How to within tolerance replace the pump Ifyou still cannot make che flow adjustment this indicates a ful in che measurement extension which must be replaced 1 With the monitor in service mode select Setup menu 2 Disconnect the flowmeter and connect 5 calibration gas and flow regulator in its place Open the valve to apply the 5 calibration gas and wait che value is stable Check he nite inde G6 played nex othe val on the delay hinds he evel of ison the CO war Ifthe ae ced 3 mm place he mexirement xeon CO Gas Measurement Calibration Check After switching the measurement extension on wait ar least 20 minutes before checking the calibration Check the calibration of the CO gas measurement as follows 1 Check thar the 5 calibration gas and flow regulator are connected 2 Calculate the expected measurement value in mmHg as follows 0 05 x ambient pressure value mmHg for example 0 05 x736 36 8 mmHg with an ambient pressure of 736 mmHg Open the valve on the flow regulator to allow 59 CO gas to flow into the extension Allow the value to stabilize Check cha che value on the instrument measurement value on the main screen x7 matches the calculated mmHg v
89. cover to avoid fluids in the waterrap reaching the water fuses when che cover is tipped Using a cros tipped screwdriver remove the 7 screws 1 securing the top cover to the body These screws ate located a the rear of the module and on the sides 4 Slide the rop cover 2 forward approximately 4cm NOTE At this stage the top cover is still connected to the main PC board by a flar cable and the internal Nafon mibing 5 Carefully life the top cover the flat cable connector 3 leading to che main PC board is accessible 6 Remove the flat cable connector 3 from the top cover 7 Tf necessary remove the internal Nafion tubing Remove top cover from the module Replacement To replace the top cover refer to Figure 56 and Figure 57 1 Ensure thar che module is switched off and isolated from the mains power supply 2 Reconnect the flat cable connector 3 IE necessary reconnect the internal Nafion tubing following the given markings Carefully lower the rop cover 4 onto the chassis 5 5 Slide the top cover towards the rear of the module until che locating holes on the top cover are aligned with the threaded bores in the module 6 Using a cross tipped screwdriver replace the 7 screws 1 securing the top cover the module The locating holes are under the top cover a the rear and sides of the module Figure 54 Top Cover Securing Screws for the Anesthetic Gas Module Figu
90. ct the 5 calibration gas and connect 10 calibration gas Open the valve on the flow regulator to allow 10 gas to low into the extension Allow the value to stabilize 5 Check cha che value displayed on the monitor is correct within the tolerance see step 6 above fone or both values are not within tolerances you must exchange the measurement server extension Reset Time Counters You must check che time counters on the sidestrcam CO extension before calibrating the instrument As well when parts are replaced the appropriate counters must be reset to zero The counters for CO pump IR Stc and Last Cal are displayed inthe starus line The values are updated when entering the Setup menu Observe the following guidelines When calibrating the extension if no pars have been replaced check the displayed values of Reset PumpOpTime and Reset IRSourceTime selections to make sure that they are within suggested guidelines for use 15 000 hours of continuous use IF the counter time is greater than 15 000 hours replace the appropriate part See Repair and Disassembly for details When calibrating the extension if parts have been replaced reser the appropriate values using theReset PumpOpTime and Reset IRSourceTime selections Sce Repair and Diasembly for details Resering the PumpOppTime generates the INOP CO OCCLUSION clear this INOP you must perform a flow check and store the flow in serv
91. d and replace iif necessary check whether Service Note M1026A 035 applies GAS OCCLUSION External occlusion inlet or exhaust Disconnect all external rbing filess accessories fand check whether occlusion Troubleshoot internal occlusion and Internal occlusion Perform pump test provided in PM 1026 60132 replace ir if necessary Weskidefeetive pump en pump and flow Check pneumatic path bereen Pump and flow and Aow remicor for Check di the transducer port A and B on the Main PC board are connected to the correct side of the Dow restrictor Figure 1 2 Flow transducer incomecly connected to Row restrictor 210 GA ZERO FAILED Purge Fow out of tolerance No flow calibearion after low adjustments Occlusion during zero calibration Remove occlusion solenoid 1 defeerive Replace solenoid 1 Measured ambient pressure does not Verify correct altitude sering march with configured altitudein pressure Cal value ACMS Service Mode tolerance is IF necessary adjust it Konig m hend poblem peus lo ZERO FAILED 0 new aero caman our of range Tioubleshoot O sensor and replace AGENTIDENT deine zero FAILED problem Agen 1D and replace i eom equip MALE Jo span ile heck span cabrio Ii i Exec ege Seer o s bui ins bur set to diia 45 value sser dig A
92. d during ml ing tthe Protective Earth under test I suang pad sof Measures impedance of Protective Earth terminal all exposed menal parts of Instrument under Test which are for safety reasons connected to the Protective Earth Includes normally the wiring in the mains cable max 100 mOhm Test current 25 Amps applied for 5 seconds o 10 seconds The recommendation is to the main cable during the rest onder to identify potencial bad contac or damage of he earth wie est according IEC 60601 1 Clause 18 Report largest value SG Text ENCL Enclosure Leakage Current normal condition Applicable w Chus 2 equipment ype B BF amp CF Applied Paris Measures leakage current of exposed metal parts of UIT normal and reversed polarity using S2 For ype amp CF Applied Parts measures with AP GND switch 3 open and closed fey reut according to IEC 60601 1 Clause 19 4 Report largest value 268 55 Carne Single m Fae Condon Opens 2 pen Suppl IE E Feriis T amp equipment ope BF amp CF Appia P
93. d real time requirement E E m etme rqiement cron iren Tipe lel New red TANT paient mentor ecela rE em oniy uad produces emed kapr pebra atann c comede Pais k maona E gonned rd tme naen and penc Philip Clic Newark vice ike Philipe Clinical Ner wired LAN howeerdueiacumen wes r vale it has edged bani longer neces reduced fancy Fospia TAN emer noc po guar nei no 16 Hardware Building Blocks The following hardware building blocks make up the monitoring system IntelliVue MP60 The MP60 monitor integrates the display and processing unit into a single package wsesa 15 TFT XGA Color display uses the Philips SpeedPoine as primary input device computer devices such as mice trackball and keyboard can be added optionally hasan optional recorder supports the Flexible Module Server FMS Building Blocks II UF To Local Printer PSA To Spes MIB To AGM To Ext Display 7 IntelliVue MP70 The MP70 monitor integrates the display and processing unit into a single package uesa 15 TFT XGA Color display uses the Philips Touchscreen as primary input device whereas che Philips SpeedPoine and computer devices such as mice trackball and keyboard can be added optionally hasan optional recorder supports the Flexible Module Server FMS Building Bloc
94. dcb again IF chere is stil no signal ECG OUT board defective Replace ECG OUT board Main Board defective Replace main board Data Flow Marker In and ECG Wave The following illustracion of the data flow for Marker In and ECG Wave may assist in troubleshooting ECG Wave EcG OUT Display perm 3 4 ert communica H Seman Vidco 4 3 Eos 2 rues av Marker in Data Path Ille ECG Wave Dats Pah Marker merged to HCG Wave bere EA Status Log NOTE Many events that occur during start up or regular monitoring are logged in the Staus Log The Status Log can be printed and cleared Not all entries in the Staus Log are errors er c 2721 21050 1 Apr 02 15 37 The window title is ether Monitor orMeasServ dependent on which system component s starus log is currendy displayed The Status Log window shows logged events which caused a reboot of he system component monitor or measurement server The first column in the log identifies che event class C caused cold start H caused a hot start no retstart fr information only Column 3 and 4 identify the event source and event code Column 4 counts che number of occurrences of the event The last column shows the time and dare of the last occurrence of the event The following p
95. documentation Philips Medical LAN For information refer to the Philips Information Center documentation 164 MIB Interface Table 12 MIB Cable Yellow LAN Cable and Serial Cable Gray LAN Cable Ms022A 982 Ma08I 61001 1 5m including adapter set noc yer available noc yer available MBO22A 989 __ 1 61002 Sm including adapter ser MBOZ2A 986 M8081 61003 10m including adapter se M502A SR7__ M 08I Gi004 15m including adapter scr M50224 SR9 Ms081 61005 25m including adaprer se Both ends are terminated vith amp RJAS connectors CATS cable sraigh through wiring Built on demand Table 13 Wireless LAN Adapter Cable M5080 61001 nor yet available noe yer available 5 DC supply lus LAN Flexible Nurse Call Relay Interface Table 14 Nurse Paging Cable MBOZZA AR3 M1181 61648 3m standard nurse paging noc yer available nor yer available relay cable One end terminated with phone plug one end without MAOA FARG MBO87 GO01 Tom flexible nurse paging cable One end terminated with right MDR connector one end withour connector 165 ECG Out Interface Table 15 ECG Out Cable Mmy2AeAG 8120 1022 Bod ends are terminated with 25 phone plug 166 9 Anesthetic Gas Module Introduction This chapter contains the following information on the M1026A Anesthesia Gas
96. dure However if you are on a wireless network or your Information Center is configured for flexible monitoring mode you must ser the equipment label This associates the monitor with a central monitoring sector An identical monitor label must also be configured in the Information Center 1 Select the Red Label sereen element to call up the Bed Info menu 2 Select Equipment Label to call up the onscreen keyboard Enter the system identifier This needs to be set up in ether the monitor or the information Center Ifthe Information Center is in flexible monitoring mode the monitor must be serup to match the Information Centers monitor label m 152 8 Site Preparation Introduction This section describes the procedures you should follow to plan and prepare a site for an MPGO MP70 monitor installation I describes Site planning Roles and responsibilities for local and Philips personnel Remote installation planning Site Planning The careful planning of the site for the MPGU MP70 monitor is essential for is safe and efficient operation A consulting schedule should be established berween the Customer and Philips Sales and Support Representatives ro ensure thar all preparations are completed when the system is delivered The site planning phases prior to equipment installation are Location Planning the location of the various system components Environment Confirming and correcting as necessary the e
97. e 1 ECG so eor 603 oor oor oor 603 cos 603 10 cos M10028 ECGRep M10026 cor 6o1 cos eor cor sm 603 cos Jero eos M1006 inv Press 1 669 eor soi cos 64 cos sor eor sos cos ero orn MIOOGBE Press wih M10669 651 651 655 654 65 651 es7 658 659 oar c01 Analog Our M10088 NBP 1 eor 02 coi 604 eos 60 6 7 eos cor 10 cor Mirza co Mirza sm 602 cos oor os eor eor eor 6o1 ero oor MIA GO wich Miorr s esr 652 oss 651 65 651 est 651 651 eco 651 c o ricco Coz feor eor coi feor eor eor eor Jeor cro feor Sideseream Miorea C2 Mion feor oor coi eor eor eor eor eor cro feor Mainstream MIOISA p02 Minse cor 602 cor cor sor eor eor cor fero cor Miozoa Spo cor so aor feor cos eos eor eos cor ero oor Mioma woz Mione eor so oor soi oor sor eor eor oor cor oor EEG 1027 69 sm Gor coi aor cor eor 6o1 eor coi cro oor MIA Temp Mto2969 cor 61 cor soi oor sor eor aor co 910 oor MIOSZA VacLink Mr032 9 sor soi sor aor sor sor Sor faor 801 MIO3ZA Vuclink M10326 aoa a07 302 302 a07 802 302 802 Ao2 Ventilator IMIOS2A Vuclink Gas M1053269 To 805 aos 303 sos 303 303 305 303 805
98. e module is switched off and isolated from the mains power supply 2 Carefully place the power supply unit so thar its locating holes are aligned with the threaded bores in the mounting on the module Using a cross tipped screwdriver replace the four screws 3 securing the power supply unit to its mounting 4 Connect the power connector 2 to the main PC board 5 Connect the ac power connector 1 to the power supply unit 6 Replace the top cover of the module Now perform the performance checks described in the Test and Inspection Matrix on page 262 Figure 68 Removing and Replacing the Power Supply Unit Main PC Board Removal To remove the main PC board refer to Figure 69 1 Ensure thatthe Module is switched off and isolated from the mains power supply Remove the top cover of the module 2 Remove the pneumatics tubing from the pressure transducer 1 Remove che main PC board connector 2 from the power supply unit Remove the power connectors 3 that connect the main PC board to the fan solenoid valve 1 pump and solenoid valve 2 Remove flat cable connector 4 from the IR measurement head Remove the flat cable connector 5 from the RS232 connector Remove the flat cable connector 6 from the agent identification head sensor is present remove the flat cable connector 7 from the small Oz sensor PC board or directly from the Oz sensor for sensors with integrated PC board 9 Remov
99. e operator or sutomatially by an alarm condition The Record Service uses the services of the Recorder Interface control an M1116B Recorder in the FMS The Record Service can also send data to a central recorder The Alam Service contains logic thar prioritizes alarm conditions are generated either by che Measurement Servers Flexible Module Server or by IntelliVue Pasient Monitoring System software modules Visual alarm signals messages are displayed at the top of the IntelliVue Patient Monitoring System display and lum sounds generated by loudspeaker Alarm conditions ay be generated when a physiological parameter exceeds preselected alarm limits or when physiological parameter or any other software module reports an inoperative starus technical lm for example the ECG leads may have fillen off the patient The Alarm service manages the alarm inactivation states for example suspension of alarms silencing of alarmas and alarm reminder Alarm signals may also be configured as latching Lum signals are issued hey are acknowledged by he operator even when che alarm condition is no longer true The Alarm service controls the visual alarm signals alarm lamps end The Trend service wore the sample values of physiological dar and starus daa wich a resolution of 12 seconds 1 minute oF 5 imus for a period of up 48 hours The data is kept in battery buffered read write storage and Aash memory d
100. e the connector 9 from the power LED 10 Using crosstipped screwdriver remove the cable clamps 12 11 Using a cross tippe screwdriver remove the 6 screws 10 securing the main PC board to its mounting on the module 12 Carefully remove the main PC board 25 Replacement To replace the main PC board refer to Figure 69 1 Ensure thar dhe module is switched off and isolated from the mains power supply 2 Carefully place the main PC board on its mounting in the Anesthetic Gas Module so thatthe 6 locating holes are aligned wich the threaded bores Using a cros tipped screwdriver replace the 6 screws and washers 10 securing che main PC board to its mounting and replace the cable clamps 4 Replace the connector 9 to the power LED Ifthe Oz sensor is present replace the flat cable connector 7 to the sensor PC board or directly to che O sensor Verify the O jumper settings as described in Jumpers on page 103 Replace the flar cable connector 6 to the agent ID head Replace the flac cable connector 5 to the RS232 connector Replace the flar cable connector 4 to he IR measurement head Replace the power connectors 3 that connect the main PC board ro the fan pump solenoid 1 and solenoid 2 10 Replace the main PC board connector 2 to the power supply unit 11 Refe the pneumatic tubing to the pressure transducer 1 Check that all rubing is tightly connected and show no signs of damage 12
101. ection replace monitor is nor connected correctly cable iF necessary for defective The MIB RS232 board isina Vely correc placement af the IF wrang slor slor has been changed O boards afer sofware configuration or an additional beard has been plugged in The MIB RS232 board is defective Check board and replace iF The MIBIRSZ32 porcis nor Check configuration af the MIB receiving data configured for dara expor RS232 ports in configuration mode The wrong dia apart protocol Check the export driver is configured in the monitor required by the attached device and configure the monitor accordingly The cable beoween the Checkeableand replace i and che monitor is not necessary connected correctly or defective The external device does nor support Check if the device supports che he version ofthe data expore version ofthe data export protocol used in the monitor proracl Upgrade device or monitor necessary f matching Avemindlconcenamrirud in Some terminal concentran do berween che device and the monitor support changing the and protocol with dynamic speed transmission speed baud rate negotiation is used dynamically Check if the connection works without he The MIB RS232 boards ina Verify correer placement of he 1 wrong slor slor has been changed O boards After sofware configuration oran Addicional board has been plugged ia
102. ective In this case you must use a new replacement measurement head and retur to step 4 1f the LED blinks alternately green and red the NTB and or the arrached cables are defective In this case you need to use a new NTB or you install the new measurement head with the default NVRAM dara 8 Once the LED is on green you can begin the NVRAM transfer process by pressing the momentary push burton switch on the NTB The LED will change to amber for abour 5 seconds followed by soli green indicating a good transfer of NVRAM data If you observe a blinking red LED no transfer or a bad transfer of NVRAM data occurred Proceed with the installarion ofthe new measurement head regardless The NVRAM transfer will not be possible bur the replacement head has default information for pump hours and no serial number However a flow rate calibration must be performed because no flow rates will be transferred IF no flow rate calibration is performed a problem with the pneumatic system will be flagged during Anesthetic Gas Module operation 9 step 8 was succesful the Anesthetic Gas Module can now be powered off The NTB can be disconnected and the old measurement head removed and replaced with the new head see removal and replacement procedure below 10 Reconnect the Anesthetic Gas Module to the monitor NOTE When returning che defective measurement head for repair make sure to return the transfer board with the head Instructions f
103. emoval To remove the power fuses refer to Figure 82 1 2 3 4 Replacement To replace the power fuses fe to Figure 82 260 1 2 Using a flat tipped screwdriver unscrew the fuse counter clockvise 1 Pull che fuse cap and fuse clear of the display Pull che fuse of the fuse cap and note the fuse rating Repeat the steps for the other fuse Pur onc end of the fuse into the fuse cap Pur the fuse and fuse cap into the receptacle in the rear of the display Using a screwdriver screw the fuse clockwise into the receptacle 4 Repeat the sepa for the other fise 2 Figure 82 The Power Fuses Test and Inspection Matrix The Test and Inspection Marx describes which ces end vo be performed eese nt ee what shouldbe wien by Philips service personnel on Philips n Reportar Customer Service Order CSO The second section Wien o Pefrm Tast Bock describes when the ess shouldbe performed These tables should be followed for all installations and repairs NOTE The test procedures outlined for this test block are to be used only for verifying safe installation or service of the product in question The setups for these tests and the acceptable ranges or values are derived from local and international standards but may not be equivalent These are a substicute for local safery testing where it is required for an installation or service event Te
