Default Settings Appendix | Philips MP20/30, MP60/70/80/90, MP40/50

802.11 Bedside Adapter (Wireless Network Adapter)

335

Altitude Setting		336
Monitor Safety Specifications		336
	Physical Specifications	337
	Environmental Specifications	339
M4605A Battery Specifications		341
Monitor Performance Specifications		342
Measurement Specifications		348
	ECG/Arrhythmia/ST	348
	Respiration	350
	SpO2	350
	NBP	352
	Invasive Pressure and Pulse	354
	Temp	355
	CO2	356
	Interfering Gas and Vapor Effects On CO2 Measurement Values	359
	Spirometry	359
	Cardiac Output / Continuous Cardiac Output	361
	tcGas	362
	SvO2	363
	EEG	363
	BIS	364
Safety and Performance Tests		365
	Electromagnetic Compatibility (EMC) Specifications	365
	Accessories Compliant with EMC Standards	365
	Electromagnetic Emissions	365
	Avoiding Electromagnetic Interference (Resp and BIS)	365
	Electromagnetic Immunity	366
	Recommended Separation Distance	366
	Recommended separation distances from portable and mobile RF communication equipment367
	Electrosurgery Interference/Defibrillation/Electrostatic Discharge	368
	Fast Transients/Bursts	368
	Restart time	368
35 Default Settings Appendix		369

Alarm Default Settings		370
ECG, Arrhythmia, and ST Default Settings		370
Pulse Default Settings		373
Respiration Default Settings		374
SpO2 Default Settings		374
NBP Default Settings		375
Temperature Default Settings		375
Invasive Pressure Default Settings		376
Cardiac Output Default Settings		377
CO2 Default Settings		378
Spirometry Default Settings		378

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Philips MP20/30, MP60/70/80/90, MP40/50 manual Default Settings Appendix

MP60/70/80/90, MP40/50, MP20/30 specifications

Philips MP20/30, MP40/50, and MP60/70/80/90 are advanced patient monitoring systems designed to enhance clinical workflows and patient care in diverse healthcare settings. These devices combine cutting-edge technologies and user-friendly interfaces, making them essential tools for hospitals and healthcare providers.

The MP20 and MP30 are notable for their compact design, making them ideal for environments where space is limited. They come equipped with a variety of monitoring parameters, including ECG, SpO2, and non-invasive blood pressure, providing a comprehensive overview of patient health. These models are particularly suited for use in general wards or recovery areas, offering reliability and ease of use.

Moving to the MP40 and MP50, these monitors incorporate more advanced functionalities, including multi-gas monitoring, which is vital for anesthetic applications. They feature a robust data storage capacity, allowing for extensive patient history tracking and improved decision-making capabilities. The intuitive touchscreen interfaces facilitate quick access to essential information, enabling healthcare professionals to respond efficiently to changes in a patient's condition.

The MP60, MP70, MP80, and MP90 series represent the pinnacle of Philips' patient monitoring technology. These monitors are equipped with advanced algorithms that enhance the precision of vital sign measurements, including advanced ECG analysis capabilities that assist in detecting arrhythmias. The MP80 and MP90 models further integrate advanced monitoring technologies such as 3D visualization for hemodynamics and deep learning algorithms for early warning systems.

Connectivity is a key feature across the Philips monitoring range, with many models offering seamless integration with hospital information systems and electronic health records. This connectivity ensures that patient data is easily accessible to clinicians, promoting informed decision-making. Moreover, alarm management features are designed to minimize false alarms, significantly improving the staff's response time by focusing on critical alerts.

In summary, Philips MP20/30, MP40/50, MP60/70/80/90 monitors deliver exceptional monitoring capabilities, combining user-friendly design with advanced technology. Their varied features allow them to cater to different clinical needs, enhancing patient care and supporting healthcare professionals in their critical roles. With these monitors, healthcare facilities can achieve a new standard in patient monitoring, ensuring quality and safety in patient management.

