Philips IntelliVue User Manual Download

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Contents

Philips Telemetry System

Quick Reference Service Guide

Contents

This

Quick Reference Service Guide

is a pocket sized

quick reference of the most used information for the
Philips Telemetry System. It includes the following:

Troubleshooting Overview. . . . . . . . . . . . . . . 2

Transmitter Non-RF Application Problems . . 5

Transmitter SpO2 Problems . . . . . . . . . . . . 12

Receiver Mainframe/System Faults . . . . . . 15

Other Problems . . . . . . . . . . . . . . . . . . . . . . 22

RF Troubleshooting Procedures . . . . . . . . . 24

RF Troubleshooting Tools . . . . . . . . . . . . . . 33

Part Lists . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

quickref.fm Page 1 Wednesday, June 5, 2002 3:08 PM

Summary of Contents for IntelliVue

Page 1: ...quick reference of the most used information for the Philips Telemetry System It includes the following Troubleshooting Overview 2 Transmitter Non RF Application Problems 5 Transmitter SpO2 Problems 12 Receiver Mainframe System Faults 15 Other Problems 22 RF Troubleshooting Procedures 24 RF Troubleshooting Tools 33 Part Lists 38 ...

Page 2: ...dset Receiver Module up to 8 Power Supply Digital Backplane CPC SDN Utility Rack Interface Receiver Backplane Central Station RF Section Digital Section Antenna Distribution Board Application Transmitter non RF LEADS OFF BATTERY INOPs ECG EQUIP MALF INOP TRANSMITTER MALF INOP SpO 2 INOPs TRANSMITTER OFF INVALID LEADSET ARRHY REQUIRED RF No Signal Tel Cannot Analyze Weak Signal Invalid Signal E01 I...

Page 3: ...ewer 8 Battery INOPs 9 ECG EQUIP MALF INOP 11 TRANSMITTER MALF INOP 11 ARRHY REQUIRED INOP 11 ECG EQUIP MALF INOP 11 SpO2 ERRATIC INOP 12 SpO2 INTERFERENCE INOP 13 SpO2 NO TRANSDUCER INOP 13 SpO2 NOISY SIGNAL INOP 14 SpO2 NON PULSATILE INOP 14 SpO2 TRANS MALF INOP 14 Power does not come on when Receiver Mainframe Power On Off Button is pressed 15 NO DATA FROM BED INOP 15 NO RECEIVER INOP 20 RECEIV...

Page 4: ...uirements Frequent Dropouts and NO SIGNAL WEAK SIGNAL and TEL CANNOT ANALYZE INOPs on a Single Channel 25 Frequent Dropouts and NO SIGNAL WEAK SIGNAL and TEL CANNOT ANALYZE INOPs with Multiple Channels 29 Frequent Dropouts along with TEL CANNOT ANALYZE and INTERFERENCE INOPs 30 Message Page Conversion Chart 2 inch pounds 0 23 joules 3 inch pounds 0 34 joules 6 inch pounds 0 68 joules 3 inch pounds...

Page 5: ...Service Tool or Wave Viewer at the bedside to make certain there is a good waveform The transmitter can also be connected to a patient simulator if this is more convenient Using the Telemetry Service Tool or Wave Viewer check the following a All available leads If there is an ECG waveform but no LEADS OFF Check Transmitter INOP on the Telemetry Service Tool or Wave Viewer the leads are connected b...

Page 6: ...if this fixes the problem If it does not perform the following substeps a Make certain the Front End Assembly to the ECG PCB cable is connected red tab connector properly or not broken If the cable is broken replace the defective assembly ECG PCB or Front End Assembly b Make certain that the 3 5 Lead Switch connector is plugged in properly If it is replace the ECG PCB c If replacing the ECG PCB do...

Page 7: ... wire leadset 3 If this is a standard ECG transmitter it may be configured as an EASIä transmitter Check the configuration of the EASI parameter using the transmitter Service Tool or Wave Viewer as follows Telemetry Service Tool Connect the service tool to the transmitter and move to Transmitter Configuration Screen Two Wave Viewer Connect a 5 wire leadset to the transmitter and to an ECG simulato...

Page 8: ...rence and chest standard ECG or reference and E EASI lead wires b The 3 5 lead switch may not be connected to the ECG PCB properly c Replace the Front End Assembly d Replace the Main PCB NO SIGNAL INOP and an RF OUT OF LOCK INOP at Telemetry Service Tool or Wave Viewer This INOP means that the transmitter has determined that the phase lock loop in the transmitter is no longer functioning This cond...