104. en circuit S4 open and berween parts of the system within patient environment normal and reversed polarity using 52 SQ Protective Earth Continuity lt i t of tp Expected test results 8 With mains cable maximum impedance x 00 mOhms IEC 60601 1 and UL2601 1 This measures impedance of Protective Earth PE terminal co all exposed meral parts of Instrument under Test IUT which are for safety reasons connected to the Protective Earth PE Test current 25 Amp applied for 5 to 10 seconds S 3 Patient Leakage current Single Fault Condition S F C mains on applied part Expected test results Maximum leakage current x SOA 250V IEC60601 1 and UL2601 1 Measures patient leakage current from applied Part to earth caused by external main voltage on applied Part with switch 55 open and closed Each polarity combination possible is vested using S2 and S6 This test is applicable for every measurement input Touchscreen Calibration To access the touchscreen calibration sereen 1 Ener service mode 2 SdexMain Setup Select Hardware 4 Select Touch Calibration 9 Please touch slowly each target as it appears on screen Do not power off the monitor until this calibration has completed Figure 5 Touchscreen Calibration Screen Make sure you complete the calibration procedure without p
105. equirements The following table describes the cabling options for the FMS and the MMS Table 5 M8048A and M3001A Cables Both ends are terminated with ight SRL connectors MBO22A SC1 M3OST S1626 0 75m Measurement Serverto nor yer available nor yer available Monitor MEUZAFSCI M3081 61602 2m Measurement Server to Monitor MBUZIATSCA MOSIGIGUS im Measurement Server to Monitor MBUZATSCS MGOSLGIGIT Wm Measurement Server to Monitor MBUZAFSC 1 61628 15m Measurement Server to Monitor MBUZATSCS M3081416 15m Measurement Server to Monitor Cables MSOSIA A15S M3OBI G1613 MSL Installation Cable 15m MSUBIAEAIS __ M308I G1625 MSL Insallation Cable 25m M3081 68708 MSL Face Plate US version pair of connector boxes M3081 68707 MSL Face Plate non US venion pair of connector boxes Flan demand Table 6 M8048A Flexible Module Server Mounts 2 815 fed Cable Management 2 MMS Mount Handle Came eves fen ene Remote Displays M8031A Space Requirements Size WxDxH With mounting bracket 333mm x 408mm x 85mm 13 1 x 16 x3 4 With desk sand 387mm x 408mm x 175mm 15 2 x 167x697 Weigh With mounting bracket 4900 10415 With desk stand 6900p 152 Environmental Requirements Temperature Operating to 45 C 41 to 113 F Storage 20 to 60 C 4 vo 140 F Humidity
106. er size of printer does not march Change paper size of the printer found paper size of report in the Serup Printers menu or change paper size of the report in the Sep Reports menu Scarus menage Prine Switch on printer power device Local 1 Local 2 Printer paper tray emf xinter paper tray ea Printer paper uray empor printer paper ray Primer job is selled Cabling noc connected correeriy Check cabling VO board defect replace VO board Scar menage Prine Pint eror on Philips Information report onthe Pipe device Remote 1 Remote Information center chi fails gt Remote 3 unavailable sefer Philips Information is issued Printer job ie Nerwork Connection ro Philips Cec thatthe newark Information Center nor functioning connection beween the monitor inthe Philips Information Centers working Samus message Printing on Prnt queue on Philips Information device Remote 1 Remote Center is full Reasons for this may 2 Remote 3 issued bur be no report is printed printer paper eray Printer is not switched on Printer paper eray is empry are nora Pinter paper sie is nor comecdy Configure he paper sae expected according othe inserted prine Printer resolution is nor corey Pedia configured Configuee he printer resolution according the printer Printer color support is configured
107. erform Test Blocks Service Event When performing Test Block Required Complete these tests avalon replacement Preventive Maintenance Visual Power On Performance Leakage Check Diagnostic Check Zero Calibration Check Barometric Pressure Cheek Span Calibration Check and Normal Operation Cheke Performance Leakage Check lowrate Check Diagnostic Check Zero Calibration Check Barometric Pressure Check Span Calibration Check and Normal Operation Check suey whenever the topcover was opened ares Replacement as described in Chapter 5 of the Anesthetic Gas Module Service Manual part number M1026 9000B Fan Check Pump Test Performance Leakage Check lowrate Check Diagnostic Check Zero Calibration Check Barometric Pressure Check Span Calibration Check and Normal Operation Check Safery 266 Safety Test Appen Thes procedures oudited in dis tei cfe pdt in quein Thee for thee tents and he acepte range of yale ae dev from local and itemtinal standards bur my not bc equivalent These iss are nota substitute for local eft tenting wheres required for n insallion ora Faxing the Metron Safety reer he test for example in Europe TEC6OGOI I IEC6OGOI 1 1 and in the US UL2601 1 The Metron Report should pin resule with the names ied below dong with oher da refer to sty upecisdinci ndusd othe and resp vies ane not ein edis fetes thar have been checke
108. es Document the value displayed by the monitor x1 Ifthe difference berween the manometer and displayed values is greater than 3 mmHg calibrate the MMS If nor proceed to the leakage test To calibrate the MMS select Close Valves off then Calibrate NBP and wait for the instrument to pump up the expansion chamber Wait a few seconds after pumping stops until EntexPrVal is highlighted and then move the cursor to the value shown on the manometer IF ofthe following prompt messages appears during this step check whether there is leakage in the sep unable to calbrate cannot adjust pressure NBP unable to calibrate unsrable signal 10 Press Confirm Ifthe INOP NBP Equipment Malfunction message occurs in monitoring mode go back to service mode and repeat the calibration procedure NBP Leakage Test The NBP leakage test checks the integrity of the system and of the valve Ie is required once per year and when you repair the monitor or replace parts 1 Ifyou have calibrated repeat steps 2 to 6 from the accuracy test procedure so that you have 280 mmHg pressure on the expansion chamber 2 Watch the pressure value for 60 seconds 3 Calculate and document the leakage rest value 62 x2 P1 P2 where P1 is the pressure ar the beginning of the leakage test and P2 is the pressure displayed after 60 seconds The leakage test value should be less than 6 mmHg NBP Linearity Test 1 Reduce the manometer pressure to 150 mmHg
109. esponsible for the failure of any such installation 154 The following figures show the dimensions required for the M1180A C53 wall and the table mounting bracket which ships with the monitor Figure27 Wall Mounting Bracket Dimensions Figure28 Table Mounting Bracket Dimensions Providing Conduit Where a remore installation is required for example the installation of a remote display the customer is responsible for the following hardware installations 155 Providing conduit and or trunking ofa sufficient cross sectional area for the planned cables and possible furure expansion for additonal components or systems Sce Cabling Option and Conduit Size Requirement for cable specifications for remote installations Providing and or installing suitable wall boxes to accommodate the faceplates Pulling Cables WARNING NEVER run power cables through the same conduit or trunking used for system cables Installing Wall Boxes Teis the customer s responsibilty to provide and install wallboxes to house faceplates The customer must notify che Philips installation coordinator of which size is to be used Procedures for Philips Personnel Before you begin the procedures in che installation sections ensure thar che customer has completed all necessary preparations outlined in the previous serion Procedures for Local tf Monitor M8005A and M8007A Site Requirements Space Requirements The situaing of t
110. etected The Anesthetic Gas Module is incompatible with the monitor General Measurement The Philips M1026A Anesthetic Gas Module uses a technique called Non Dispenive Inftared Gar Concentration Measurement NDIR to measure the concentration of gases This works as follows The gases that the Philips M1026A Anesthetic Gas Module can measure absorb infrared IR light Each gas has its own absorption characteristic The gas mixture is transported into a sample cell and an IR filter selects a specific band of IR light o pass through the gas For multiple gas measurements multiple IR filters are used The higher the concentration of gas in the mixture the more IR light it absorbs This means that higher concentrations of IR absorbing gas results in lower transmission of IR light The amount of IR light transmitted through an IR absorbing gas is measured From the amount of IR light transmitted the concentration of gas can be calculated This calculation provides the gas concentration value O gas cannot be measured with this technique as it does nor absorb IR light Hence gas is measured with a sensor that makes use of the paramagnetic properties of O for fast measurement technique Theory of Operation Figure 30 hows the funcional blocks within Philipa M1026A Anesthetic Module Figure30 Anesthetic Gas Module Functional Block Diagram The main components of the Philips M1026A Anesthetic Gas Modu
111. eters ate stored for ler review using the Trend service Managers IMDSE The MDSE Medi Dat Service Hemend Inrerfice Manager is responsible for the exchange of real time data berween the Vae Patient Monitoring Sytem display uni and the Measurement Servers and Flexible Module Server as well as beeen the InteliVae Patient Monitoring System display unit and other devices attached to the necwork MDSE establishes and maintains data communication link between the devices Ie provides configuration information abour the remote device ro applications in the local device and it allows the exchange of measurement data and statu information berween the devices Primer The Printer Manager provides a high evel interfice to a printer provides means o establish a connection o the printer transfer data to the printer l get starus of the printer close connection to the printer The Printer Interface Manager also supervises the connection to he printer and whether the printer accepts data for example Paper The Printer Interface Manager notifies the operator in such cases Display amp Operator Interface The Display and Operator Interface Manager performs the following asks Screen presentation of real time and stored physiological measurement dara alarm condition dara and starus information received from the MDSE interface manager the Alarm service ot
112. evices ro be preserved across power failures The stored data is protected via consistency checks and checksums When new patien is the trend database erases data of the previous patent HiRes The OxyCRG Oxygen CardioRespiroGram service derives high resolution tend graph from the Best to Beat Heart Rate SpO or tepO and Respiration physiological data The LO CRG is specialized for neonatal applications allowing the opeartor to identify sudden drops in Heart Rate Bradycards and 5 or tepO Desarurarions and supporting the operator in visualizing Apnea situations ADT The ADT Admit Discharge anam sevice maintains he patient demographics information The operator may admit a new patient discharge the old paient and enter or modify the patient demographic The ADT service also supports the transport ofa patient end database with the M3001A Muti Measurement Server The ADT service controls the deletion of ld paient daca the upload of wend dara from the M3001A and the switching back of all setings ro user defaults Ir also synchronizes parien information with a ceneral station on the Cale Param The Cale Param Calculated Parameters service accesses current stored and manually physiological dara as inpar to calculation formulas With these formulas derived hemodynamic oxygenation and ventilation variables are computed The calculation results including he input param
113. file the results of safety teses This may help to identify problem early particularly if the test results deteriorate over a period of time Warnings Cautions and Safety Precautions These rests are a proven means of detecting abnormalities that if undetected could prove dangerous either the patient or the operator You can perform all tests using commercially available Safty Analyzer text equipment You can perform basic measurements with widely available multifunction instruments such as the HP 3469A multimeter or equivalent The consistent use of a Safary Analyzer as routine step in closing a repair or upgrade is emphasized as a mandatory step to maintain approval agency starus You can also use the Safety Analyzer as a troubleshooting tool to detect abnormalities of line voltage and grounding plus toral current loads For Europe and Asia Pacific according to IECGOGO1 1 1988 A1 1991 A2 1995 60601 1 1990 A1 1991 A2 1995 For USA according to UL2601 1 Additional tests may be required according to local regulations Normally a Safety Analyzer is used to perform these procedures Popular testers include the DEMPSEY 232D or for use in Europe testers like che Rigel Metron or Gerb Follow the instructions of the Instrument manufacturer Ifthe Dempsey is used for an extended length of time it could be damaged by the high amp current draw of the system 48 Safety Test Procedures Use the test procedu
114. g To reassemble plug in module Snap fit the front housing onto the front of the module case so the openings in the front housing match the LEDs and keys tepO tcpCO Calibration Chamber Kit CALIBRATION CHAMBER To remove the calibration chamber 1 Using flat tipped screwdriver remove the screw holding the calibration chamber in place on the front of the plug in module 2 Life rhe chamber off the plug in module Ensure tha the white plastic switch tip located in the module is not lost To replace the calibration chamber 1 Ensure the white plastic switch tip is in place in the plug in module 2 Place the calibration chamber in the allocated position on the plug in module 3 Insert and tighten the screw into the calibration chamber securing ir to the plug in module Recorder Module Paper 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 Philips approved paper Philips re order number 40477A B STEP3 STEP 5 load paper into the recorder module 1 Remove the empty core from the previous roll of paper 2 Cur off and discard the first few inches of paper to elimi 3 Pull our several inches of paper from the new roll holding he roll with the loose end hanging over the top toward you 4 Open the door and push the paper roll into the holders in the recorder 5 Thread the paper under the ro
115. g system Combining Equipment fit is not evident from the instrument specifications whether a particular instrument combination is hazardous or nor for example due to summation of leakage currents che user should consult the manufacturers concerned or an expert in the field to ensure chat che necessary safety of all instruments concerned will not be impaired by the proposed combination 185 Checking and Calibrating the Anesthetic Gas Module This chapter explains how to check the Anesthetic Gas Module to ensure that it is operating within its specified limis A list of the equipment required to out the checks is included as well as step by step instructions for the calibrations Ifyou receive fail indications while testing refer ro the troubleshooting section of this chapter for guidance If you are instructed to remove or replace parts of the Anesthetic Gas Module refer to the respective section Access Service Functions of the M1026A Anesthetic Gas Module 186 Enter service mode and select the service screen see Testing and Maintenance for instructions on entering service mode In the Setup Gas Analyzer menu you can choose whether the Gas Analyzer Diagnostic window orthe Gas Analyzer Calibration window should be displayed In this window you can as well sare the flow calibration the barometric pressure calibration and the gas span calibration The Setup Gas Analyzer menu can be accessed by either going to the Mai
116. ge to the wall US version only Fasten the rectangular wall mounting plate to the wal Attach the mounting flange to the wall mounting plate 7 Mount the plastic cove The plastic cover consists of wo pieces Fame Angled cover Pur the frame over che mounting insert and the PCB Place the angled cover on top and fasten with screws 8 Connect the monitor and the measurement server to the wall installation 9 Perform the following tests as described in the Test and Maintenance section of this manual Power on test blocks vest blocks ECG Syne Performance Test Remote Alarm De Mounting The mounting devices for the Remote Alarm Device ate the same as for the Remote Extension Device See Remote Extension Device for decis Connections Remote Alarm Device Rea View Remote Aam Device Connector Remote Alarm Device wih Cabe connected Figure 24 Remote Alarm Device Connector 146 Remote Extension Device Mounting Connections Connect the cable to the Remote Extension Device as shown in the photograph emote Extension Device Rear View Remote Extensa Device Connects Remote Extension Device wh Cable connected Figure25 Remote Extension Device Connections Cabling The connection ar the monitor should look like on the photograph Connect the cable a both the extension device and the monitor Philips C al Network Refer to the installation instructions in M3185A
117. h calibracion 1 Enter Main Serup menu 2 Select Monitor Select Hardware 4 Select Touch Driver 5 Select Calibrate General Monitor INOP Messages CHECKINTERNVOLTAG Problem wich the voltages 5V 12V in Remove all 1 O boards and pur hem E the monitor back in one ar a time to isolate any defective board If chis does nor resolve he problem replace the main board CHECK MENU LABELS Memory space in which the menu label Reclone configuration fle This will Thi mensage indicates re sored has been corrupted reload the memory space the monitor has performed a Main Board defective Replace Main Board cold start and attempted to est che menu labels to defaults IF the defaults are present the recovery was successful settings should be recorder as part of your documented configuration setup If the mena labels do not match the configuration le setings or the INOP persists perform the troubleshooting tasks iste inthis table CHECK MONITOR TEMP The vemperarre inside che monitor Check the environment for possible oo high causes Monitor venation obruere Clean the monitor ventilacion internally and then cool monitor dawn for 8 hours Main Boand defective replace Main Board CHECK SETTINGS Memory space in which the senings are Reclone configuration file This wil This message indicate thar ord has been corrupted reload the memory space the monitor
118. hard as necessary to maintain the selected flow rate A partial occlusion or an inefficient pump results in the pump being driven harder A serious occlusion results in che pump being driven at or near its maximum load This triggers a sensing circuit which then reports an occlusion 73 Watertrap Water Separation Filters Figure32 Watertap The watertrap consists of two water separation filters two water fuses and a water reservoir The gas sample coming from the patient may contain fluids which are separated from the gas at the fint water separation filter The gas is then split into rwo paths the measurement path with the main part ofthe total gas flow including water vapor continuing on the dry side of the separation filter and the drainage path containing any liquid droplets with the smaller amount of the total flow continuing the wer side of this filter At the pump both gas paths are recombined The watertrap proper includes water fuses in both the measurement and drainage paths consisting of a material thar swells when getting wet when the reservoir is full or when fluid penetrates the separation filer and enters the measurement path and blocks the respective path at the inlet of the unit Once the water fuses are blown any passage of fluid is blocked and the gas flow resistance increases so that an occlusion is detected Sample Flow Through the Pneumatic Path The drain
119. has performed a Main board defective Replace Main board cold start and attempted to reset the menu labels to defaults IF the defaults are Present the recovery was successful Default settings should be recorded as part of your documented configuration setup If the mena labels do not match the configuration file senings or the INOP persists perform the troubleshooring tasks ised inthis table 6 INTERNAL Problem wich the 12C Bus Disconnect the external display and communication inthe monitor luy another one Video board defective Replace Video board Main board Replace Main board Remote Alarm Device LEDs illuminate wrong UO dor check 1 0 matri in the Theory bur no alarm sound is lof Operation section ofthis issued replace remore alum device remote device replace board Alm occurs on sereen bur cabling not connected bling Jno LED or dam sound on ing dcin ehe slam device VO board defective replace 1 0 board Remote Alarm Desde replace Remote Alum Device sound issued bur LED failure Replace Alarm Device no LEDs light up Remote Extension Device Remove input device for example mouse keyboard atached to che Remote Extension Device doesnot funcion See ables Spred Point Keyboard Mouse functioning See tables pend Point or not functioning