Contents

IntelliVue Patient Monitor M8000-9001G Table Of Contents What’s New? Patient Alarms and INOPs ECG, Arrhythmia, and ST Monitoring Capture 12-Lead Monitoring Pulse Rate Monitoring SpO2 Monitoring Invasive Pressure Monitoring Carbon Dioxide Monitoring tcGas Monitoring BIS Calculations Recording Using the Drug Calculator Respiratory Loops Accessories Default Settings Appendix TcGas Default Settings Introducing the IntelliVue Family Basic Operation IntelliVue MP20/MP30 MP20/MP30 Major Parts and Keys AC Power LEDMP20/MP30 left side MP20/MP30 front panel MP40/MP50 Major Parts and Keys IntelliVue MP40/MP50MP40/MP50 left side MP40/MP50 front panel IntelliVue MP60/MP70 IntelliVue MP80/MP90 MP60/MP70 Major Parts and Keys Display Unit Remote Alarm DeviceMP80/MP90 Major Parts and Keys D80 Intelligent Display Docking Station Related ProductsFlexible Module Server M8048A Measurement Modules Example Module Pressure Multi-Measurement Server M3001A Measurement Server Extensions M3001A Connectors and Symbols M3014A Capnography M3016A Mainstream M3014A, M3015A and M3016A Capnography Extensions M3012A Hemodynamic M3012A Hemodynamic Measurement Server Extension Operating and Navigating Enter Main Setup menuMonitor information line Other screen elements Disabling Touchscreen Operation Using the Setup MenuUsing the Touchscreen Selecting Screen Elements Follows the Silence permanent key configuration Using the SpeedPoint Permanent Keys Using the Navigation PointUsing a Mouse or Trackball Using Keys SmartKeys Pop-Up Keys Hardkeys Using the On-Screen Calculator Using the On-Screen KeyboardMC MR M+ Back √ C/CE Select Main Setup, followed by Monitor Standby Standby ModeOperating Modes Changing a Screen’s Content Switching to a Different ScreenUnderstanding Screens Change Screen menu Using Additional DisplaysWaves a Split Screen a Loops Cardiac Output Vital Signs a Understanding Profiles Using the Visitor ScreenMeasurement Settings Monitor Settings Measurement a Measurement B Measurement C Measurement D Swapping a Complete Profile Changing Measurement Settings Understanding SettingsSwapping a Settings Block Default Profile Changing Wave Speeds Switching a Measurement On and OffSwitching Numerics On and Off Adjusting a Measurement Wave Freezing All Waves Freezing WavesChanging Wave Speed for a Channel Freezing An Individual Wave Using Labels De-activated labels are Grayed-out Resolving Label ConflictsConflicting measurement Labels are shown in red Setting the Date and Time Changing Monitor SettingsAdjusting the Screen Brightness Adjusting Touch Tone Volume Getting Started Switching OnSetting up the Measurement Servers and Modules Checking Your Monitor Revision Networked Monitoring Disconnecting from PowerUsing Remote Applications Monitoring After a Power Failure Again Remote Application Popup KeysRemote Applications SmartKey Pop-Up Keys Selecting this pop-up key lets you What’s New in Release D.0? What’s New? What’s New in Release C.0? What’s New in Release B.1? What’s New in Release B.0? What’s New in Release A.2? What’s New in Release A.2? ↑ ** HR High Alarms Audible Alarm Indicators Visual Alarm IndicatorsAlarm Tone Configuration ISO/IEC Standard 9703-2 Audible Alarms Changing the Alarm Tone VolumeMinimum Volume for No Central Monitoring Inop Traditional Audible Alarms HP/Agilent/Philips/Carenet Select Main Setup -Alarm Settings Acknowledging AlarmsPausing or Switching Off Alarms Alarm Reminder ReAlarm While Alarms are Paused or Off To Pause All AlarmsTo Switch All Alarms Off To Switch Individual Measurement Alarms On or Off Extending the Alarm Pause Time Alarm LimitsRestarting Paused Alarms Resetting Arrhythmia Alarm Timeouts Viewing All Alarm Limits Alarms Changing Alarm LimitsOn/Off Measurement value About Automatic