Page 9: ...e Service and Reference Guide to determine what battery life to expect If the battery life is less than expected things to check are Remember that simply unplugging the SpO2 transducer and turning SpO2 off at the central does not shut off the SpO2 sampling The sampling rate must be set to Manual using the Telemetry Service Tool or Wave Viewer After making a manual SpO2 measurement using the Teleme...

Page 10: ...use zinc air batteries cannot reliably supply enough current at start up of the transmitter to make sure the transmitter functions properly Even if SpO2 is not being monitored if the transmitter has the SpO2 hardware installed a zinc air battery cannot be used A lithium or alkaline battery must be used 4 Remove the battery and separate the case assembly from the transmitter s internal electronics ...

Page 11: ...rmware to a revision compatible with the mainframe and central station 2 If SpO2 cannot be monitored replace the ECG PCB 3 If changing the ECG PCB does not correct the problem replace the Main PCB TRANSMITTER MALF INOP This INOP indicates that the self test has discovered a problem with the internal non RF circuitry of the transmitter The problem probably lies in the Digital ASIC or the RAM sectio...

Page 12: ...ake certain it is not damaged If the cable is damaged replace the Front End Assembly 4 Make certain that the Main PCB to SpO2 Board ribbon cable is connected properly and is not damaged If the cable is damaged replace the Main PCB 5 Replace the SpO2 Board 6 If the problem persists replace the Main PCB SpO2 ERRATIC INOP This INOP indicates that the SpO2 measurements are erratic This could be due to...

Page 13: ...unction If this INOP appears do the following 1 Cover the transducer with a non white opaque material e g pulse oximeter probe wraps Posey wrap or equivalent If it does not solve the problem continue 2 Replace the transducer 3 Replace the adapter cable 4 This problem can also be caused by electrical interference Reduce or remove any sources of electrical interference SpO2 NO TRANSDUCER INOP This I...

Page 14: ...LSATILE INOP This INOP can be caused by a weak or non detectable pulse Try the following to see if they resolve the problem 1 Relocate the sensor to a site with improved circulation 2 Warm the area to improve the circulation 3 Try another sensor type SpO2 TRANS MALF INOP This indicates that the SpO2 transducer is malfunctioning Do the following 1 Check to see if the SpO2 connector on the transduce...

Page 15: ...mitter receiver pair To effectively troubleshoot this problem receiver mainframe communication with the SDN must be verified This communication link determines the course of action However there is another possibility to consider before re booting the mainframe If the telemetry system is being used with a Philips Information Center make certain that the telemetry bed or beds are not in Standby Mod...

Page 16: ...3 Receiver Mainframe Board Location Diagram The LEDs should behave as follows Note The 3 upper green LEDs on the Utility CPU are for the power supply and should remain Green whenever power is applied to the receiver mainframe Table 1 40 MHz CPC Card LED Step 1 Step 2 Normal Operation 1 Red ON OFF 2 Green ON Slow Blink 3 Green ON Slow Blink Receiver Mainframe Board Location Diagram R1 R8 Receiver S...

Page 17: ...ches or move one bedside to another branch 3 Make certain that two receiver mainframes do not have identical SDN Unit numbers If they do reconfigure one receiver mainframe with another SDN unit number 4 If it is a non SCC system an SDC cable may have been used instead of an LDC cable Check the cable to make certain an LDC cable is being used 5 The breakaway board portion of the SDN board could be ...

Page 18: ...llowing is the probable cause of the problem a Refer to the Philips Telemetry System Compatibility Matrix Service Note to verify the compatibility between the Utility CPU and the CPC PCB b The 40 MHz CPC Card was in the wrong slot Check the correct card placement and insert the CPC Card into the correct slot The CPC belongs in the 4th slot from the left in the rear of the mainframe See Figure 3 on...

Page 19: ...ace the SDN board b Remove the Rack Interface board and re initialize the receiver mainframe If the sequence occurs replace the Rack Interface board If the sequence does not occur replace the Utility CPU board The EEPROM must be the appropriate telemetry EEPROM for the product to work properly c In none of the above procedures resolves the problem replace the Digital Backplane ...