120. he reduction in flow Perform pump tet provided in the Preventative Maintenance kit Cation The instructions on cleaning apply only ro the old type square shaped pump do not clean the new type round pump If the pump fils the test replace i Defective power supply Carry out the checks for the power supply Defective main PC checks above do nor solve the problem board replace main PC board 216 Assembly Diagnostic Checks o Assy shows jumpers incorrectly Check ifthe jumpers are Problem 5 O sensor filed Zero See calibration checia Span calibracion Defective Oz sensor 1f wo solenoids are installed disconnect cable of solenoid 2 sensor Go into Gas Analyzer Calibration window Stare a zero calibration vo ger the actual barometric pressure reading Nore che measured barometric pressure in mmHg displayed in he Calibration window Using a voltmeter check the O sensor voltage as follows Connect voltmeter ground to TP Measure TPS voltage 1 is approximately equal 10mV As the measurement is influenced by the barometric pressure the correct voltage must be calculated as follows Oz concentration of gas in mV multiplied by the measured barometric pressure in mmHg and divided by 760 mmHg For example correct calculated voltage for room air 20 9 O3 and barometric pressure of 720 mmHg is 209 mV x 720 mmHg 760 mmHg 198mV
121. he Anesthetic Gas Module can both be operated from an AC supply of 100 240V 1086 50 GHz Grounding the System To protect che patient and hospital personnel he cabinet of he installed equipment has to be grounded The equipment is supplied with a detachable 3 wire cable which grounds the instrument to the power line ground protective earth when plugged into an appropriate 3 wire receptacle Ifa 3 wire receptacle is not available consult the hospital electrician WARNING Do not use a 3 wire to 2 wire adapter Equipotential Grounding Protection class 1 instrument are already included in the protective grounding protective earth system of the room by way of grounding contacts in the power plug For internal examinations on the heart or the brain Computer Module and Display Module of the System and the Philips M1026A Anesthetic Gas Module must have separate connections ro the equipotental grounding system One end of the equipotental grounding cable potential equalization conductor is connected to the equipotental grounding terminal on the instrument s rear panel and the other end to one point of the quipotental grounding sytem The equiporentil grounding system assumes the safety function of the protective grounding conductor if ever there is break in the protective grounding system Examinations in or on the heart or brain should only be carried out in rooms designed for medical use incorporating an equipotental groundin
122. he IR measurement head Using a cross tipped screwdriver remove the screw 6 securing the clamping plate 7 to the sample bracket 8 7 Remove the sample cell 9 Replacement To replace the sample cell refer to Figure 62 Figure 63 Figure 64 and Figure 65 1 Position the sample cell 9 onto its bracket 8 and hold it in place with the clamping plate 7 2 Using a cross tipped screwdriver replace the screw 6 securing the clamping plat to the bracket Before tightening the screw ensure thar the pipes to the sample cell are aligned parallel with the sides of the bracket NOTE Make sure the temperature sensor has not slipped out ofis hole This can prevent the bracket from being pushed home 3 nsere the sample cell bracket and cover 5 into the base of the IR measurement assembly head Push he bracket home so that the surface of the cover plate is flush with the base of the IR measurement head The rwo gas tubes should now protrude from the holes 1 on top af the IR measurement head 4 Using a cross tipped screwdriver replace the four screws 2 securing che sample cell cover plate and bracket 3 to the IR measurement assembly head 5 Replace the pneumatic connections 1 to the sample cell which are located on top of the IR measurement head NOTE Check that all rubing is tightly connected and show no signs of damage 6 Replace the IR measurement mounting bracker refer to Lifting the IR Measurement Mounting Bracke
123. he monitor should be planned such thar the nursing staff are able to monitor the patient with relative ease with all patient connectors and controls readily available and the displays clearly visible The location should also allow access to service personnel without excessive disruption and should have sufficient clearance all round to allow air cireularion Maximum dimensions and weight Size WxHxD 405mm x 360mm x 170mm 15 95 14 17 x 6 69 without handle and Speedpoint device Weight 10kg 22 051b without options Environmental Requirements The environment where che MPG0 MP70 monitor will be used should be reasonably free fom vibration dust and corrosive or explosive gases The ambient operating and storage conditions for the MPGUIMP70 monitor must be observed If these conditions are not met the accuracy of the system will be affected and damage can occur Temperature Operating O to 35 C 32 o 95 Storage 20 to 60 C 4 to 40 F 156 Humidity Altitude Operating 20 to 8596 Relative Humidity RH non condensing Storage 5 to 85 Relative Humidity RH Operating Om to 3000m 10000 fe Storage Om to 12000m 40000 fe Electrical and Safety Requirements Customer or Philips Safety Requirements Ifthe MPGO MP70 monitor is to be used in internal examinations on the heart or brain ensure that the monitor is connected to an equiporential grounding system Grounding The MP60 MP70 monitor MUST be g
124. heck the effect of blocking the exhaust The reading a the flowmeter should decrease to Zero see Table 4 1 Iit does nos systematically block che pneumatic path at various points after the pump to isolate the leakage point Sce Figure 1 2 Pneumatic System for tubing connections When the fault has been corrected repeat the leakage check Leakage erformance Diagnostic Check Complete the following to do a performance diagnostic check 1 Enter the service mode of the monitor and let che Philips M1026A Anesthetic Gas Module complete the warm up phase he GA WARMUP INOP disapean 2 Make sure thar the waterrap is attached 3 Inthe Setup Gas Analyzer menu select Service Window then select Diagnostic to acces the Gas Analyzer Diagnostic window 4 Check chat no permanent problems are reported for the Philips M1026A Anesthetic Gas Module in the Gas Analyzer Diagnostic window erformance Flowrate Check Always perform a leakage check before the flowrate check Three flowrate need to be checked in the following order 1 Tonal flow in Purge mode 2 Flow in Measurement Path in Normal mode Toral flow in Normal mode These flowrate checks are described in the following three procedures The total flow is measured by connecting the flowmeter to the exhaust the measurement path Bow is measured by connecting the flowmeter to the gas inler with a special test fixture The Flowrate values are summarized in the following table P
125. hen it is connected to the mains power supply Do not perform any disassembly procedures other than server and extension removal with power applied to the instrumen Failure to adhere to this warning could cause serious injury or death Replacement Level Supported The replacement level supported for this product is to the printed circuit board PCB and major subassembly level Once you isolate a suspected PCB follow the procedure in the Repair and Disaembly section to replace the PCB with a known good PCB Check to see if the symptom disappears and thatthe monitor passes all performance tests If the symptom persists swap back the replacement PCB with the suspected malfunctioning PCB the original PCB that was installed when you stared troubleshooting and continue troubleshooting as directed in this section Software Revision Check NOTE Some troubleshooting tasks may require that you identify the Software Revision of your monitor You can find the sofware revision along with other information such as the system serial number in the monitor revision screen To access the monitor revision screen 1 Enter the Main Serup menu and select Revision 1 Select the pop up key Software The system serial number can also be found on the lower right corner on the front of the monitor Obtaining Replacement Parts Sce Parts section for details on pare replacements Troubleshooting Guide Problems with the monitor are separated into the c
126. her IntelliVue Patient Monitoring System modules Screen presentation of operating controls control windows Processing of operating control commands received from HIF Control interface The module verifies and interprets the received commands and forwards them to other software modules of the IntelliVue Patient Monitoring System display unit Measurement Servers or Flexible Module Server Sound generation issues audible alarm signals and generates audible information signals for example QRS and SO tones operator audible feedback mm The LAN interface implements the physical layer of IEEE 802 3 The LAN interface performs Manchester encoding decoding receive clock recovery transmit pulse shaping jabber ink integrity testing reverse polariry derectionfcorrection lecical isolation and ESD protection Electronically separated interfaces are used for communication to the Measurement Servers or Flexible Module Server and tothe newark Centronics The Centronics implements he standard signaling method for bi directional parallel peripheral devices according to IEEE 1284 1 The intefce is used as parallel interface to a standard printer with electrical isolation and ESD protection The Display Controller consists of a video controller chip video RAM and the controlling software The Display Controller interface processes he high level display commands Character and graphic generat
127. iagram and table show the pins and relay identifiers of che connector Bom R2 opener a orange R3 closure js yellow 6 men R3 opener 7 blue m ls parle m bo dew m ho m ak Ri closure flighe green Ri middle Ri opener m us feedhwhite m 16 Jorangefwhite m R ilure dosure purplehvhite R filure middle green white opener 20 eina ma The Nurse relay functions as follows During standard operation R1 R2 R3_opener are closed During alarm condition R1 R2 R3_opener are closed RI R2 R3_closure are open 1 R2 R3_closure are open Tools required Ohmmeter 1 Plug an M8087 61001 cable into the Nurse Call Relay connector 2 Connect the ohmmeter and measure the pins as indicated inthe diagram and table The relay contacts should behave as described above The behavior may vary depending on configuration choices See the Configuration Guide for details on Relay settings ECG Sync Performance Test This test checks the performance of ECG synchronization between the monitor and defibrillaror Ie only needs be performed when this feature is in use as a protocol at the customer site Tools required Defibrillator with ECG Sync and Marker Output Patient simulator 1 Connect the patient simulator to the ECG connector on the Measurement server a
128. ibration repeat the Span calibration After that perform Zero calibration Span calibration O sensor problem Check O sensor problem as described above 24 Diagnostic Checks WARNING If you cary our checks with replacement pars be aware of the high voltage locations Never remove cables or sub assemblies while the Module is powered on To access the Gas Analyzer Diagnostic window select Gas Analyzer Diagnostic in the Setup Gas Analyzer menu Gas Analyzer Diagnostic 3748807564 C 21 01 forati Tes pon Shure laet Zona Gat Done RE issestis 50 tor 02 ma Wik an lis tats sit us ui eem homme forem luis pouer Paton uti option pmuratie Sya Proben mentes Figure 50 Gas Analyzer Diagnostic Window Problem Solving Hierarchy To help identify a problem a OK Prob1em message is displayed for major subassemblies If a problem is displayed use the following pages to isolate the problem according to the following hierarchy chis hierarchy overrides the sequence shown on the display 1 Pneumatic System 2 IR Measurement Assembly Meas Assy Optical Path Meas Optic Path 4 O Asembly 0 Assy 5 Agent ID Assembly Agt 1d Assy 6 Power Supply 7 Operating Temperature TheGas Analyzer Diagnostic window also displays che number of pump operation hours NOTE To remove the
129. ice mode select Store Flow Table 1 Documenting CO Test Results Ter Expected Test Results Barometric Pressure x1 difference between the reference pressure and the Chede measured ambient pressure displayed on the monitor 1412 mmHg Leakage Check parts x2 value of part 1 leakage check on flowmeter Vand 2 G2 40 ml min 33 value of part 2 leakage check on flowmeter 6340 ml min 42 Table 1 Documenting CO Test Results Ter Pump Check pressure displayed on the monitor during occlusion x4 gt 120 mmHg Flaw Check difference benween measured value and 50 0 ml min 65 75 mlmin Noise Check 6 noise index displayed on monitor 623 0 CO Gas x7 difference beween measured CO value and calculated Calibration Check value based on 596 cal gas 7 lt 2 6 mmHg CO Cl 38 difference berween measured CO value and calculated Verification value based on 10 CO cal gas 68 lt 0 7 x value calculated Temperature Accuracy This ra cher he peccasse of the temperate reuse Tools required Patient simulator with 0 1 C or 02 1 Connect the patient simulator to the temperature connector on the MMS or measurement server 2 Configure the paient simulator to 40 C or 100 F The value should be 40 C 0 2 C or 100 F 0 4 E ECG Resp Performance Test This test checks the performance of the ECG and respiration measurements Tools
130. idual hospital or institution responsible for the operation of this equipment may cause equipment failure and possible heath hazards This chapter describes the Preventive Maintenance tasks PMs required to keep the Philips M1026A Anesthetic Gas Module in good working order PMs are performed to a timetable before problems arise as a means to reduce failures Where a PM requires either a calibration or replacement procedure you will be referred to the relevant chapter of this guide The PMs are listed within a table in ascending order of the frequency they are performed All checks that require the instrument to be opened must be made by qualified service personnel CAUTION Take precautions when dealing with potentially contaminated parts such as tubing and other componens ofthe patient circuit Wear gloves mask and gown while handling components that come into contact with the patient s exhalane gas or fluids Preventive Maintenance PM Tasks Here is a list of the PM tasks required to ensure satisfactory operation of the Philips M1026A Anesthetic Gas Module within its specified limits and how often they must be performed Check the ventilator fan in the AGM for proper operation every 6 months Check the calibration atleast once every 12 months or whenever the validity of the readings is in doubt Refer to Checking and Calibrating the Anesthetic Gar Module for details Replace che internal Nafion tubing room
131. ilips Clinical Nerwork LAN rs MIB RS232 Bexible Nune Call Parallel printer Remote devices Remote Alarm Device Remote Extension Device The specifications fr the above listed interfaces can be found in the technical dara sheer for the monitor and in the Specifications chapter of the Instructions for Use sr depending on Data Flow The following diagram shows how data is passed through the monitoring system The individual stages of dara flow are explained below ou gt Thequisition m Provider plications Ser A ERD Fu Nos Loy Data Acquisition Monitoring data for example patient measurement data in the form of waves numerics and alerts is acquired from a variety of source Measurement Servers The Measurement Servers connected to the internal LAN convert patient signals o digital data and apply measurement algorithms to analyze the signals External measurement devices Data can be also acquired from devices connected to interface boards of the monitor Software modules dedicated ro such specifie devices convert the data received from an extemal device to the format used internally This applies to parameter modules and the Anesthetic Gas Module Server systems on the Philips Clinical Nerwark To enable networked applications such as the other bed overview data can be acquired from server systems arached to the Philips Clinical Network for example a Philips Infor
132. ilter 200 Pump Filter 201 Performance Checks 202 Other cor to maximize uptime or reduce cost of ownership 202 Troubleshooting the Anesthetic Gas Module 203 Compatibility Criteria for the AGM and the IntelliVue Monitors E Flow Charts for Communication and Measurement Problems E Hardware Related Troubleshooting Strategy 20 INOPs E Calibration Checks 213 Calibration Checks Troubleshooting Table 213 Diagnostic Checks 215 Problem Solving Hierarchy 215 Pneumatic Sytem Diagnostic Checks 216 Assembly Diagnostic Checks 217 Optical Path Disgnostc Checks 219 10 IR Measurement Assembly Diagnostic Checks Agent ID Assmcbly Diagnostic Checks m Power Supply Diagnostic Checks m Operating Temperature Diagnostic Checks E Test Points Connectors and Jumpers m Test Pints 23 Connectors Jumpers 25 Repairing the Anesthetic Module am Introduction The Cover 230 Removal 230 Replacement 230 Lifting the IR Measurement Mounting Bracket 233 Removal 233 Replacement E Infrared Measurement Assembly Head 235 Transferring NVRAM Data to a Replacement Head 235 Sample Call 239 Removal 239 Replacement 239 Solenoid Valve 1 242 Removal 242 Replacement w Power Supply Unit 4 Removal p Replacement 24 Main PC Board 245 Removal 245 Replacement 246 O2 Sensor 247 Removal 247 Replacement 248 Agent Identification Head 251 Removal 251 Replacement 251 Pump 252 Removal 252 Replacement 252 Fan 253
133. ing Agent ID Problems The fifth low chart also continues from the third from point D Disappearing Waves T Disappearing waves in warmup mode Wate alee occas normal mode Keep unit running for 590 min x Take care thar the Gas Analyzer is fes io nor configured to go into standby during that rime If standby configuration has robe altered Pinna ring Prob oem nor fixed Tied PONE Perform Howie check and Problem pump test which is provided Tad Pr DONE in the PM kit I pump test ales replace pump if ow pu Check Gas Analyzer check and problem not CalibrationandDtagnostic vindow and follow troubleshooting ables for reported errors Figure49 Troubleshooting Disappearing Waves 208 Hardware Related Troubleshooting Strategy Over roubleshoocng teg for hardware reed problemsfhardware and measurement related AGM INOB 1 Aber err ae an float check e Chapter before comtinog any oder troubleshooting If any check fils first fix leak and or flowrate problem and repeat a zero calibration Then check whether problems still exist There are only wo device conditions that make it impossible ro perform a lak flowsate check Pump is not running Check for proper electrical connection and check thar AGM is notin Standby Mode If OK replace pump INOP GAS AN EQUIP MALF see I
134. ing equation 193 NOTE Check Calibration u E bint pressure corrected to sealevel pia amosphere pressure at a given alude Conversion 1 mmHg 1 33 hPa inHg Only perform a Barometric Pressure check and calibration with the rop cover closed Light and electro magneric interference may affect the measurements Pressure calibration is not possible during warm up Complete the following to steps to perform a barometric pressure check and calibration 1 Ger the absolute barometric pressure at your hospital location 2 Enter the service mode of the monitor and lec the Philips M1026A Anesthetic Gas Module complete the warm up phase he ca WARMUP INOP disapears Inthe Setup Gas Analyzer menu select Service Window Select Calibration to access the Gas Analyzer Calibration window 55 Check ifthe barometric pressure displayed next to the Press label in the calibration window is within the tolerance limits A zero calibration is automatically stared in order to display the calibrated pressure value This value is updated with each following zero calibration can 7 Selec the value representing the curent absolute barometric pressure and confirm when prompted 8 Afer calibration has been completed check if the barometric pressure displayed nest w Presa in the calibration window is within the tolerance limits Span Calibration Check 194 NOTE The Philips M1026A Anesthetic Gas Module should run for at leas