Alarm Limits AutoLimitsDocumenting Alarm Limits Alarm limits Alarm Review Pause Al Limits Alarms Min 10 Min Reviewing AlarmsAlarm Messages Window Review Alarms Window Latching Alarms Understanding Alarm MessagesViewing the Alarm Latching Settings Alarm Behavior at On/Off Testing AlarmsAlarm Latching Behavior Patient Alarm Messages Patient Alarms and INOPsAlarm Message From Condition Indication CPP LOW CCO/CCI HighCCO/CCI LOW CPP High Missed Beat HR HighHR LOW Irregular HR Pacing NON-SUSTAIN VTPacer not Capt Pacer NT RR LOW RR HighST Multi Vent Rhythm AlarmVent Bigeminy Vent FIB/TACH Inop Message, Indication Source What to do Technical Alarm Messages INOPs BIS DSC Disconn BIS DSC UpdateBIS Cable Incompat BIS Cable Usage BIS Sensor Disconn BIS Isoelectrc EEGBIS Lead OFF BIS Overcurrent CCO BAD Press Sign Cannot Analyze ECGCannot Analyze ST CCI no BSA CCO Recalibrate CCO Press InvalidCCO Press Overrang CCO Pulse Overrang CO2 CAL Running CO2 CAL ModeLead OFF CO2 Auto Zero CO2 Equip Malf CO2 Update FWCO2 Check CAL Equip Malf CPP CHK Sources CO2 Zero FailedCO2 Zero Required CO2 Zero Running EEG Muscle Noise Eegx Lead OFFEegx Leads OFF EEG Line Noise MMS Unsupported Leads OFFLL Lead OFF MMS Unplugged NBP Measure Failed SignalPPV BAD Signal NBP Interrupted Overrange MalfTransducer Pulsatile Resp Erratic Some ECG Alarms OFFSpiro Upgrade Spiro Alarms Suppr SpO2 label Equip Malf SpO2 label EXTD. UpdateSpO2 Label Poor Signal SpO2 label Deactivated CAL Failed Label UpgradeCAL Mode Configuration CAL Requird SVR/SVRI CHK SourcesSVR/SVRI CHK Units SVR/SVRI SET CVP Used Stabilizing No Transduc Cable SetupConf Admitting a Patient Managing Patients Patient Category and Paced Status Quick Admitting a PatientAdmitting a Centrally-Monitored Patient Discharging a Patient Editing Patient Information Transferring a Centrally-Monitored Patient Transferring Patients Data Upload from an MMS MMS Trend Upload and MMS Settings UploadTransferring a Patient with an MMS no Central Station Resolving Patient Information Mismatch Data Exchange Between Information CentersManually Resolving Patient Mismatch Patient Mismatch If Neither Patient Data Set is Correct Patient Mismatch If One Set of Patient Data is Correct Patient Information This information is taken from Care GroupsAutomatically Resolving Patient Mismatch Patient Mismatch If Both Patient Data Sets Are Correct Depending on space available Understanding the Care Group Overview Bar Viewing the My Care Group Window Main Setup menu, select My Care Group Viewing the Other Bed Window 110 Visual Alarm Status Information in the Other Bed Window Care Group AlarmsOther Bed Pop-Up Keys Telemetry Data Overview Unpairing a Telemetry Device Telemetry Data Overview Screen Element Silencing Telemetry Alarms from the BedsideSuspending Telemetry Alarms Using Standby Connecting ECG Cables Skin Preparation for Electrode PlacementECG, Arrhythmia, and ST Monitoring Checking Paced Status Selecting the Primary and Secondary ECG Leads Monitoring Paced Patients Understanding the ECG Display To Change the Size of an Individual ECG Wave Setting the Paced Status Pace Pulse RejectionChanging the Size of the ECG Wave Avoiding Pace Pulse Repolarization Tails Changing the ECG Filter Settings Changing the Volume of the QRS ToneTo Change the Size of all the ECG Waves Changing Lead Sets Choosing Easi or Standard Lead PlacementAbout ECG Leads ECG Leads Monitored ECG Lead Fallback ECG Lead PlacementsElectrode labels Electrode colors Standard 5-Lead Placement Standard 3-Lead Placement Chest Electrode Placement Conventional 12-Lead ECG Lead Placement Labelling 12-Lead ECG Reports Choosing Standard or Modified Electrode PlacementModified 12-Lead ECG When Mod. LeadPlacement is set to Off Easi ECG Lead PlacementCapture 