Page 20: ...perly If it is not re seat the module 2 The receiver mainframe may be configured for receivers that do not exist These are empty receiver slots with SDN branch assignments Do the following to see if this resolves the problem a Check the configuration at the Central Station using the Telemetry Service Screen b Using the Telemetry Service Tool reconfigure the receiver mainframe For any empty receive...

Page 21: ...the following 1 Check and see if the receiver module for the reporting slot is seated properly If it is not re seat the module 2 The receiver module of the reporting channel or the receiver backplane is faulty Exchange the positions of two receiver modules make certain they are for the same frequency range If the problem follows the receiver it is faulty and must be replaced If the problem stays w...

Page 22: ...e transmitter button can be disabled If a transmitter is set for intermittent SpO2 measurements manual mode 1 minute and 5 minutes manual measurements from the transmitter can be initiated at any time using the transmitter button SpO2 must be turned on at the Central Station for alarms and for display and trending If the transmitter button is faulty it does not generate any INOPs at the Central St...

Page 23: ... transmitter button on the transmitter After 3 to 5 seconds the field should toggle to ON When the button is released it should toggle to OFF If this does not happen the transmitter button is not working Do the following if the transmitter is not working Check to see if the Leads Off LEDs are working If they are not open the transmitter and check the ribbon cable from the case assembly to the Main...

Page 24: ...rame If the message appears when a battery is installed in the corresponding transmitter the Learn Code procedure must be performed If the message only appears when the corresponding transmitter does not have a battery installed there is another M2601A transmitter broadcasting nearby at the same frequency The frequency of one of the channels should be changed How does the transmitter receiver pair...

Page 25: ...the transmitter has both battery contact screws installed If either screw is missing replace it Screws are included in the battery contact kit c Check the transmitter case screw and make certain it is not loose If this screw is loose the battery contacts do not make a good connection with the internal electronics See page 1 for torque requirements 2 The transmitter and receiver may not be set to t...

Page 26: ...esponding Leads Off LED illuminates If it does proceed to Step 7 If it does not do the following a Make certain that the battery is installed properly b Replace the battery with a fresh one c If an ECG and SpO2 capable transmitter is being used even if SpO2 is not being monitored make certain that a lithium or alkaline battery is being used A zinc air battery cannot be used with an ECG and SpO2 ca...

Page 27: ...ood channel consisting of Frequency 2 Transmitter B Receiver B Isolate The fault to Frequency 1 Transmitter A or Receiver A This procedure requires using the Telemetry Service Tool or Wave Viewer to change transmitter frequencies and the Central Station to change receiver frequencies The Telemetry Service Tool can be used to change both the transmitter frequencies trtool and the receiver frequenci...

Page 28: ... to determine whether it is in the antenna system or the RF Signal environment Either an Antenna System Troubleshooting procedure or an RF History Strip evaluation must be performed b If the problem moves to Frequency 2 the fault is in Receiver A Before replacing the receiver check the following Make certain that the semi rigid cable is connected correctly and not damaged If the cable is suspected...

Page 29: ...ailed while testing the hospital s emergency power check that all power modules are plugged into emergency power outlets 3 Check that the patients are in the antenna system coverage area 4 Check for hardware failures or installation problems with the antenna system and receiver mainframe Note The antenna system used with a telemetry system operating in the extended band must be an M2613 14 15A or ...

Page 30: ... service representative for assistance Frequent Dropouts along with TEL CANNOT ANALYZE and INTERFERENCE INOPs 1 Print the RF History Strip for the problem channel and check for interference problems 2 Interference due to Heterodyning Interfering signals can be generated if transmitters are stored with the batteries installed and are in close proximity to other transmitters for example in a drawer ...

Page 31: ...ces such as walkie talkies paging systems ambulance systems etc b Broadband Noise a broadband interference source occupies the bandwidth of many channels causing degradation of the carrier to noise ratio CNR on all of the telemetry channels for as long as it is present This results in an increase in dropouts and TEL CANNOT ANALYZE INTERFERENCE INOPs on all of the channels The system has quiet and ...

Page 32: ...hich makes troubleshooting a bit more difficult so work quickly Fix the system by eliminating or repairing the source Relocate or permanently remove the antenna where the signal is entering Some things to check are failing fluorescent light ballast vacuum cleaners hand drills electric pencil sharpeners nurse call systems vacuum tube delivery system motors unused unterminated but still powered ante...