135. ion wave drawing and ranslates them into pixels which are written inro the video RAM where the video controller chip generates the video synchronization signals and che pixel stream for the Color LCD Display HIF Control The HIF Human Interface Control interface scans the Human Interface devices for operator controls Touch Screen Tim Knob and PS 2 devices formas the collected dara and sends ir the display and Operating Interface a The ECG OuvMarker In interface receives the ECG waveform directly from the ECG Resp Arrhythmia ST Segment physiological algorithm via an RS 422 serial interface and convert the digital ECG signal to an analog ECG signal In sdditon the ECG controller receives from a connected device che marker information and forwards this data to the ECGIResp Arrhythmia ST Segment physiological algorithm The converted analog signal is used synchronize a connected device o the patients ECG az serial link RS 422 communicate the ECG signal the ECG In of the IntelliVue Patient Monitoring Sytem display unit The interface is serial differential ful duplex link The interface is ESD protected IS The interface supports the serial protocol of standard PSIZ devices mouse The PS 2 serial protocol is interpreted by the HIF Control interface Testing and Maintenance Concepts This chapter provide
136. ions E Installing Interface Boards 139 Installing Remote Devices i Mounting the Remote Display M8031A 139 Connections 140 Flexible Module Server and or Multi Measurement Server Mo Anaching the MMS to Mount 140 Deraching the Measurement Server fiom a Mount 140 Positioning the Measurement Server on Clamp Mount Mo Mounting MMS Mount to FMS 804 141 Mounting the Remote Extension Device to he FMS m Mounting the BIS Module tothe FMS 142 Mounting the FMS p Connections MSL Cable Termination 14 Remote Alarm Devices 146 Mounting 146 Connections 146 Remote Extension Device 7 Mounting 7 Connections Cabling Philips Clinical Network w Flexible Nurse Call Relay 49 Connections ECG Out Functionality Connections Configuration Tasks 151 Serting Altitude Line Frequency and Barometric Pressure um Configuring the Equipment Label E 8 Site Preparation 153 Introduction 153 Site Planning 153 Roles amp Responsibilities 153 Site Preparation Responsibilities 153 Procedures for Local Saff 154 Procedures for Philips Personnel 156 Monitor M8005A and M8007A Site Requirements 156 Space Requirements 156 Environmental Requirements 156 Temperature 156 Humidity 157 Atitude 157 Electrical and Safety Requirements Customer or Philipi 157 Safery Requirements 157 Electrical Requirements 157 Remote Device Site Requirements 157 Mul Messurement Server M3001 or Flexible Module Server MB048A E S
137. it so that its threaded bores align with the locating holes provided Replace the 3 pneumatic connections 2 to the side of the agent ID head The top and bottom connections are the inlets and the middle connection isthe outlet to the pump Check thar all tubing is tightly connected and show no signs of damage Using a crss tipped screwdriver replace the 4 screws 3 securing the agent ID head to the IR measurement mounting bracket 4 Replace the flar cable connection 1 to the Agent ID NOTE After replacing the agent ID head check thar all flat cable connectors are firmly seated and show no signs of damage 5 Replace the top cover of the module Now perform the performance checks described inthe Test and Inspection Matrix on page 262 251 Figure 74 Removing and Replacing the Agent ID Head Pump Removal To remove the pump refer to Figure 75 1 Ensure that the module is switched off and isolated from the mains power supply Remove the cover of the module Remove the pneumatic connections 1 and or 4 from che pump Remove the power connection from the main PC board 2 Using a cros tipped screwdriver remove rwo screws and washers 3 securing the pump to the IR measurement mounting bracket 5 Carly dide out the pump from che IR measurement mounting bracket Replacement To replace the pump refer to Figure 75 1 Carefully position the pump so thar the threaded bores in the pump align with the locating h
138. itor did nor alarm in the way in which the end user expected please consult the Instructions for Use for possible issues or configuration settings which could affect alarm behavior 74 Individual Parameter INOPS Fany of the following parameter INOP messages arc issued try the respective parameter in another device Ifthe INOP message persists replace the parameter module the MMS or other indicated device CO EQUIP MALF ECG EQUIP MALF NBP EQUIP MALF PLEQUP MALF RESP EQUIP MALF Sp02 EQUIP MALF TRANSDUC MALF S EQUIP MALF pO lortepCO EQUIP MALF TLEQUIP MALF Wuelnk EQU NALI Flexible Module Server Prompt Message unsupported module has been Unplug the unsupported module Unrecognized plugged into the Flexible Module Measurement Module Server rompe menage many modules of the same Kind Unplug module in dor Measurement Module in_ have been plugged into the Flexible orn is curenly ignored Server fis issued Red Enor LED says on Unrecoverable hardware selfies _ to artach the MMS diay ferror o the MSL cable IF the measurements show up on the creen the fule is in he FMS IMSL cable decise IF dhe measurements do not show up when the MMS is connected directly roche MSL cable chen replace MSL cable connector from main board to Replace connector MSL defective CPU module defective Replace CPU module
139. its it must be checked 1 After installation 2 Every 12 months r if the measurements are in doubt Afer repairing the AGM ME you find values outside the tolerance limits while checking the Philips M102GA Anesthetic Gas Module mus be recalibrated Tolerance values are given at the end of each section The basie steps to check the Philips M1026A Anesthetic Gas Module are 1 Enter Service Mode a the monitor and wait for fist automatic zero calibration after the warm up period 2 Perform a leakage check b a flowrate check to ensure that there are leaks in the gas system and thar the Howrates are set correctly Perform Zero calibration Check thar there are no reported errors Check the Barometric Pressure calibration perform it if necessary Check the Span calibration of gases perform if necessary us 7 IF Barometric Pressure or Span calibrations were performed re perorm Zero calibration WARNING Only perform Zero Barometric Pressure and gas Span calibration checks when the top cover is closed Light and electro magnetic interference can affect the measurements Equipment required for checking The following equipment is required for checking che AGM Pare numbers are given in the Pars List 1 Electronic Flowmeter 1026 60144 Instructions are provided with che flowmeter See also Service Note M1026A 034 2 Span Calibration Equipment Calibration Gas Calibration Tubing WARNING Philips Ca
140. k hall Expected answer is yes so PNO Por Normal Operaion AGM related waver and numerics are presene performance normal operation pwc p Check and correspond to the users configuration check x pasted Are all AGM waves and numeries presene according to the we configuration Performance Pump Using the pump rt kit provided in the PM Expected answeris yes PPU P or ES Kit dean and test de pump according to i post is included instructions Did he pump pase rhe F usse where P Pass and Performance Fin Check thatthe cooling fan runs smoothly Expected answer is yes Did the fan pass the es LF so fan check is passed 264 Block Name or Inspection to be performed Expected Test Resule What to Record on Service Record Siy E Wik main cai EIE Protective Earth ee See Test Appendix for S 2 Maximum impedance x1 lt SFIS where P Pass and Maximum leakage current 2 Enclosure Leakage Current Normal ier 100 uA Condition Sly Test Appendix for S 4 Sep 3 Maximum lige curent x3 Eos age Caen SEC OFem 300 uA for US andlor UL ny See Safety Test Appendix for detail 3 sepa Maximum leakage curent x4 losure Curent S EC Open lt 500uA Eom a Caen SEC Open 300 uA for US andlor UL sce Safety Tet Appendix for details S 9 265 When to P
141. ks To Local Printer To Exter input devices To Ext Display 18 Optional Hardware A measurement server mount and or an integrated module slot can be ordered optionally Compatible Devices Figurel M8048A Flexible Module Server FMS gt Figure2 M3001A Multi Measurement Server MMS E Power Supply Front End Mods pay Backlight sv 10V AC UF boards HIF LEDS wireless Figure 3 Power Supply Architecture The ACIDC converter transforms the AC power coming fiom the power plug into 48 V 120 DC source and isolates che monitoring system from the AC power mains The 48V is distributed via power bus and supplies power to all the components of the system The 56 V DC power needed for the FMS MMS and measurement server extension is created by an isolating DC DC converter The power needed for che backlight is converted to 12V DC by the backlight DC DC converter The CPU is supplied with 3 3 V and 5 V DC power The transformation is performed in two steps The first DCI DC converter is a power regulator which reduces the variations caused by load changes on the 48V power bus The second DC DC converter convert the power to the needed voltage Interface boards require power of 10V DC The HIF board and the LEDs are supplied with 12V DC unregulated power The integrated module slot requires 5 V supply for modules slots and uses che 48V and
142. l devices in the patient Vicinity must be powered from an isolation transformer and nor directly from the mains power supply Figure 29 Equipment Location in the Patient Vicinity NOTE The site planning requirements with the exception of the cabling must be provided by the device manufacturer if the remote device is not purchased from Philips 158 Multi Measurement Server M3001A or Flexible Module Server M8048A Space Requirements Multi Measurement Server M3001A Size WxDxH 188 0mm x 96 5 mm x51 5 mm AY x 3 80 x203 Weight 650g 1 4 1b Space Requirements Flexible Module Server M8048A Size Wx Dx H 320 mm x 120mm x 35mm 12 6 x472 3537 Weight lt 3500 7 71 Environmental Requirements Multi Measurement Server M3001A Temperature Operating 0 45 C 32 ro 113 F Storage 40 t 70 C 40 to 158 Humidity Operating 95 relative humidity RH max 40 C 104 Storage 90 relative humidity RH max 65 C 15079 Operating 500m ro 4600m 1600 to 15000 6 Storage 500m to 15300m 1600 50000 fe Environmental Requirements Flexible Module Server M8048A Temperature Operating O to 45 C 32 ro 113 F Storage 40 t 70 C 40 to 158 Humidity Operating 95 relative humidity RH max 40 C 104 Storage 90 relative humidity RH max 65 C 150 Operating 500m ro 4600m 1600 to 15000 6 Storage 500m to 15300m 1600 50000 f 159 Cabling Options and Conduit Size R
143. lace the rwo screws 5 securing Solenoid Valve 1 o the IR measurement mounting bracket 4 Snap the rwisted from the solenoid valve into the cable clip 3 securing the rwisted pairs thar connect the IR measurement assembly head to the main PC board 5 Replace the connection 2 to the main PC board 6 Replace the pneumatic tubing 1 to Solenoid Valve 1 NOTE Check thar all rubing is tightly connected and show no signs of damage After replacing Solenoid Valve 1 check that all flat cable connectors are firmly seated and show no signs of damage 7 Using a cros tipped screwdriver replace the three screws 4 securing the IR measurement assembly head Replace the IR measurement assembly mounting bracket refer to Lifting the IR Measurement Mounting Bracket on page 233 Now perform the performance checks described in the Test and Inspection Matrix on page 262 242 Power Supply Unit Removal To remove the power supply unie refer co Figure 68 1 Ensure thatthe module is switched off and isolated from the mains power supply Remove the top cover of the module 2 Remove the ac power connector 1 from the power supply unit Remove the power connector 2 from the main PC board Using a cros tipped screwdriver remove the four screws 3 securing the power supply unit o its mounting 5 Remove the power supply unit Replacement To replace che power supply unit refer to Figure 68 1 Ensure that ch
144. late from the monitor if arached 2 Remove che four screws with a T20 screwdriver and pull off the bottom cover Removing the Integrated Module Slot the Measurement Server Mount or blank covers 1 Remove the bottom cover as described in Removing the ECG Outboard fno SRL2 board is plugged 2 Pull our che two pins one on each side of che monitor using a flat screwdriver Reassembly Note When reassembling the monitor the bortom end of the pins should snap into the plastic holders Lift off he integrated module slor and the measurement server mount if installed and unplug their cables from the main board If no integrated module slot or measurement server mount is installed remove the blank covers Reassembly Note Rearrach the cables first before purring the integrated modules slot or measurement server mount in place Separating the front and back half of the monitor 1 Remove the bottom cover as described in Removing the ECG board if no SRL2 board i plugged 2 Remove integrated module slot and measurement server mount as described in Removing the Integrated Module Slot the Measurement Server Mount or blank covers Unplug the video cable by pulling downwards and the touch controller cable by pulling ourwards on the tab Reassembly Note When reassembling the monitor make sure you insert the cables into the slots the borom of the assembly and to slide the display assembly into its ho
145. le are Main PC Board m Switching Power Supply Pneumatic System Agent Identification Oz Sensor Infrared Measurement Assembly Main PC Board This digital board Controls the pneumatic system and the IR measurement assembly Converts the preamplified analog output signal from the IR detector into a digital value Under sofeware contrlled processi value this is then converted ro a fully compensated gas concentration Converts analog signals from the sample cell pressure sensor transducer sample cell temperature thermistor and the ambient temperature thermistor into digital environmental data for gas compensation and data reporting Converts an analog signal supplied by che Oz measurement system into concentration data for CO compensation and Oz dara reporting Converts analog signals from the low control servo system and power supply into digital data for status reporting Processes the algorithm for end tidal inspired and respiration rate values Controls the communication berween che monitor and the Philips M1026A Anesthetic Gas Module through an RS232 interface that uses a standard communications protocol Contains the software program that controls the Philips M1026A Anesthetic Gas Module in a 128K EPROM Power Supply The inpur voltage is 100V 240V The output voltages are 12V and 5V and the maximum output is SSW Pneumatic System The main parts ofthe
146. libration Sidestream CO Calibration CO pump CO scrubber replacement Once a year or as specified by local laws Oncea year or after 4 000 hours continuous use and following any instrument repairs or the replacement of any instrument part Once every three years or after 15 000 operating hours Performance and Safety Tests Temperature Accuracy ECG Resp Performance Invasive Pressure Performance SpO Performance Mainstream CO Performance EEG Performance CO Performance BIS Performance 102 Performance Performance Performance Nurse Call Relay Peformance ECG Syne Peormance Only when in as parc of hospital protocole Safety Checks in accordance with IEC 60601 D System Enclosure Leakage Current Protective Earth Patient Leakage Current Recommended Once every wo years or if you suspect the measurement is incorrect Recommended Once every rwo years and afier repairs where the power supply is replaced or the monitor has been damaged by impact Tests Recommended When Performing Installation Service Event Test Blocks Required When performing Complete these tests Tastallation of monitor with no display connected tm the VGA ouput Perform Visual and Power On Test Blocks Insulation of monitor with a display connected to the VGA ouput Perform Visual Power On and Safety 1 Test Blocks
147. libration Gas contains Halocarbon 22 Halocarbon 22 is represented in che Calibration menu by Substitute which is the default IF you are using another calibration gas this must be selected in the menu Checks and adjustments The following sections explain the steps needed to carry our the checks and adjustments A complete check and calibration procedure requires approximately 45 minutes including waiting time NOTE Make sure thar the watertrap is arrached erformance Leakage Check Complete the following steps to do a performance leakage check NOTE Do not perform the leakage check while a Zero calibration is running 1 Switch on the Philips M1026A Anesthetic Gas Module and the monitor 2 Wait until he Anesthetic Gas Module enters the warm up phase Connect a flowmeter to the exhaust outlet of the Philips M1026A Anesthetic Gas Module Connect the waterra to the watertrap manifold 5 Note the flowrate 6 Block the gas inlet at the watertap inlet connector use your fingertip The reading ar the flowmeter should decrease Zero see table below Iit does not systematically block the pneumatic path at various points before the pump to isolate the leakage point See Figure 31 Pneumatic System for tubing connections When the faul has been corrected repeat the leakage check 7 Connect the flowmeter to the inlet 35 Note the flowrate 9 Block the Anesthetic Gas Module exhaust using your finger tp 10 C
148. ller and over the plastic shelf far enough so it goes around the roller and comes out above i 6 Drape the paper over the end of the door and close the door The paper should be visible and draped down in front of the door any races of adhesive Disassembly Procedures for the Measurement Server Extension Iris recommended that you replace all he replaceable parts in the Extension CO Scrubber and Pump after 15 000 hours approximately 3 years of continuous use Tools Required A thin baded screwdriver A pair of large tweezers In addition for removing the pump you will need a large bladed screwdriver 109 WARNING There is high voltage inside the Instrument 800V Do not connect the Measurement Server Extension to Monitor while the Extension housing is open As wall pars inside the Instrument may be contaminated with bacteria Protect yourself from posible infection by wearing gloves during these procedures Removing the Front Cover To remove the front cover do the following 1 Remove the server and the monitor from the extension 2 Use a thin bladed screwdriver to prise the grey front cover the console covering the measurement connector hardware gently from the bottom of the extension Position the screwdriver inthe small sis provided for his purpose The front cover then clicks away from the extension Remove the front cover Removing the Extension Bottom Cover To remove the Extensi
149. lue is not within the tolerance limits there is a leakage berween the FilteLine inlet and the pump inler 5 Check the FilterLine connections and open the M3015A to check the tubing connections at the pump inler and the M3015A gas inlet If the connections are good try replacing the FilterLine and repeating che leakage check If the situation remains there is a leakage in the rubing and the M3015A must be exchanged Pump Check 1o Connect the flowmeter inlet to the M3015A gas outlet 2 Connect the FikerLine to the M3015A inlet Block the inlet of the FikerLine using your fingertip and observe the cell pressure on the M3046A display The cell pressure lt 4 should be more han 120 mmHg below the ambient pressure shown IF the pressure diflerence is less than 120 mmHg the pump is not strong enough and you should replace i irrespective of the Pump OpTime Flow Rate Check and Calibration Check che How rate in the sidestream CO extension as follows 1 Connect the flowmeter to the CO FikterLine 2 Check on the flowmeter the How thar the sidestream CO extension pump draws x5 It should be 50 ml min 7 5 ml min If the value is within tolerance proceed to the CO Gas calibration check If che value is not within tolerance calibrate as follows Adjust rhe How in the instrument by selecting Increase Flow or Decrease Flow until it is as close as possible o 50 ml per minute as indicated on the Bowmeter gauge 4 When you are satisfied
150. mation referto the Revision Info column of the Gas Analyzer Diagnostic window ast Zara Gal Don Diagnostic Infe 20 nar 02 163 56 Oe eentptictotts Oe Figure 45 Gas Analyzer Diagnostic Window This window gives such information as serial number software revision and options configured 204 The second flow chart continues from the first ar the point A Communication Problem T amp onus Communion prem ecu rtm fom de daoa operandi by LED stadi LED and INOP GA ba Y Chek per Check har OW bundle 1190 sale on die monitor Se monitorin Standby ned and chek for loo ances SW chek for cone RS232 a kong and conc MIB Sill ommunicaion ore Check es poper E aa GC ecko prone hil oci ter nir mon Shooting dil Power Supply mm Problem Checks fed Troubleshoot original check al lera IntelliVue monitor cables for damage if har does not hel rela he moon Figure 46 Troubleshooting Communication Problems The third flow chart continues from the first from the point B Measurement type Problem No Nor T Y Y o Ta aa Y Y Graiis Eram D tnr om e inl sad ashor donnes Check on IntelliVue if Check on IntelliVue if Repl