12-Lead On the lower sternum at the level ECG, Arrhythmia, and ST Alarm Overview ECG Safety Information Using ECG Alarms 106 About Arrhythmia Monitoring Where Can I Find More Information?Arrhythmia Options Atrial Fibrillation and Flutter Switching Arrhythmia Analysis On and OffChoosing an ECG Lead for Arrhythmia Monitoring Aberrantly-Conducted Beats Arrhythmia Beat Labels Understanding the Arrhythmia DisplayIntermittent Bundle Branch Block Viewing Arrhythmia Waves Rhythm Status Messages Arrhythmia Status MessagesDescription Or E Explanation Or E Arrhythmia RelearningInitiating Arrhythmia Relearning Manually Ectopic Status Messages Automatic Arrhythmia Relearn Arrhythmia AlarmsArrhythmia Relearn and Lead Fallback Switching All Yellow Arrhythmia Alarms On or Off Yellow Arrhythmia AlarmsArrhythmia Alarms and Latching Switching Individual Arrhythmia Alarms On and Off Behavior of Unsilenced Arrhythmia Alarms How are Yellow Arrhythmia Alarms Indicated?What is a Timeout Period? Resetting the Timeout Period Yellow Arrhythmia Alarms Beat Detection Alarms Chain Arrhythmia Alarm ChainingRed Arrhythmia Alarms PVC Alarms Chain Pair PVCs Understanding PVC-Related AlarmsNon-Sustain Tach Run PVCs About ST Monitoring Switching ST On and OffSelecting ST Leads for Analysis ST-II ST-V ST-aVR Understanding the ST Display Recording ST Segments Updating ST Baseline Snippets About the ST Measurement Points Adjusting ST Measurement Points ISO Point ST Point J+60 ST-I Viewing ST Maps ST AlarmsSingle- or Multi-lead ST Alarming Changing ST Alarm Limits ST Map Current Trend View Working in the ST Map Task Window Switching Between ST Map ViewsSetup ST Analysis menu, select ST Map Viewing an ST Map Changing the Trending Interval Displaying an ST Reference BaselineUpdating an ST Map Reference Baseline Changing the Scale of the ST Map 126 Monitoring Pulse Rate Entering the Setup Pulse MenuSystem Pulse Source Setup SpO2 menu Switching Pulse On and OffUsing Pulse Alarms Selecting the Active Alarm Source HR or Pulse? Changing HR/Pulse Alarm Limits Alarm Source Selection DisabledQRS Tone 130 Optimizing Lead Placement for Resp Lead Placement for Monitoring RespCardiac Overlay Lateral Chest Expansion Auto Detection ModeUnderstanding the Resp Display Changing Resp Detection Modes Changing the Size of the Respiration Wave Manual Detection ModeResp Detection Modes and Cardiac Overlay Changing the Speed of the Respiration Wave Using Resp AlarmsChanging the Apnea Alarm Delay Resp Safety Information 135 136 SpO2 Sensors Monitoring SpO2Applying the Sensor Measuring SpO2 Connecting SpO2 Cables Assessing a Suspicious SpO2 Reading Adjusting the Desat Limit Alarm Understanding SpO2 AlarmsAlarm Delays Adjusting the Alarm Limits Setting the QRS Volume Perfusion Pleth IndicatorSetting SpO2/Pleth as Pulse Source Setting Up Tone Modulation Choose the second measurement source Introducing the Oscillometric NBP Measurement Monitoring NBP Reference Method Preparing to Measure NBPMeasurement Limitations Measurement Methods Understanding the NBP Numerics Correcting the Measurement if Limb is not at Heart Level Starting and Stopping Measurements Enabling Automatic Mode and Setting Repetition Time Menu option Pressure value monitored Choosing the NBP Alarm SourceAssisting Venous Puncture Calibrating NBP 148 Selecting a Temperature for Monitoring Monitoring TemperatureMaking a Temp Measurement Calculating Temp Difference Extended Temperature Label Set Monitoring Invasive Pressure Setting up the Pressure Measurement Label Description Zeroing the Pressure TransducerSelecting a Pressure for Monitoring Extended Pressure Label Set Zeroing a Pressure Measurement Using the Zero HardkeyZeroing ICP or IC1/IC2 Determining a Pressure’s Most Recent Zero Changing the Pressure