Page 33: ...corresponds to the power of the signal in decibel milliwatts dBm Table 4 shows the relationship between the RSSI count and the actual power received for M2603A receivers with firmware revision 2 installed The RSSI count on the strip is the same value that appears in the RF INOP The signal strength graph uses the top four large boxes on the recording strip Note Received signal strength values from ...

Page 34: ...wer in dBm 255 top major division on strip greater than 40 243 40 230 47 218 51 205 55 192 next major division on strip 60 179 68 166 74 154 79 141 83 128 next major division on strip 87 115 94 102 98 90 101 77 less than 104 64 next major division on strip less than 104 51 less than 104 38 less than 104 26 less than 104 13 less than 104 0 lowest major division in upper graph less than 104 ...

Page 35: ...ording and are measured in seconds of invalid data per minute of monitoring Any spikes that remain in the bottom box indicate a low percentage of invalid data packets received and indicates good performance for a receiver As the amplitude of the spikes increase the higher percentage of invalid data packets have been received Spikes that reach the top of the third box indicate an entire minute s wo...

Page 36: ...ny other recording strips or wave review printouts and look for the fol lowing Is the signal strength where it is expected Does the time and number of invalids on the RF history strip correlate with any available ECG recording strips or wave review printouts What is the signal strength when invalids occur Does this indicate corruption due to a low signal strength or due to interference Are there s...

Page 37: ...eing recorded for the respective receiver mainframe 5 Bed label for the receiver slot This is the bed label assigned at the central station to the receiver slot 6 Marker between receivers the end of the RF History Strip for one receiver and the start of the strip for the next receiver is indicated by a short marker This information is listed at the top of the received signal strength graph for the...

Page 38: ...ter EASI Only Opt 007 460 470 MHz AAMI Case M2601 89207 USA only Series C Exchange Transmitter EASI SpO2 Transmitter Opt 007 460 470 MHz AAMI Case M2601 89307 USA only Series C Exchange Transmitter ECG Only Opt 020 590 632 MHz AAMI Case M2601 89020 USA only Series C Exchange Transmitter ECG SpO2 Transmitter Opt 020 590 632 MHz AAMI Case M2601 89120 USA only Series C Exchange Transmitter EASI Only ...

Page 39: ...0 USA only Battery Door M2601 40029 Battery Contact Kit for use with the Battery Extender includes screws and Battery Door M2601 60174 Battery Extender Cradle M2601 60014 Battery Extender Power Module USA 120V 60Hz M2601 60018 Battery Extender Power Module Euro 220 240 V 50 Hz M2601 60183 Battery Extender Power Module Japan 100 V 50 60 Hz M2601 60184 Battery Extender Power Module UK 220 240 V 50 H...

Page 40: ... green black red white and brown without FCC ID number embossed M2601 60025 Series C Standard ECG Case Assembly IEC Colors black yellow green red and white without FCC ID number embossed M2601 60026 Series B Standard ECG Case Assembly AAMI Colors green black red white and brown without FCC ID number embossed M2601 60407 Series B Standard ECG Case Assembly IEC Colors black yellow green red and whit...

Page 41: ...107 M2601 60107 4 mW Main PCB Opt 008 470 480 MHz M2601 68108 M2601 60108 4 mw Main PCB Opt 020 590 614 MHz M2601 68120 M2601 60120 1 mW Main PCB Opt 002 412 5 421 5 MHz Japan M2601 68502 M2601 60502 1 mW Main PCB Opt 003 421 5 430 MHz Japan M2601 68503 M2601 60503 1 mW Main PCB Opt 005 440 450 MHz Japan M2601 68505 M2601 60505 ECG PCB M2601 60300 SpO2 Board M2601 68010 M2601 66010 Blank PCB M2601...

Page 42: ...taly Brazil M2601 83300 PTT Label France M2601 83202 PTT Label Canada Italy Brazil M2601 83321 FCC Label Option 007 5969 3925 FCC Label Option 020 extended UHF band 5969 3926 Extended UHF Band Upgrade 007 to 020 FCC Label M2601 83056 Supplies and Accessories for Transmitter Telemetry leadset 3 wire snap 30 76 cm AAMI colors M2590A Telemetry leadset 3 wire grabber 30 76 cm AAMI colors M2591A Teleme...