151. mation Center Data Provider System Service All data thar is acquired from measurement servers or external measurement devices is temporarily stored by a dedicated data provider system service All monitor applications use this central service to access the data in a consistent and synchronized way rather than talking to the interfaces directly This service makes the applicatione independent of the actual of data acquisition device The amount of data stored in the data provider system service varies for the different data types for example several seconds of wave forms and the fll set of current numerical values are remorarily stored in RAM ersistent Data Storage System Service Some applications require storage of data over longer periods of time They can use the persistent data storage system service Dependent on the application requirements this service can store data ether in batery backed up buffered memory or in fash memory The buffered memory will ose its contents if the monitor is without power not connected ro mains for an extended period of time The fash memory docs not lose its contents The trend application for example stores vital signs data in a combination of flash memory and buffered memory while the system configuration information profiles is kept purely in ash memory Display and User Interface Service Applications can high level commands display monitoring data or starus and command windo
152. mbly head checks heck whether Service Note M1026A 035 038 applies Remove sample cell Gee Chapter 7 and vial check se if i contaminated inside of the should be smooth and sing Perform flow and Span gas calibration Gin order vo ore new reference values Using a voltmeter check the IR source voltage as follows Connect the voltmeter ground to TPL Measure TP6 voltage should be 7 87V 20mV voltage is within limits proceed to he nex check Inox adjust the potentiometer R178 to the required value If he adjustment is possible replace the measurement assembly head Power off Connect a replacement head with the ribbon cable and reconnec he tubing Tum power back on and see ifthe Meas still shows Problem Ifthe message is pone replace the head If che problem persists continue checking Defective power supply Carry the checks for the power supply Defective cables Check the cables connecting the measurement head and the main PC board for signs of damage or wear Check the connectors for damaged or loose connections If any defects are apparent replace the cable Defective main PC Ifthe checks above do nor solve the problem board replace che main PC board Agent ID Assmebly Diagnostic Checks Wrong Agent Check for correct Agen ID revision in AG sofware revision Revision window item Agt 1D SW IF necessary replace AgentID EPROM Defecti
153. mote Device MRUZATHES M8086 61004 3m Monitor to Remote Device MBO22A HFG to Remote Device IMBOZATHE Ma086 61006 15m Monitor to Remote Devices MOMA FHES Ma086 61007 2m Manitor to Remote Device Both ends are terminated with suigh MDR connectors Built on demand Remote Extension Device Space Requi Cabling Options and Conduit Size Requirements jirements Size WxDxH 103mm x 139mm x 63 mm 4 x 5573257 Weight lt 400 g 0 9 Ib The following table describes the cabling options for the M8026A Remote Extension Device 163 Table 10 M8026A Remote Input Extension Device Cables MBO22A HF2 M3086 61003 1 5m Monitor to Remote not yer available nor yer available Device MBUZATHES Ma086 G1004 3m Monitor to Remote Device MBUZATHEG M8086 61005 10m Monitor to Remote Device MBUZATHE M8086 61006 15m Monitor to Remote Device MEGZATHES Ma086 61007 25m Manitor co Remote Device Both ends are terminated with saighe MDR connectors Built on demand Input Devices The following tables describes the input devices which can be connected to the Remote Extension Device M8024A or directly to the MPGO MP70 monitor Table M8024A Input Devices Mouse Wired Mouse Wireless Mouse Trackball Msozzasco Wired Trackball Msozza co2 Wireless Trackball Local Printer Sce printer
154. mponent Following Reassembly Once you have reassembled the Instrument you must perform a safety and performance check on the Instrument Refer to Testing and Maintenance 14 6 Parts This section lists the replacement and exchange pars for the following Philips IntelliVue Patient Monitoring System components MPGO MP70 Parts Flexible Module Server Parts Mul Measurement Server Parts Measurement Server Extension Parts M3015A and M3016A Plugin Modules Part Numbers Exernal Display Pare Numbers Remote Input Devices Part Numbers Remote Alarm Device Pare Numbers Remote Extension Device Part Numbers ns MP60 MP70 Parts NOTE For parc numbers of interconnecting cables please consult che Ste Preparation and Installation Instructions sections Exchange Parts M4046 60001 ACIDC Power Supply Mso50 68401 Ms050 66401 Main Board 860 50 2 Mso71 68011 Mso71 67011 Video Analog only FPDL 5 4046 68511 M os6 62311 Integrated Module loc 4 Assembly Msos1 68001 Mgos1 67001 VF Dual MIB ala 2 65001 Mgos2 67001 UE Centronics Msos6 67001 I F HIE Integral PS 2 3087 68001 67001 IF Flexible Alarm Rely Msos0 68001 Mgos0 67001 VE SRLINGN Wireless teady 8 E Msos0 67011 F SRUNGN s n Ms064 68401 6700 IVE ECG Our Ms064 66401 Carrier SRL 2 Sie 10 Replacement Parts M8
155. n Setup menu and selecting Gas Analyzer or by pressing the setup key on the Anesthetic Gas Module Gas Analyzer Diagnostic 3748007564 21 01 hours last Zero Cal Bono Ae Diagnostic Info 20 Hor 02 15 35 56 i 4 Ok I 03 reasopeterath the ess esr no se matti w sem ns 20 Dk Inot D Sis 06 Power Supply Problem Iroc m Option 3 Pneumatic Sys Proben lo meets 2 per Temp Oke Figure 38 Gas Analyzer Diagnostic Window This window provides you with diagnostic information abour the AGM In the Setup Gas Analyzer menu select Service Window then select Calibration to acces this window Gas Analyzer Calibration 3748007187 C 21 01 Fros Normat Flow cat Stored rast Zero Cal Done AE pe 02 15154421 fReasured Value Span Gol Status Zero Cal Statua Press 707 0 milo Rejected Passed l amx Passed to o oo x rejected Passed Mo 0 20 Done Passed Subse 0 01 Ongoing Warmup Tiner 13 nin Figure 39 Gas Analyzer Calibration window This window provides you with information about all calibrations that can be performed on the Anesthetic Gas Module In the Setup Gas Analyzer menu select Service Window then select Diagnostic to access this window When and how to check the Philips M1026A Anesthetic Gas Module ensure chat the Philips M1026A Anesthetic Gas Module operates with the specified lim
156. n the end of the tubing and the manifold connectors visible through the purple connector tubing must be less chan 1mm 4 Replace the Nafion tubing connection to the metal bracket Screw on che bacterial filters again matching the red markings 5 the cable clamps to che Nafion tubing if not already attached and screw the cable lamps onto the main PC board Room Air Filter To remove the room air filter refer to Figure 42 1 Using cross tipped screwdriver remove the screw and washer 1 securing the room ai filter s mounting bracket 2 Remove the pneumatic tubing 2 from the underside of the filter 200 Using a flazipped screwdriver pry off che shore section of tubing 4 thar secures the room air fier to its bracket 3 4 Remove the room air filter from its bracket Replacement To replace the room air filter refer to Figure 42 Push the room ai filter into the locating hole provided in its bracket 3 Push on the short section of tubing 4 thar secures the room air filter to its bracket Replace the pneumatic tubing 2 to the underside of the room air filter Taga amped ces he aiia ema leh mounting bracket Pump Filter Figure 43 Removing and Replacing the Pump Filter Removal To remove the pump filter refer to Figure 43 1 Using a cross tipped screwdriver remove the screw securing the pump filter 1 2 Lift the pump fiter and rem
157. ncludes Fitter Power Line 15A 250V Ass Daisy chain power Assy Power entry module Assy Harness AC powered Assy Harness AC power unfiltered black Ass Harness AC power unfiltered white 24 M1026 60122 M1026 60123 M1026 60127 M1026 60133 10260134 M1026 60136 2110 0495 Cable Kir 6 pieces Includes Cable 9 pin power supply to PCB Cable Fla 40 pin 4710 head to PCB Cable 26 pin 4740 head to PCB Cable Fat DB25 o 26 pin RS232 PCB Cable Ft 16 pin O2 PCB to PCB Cable 2 pin with LED Rubber Spacer Ki Main EPROM WT Manifold kie Protector kir Flow Split Test Kit Fuses BERR RE M1026 60144 M16578 Missa M6594 m1660 Equipment The following able lists che numbers for the calibration equipment Calibration procedures are explained in Chapter 4 Electronic Fow meter Sample Tubing Calibration Tube Assembly Calibration Gas Assembly 3 Halocarbon 22 5 CO 40 N0 52 Ta Caliban Gar DOT29M1060 instead 1 1026 60111 Oxygen Sensor lassy with PC board separato assy with PC board 2 60101 Pump assy M1026 60130 Pump assy square shaped u ozs s0110 ExLAgentIDo 1026 60210 Ext Agent ID wtoae 6o130 Pump Kit m1026 60230 Pump Kit ly cannot be order in Japan use Scott Medical Produce 276 Index A
158. ncy of the network driver software The integrated LAN provides deterministic bandwidth llocaion reservation mechanisms so that the real time characteristic of signal data and control data exchange is guaranteed This applies to the data flow from the measurement server to the monitor for example measurement signal data and the dat flow from the monitor toa measurement server for example ro feed data to a recorder module Integrated communication hubs in the monitor and che FMS allow flexible cabling options star topology daisy chaining of serven q o mN S N d um 5 Philips Clinical Network The monitoring system may be connected to the Philips Clinical Network for example to provide central monitoring capabilities or other network services This connection may be through a normal wired connection or through a wireless connection The monitor supports connection of an external off the shelf wireless adapter This allows a simple fed upgrade as well as technology upgrade in future Switching beween wired and wireless is automaticaly triggered by the plugging or unplugging of the cable The Philips Clinical Network protocols function very similarly to the protocols used on the internal LAN Afer configuration the monitoring system sends the digitized parien signals including wave data numerical data and status information onto the network Control data representing user interactions
159. nd the defibrillator to the ECG Sync Output on the monitoring Set the patient simulator to the following configuration HR 100 bpm ECG sinus rhythm Switch the defibrillaror to simulation mode 4 Check thar the marker pulse is displayed before che T wave begins VueLink Tests using VueLink Test Module Use the VueL nk plug in test module M1186 60510 to test M1032A Vuel ink modules Test Procedure You must presclec the test module to ON in Configuration Mode Therefore the test module must be of the devices made available for selection during configuration of the VucLink module Carry out the test itself in monitoring mode For information concerning the configuration of VueLink modules se the M1032A VueLink Module Handbook 1 Plug che VucLink module into the FMS Press the Setup key on the front of the VueLink module Inthe Setup VueLink menu select Device then select Test Module Select Con zm to store the selection and wait for the message Switched ro new device Plug in the test module Connect che modules by plugging one end of the cable part number M1032 61661 into the connector on the front of the VaeLink Module and the other end into the connector on the front of the Test Module 7 Select the wave segment on the screen where you want the waves to appear In the wave menu select Change Wave then select WAVE 8 Select the VueLink SmartKey then select the TEST Plug In pop up key 47
160. nder and again with each board Green Onl Power Swich Board not connected to the check if power switch board is connected Standby LED or main board Red Error LED poner Sick board ei HE Main board dive p Em Red all vernal ales expe AC pem o ana Remove al 70 had pf acces niet Reve Sees Our board Ee SRL board decine foren es eT TT Main bard Mais Rad Eos TED inks eth cone cade ni oe mon bela ct Red enor LED ss oa Safar Fale ir indicates the Operating Mode is Boot download and store the starus log Reload sofware and redone the monitor IF thie fixes the problem e mail the ams log to your local response center Hardware Failure this does nox ec the problem follow instructions under Red Error LED stays on continuously Aum LEDs Cheek for INOPS and follow instructions remain of Alem LED board is defective Exchange Alarm LED board Main board defective Exchange Main board No Terr Sound heck for and follow instructions Speaker defective exchange speaker Main Board defective exchange main board Integrated Display is blank Integrated display is Display brightness reduced Instrume
161. nections If any defects are apparent replace the cable Defective power supply Carry the checks for the power supply Defective main PC Ifthe checks above do nor solve the problem board replace main PC board 218 Optical Path Disgnostic Checks MeasOpeicPuth shows Problem Remove the sample cell and visually check see iit is contaminated The inside of the ell should be smooth and shiny IF not replace the sample el Wait after the fist Zero Calibration to see whether the problem disappears F problems cleared afer warm up but were present during warm up ler the AGM run for at least 90 minute after Power On to allow the uni to reach the 90 minutes zero Thisisa special zero calibration where new bero constants for the nexe warm up phase are stored This prevents that problems are Ragged during the next warm up phase Defective IR Carry out the checks for the IR measurement measurement assembly assembly head With the replacement head head connected check thar Optical Path problem is no longer flagged IF the problem is gone Juse a new head If not continue checks as described below Defective power supply Carry the checks for the power supply Defective main PC fehe checks above do nor solve che problem board replace main PC board 219 IR Measurement Assembly Diagnostic Checks Meas Assy shows Problem Do the following IR measurement asse
162. nring plate NOTE The installation procedure is the same for connector boxes This means you must perform steps 3 o B ofthis procedure wie The connectors on cach box are different so you must ensure thar the correct box is placed at the correct location The symbol on the plastic angled cover indicates at which site you should neal the tox Symbol CK is connector box in and must be placed ar the monitor site Symbol C is connector ut and must be placed at the measurement server sie The correct connector cable M3081 60601 M3081 60602 or M3081 60603 has the opposite symbol Tonnetor Box in Cabe Connector Box ou Symbols on Calle At Monitor Site Conecir At Measurement Server Site there are no symbols on the cover dots are used te ttandecse 2 Detach the PCB assembly in out from che metallic mounting fange Use the Insertion Tool M3086 43801 to position each wire on the PCB according the wiring schematic in Figure 23 where each color corresponds to a number 144 NOTE The Insertion Tool should be set to cutting mode amp on NOTE Figure 23 Connections for BIS Module 4 Use a small screwdriver to connect the two drain wires to the PCB se the wiring schematic in Figure 23 Slide the PCB back on to the metallic mounting fange Use screws to fasten the mounting lan
163. nt 259
164. nt should be placed in an or brightness is when room temperature ot environment that does nor exceed 40 reduced instruments placed near patent degrees Cor below 5 degrees C The information listed monitor causes the monitor in dis cable is only valid display o overhear EB IF you have an external XGA display connect it the video pore Ihe See Boot Phase Failures extemal display works you can able for a description of minae the Video UF board and the the Boor phase ain board as the cause of filare Flac Pind cable nor cable connection af Fla Panel connected aper Board to Video Board Bacllighr Invener Cable nor Check cable connection of Flat Panel connected Adap erBoard to Backlight Inverter Board delcie Replace baci ver BackigheInverer board IF backlight rubes have already been defective replaced replace backlight inventer oar Panel Adapter board defective Replace adaprer board LED Fia Replace LCD Fa panel Vides boani defective Replace video board Main board defective Replace main board a Integrated Touch Display not functioning Touch Screen nor Touch controller cable nor Check connection from the touch functioning connected contrller board to the main board Touch panel cable nor connected Check connection from wuch controller board to touch panel Touch controller board defective Replace touch co
165. ntroller board Linearization data must be loaded and reclibaed after replacing the ouch controller board Touch Sensor dete Replace Touch Sensor Main board defective Replace main board Touch Position invalid Touch nor calibrated Perform touch calibracion 1 Enver the Main Setup Menu 2 Select Monitor Select Hardware 4 Select Touch Driver Seinge 5 Select Calibrate External Display is blank Extema Display is blank integrated display is also blank proceed Video cable to extemal display Check video cable connection wo extemal nor connected display Estema display has no power Check electricity supply of exeral display display is defective Check external display and video cable Jon another monitor or PC Video board deae Replace video baord Main board defective Replace main board External Touch Display not functioning Touch Screen nor External Tocuh cable nor connected Check cable connection from functioning external touch to MIB board Touch driver configuration Check RS232 MIB configuration Enter Main Serup menu 2 Select Monitor 3 Select Hardware 4 Reconfigure RS232 MIB 5 if problem persists proceed to the ext seep MIB Board defective Replace MIB board External ouch defective Replace external vouch Main board Replace Main board Touch position invalid Touch nor calibrated Perform ouc
166. nvironment of the proposed installation sie System Capabilities Explaining the possibilities for system expansion Mounting Referencing the mounting hardware information website for the listing of suitable mounting hardware recommended for use with the various system components and all deals on the available mounts and accessories Cabling Identifying the requirements for the cabling conduiting and faceplates for connecting the various system components Roles amp Responsibilities This section describes the procedures necessary to prepare a site for a system installation The procedures are grouped into two parts procedures that local staff or contractors are responsible fr and procedures that Philips personnel are responsible for Site Preparation Responsibilities Local Staff Ensure that all environmental and power requirements are met Provide power outlets 153 Prepare mounts Pull ables install conduit install wallboxes Terminate network cables ifa Philips Clinical Nerwork i n use lt may be necessary certify the network cable plant see Philips Clinical Nerwork Installation Manual for deals Philips Personnel Provide the customer with the safety environmental and power requirements Assemble mounts Prepare monitor remote cabling Procedures for Local Staff The following tasks must be completed before the procedures for Philips personnel may be started Providing Power Outle
167. oks Removing Power Switch board 1 Separate the rwo halves of the monitor as decribed in Separating te front and back half af the 2 Pall out che power switch connector on the tab Remove che power switch board including its cover by pressing he plastic spring to the right using aat screwdriver Removing the Backlights 1 Remove the two screws that hold the backlight assemblies in place 2 Remove the cables from the backlight inverter board and slide the backlight assemblies gently out of the side Backl d InvertaiB oar d 2 lacklight Locations Further Disassembly Exchanging the Touchscreen CAUTION This procedure must be performed in a dust free environment 1 Separate the rwo monitor halves as described in Separating the front and back half of the monitor 2 Unplug the cable from the touch controller board to the touch panel and remove the six screws that hold che plastic bezel with a T10 screw Release the snaps on the side and pull off the display assembly from che panel Reassembly Notes You must replace the touch panel and touch controller board together The monitor will not operate if they do not match Orient the touch panel assembly to the LCD assembly and fed the ribbon connector upwards when reassembling Exchanging the LCD Assembly 1 Pull off the LCD panel display adapter CAUTION Do not touch the LCD Panel 2 Remove the backlight rube cables Rem
168. oles on the IR measurement mounting bracket 2 Using a cross tipped screwdriver replace the rwo screws and washers 3 securing the pump to the IR measurement mounting bracket Replace the connection 2 the main PC board o the de pump connector 4 Replace the pneumatic connections 1 and or 4 to che pump Check that all tubing is tightly connected and show no signs of damage 252 NOTE Afer replacing the pump check thar all flat cable connectors are firmly seated and show signs of damage 5 Replace the top cover of the module Now perform the performance checks described in the Test and Inspection Matrix on page 262 and reser the pump hours To reset pump hours select Reset Pump Hours from the Setup Gas Analyzer menu in the monitor s service made Confirm when prompted TT Figure 75 Replacing the Pump Fan Removal To remove the fan refer to Figure 76 and Figure 77 1 Ensure thatthe Anesthetic Gas Module is switched off and isolated from the mains power supply Remove the top cover of the module 2 Remove the power connector 1 from the main PC board Pry the twisted pair supplying power from the fan out of the cable clip 2 Using a cross tipped screwdriver remove the four screws and washers 3 securing the fan and the grill to the back panel of the module 5 Remove the fan and connecting cable from the module 253 Replacement To replace the fan refer Figure 76 and Figure 77 1 Ensu
169. on bottom cover do the following 1 Position the extension on the dual link bar with the measurement connector hardware facing upwards and the arm of the dual link bar towards you There are four long mounting pins threaded into the extension in each of the four corners under the cover Locate the heads of the wo long mounting pins on the side away from you 2 Use tweezers to prise the pins gently enough to be removed by hand Remove the rwo pins and se them aside for refining NOTE Do nor lose these long mounting pins since the Extension will not function unless they are in place 4 Using your hands gently pry che bottom cover away from the Extension at the link bar end first The bottom cover is pres larched ar the link bar end Remove it gently making sure not to bang or touch the inside of the Extension NOTE Ifyou accidentally to remove the wrong side of the bortom cover you will notice that i is atached to the inside of the Extension with ribbon connector and thar the dual link bar prevents you from removing it completely Do not try to forcibly remove the wrong side of the M3015A cover you cannot access replaceable pars from this side The following illustration shows the location of the replaceable parts in che M3015A Measurement Server Extension Removing the CO Scrubber To remove the CO Scrubber do the following 1 Locate the CO Scrubber in the Extension m 2 Being careful nor to touch
170. op up keys overlay the SmartKeys Clear StatLog This key clears the currently displayed Status Log Revision This key switches to the Revision Screen of che currently displayed system component This key switches to the Monitor Revision Window This key switches to the Flexible Module Server FMS Revision Window m3001 This key switches to the Multi Measurement Server MMS Revision Window fan event occurs repeatedly contact your Philips Service Representative leis possible using the support rool to download the starus log and send it to your Philips Service Representative as a file for example via e mail Troubleshooting with the Support Tool Using the support tool you can access the full starus log which can be saved as a file reload sofware reset touch sereen calibration For details on how to perform these tasks see the Support Tool User Manual Troubleshooting the Individual Measurements or Applications Forproblems isolated toan individual parameter or pplication such as even review please consul the for Use and configaraion formation Ifthe instructions for use did noc resolve an individual parameter problem then another module or measurement server should be cried Ifyou are geting questionable readings for individual measurements you may want to do the Performance Verification tests in the Tang and Maintenance section The performance of the individual a
171. or the transfer procedure are also included with the Removal To remove the IR measurement assembly head refer to Figure 60 and Figure 61 1 Remove the flat cable 1 connector from the main PC board 2 Remove the pneumatic connections 2 from the sample cell which are located on top of the IR measurement assembly head Remove the pressure transducer connection 3 located on the side of the IR measurement assembly head 236 4 Stand the IR measurement mounting bracket on end refer to Lifting the IR Measurement Mounting Bracket on page 233 55 Using a cross tipped screwdriver remove the 3 screws 4 securing the IR measurement assembly head to the IR measurement mounting bracket 6 Remove the IR measurement assembly head carefully from the IR measurement mounting bracket Replacement To replace che IR measurement assembly head refer to Figure 60 and Figure 61 1 Place the IR measurement assembly head in the IR measurement mounting bracket so that the threaded bores on the head align with their corresponding locating holes on the IR measurement mounting bracket 20 Using a cros tipped screwdriver replace the three screws 4 securing the IR measurement assembly head to che IR measurement mounting bracket 35 Replace the IR measurement mounting bracket refer to Lifting the IR Measurement Mounting Bracket on page 233 4 Replace the transducer reference connection 3 located on the side of he IR measurement
172. ove LCD panel by unscrewing che wo special screws on the top and che rwo regular screws on the bottom with T10 screwdriver 5 Repair and Disassembly Tools Required Removing Power Supply 1 Remove the cable management cover and the white plastic cover as described in Removing the HO Boards 2 Remove the top cover on the back of the monitor Ir snaps off in two pieces the middle one first Lay the monitor face down with the top facing towards you 4 Unplug the multicolored power supply cable 6 Shift che power supply towards the top of che monitor and lift it off Reassembly Note When reassembling you must shift the power supply into place towards the bottom ofthe monitor reverse motion to step 6 above Removing the Speaker 1 Unplug the speaker cable Removing the ECG Out Board with an SRL2 Board plugged 1 Remove the screws on the SRL2 board and unplug the cable to the main board and remove the board You cannot unplug and remove che SRL2 cable completly from the main board until you remove the ECG Out board Reassembly Note The component side faces the ECG Out board The board sits outside the sheer Plug in the cable first 100 Toots Required 5 Repair and Disassembly Removing the Video Board 1 Remove the three screws and unplug the video board connector from the main board Captive Screw Closeup 2 Pull up the board and slide it our Removing the Main Board 1 Unplug the c
173. ove the pneumatic tubing from the pump exhaust 2 3 Press che filter of its plastic clip and remove the rubing from the underside of the pump filter 9 Replacement To replace che pump fiter refer to Figure 43 1 Connect the open tubing end that comes with the filter to the pump exhaust 2 Ensure thar the elbow connector on the pump filter is connected to the pump exhaust 2 Replace the pump fiter and secure with the screw 1 Pass the tubing through the clip and connect it to the underside of the filter and slide che pump fiter into its plastic clip 3 4 Replace the top cover of the module Performance Checks Sce Test and Inspection Matri Other factors to maximize uptime or reduce cost of ownership Electromechanical devices in general have limited life expectancies and failure rates higher than devices wich only electronic components Thus lower cost electromechanical devices such as pumps and solenoids should be pro actively considered for replacement We recommend exchanging the pump M1026 60330 after 6000 hours Changing the solenoids after 3000 hours will also maximize AGM uptime Any change in recommended exchange intervals will be communicated via Service Notes 202 Os ott Troubleshooting the Anesthetic Gas Module This chapter provides a recommended procedure for locating and identifying faults on the Philips MI026A Anesthetic Gas Module Je details how to proceed when hardware
174. owering off the monitor mid way If the monitor is powered off afer che first point is touched the touch panel will be deactivated until the touch calibration is performed again the touchscreen is accidentally mis clibratd by selecting the wrong spot you must use another input device to re enter calibration mode If you have the support tool you can select Reset Touch Calibration to Default and it will create a rough calibration which will allow you to access the calibration menu again via the touchscreen 52 4 Troubleshooting Introduction This section explains how to troubleshoot the monitor if problems arise Links to tables that list possible monitor difficulties are supplied along with probable causes and recommended actions ro correct the difficulty How To Use This Section Use this section in conjunction with the sections Testing and Maintenance and Pare To remove and replace a part you suspect is defective follow the instructions in the section Repair and Disassembly The Theory of Operation section offers information on how rhe monitor functions Who Should Perform Repairs Only qualified service personnel should open the monitor housing remove and replace components or make adjustments If your medical facility does not have qualified service personnel contact Phil Response Center your local Philips representative WARNING High Voltage Voltages dangerous to life are present in the instrument w
175. oximately 20 mmHg lower than ambient pressure 4 Connect the flowmeter outlet to the FilterLine inlet using a flexible connecting ube 5 Block the measurement server extension outlet using your fingertip and observe che flowmeter display The value on che flowmeter x2 should decrease to between 0 and 4 ml min accompanied by an audible increase in pump noise If the value is within the tolerance limi continue with part 2 of che leakage check 6 If che value is outside the tolerance limits there is a leakage between the pump outlet and measurement server extension gas outlet 7 Open the measurement server extension and check che tubing connections at the pump outlet and the extension gas outlet If the connections are good then there is a leakage in the rubing and you must exchange the measurement server extension Part2 1 Disconnect the flowmeter from the Part 1 setup and connect the flowmeter inlet to the M3015A gos ourlet 2 Leave the Filterline connected to M3015A inlet Block the inlet of the FilterLine using your fingertip and observe the flowmeter display The value on the flowmeter x3 should decrease ro between 0 and 4 ml min accompanied by an audible increase in pump noise Do not block the inlet for longer than 25 seconds as this will lead to an Occlusion If the value is within the tolerance limits here are no leakages and the leakage check is completed proceed to the pump check 4 Ifthe va
176. pace Requirements Muli Measurement Server M3001A 159 Space Requirements Flexible Module Server MBO4BA 159 Environmental Requirements Multi Messurement Server M3001A 159 Environmental Requiremens Flexible Module Server MBO48A 159 Cabling Options and Conduit Size Requirements 160 Remote Displays M8031A 161 Space Requirements 161 Environmental Requirements 161 lexical and Safety Requirements 161 Cabling Options and Conduit Size Requirements 161 Remote Alarm Devices 163 Space Requirements 163 Cabling Options and Conduit Size Requirements 163 Remote Extension Device 163 Space Requirements 163 Cabling Options and Conduit Size Requirements 163 Input Devices 164 Local Printer 164 Philips Medical LAN 164 MIB Interface 165 Flexible Nurse Call Relay Interface 165 ECG Out Interface 166 9 Anesthetic Gas Module 167 Introduction 167 Description 167 Product Structure 167 Physical Specifications 167 Environmental Specifications 168 Performance Specifications 168 CO2 Measurement 19 derived from CO2 Waveform m N20 Measurement 02 Measurement 169 Alum Delay 170 Apnea Alam 170 INOP Alarms 170 General Measurement Principles m Theory of Operation m Main PC Board 172 Power Supply 172 Pneumatic System m Pump 173 Wace 174 Sample Flow Through the Pneumatic Path 174 Agent Identification Assembly 175 Measurement Principle 175 O2 Sensor 176 Specifications 176 Measurement Principle 176 Infrared Measurement Assembl
177. ped pump do clean the new type round pump IF the pump fails the test replace ir IR measurement head Check our IR measurement head Replace if problem necessary Agent ID problem Check out Agenc ID Replace if necessary Zero calibration Flowrate problem Perform leakage check If problem still persists perfor flowrate check Oz Span problem Perform a Zero calibration followed by a Span calibration Check thar che Span calibration is within the accepted tolerance If not repeat the Zero and Span calibration one more time sensor problem IF calibration still ls perform the O check for defective sensor as described above Ifthe Oz check ils replace he sensor CET iho Failed o N 0 Cos pen Jaga accion or Check proper eton of Agen and Check the lt lt Checkin Peres Wrong gas applied Check the label on the gas canister Calibration reservoir bag Check thar there is enough gas available enpy or calibration gas canister Measurement assembly Check the Gas Analyzer Disgnostiewindow for problem Measurement assembly problem Ifa problem s flagged follow corrective actions as described in he troubleshooting tables After that or if no problem was flagged rerum to the Gas Analyzer Calibration window Ifthe filed starus is sill shown against Span Cal
178. pplications vent review arrhythmia trending are affected by the configuration of the monitor When contacting Philips support you may be asked abour the configuration of the monitor to aid in troubleshooting 85 Repair and Disassembly The following section describes the disassembly and reassembly procedures for the monitor and its components Tools Required Torx screwdrivers sizes 6 1020 5 16 Smm Allen Wrench 2 Small flar head screwdrivers Needle Nose Plas ESD mar and wrist strap smal Pozi or Philips head serewdriver Minimal Monitor Disassembly Disconnecting the SpeedPoint 1 Remove the cable management cover by sliding the upper pin down and che lower pin up with a P 7 2 Remove the two large screws with a T20 screwdriver Disconnect the SpeedPoint cable and pull off the SpeedPoine Toole Required 5 Repair and Disassembly Removing the I O Boards 1 Remove the cable management cover as described in Dsconmecting the 2 Remove the four small screws with a T10 screwdriver and take of the white plastic cover Reassembly Note You must place the MSL LAN board in the bottom slot For correct placement of the boards see Boards in che Theory of Operation section Removing the ECG Out board if no SRL2 board is plugged For instructions on removing the ECG Out board when an SRL2 board is plugged see Removing the ECG Out Board with an SRL Board plugged 1 Remove the mounting p
179. provide additional system functionality over the basic measurement and monitoring capabilities This includes for example trending report generating event storage or derived 1 general che monitor applications use data provider system service ro access the measurement dara Application interfaces to the other system services allow the application visualize data to store dara over extended periods of time or to output data to other devices Internal LAN Measurement Server Link All components of the monitoring system including measurement serves and CPUs in the monitor communicate using an IEEES02 3 Ethernet LAN in the Measurement Server Link MSL This network is used to distribute data berween the component for example Digitized paient signals including wave dara numerical data and status information typically from the measurement server to display unit Control data representing user interactions rypially from the display unit to measurement server Shared data seructures for example representing patient demographical data and global configuration items The intemal LAN allows plug and play configuration of the monitoring system The system detects plugging or unplugging of measurement servers and configures the system accordingly The components on the internal LAN are time synchronized to keep signal data consistent in the system Dedicated hardware support for synchronization eliminates any late
180. r connections Connect the single rubing to the outlet middle connection Check thar tubing is tightly connected and show no signs of damage NOTE After replacing the sensor and where applicable controlling PC board check thar all fat cable connectors are firmly seated and show no signs of damage 6 Replace the top cover of the module Now perform the performance checks described inthe Test and Inspection Matrix on page 262 Figure 72 Layout showing sensor with Integrated PC Board Span Adjustment Fi ro Adjustment Figure 73 Location of Adjustment Potentiometers on Sensor with Integrated PC Board Agent Identification Head Removal To remove the agent ID head refer to Figure 74 1 Ensure that the module is switched off and isolated from the mains power supply Remove the top cover of the module Remove the flat cable connection 1 from the AgentID Remove the 3 pneumatic connections 2 from the side of the agent ID head Using a cros tipped screwdriver remove the 4 screws 3 securing che agent ID head to the IR measurement mounting bracket 5 Carefully remove the agent ID head from the module Replacement To replace the agent ID head refer to Figure 74 1 Place the agent ID head onto the IR measurement un
181. rder see the Pare section for the pare number The procedure is summarized in the following steps Refer o the documentation accompanying the equipment for detailed instructions Tools Required Standard tools such as screwdriver tweezers Electronic flowmeter M1026 60144 Gas calibration equipment Cal 1 gas 15210 64010 5 CO3 Cal 2 gas 15210 64020 10 Cal gas flow regulator M2267A Cal tube 13907A You also need local barometric pressure rating received from a reliable local source airport regional weather station or hospital weather station which is located at the same altitude as the hospital The CO calibration for the sidestream extension consists of the following steps Barometric pressure check and calibration if required Leakage check Pump check Flow check and calibration if required Noise check CO Cal check and calibration if required CO Cal verification using 2nd cal gas Perform all checks in the same sesion Barometric Pressure Check and Calibration Check the barometric pressure value in the sidestream CO extension as follows 1 Go into service mode and select Setup menu 2 Connect a FilterLine to the sidestream CO input This activates the pump in the sidestream CO Extension The starus line ar the bottom of the screen displays CO pressure reading ambient cell where xxx is the ambient pressure and yyy is the measured cell pressure
182. re 55 Sliding Off the Top Cover of the Anesthetic Gas Module E Figure 57 Main PC Board Connector to the Top Cover of the Anesthetic Gas Module 232 Lifting the IR Measurement Mounting Bracket Several ofthe field replaceable subassemblies are mounted on the IR measurement mounting bracket which isa subassembly of the Anesthetic Gas Module as shown in Figure 58 The IR assembly mounting bracket must frst be lifted and stood on end before any of the following units can be removed or replaced IR measurement assembly and sample cell Solenoid valve 1 Removal To lift che IR Measurement mounting bracket refer to Figure 58 and Figure 59 1 Ensure that the module is switched off and isolated from the mains power supply Remove the top cover of the module 2 Remove che cables from the cable dip Remove che connection from the gas exhaust 1 Using a cros tipped screwdriver remove the four screws and lock washers 2 securing the IR Measurement mounting bracket to the module 5 Lift che IR Measurement mounting bracket and stand i carefully on its end so thar the ribbon cables are the bottom The securing screws on the underside are now accessible as shown in Figure 59 Replacement To replace the IR Measurement mounting bracket refer to Figure 58 and Figure 59 1 Ensure that the module is switched off and isolated from the mains power supply 2 Lay the IR Measu