Page 43: ...3 wire leadset combiner M2598A Telemetry 5 wire leadset combiner M2599A Philips Reusable Adult Finger SpO2 Transducer M1191A Philips Reusable Pediatric Small Adult Finger SpO2 Transducer M1192A Philips Reusable Adult Pediatric Ear Clip SpO2 Transducer M1194A Wristband for SpO2 finger transducers M1627A Adapter Cable for Nellcor Oxisensor ä Disposable SpO2 Transducers M1943A Nellcor Oxisensor ä D 2...

Page 44: ...01 67002 Special bit for Main Case Screw Japan Only 5966 5066 Transmitter Testbox M2600 67000 RG 6U Antenna Cable Non Plenum 1 ft or 0 3 meters for use with testbox M1413 60100 Telemetry Service Tool Software transmitter tool revision B 00 05 mainframe tool revision B 00 05 frequency calculator revision A 00 00 M2600 67013 Serial to Infrared Converter II M2601 63020 Serial to Infrared Converter M2...

Page 45: ...Gasket M2603 01001 Large RF Gasket M2603 01002 Receiver Shield Assembly M2603 60540 Receiver Board Opt 001 406 412 5 MHz M2603 68010 M2603 60010 Receiver Board Opt 002 412 5 421 5 MHz M2603 68020 M2603 60020 Receiver Board Opt 003 421 5 430 MHz M2603 68030 M2603 60030 Receiver Board Opt 004 430 440 MHz M2603 68040 M2603 60040 Receiver Board Opt 005 440 450 MHz M2603 68050 M2603 60050 Receiver Boar...

Page 46: ...2 Washer for RF connector 2190 0124 Nut for RF connector 2950 0078 M2603A Receiver FW Rev A 00 02 M2603 84100 Receiver Channel ID Labels 1 100 M2603 83018 M1402A Receiver FW 5 for use with M2601A Transmitters Note The following chip is used in upgrades of M1403A Systems to Philips Telemetry Functionality M2603 84010 Tools Chip Extraction Tool 44PPLCC 8710 1995 Table 6 Receiver Module Exchange and ...

Page 47: ... M2604 00300 Blank Board Cover small M2604 00290 Rack Interface PCB Bracket M2604 00400 Card Guide M2604 40000 Power Supply M2604 68005 M2604 60005 Utility CPU PCB Note Return without EEPROM M1059 68501 M1059 66501 Telemetry EEPROM Rev E M2604 84003 Telemetry EEPROM Rev D M2604 84002 CPC Board Assembly M2604 68010 M2604 60010 Antenna Distribution Assembly M2604 68620 M2604 60620 Antenna Distributi...

Page 48: ... 78000 91907 Mount Assembly R86 Mount M1401 02970 Unit Mount R86 Mount M1401 02990 Power Cord U S A 8120 5429 Power Cord U K 8120 1351 Power Cord Australia New Zealand 8120 4475 Power Cord Europe 8120 1689 Power Cord Switzerland 8120 2104 Power Cord Denmark 8120 2956 Power Cord S Africa India 8120 4211 Power Cord China 8120 8376 Fuse 1 6A 250V earlier PS 2110 1001 Fuse 0 8A 250V earlier PS 2110 10...

Page 49: ...traction Tool M1186 45001 CPC Programming Tool M2300 67100 Telemetry Receiver Mainframe Software Flash Card Revision E 00 19 Release C M2604 70007 Telemetry Receiver Mainframe Software FLASH card Revision D 03 02 Release B M2604 70006 Telemetry Service Tool Software transmitter tool rev B 00 01 mainframe tool rev B 00 01 frequency calculator rev A 00 00 M2600 67013 Telemetry Configuration Tool M26...

Page 50: ...dule Mount L Bracket M1407 00040 Analog output cable non plenum 15 2 m or 50ft M1401 60761 Analog output cable non plenum 30 5 m or 100ft M1401 60762 Analog output cable non plenum 76 2 m or 250ft M1401 60763 Analog output cable non plenum 152 4 m or 500ft M1401 60764 Analog output cable plenum 15 2 m or 50ft M1401 60765 Analog output cable plenum 30 5 m or 100ft M1401 60766 Analog output cable pl...

Page 51: ...utput Firmware Revision A 01 00 M2604 84050 Bedside Attenuator Faceplate M1401 67020 Holter Attenuator Faceplate M1401 67030 Bedside Attenuator SDN Faceplate M1401 67040 Tools Chip Extraction Tool 44PPLCC Microcontroller 8710 1995 Table 8 Analog Output Option Replaceable Parts Description Exchange Part No New Part No ...