183. re that the Module is switched off and isolated from the mains power supply Replace the fan and connecting cable 2 Replace the four screws and washers 3 that secure the fan into the back panel of the module 35 Snap che twisted pair from the fan into the cable clip 2 securing che twisted pairs char connect the IR measurement head with the main PC board 4 Replace the connector 1 ro the main PC board 5 Replace the top cover of the module Now perform the performance checks described in the Test and Inspection Matrix on page 262 Figure 76 Removing the Fan Cabling 254 Solenoid Valve 2 Removal To remove solenoid valve 2 refer to Figure 78 1 Ensure that the Module is switched off and isolated from the mains power supply Remove the top cover of the module Remove the pneumatic tubing 1 from solenoid valve 2 Remove the connection 2 from the main PC board Using a cros tipped screwdriver remove the two screws 3 securing the solenoid valve to its bracket 5 Remove solenoid valve 2 Replacement To replace solenoid valve 2 refer to Figure 78 1 Ensure that the Module is switched off and isolated from the mains power supply 2 Position the solenoid valve on its bracket so that the locating holes on the valve align with threaded boresin the bracket Using a cros tipped screwdriver replace he rwo screws 3 securing the solenoid valve to its bracket Replace the connection 2 to
184. red below All components of the monitoring system are consolidated into a single packing cate The contents of this cate depend on the options you have purchased In addition to the monitor it can contain the following MMS and user manuals EMS Parameter modules Measurement server extensions and accessories Ba Montar Paciagng Figure 16 Accessory and Monitor Packaging Accessory Packaging 1 the unlikely event of a defect on arrival please keep the packing materials until you have completed the initial inspection 135 Initial Inspection Mechanical Inspection Open the shipping container and examine cach part of the instrument for visible damage such as broken connectors controls or scratches on the equipment surfaces IF the shipping carton container is undamaged check the cushioning material and note any signs of severe stress as an indication of rough handling in transit This may be necessary to support daims for hidden damage thar may only become apparent during subsequent testing Electrical Inspection The instrument has undergone extensive testing prior to shipment Ir is not required but itis recommended that you perform the patient safety checks before the instrument is used for patient monitoring An extensive self check may also be performed This recommendation docs not supercede local requirements Aleta denied inthe Totg ed Maitena ction of hi manta Claims For Damage and Repackaging
185. rement mounting bracket carefully onto its 4 spacers so thar the locating holes are aligned with the threaded bores Make sure thar dampener 3 cable clamp 4 and bracker with flow restrictor 5 in place Using a cross tipped screwdriver Bt the four screws and lock washers 2 securing the IR Measurement mounting bracket to the module 4 Reconnect the pneumatic tubing to the gas exhaust 1 5 Replace the power connection to the pump where applicable and secure the cables with the clip 6 Replace the top cover of the module NOTE After replacing the IR Measurement mounting bracket check that all flat cable connectors are firmly seated and show no signs of damage EI Figure 58 Lifting the IR Measurement Mounting Bracket IR Measurement Head 7 3 Figure 59 Underside of the IR Measurement Mounting Bracket Infrared Measurement Assembly Head Transferring NVRAM Data to a Replacement Head When you replace an IR measurement head you need to transfer its data to the replacement head The daca is stored in non volatile RAM on the head and includes System serial number Pump hours Bow rate limits User span constant for all channels User Oz calibration values Oz delay cycles IR source voltage The NVRAM transfer board NTB reads data from the old head and transfers t to the replacement head The NTB is included with e
186. representative The numbers correspond to the illustration which follows M3015 44131 M30154 Front Bezel English also for French JIA Danish Traditional Chinese and Simplified Chinese M3015 44133 M3015A Front Bezel German Nor Shown M3015 44134 M30154 Front Bezel Durch Nor Shown M3015 44135 M30154 Fron Bezel Spanish Nor Shown M3015 44136 M3015A Fron Bezel Ilian Nor Shown M3015 44137 30154 Front Bezel Norwegian Nor Shown M3015 44138 M30154 Front Bezel Swedish Nor Shown M3015 44139 M30154 Front Bezel Finnish Nor Shown M3015 44140 M30154 Front Bezel Japanese Not Shown M3015 44144 M30154 Front Bezel Portuguese Nor Shown M3015 44145 M30154 Front Bezel Greek Nor Shown M3015 44147 M30154 Fron Bezel Russian Nor Shown M3015 44150 M30154 Front Bezel Polish Nor Shown M3015 29314 M30154 Infrared Lamp Assembly if previous Noe Shown version Infrared Lamp is required please order an exchange Measurement Server Extension M3015 3015 29303 M30154 Pump Kit including CO scrubber Shown Mounting Pin for M3O15A BS m M3016A Front Bezel English also for French Noe Shown Danish Traditional Chinese and Simplified Chinese M3016 44133 M3016A Front Bezel German Nor Shown M3016 44134 M3016A Front Bezel Dutch Nor Shown M3016 44135 M3016A Front Bezel Spanish Nor Shown M3016 44136 M3016A Front Bezel Italian Nor Shown M3016 44137 M3016A Front Bezel Norwegian Not Sho
187. res Exchange power supply if defective Integrated Module Sor defective Disconnect Integrated Module Sor Connector and check again Fa Panel adapter Board defective Disconnect cable of he Far Panel Adapter Board and check again Video Board detective Remove Video Board and check again Main Board defective Exchange Main Board Green Power On Remote Devices Disconnecrall connections remore LED and Red devices and to switch on the monitor Error LED agin remain off afer Power Swich Micro Controller hung Unplug AC Mains and replug afier 10 seconds Try to switch on the monitor again Power switch board nor connected vo the Check if power switch board is connected main board correctly to the main board Power Switch Board defective Exchange Power Switch BOard and uy to switch the monitor on again IO Board defective Remove all VO boards and try co switch the again Touch controller defective Disconnece all cables accesible athe Flas Panel Adapter Board defective boriomof the monitor except Power Switch Board defective SRL2 Board defective touch video ECG Our SRL then switch the monitor on again Measurement Server Mount defective Disconnect Measurement Server Mount and luy again Integrated Module Sor defective Disconner Integrated Module Slor and uy agin Vides Board detective Remove video board and ry again Main Board defective Exchange main board Add boards in reverse o
188. res outlined here only for verifying safe installation or service of che product The serups for these tests and the acceptable ranges of values are derived from local and international standards bur may not be equivalent These tests are no asubstiute for local safety testing where it is required for an instalation or a service event If using the Metron Safety tester perform the tests in accordance with your local regulations for example in Europe TEC60601 1 IEC60601 1 1 and the US use UL2601 1 The Metron Report should print results with the names listed below together wih other dara SQ Pare 1 System Enclosure Leakage Current NC normal condition Lr Expected test results Normal condition maximum leakage current 1 lt 1004A This measures leakage current of exposed metal parts of Instrument under Test IUT and between parts of the system within che patient environment normal and reversed polarity using 52 Safety test according IEC 60601 1 UL2601 1 als Y 5 1 Pare 2 System Enclosure Leakage current a Expected test results Single Fault maximum leakage current 2 lt 500pA IEC 60601 1 lt 300A UL2601 1 This measures leakage current of exposed metal parts of Instrument under Test IUT with Protective Earth PE op
189. rmance Test These tests check the performance of the cardiac output measurement 1 Connect the patient simulator to the module using the patient cable 2 Configure the patient simulator as follows Injection temperature 2 C Computation Const 0 542 Edward s Catheter Flow 5 l min Check displayed value against the simulator configuration Expected test result 5 4l 1 Vmin Service Tool Procedure Version 1 This procedure applies for Service Tool M1012 61601 andlor C O modules without option CIO 1 In monitoring mode connect the interface cable to the module 2 Connect one side ofthe service tool to the injectate receptacle of C O interface cable and the other side to catheter cable receptacle 3 EmertheC 0 Procedure window and check the results The expected test result is Thlood 37 0 C 0 1 C Service Tool Procedure Version 2 This procedure applies only for Service Tool M1012 61601 in combination with C O modules with option C10 1 In monitoring mode connect the interface cable to che module 2 Connect one side of the service tool to the injectate receptacle of the interface cable and the other side to the catheter cable receptacle 3 Ener Setup menu and check results for Method of measurement Catheter constant Thlood 4 EmerC O Procedure window and check results The expected results are Teanspulmonary 341 Thlood 37 0 C 0 1 C BIS Performance Test
190. rocedure for this is described in The Top Cover on page 290 WARNING Switch off che instrument and disconnect from the mains power supply Take standard electrostatic precautions For example a wrist strap connected to electrical ground Figure 52 shows the fild replaceable units for the Anesthetic Gas Module These are Top Cover Infrared IR Measurement Assembly 2 Sample Call Solenoid Valve 1 7 Power Supply Unit 1 Main PC Board 13 Paramagnetic Assembly 11 Agent Identification Head 9 Pump Fan 5 Solenoid Valve 2 10 Top Cover PC Board 15 PM Kit comprising Room Air Filter 6 Nafon Tubing and internal bacterial flers 12 Watertrap manifold seals Pump Filer 4 Refer to Chapter 5 for removal and replacement details Watererap Manifold and Protector Power fases m Figure 52 Main Subassemblies of the Anesthetic Gas Module Top Cover ea Wh Figure 53 Main Subassemblies showing paramagnetic sensor with integrated pc board of the Anesthetic Gas Module The Top Cover Removal To remove the top cover refer to Figure 54 and Figure 55 1 Make sure that the module is switched off and isolated from the mains power supply 2 Remove the waterrap from the front of the
191. roubleshoot span calibration IR head and replace if necessary Moi cfi reer Ox Mode ss in Checks ToaccesstheGas Analyzer Calibration window select Gas Analyzer Calibration in the Setup Gas Analyzer menu A Passed Fai 1ed indication is displayed for the Zero and the Span calibrations Refer to the table below for possible causes of Fai 1ed indications and their recommended corrective actions Calibration Checks Troubleshooting Tabl Zero calibration Solenoid or air reference prep UCET pulled inst he oor fer non ft Bes aa ee oe a Eee in monitoring Occluded pneumatics Check for an occlusion such as bent or n frequency pump noise This can indicate that the pump is working to compensare for an internal occlusion Replace watererap ubing en if necessary Flowrate problem Perform leakage check If problem still persists perform flowrate check Flow cansducer Check thar he transducer ports and B on the incorrectly connected to Main PC board are connected to the correct ow restrictor side of he Bow restrictor Pump problem Block the gas inlet por and verif that the pump is driven harder to compensare for the reduction in Perform pump tes provided in the Preventative Maintenance kit Caution The instructions on cleaning apply only o the old aype square sha
192. rounded during operation Class equipment according to TEC 60601 1 Ifa three wire receptacle is not available then the hospital electrician must be consulted to ensure that proper grounding is available on installation NEVER artempt to use a three wire ro adapter with che MPG0 MP70 monitor WARNING Each component mast be individually grounded for safery and interference suppression purposes Electrical Requirements Line Voltage Connection The MP60 MP70 monitor uses lt 145 W 1 6 w 0 7 Line Voltage The MP60 MP70 monitor may be operated on ac line voltage ranges of 100 o 240V 50 60 Remote Device Site Requirements The system can be installed with one or more combinations of the following remote devices Flexible Module Server or Multi Measurement Server Remote Display Remote Alarm Device Remote Extension Device with or without SpeedPoini Where more than one site is used for locating equipment a remote installation the following sections should be considered for EACH device Space Requirements Environmental Requirements 157 Mounting Electrical and Safety Requirements Cabling Options and Conduit Size Requirements Connecting Non Medical Devices The standard IEC 60601 1 1 applies to any combination of medical and non medical devices where ar least one is a medical device WARNING Do not use an external device in the patient vicinity Fit is nor isolated Externa
193. s vs Sensor Specifications Weight 335g 0 75 Ibs Sae HAD 54x54x56mm ero Room Ai Span Suitable calibrated Measurement Principle The sensor uses fast measurement technique that utilizes paramagnetic properties Two sealed spheres forming a dumb bell assembly arc filled with Na The dumb bell assembly is suspended in symmetrical non uniform magnetic field The spheres take up a position away from the most intense part of the field due to the diamagnetic force on the dumbbells The dumb bell assembly is then surrounded by the sample gs When the surrounding sample gas contains the dumb bell spheres are forced even further out of the magnetic field by the relatively stronger paramagnetic O gas The torque acting on the dumb bell is proportional to the paramagnetism of the surrounding gases and can therefore be taken asa measure of the oxygen concentration This torque is measured by monitoring the current required in a servo system that attempts to return the dumb bell to their normal position Infrared Measurement Assembly 176 The measurement assembly measures the IR light absorption of the gases in its sample cell see Figure 3 l TS M Figure 33 Anesthetic Gas Module Measurement Assembly The measurement assembly contains the following subassemblies IR Source Filer Wheel Assembly Sample Cal
194. s Module operates within specifications at ambient temperatures berween 15 C and 40 C minutes after switching it on Ambient temperatures that exceed these limits could affect the accuracy of this instrument and cause damage to the components and circuits Allow at least 2 inches Sem clearance around the instruments for proper cireulation CAUTION IF che Philips M1026A Anesthetic Gas Module has been stored at temperatures below freezing it needs a minimum of 4 hours at room temperature to warm up before any connections are made to it Make sure thatthe Philips M1026A Anesthetic Gas Module is free of condensation before operation Condensation can form when equipment is moved from one building to another thus being exposed to moisture and differences in temperature Label Sheet There is a label sheet included with the Philips M1026A Anesthetic Gas Module which has the translated versions for Airway Gases You can stick a translated version over Airway Gates on the left of the front panel See 1 in Figure 35 Fs Figure 35 Label for the Philips M1026A Anesthetic Gas Module LJ Making Connections to the AGM All connections ro the AGM are made on rear panel Refer to Figure 36 Figure 36 The Rear Panel 1 Local power connector this is a 3 pin connector used to connect the AGM to the local line voltage supply The module can be operated from an ac power source of 100 240 V 10
195. s a checklist of the testing and maintenance procedures for the monitor the MMS the Measurement Server Extensions and the FMS associated modules Preventive Maintenance refers specifically to the series of tests required to make sure the Instrument measurement results are accurate The measurements requiring these reported tests are and sidestream CO The accuracy and performance procedures are designed to be completed when readings are in question or as specified Test Reporting Authorized Philips personnel report test results back to Philips to add to the product development database Hospital personnel however do not need ro report results This table shows you what to record on the service record after completing the tests in this chapter Ter What to record Vio VE Power On POP or POF P NIBP PN PIXIIXZIK3IXA oF PN F XI X2IX3IX4 PCO PCOZPIXIIX2IXIXAIXSIXGIXTIXS or PCOZFIX1IX2IX3IXAIXSIXGIXZIXS Saey EU SQ Pht or SOY Fat S Pht or E Where P chapter F Fail and Xx are the measured values as defined in the tests described in this Recommended Frequency The testing checklist appears in the next section of this chapter Perform the procedures as indicated in the suggested testing timetable These timetable recommendations do not supersede local requirements Suggested Testing Timetable Frequency Preventive Maintenance Tests Required NBP Ca
196. s that have to be performed before using the Philips M1026A Anesthetic Gas Module together with a reminder of the preventive maintenance PM checks and ther frequencies Where post insrallation procedures are specific to installation they are described in full in this chapter For procedures which are also used in other situation for example calibration preventative maintenance etc a reference to description will be given Physical Installation This section describes the operating and storage environment for the Philips M1026A Anesthetic Gas Module affixing the local language labels connecting to the monitor and fitting the gas exhaust renum system CAUTION The Philips M1026A Anesthetic Gas Module must be positioned horizontally on a level surface To avoid condensed water collecting in the patient sample rube it is recommended thar the Philips M1026A Anesthetic Gas Module is positioned at or above patent level wherever posible Environment WARNING Possible explosion hazard if used in the presence of flammable anesthetics The environment where the Philips M1026A Anesthetic Gas Module is used should be free from vibration dust corrosive or explosive gases and extremes of temperature and humidity For a cabinet mounted installation with the monitor allow sufficient room at the front for operation and sufficient room at the rear for servicing with the cabinet access door open The Philips M1026A Anesthetic Ga
197. sereen to select the desired topic Links to other relevant sections are also provided within the individual topics In addition scrolling through the topics with the page up and page down keys is also posible Abbreviations Abbreviations used throughout this guide are Name Abbreviation IntelliVue MPGO MP70 Patent Monitor the monitor Flexible Module Server FMS Mul Measurement Sever MMS Responsibility of the Manufacturer Philips only considers itself responsible for any effects on safety reliability and performance of the equipment if assembly operations extensions re adjastmenes modifications or repairs are carried out by persons authorized by Philips and the installation of the relevant room complies with national standards and the instrument is used in accordance with the instructions for use To ensure safety use only those Philips parts and accessories specified for use with the monitor If non Philips parts are used Philips is nor liable for any damage that these pars may cause to the equipment This document contains proprietary information which is protected by copyright All Rights Reserved Reproduction adaptation or translation without prior written permision is prohibited except as allowed under the copyright laws Philips Medizinsysteme B blingen GmbH Heewlee Packard Ser 2 71034 B blingen Germany The information contained in this document is subject to change without notice
198. settings Therefore select Store Flow Cal and Calibration confirm when prompted The system then runs through various flowrates and switches the pump off before ir saves the values internally 12 Disconnect the flowmeter from the test fieur 1 Replace with watertrap Total Flowrate Check in Normal Mode To make the flowrate measurements and any necessary adjustment 1 Enter the service mode of the monitor and let the Philips M1026A Anesthetic Gas Module complete the warm up phase he GA WARMUP INOP disapears Enter the Setup Gas Analyzer menu and select Start Flow Cal Select Flow Rate Select 1 for normal flow 150 ml min Connect a flowmeter to the exhaust por of the Philips M1026A Anesthetic Gas Module Check 6 Note the actual flowrate by following the instructions accompanying the flowmeter If the actual flowrate is ouside the tolerance check all tubing for occlusions for example kinks drt and replace if necessary Repeat flowrate check If the flowrate is sil no within tolerance exchange the Nafion tubing bacterial filters and restrictor in the drainage path provided with the Internal Tubing Kit and the Preventive Maintenance Kit before repeating flowrate check Eno adjustments are required select Stop Flow Cal has to be beween 132 ml min 170 ml min 7 Disconnect the flowmeter from the exhaust Zero Calibration NOTE Only perform a zero calibration with the top cover closed Light
199. ssued by the software lapplication in the monitor to disable che module The ECG Oud Marker In Hardware problem Check MSL cable funcion does funcion Ss the monitor the MSL connector in the Alarm Issues Alarm Lamps Message Check Alarm LED board cable reconnect cable Alarm Lamps is sued disconnected LED board replace Alum LED board Main board defective replace Main board Alam occurs bur no LED Environmental Lighting oo bight Place monitor n darker lights up environment Tighe pipes broken off replace Tighe pipes LED board cable disconnected cable Alam LED board Replace Alarm LED board Main Board Main board Alarm Tones Message SPEAKER MALFUNCTION is displayed Speaker cable disconnected Reconnect speaker cable Speaker defective Replace speaker Sound amplifier on main board Replace main board defective occurs Bur no alarm Audible alarm indicaron have Been Sei audible arm indicium connected to VaeLink but no alarm sound is issued on the monitor ound is issued rvitched off Volume seria volume Speaker defective Replace speaker Sound amplifier main board Replace main board defective occurs on device Configuration of VacLink is VucLink configuration Alarm Behavior YE your mon
200. st Block Name or Inspection to be performed Expected Test Result What to Record lon Service Record Check for any mechanical damage and al Expected answer ls jer WP ar external leads and accessories Is the device ie af damage and are all accesories propery O imal mst ie paned V F serup where P Pasand Power On Switch on the module A built in and Expected answer is yes PO Por communication vest are running for two test is passed minutes after Power On The green setup LED near the power button indicates by ashing if one af the ets filed When tests where P Passand ave successfully completed after 2 minutes the ben LED is off and the AGM will enter warmup mode indicated by INOP GA WARMUP Does AGM boot up succesfully without displaying any error or malfunction messages Performance Perform Leskage Check Measured flow value PL Por Leakage Check os where P Pasand 262 Test Block Name or Inspection to be performed Expected Test Result What to Record lon Service Record Perfomance Perform Flowrate Check Document the Howrates MI02GA A02 A05 PF or Flowrate Check flowrares PF Pha Purge 310 15 ml min Messurement Path 2 labelled value 3 ml min Normal 132 170 ml min Performance Perform che Diagnosic Error Check expected answer is yes PDP or Diagnostic Check I
201. structions Assembling Mounts Figure 17 Table Mount The table mount ships with the monitor Every type of compatible mounting solution is delivered wich a complete set of mounting hardware and instructions Refer to the documentation delivered wich the mounting hardware for instructions assembling mounts WARNING 1 the customers responsibility to have the attachment of the mounting hardware to the ceiling wall or mounting rail and the construction of the ceiling wall or mounting rail evaluated for strucrural integrity and compliance with all local state and any other required codes by a registered professional structural and or mechanical engineer Ensure that this commitment has been mer before assembling mounes 17 Connections The following figure is a side view of the monitor and shows the cable and interface board All molded connector cables on the monitor side attach the location shown in the figure The device may have a second MSL pare on the same side as the power switch near the ECG out location nor shown in this figure E MB Deukces Sem Pier UN use Wired Wireless Figure 18 MPGO MP70 Cable and Interface Board Connections 138 Installing Interface Boards Ifyou add interface boards to your monitor you must insert chem into the device according to the combinations in the following table
202. t on page 233 NOTE Afer replacing the sample cell check thar all fla cable connectors firmly seated and show no signs of damage 239 Now perform the performance checks described in the Test and Inspection Matrix on page 262 Figure 62 Removing the Sample Cell Pneumatic Connections Figure 63 Removing the Sample Cell Cover Solenoid Valve 1 Removal To remove solenoid valve 1 refer to Figure 66 and Figure 67 1 Remove the pneumatic tubing 1 from solenoid valve 1 2 Remove the power connector 2 from the main PC board Pry the esed pair supplying power from the solenoid valve out of the cable clip 3 4 Using a cross tipped screwdriver remove the three screws 4 securing the IR measurement assembly head Lift the IR measurement head slightly so thar the screws 5 securing the solenoid valve are accesible 6 Using a cros tipped screwdriver remove the wo screws securing solenoid valve 1 roche IR measurement mounting bracket 7 Carefully remove solenoid valve 1 and its cable from the IR measurement mounting bracket Replacement replace solenoid valve 1 refer to Figure 66 and Figure 67 1 Lift the IR measurement assembly head slightly so thar the threaded bores 5 on the mounting bracket for the solenoid valve are accessible Carefully position Solenoid Valve 1 so thar its locating holes align with the threaded bores on the mounting bracket Using a cross tipped screwdriver rep
203. t 30 minutes before continuing with the following calibration procedures This is to allow the module to reach a stable measurement condition The Analyzer Warmup timer in the Calibration window indicates che time span since the last power on Only perform Span calibration checks when the top cover is closed Light and electro magnetic interference can affect the measurement Before performing a Span calibration check you must first perform Performance Leakage Check Performance Diagnostic Check Performance Fowrate Check Zero Calibration Check Barometric Pressure Calibration Check Ensure that there is enough gas in the calibration gas borde Check tubing assembly Figure 0 Span Calibration Equipment including Gas Canister and Spray Valve CAUTION Ensure thar the room you are working in is well ventilated and cha the Philips M1026A Anesthetic Gas Module exhaust is properly connected to the gas scavenging system 1 Inthe Setup Gas Analyzer menu select Service Window Select calibration to access the Gas Analyzer Calibration window Selec the Select Cal Agent item from the Setup Gas Analyzer menu re elect the agent thar is being used during calibration If Halocarbon 22 is in use select subst 5 Connect the calibration gas bottle the reservoir bag and the sample line as shown in Figure 40 Span Calibration Equipment including Gas Canister and Spray Valve 6 Wait until INO
204. t housing 106 Plug in Modules The snap lock holds che plug in module in the FMS To remove the snap lock 1 Grip the module firmly in one hand and using your thumb pull the front edge of che snap lock away from the plug in module so that the lug on the snap lock clears the retaining edge of the module 2 Push on che rear edge of the snap lock to move the snap lock through the lot toward the front of the module unii is To replace the snap lock 1 Locate the snap lock into the slot on the bottom of the module 2 Slide the snap lock toward the rear of the module the lock snaps into position Plug In Module Disassembly Disassembly of the parameter module enables replacement of the front assembly Figure6 Removing the Module Front Housing 107 WARNING When you disassemble assemble plug in module a patient leakage curren est must be performed before it is used again for monitoring To disassemble a plug in module Remove the front housing Place module on a flar surface and insert a card similar to credit or cheque type card inro side ofthe module to disengage the 2 tabs securing the front housing to the module housing Pull the edge of the front housing away from the module housing Carefully cur the module over so the free edge does reengage and repeat the first two steps the other side of the module The front housing should now be free of the module housin
205. the main PC board Replace the pneumatic tubing 1 to solenoid valve 2 Check thar all tubing is tightly connected and show no signs of damage NOTE Afer replacing solenoid valve 2 check thar all flc cable connectors are firmly seated and show no signs of damage 6 Replace the top cover of the module Now perform the performance checks described Test and Inspection Matrix on page 262 256 Figure 78 Removing the Solenoid Valve 2 257 Top Cover PC Board Removal To remove the top cover PC board refer to Figure 79 and Figure 80 1 Ensure thatthe Module is switched off and isolated from the mains power supply Remove the top cover of the module Remove the connector 1 from the top cover PC board Using a hex socker screwdriver remove three nuts washers and spacers 2 securing the PC board tothe top cover of che module 4 Remove the PC board Replacement 258 To replace the top cover PC board refer to Figure 79 and Figure 80 Ensure that the Module is switched off and isolated from the mains power Carefully fi the PC board over the three locating screws on the top cover of the module Using a hex socker screwdriver replace the three nuts washers and spacers 2 securing the PC board to the top cover 4 Replace the connector 1 to the top cover PC board 5 Replace the top cover of the module Now perform the performance checks described Test and Inspection Matrix on page 262
206. ts power for each display and for any peripheral device for example a printer or slave display is required by the system Provide a power outlet in the vicinity 1 m or 3 f of each component that requires power WARNING Only the power cables provided with che system may be used For reasons of safety the use of power mains extension cables or adapters is NOT recommended Preparing Mounts Where ceiling wall or shelf mounts are required for mounting the equipment the customer is responsible for the following Providing and installing hardware which is required to install the mounting hardware supplied by Philips as detailed inthe installation nores Making sure that all ceilings walls and mounting rails that supports mounting hardware are suitable for their proposed load WARNING Iris the customer s responsibility to have the attachment of the mounting hardware to the ceiling wall mounting rail and the construction of the ceiling wall or mounting rail evaluated for srucrural integrity and compliance with all local state and any other required codes by a registered professional structural and or mechanical engineer Although considerable effort has been made to ensure the safety of the ceiling mount installation and or mounting guidelines it is to be understood thar the installation itself is beyond the control of Philips Medical Systems Accordingly Philips Medical Systems will not be r
207. tude sexing for the monitor is important as itis used as a reference to check the AGM ambient pressure measurement See the Installation Instructions section for details Connect Sample Input Tubing Connect the sample input tubing to the watertap at the patient sample inlet on the water separation fiter For details refer to the Instructions for Use Preventive Maintenance PM Tasks The preventive maintenance PM tasks are described in detail in chapter 5 of this guide Here is a short list of the PM tasks and how often they must be performed To ensure operation of the Philips M1026A Anesthetic Gas Module within specified limits 1 Check the ventilator fan in the AGM for proper operation and build up of dust and lint every 6 months 2 Check the AGM calibration at least once every 12 months or whenever the validity of he readings is in doubt 3 Replace the internal Nafion tubing room air filter and pump filter internal bacterial filters and waterrap manifold seals using the PM kit every 12 months 4 Test the pump using che test procedure provided in the PM Kit every 12 months The square shaped pump should be cleaned before testing the round shaped pump may not be cleaned 5 Check electrical safety ground impedance test and enclosure leakage current test at least every 12 months All safety and maintenance checks must be made by qualified service personnel WARNING Failure to implement a satisfactory m
208. urge 310 mimin Normat 150 ml min NOTE Do not perform the flowrate check while a Zero calibration is running 189 Total Flowrate Check and Adjustment in Purge Mode To make the flowrate measurements and any necessary adjustment 1 Enter the service mode of the monitor and ler the Philips M1026A Anesthetic Gas Module complete the warm up phase the GA WARMUP INOP disapears 2 Inthesetup Gas Analyzer menu select Service Window then select Calibration to access the Gas Analyzer Calibration window Enter the Setup Gas Analyzer menu and select Start Flow Cal Select Flow Rate Select Purge for purge flow 310 ml min Connect a flowmeter to the exhaust por of the Philips M1026A Anesthetic Gas Module Note the actual flowrate by following the instructions accompanying the flowmeter If the actual flowrate is outside the tolerance must be adjusted If no adjustments are required select Stop Flow Cal 310 ml min 5 ml min Flowrate 8 Remove che Philips M1026A Anesthetic Cas Module top cover see The Top Cover on Adjustment page 230 9 Correct the flowrate by adjusting potentiometer R125 on che Main PC board until the required value is achieved Flowrate 10 Ifyou have made adjustments you must save the settings Therefore select Store Flow Cal and Calibration confirm when prompted The system then runs through various lowrates and switches the pump off before it saves the values internally The low display in the
209. ve agent ID Do the following agent ID head checks Ed Using a voltmeter check the IR source voltage at che main PC board as follows Connect the voltmeter ground to TPL Measure TP11 voltage Ie should be 7 92V 220m V IF this voltage is within limit proceed to the next check If nor adjust the potentiometer RISO to the required value IF adjustment not posible seplace che Agenc ID head Power off Connect a replacement head with the ribbon cable and reconnect ubing Turn power back on and see if che Ad sill shows Problem If the message is gone replace the head If he problem persists continue checking Power Supply Diagnostic Checks Defective power supply Carry the checks for the power supply Defective cables Check the cables connecting the measurement head and the main PC board for signs of damage or wear Check the connectors for damaged or loose connections If any defects are apparent replace the cable Defective main PC checks above do nor solve the problem board replace main PC board Power Supply Diagnostic Checks Power Supply shows Weak pump Problem is lagged temporarily during Problem a zero calibration or purge mode this could indicar weak pump Replace the pump if problem persists Defective power supply Using a check the power supply voltages ar he main PC board The power supply connectors should carry the following voltages 12V 2600 mV
210. vision in adapter is wrong witeles support ool Wireless adapter defective he red Replace wireless adapter starus LED on the adapters top panel is on Wiong configuration in wireless Cheek configuration with wireless adapter or in access poine support root connectivity coverage Configuration problem Verify the channel domain and farea consists of multiple security ID settings of he access accu points and in some points in the coverage area pares of the area there is no eonneciviq Frequent dropouts and Excessive interference by other radio Check sais thar cn be read nemerdconnecs equipment or by microwave ovens fom the wireless adapter via RS232 or via loging application lin the PIC Remove interfering Chek configuration guidelines overage area or number of monitor per access Configuration problem Check access poin configuration with wireless support rool in pariculr che mulricase filters Overview Prindng does Some functions are not available on Connect wo cabled newark nor wok a wireless nerwork Multi Measurement Server ea mmpempre not surement tension is lace Measurement Server a Won Sofware Reson elie oot Sere pepe enone EE Unsupported of measurement Disconnect rhe unsupported server or
211. wn M3016 44138 M3016A Front Bezel Swedish Not Shown M3016 44139 M3016A Front Bezel Finnish Not Shown M3016 44140 M3016A Front Bezel Japanese Nor Shown M3016 44144 M3016A Front Bezel Portuguese Nor Shown M3016 44145 M3016A Front Bezel Greek Nor Shown M3016 44147 M3016A Front Bezel Rusian Not Shown M3016 44150 M3016A Front Bezel Polish Nor Shown Exchange Parts List Exchange parts are pars that have been returned Philips and reconditioned for Pats offered as exchange pars arin excellent service order according to rigorous Philips Technolgies standards bur oer you a considerable price advantage 12 Table2 Exchange Parts Table achange Measurement Server English Ral Nor Shown 3 3001 6802 exchange Measurement Server French Rel Not Shown la 3001 68034 exchange Measurement Server German Rel Not Shown 3 3001 68044 exchange Measurement Server Dutch Rel Not Shown 3 3001 68054 exchange Measurement Server Spanish Rel Not Shown 3 M3001 6806A exchange Measurement Server Italian Rel Not Shown 3 3001 6807 exchange Measurement Server Norwegian Shown RelA 3001 6808 exchange Measurement Server Swedish Rel Not Shown 3 3001 68094 exchange Measurement Server Finnish Rel Not Shown la 3001 6810 exchange Measurement Server Japanese Rel Not Shown la 3001 6811 exchange Measurement Server Danish Rel Noc Shown la 30
212. ws on the internal LCD panel These commands are interpreted by the display manager application This application controls the dedicated video hardware which includes video memory and a special ASIC User input is acquired from a variety of input devices for example the SpeedPoint the touchscreen or other standard input devices keyboard mous which may be attached hoards The system sofware makes sure thatthe input is directed ro the application which has the operating focus Data Output The monitoring system is very flexible and customizable regarding its data output devices Built in devices for example LAN alarm lamps speaker video provide che basic ourpu capabilities These capabilities can be enhanced by adding additional 1 O boards as required in the specific end user setup The additional boards typically provide data to externally attached devices for example to printers RS232 based data collection devices nurse call systems erc The monitor can identify I O boards by means of a serial EEPROM device thar stores type and version information The operating system detects the cards and automatically connects the I O board with the associated interface driver application For some multi purpose cards it is necessary to configure the card for a particular purpose first for example the dual MIB RS232 card can support external touch display data import data export Monitor Applications The monitor applications
213. y 176 Installation and Patient Safety vs Physical Installation vs Environment vs Label Sheet 179 Making Connections to the 180 Sample Gas Connections tothe Gas Exhaust 180 Returning the Gas Sample 180 Sening Up the Gas Rerun m Removing Gas Sample 182 Setup and Configuration Procedures 182 Configuration 182 Connect Sample Input Tubing 182 Preventive Maintenance PM Tasks 182 Post Installation Checks 183 Safery Requirements Compliance and Considerations 183 Explanation of Symbols Used 183 Power Supply Requirements 184 Grounding the System 184 Equipotenial Grounding 184 Combining Equipment 185 Checking and Calibrating the Anesthetic Gas Module 186 Acces Service Functions of the M1026A Anesthetic Gas Module 186 When and how to check the Philips M1026A Anesthetic Gas Module 187 Equipment required for checking 188 Checks and adjustments 188 Performance Leakage Check Performance Diagnostic Check 189 Performance Fowrate Check 189 Total Howate Check and Adjustment in Purge Mode 190 Measurement Path Flowrate Check and Adjustment 190 Total Flowrate Check in Normal Mode 192 Zero Calibration 192 Barometric Pressure Check and Calibration D Span Calibration Check 194 Disposal of Empey Calibration Gas Cylinder 197 Maintaining the Anesthetic Gas Module 198 Preventive Maintenance PM Tasks 198 Cleaning 198 Replace PM Parts 199 Internal Nafion Tubing with Bacterial Filters and manifold Seals 199 Room Air F
Download Pdf Manuals
Related Search