Page 52: ...able Parts Description New Part No Line amplifier M1406 67000 Mounting Bracket M1406 00060 Table 11 M1407A Multiple Unit Power Supply Replaceable Parts Description New Part No Power Tee M1407 67000 Mounting bracket M1407 00060 Power module 100 240 VAC M2600 60008 Power Module Mount L Bracket M1407 00040 Power Module Mounting Bracket M1407 00070 Table 12 M1413 14 15B Antenna System Parts Descriptio...

Page 53: ...13 60102 RG 6U Antenna cable special non plenum specified to order M1413 60109 M2617A J30 RG 11U Antenna cable special non plenum specified to order M1413 60119 M2617A J31 RG 6U Antenna Cable plenum 18 9 m or 62ft M1414 60103 RG 6U Antenna Cable plenum 42 4 m or 139ft M1414 60102 RG 6U Antenna Cable Special plenum specify to order M1414 60109 M2617A J40 RG 11U Antenna Cable Special plenum specify ...

Page 54: ...ower Module 0950 3221 Mount L Bracket M1407 00040 Mounting Bracket for Power Module 0950 3221 M1407 00070 Power Cord U S A 8120 5429 Power Cord U K 8120 1351 Power Cord Australia New Zealand 8120 4475 Power Cord Europe 8120 1689 Power Cord Switzerland 8120 2104 Power Cord Denmark 8120 2956 Power Cord S Africa India 8120 4211 Power Cord China 8120 8376 2 Way Splitter Combiner 0960 0323 Spacer 2 Way...

Page 55: ... Filter 614 620 MHz M2612 60038 Filter 620 626 MHz M2612 60039 Filter 626 632 MHz M2612 60040 DC Blocking Capacitor HP 10240B 75 ohm Terminator with DC Block 1250 2403 BNC m to BNC m adapter 1250 0216 RG 6U Antenna Cable non plenum 0 3 m or 1ft M1413 60100 RG 6U Antenna Cable non plenum 1 5 m or 5ft M1413 60105 RG 6U Antenna Cable non plenum 3 0 m or 10ft M1413 60101 RG 6U Antenna Cable Intermedia...

Page 56: ...414 60103 RG 6U Antenna Cable plenum 42 4 m or 139ft M1414 60102 RG 11 Antenna Cable Intermediate plenum 22 9 m or 75ft M1414 60203 RG 11 Antenna Cable Main plenum 50 3 m or 165ft M1414 60202 RG 6U Antenna Cable plenum Special Order specify Loss in dB M2617A J40 M1414 60109 RG 11U Antenna Cable plenum Special Order specify Loss in dB M2617A J41 M1414 60119 Tools Transmitter Testbox M2600 67000 RG ...

Page 57: ...mbly Option 154 M2616 68154 M2616 60154 External Frequency Converter Assembly Option 160 M2616 68160 M2616 60160 External Frequency Converter Assembly Option 166 M2616 68166 M2616 60166 3 0 m 10 ft Cable External Frequency Converter to Receiver Mainframe M2616 60011 Power Module CE Marked M2600 60008 Power Module 0950 3221 Mount L Bracket M1407 00040 Mounting Bracket for Power Module M1407 00070 P...

Page 58: ...and Configuration Guide Configuration Tool Guide Service Tool Guide Test and Inspection Guide Dual band UHF Antenna System Installation Note System Upgrade Installation Note M2601AU J01 Patient Monitor Holter Recorder Interface Upgrade Installation Note Philips Telemetry System Instructions for Use M2600 90182 User Documentation Philips Telemetry System Instructions for Use Edition 2 May 2002 Tele...

Page 59: ...ngarian M2600 9018C Czech M2600 9019C Polish M2600 9020C What s New in Release C English M2600 9101C French M2600 9102C German M2600 9103C Dutch M2600 9104C Spanish M2600 9105C Italian M2600 9106C Norwegian M2600 9107C Swedish M2600 9108C Finnish M2600 9109C Japanese M2600 9110C Danish M2600 9111C Simplified Chinese M2600 9113C Portuguese M2600 9114C Greek M2600 9115C Czech M2600 9119C Polish M260...

Page 60: ...ASI Monitoring Application Note English 5980 1198E SpO2 Telemetry Monitoring Application Note English 5980 1197E Arrhythmia Monitoring 5980 1267E ST Segment Monitoring 5968 8852E Table 15 Release C Documentation Description New Part No ...

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