Wave Scale Adjusting the Calibration FactorTroubleshooting the Zero Displaying a Mean Pressure Value Only Optimizing the Waveform Choosing the Pressure Alarm SourceNon-Physiological Artifact Suppression Making the Pressure Calibration Calibrating Reusable Transducer CPJ840J6 Calculating Cerebral Perfusion Troubleshooting the Pressure CalibrationCalculating Pulse Pressure Variation Measuring Pulmonary Artery Wedge Pressure Editing the Wedge Identifying the Pressure Analog Output Connector Monitoring Cardiac Output Hemodynamic Parameters Cardiac Output Transpulmonary Using the C.O. Procedure Window Measuring Continuous Cardiac Output Accessing the Setup C.O. and Setup CCO MenusMeasuring C. O. Using the PiCCO Method Entering the HemoCalc Window CVP Setting Up the PiCCO C.O. Measurement Editing PiCCO C.O. Measurements Performing PiCCO C.O. Measurements Saving and Calibrating PiCCO C.O. Measurements CCO Calibration Status Indicators Setting up RH C.O. Measurements Measuring C.O. Using the Right Heart Thermodilution MethodIce-Bath Setup for RH Thermodilution C.O. Measurements Editing and Saving RH C.O. Measurements Setting the Computation ConstantDocumenting C.O. Measurements Performing RH C.O. Measurements Guidelines for Right Heart Thermodilution C.O. Injectate Injectate Volume, Patient Weight and Etvi Values PiCCO OnlyCold Injectate Room Temperature Injectate Etvi Etvi ≥ Injectate Guidelines Possible Causes CCO Curve Alert Messages CCO Prompt Messages Possible Causes CCO Prompt Messages O. module or measurement server extension has been plugged CCO Safety InformationCCO Warning Messages CCO Warning Messages Possible Causes 174 Monitoring Carbon Dioxide Preparing to Measure Mainstream CO2 Using the Capnography Extension M3014A Preparing to Measure Sidestream CO2 Using the Sidestream Sensor Holder Checking Transducer Accuracy Using the Mainstream CO2 Extension M3016ARemoving Exhaust Gases from the System Attaching and Removing the CO2 Transducer Calibrating the Transducer Using Microstream Accessories Using the Microstream CO2 Extension M3015APreparing to Measure Microstream CO2 Removing Exhaust Gases from the System Using the FilterLine and Airway Adapter Suppressing Zero Calibration Setting up Mainstream and Sidestream CO2Adjusting the CO2 Wave Scale Setting up CO2 Corrections Changing awRR Alarm Limits Changing CO2 AlarmsChanging the Apnea Alarm Delay Deriving Alarms From awRR 185 186 Monitoring Airway Flow, Volume and Pressure Attaching the Flow Sensor 189 Automatic Purging Zero Calibration Gas Compensation Adult ModeIncorrect Balance Gas Setting N2O instead of N2 Manual Purging Changing the Apnea Alarm Delay Setting up SpirometryOptimizing Scale Settings Alarms and Alarm Limits Choosing Measured AWV Components Setting the Gas Compensation ModeAutomatic Alarm Suppression Setup Spirometry menu, select Gas Compensation Changing the Temperature of the Inspired Gas Identifying tcGas Module Components Monitoring tcGas Using the tcGas Site Timer Setting the tcGas Sensor TemperatureSetting the tcGas Site Timer Remembraning the tcGas Transducer Setting the tcGas Barometric PressureRestarting the tcGas SiteTimer Disabling the tcGas Site Timer Storing tcGas Transducers New/Dried Out Transducers Calibrating the tcGas Transducer Calibration Failure Troubleshooting tcGas Calibration Applying the tcGas Transducer TcGas Corrections Finishing tcGas Monitoring Monitoring SvO2 Carrying out a Pre-insertion Calibration Preparing to Monitor SvO2 Performing a Light Intensity Calibration Inserting the Catheter Making the In-Vivo Calibration Setting Up the In-Vivo CalibrationPerforming In-Vivo Calibration Calculating Oxygen Extraction Monitoring EEG Percentage of total power in each frequency band KOhm ImpedanceLimit5kOhm EEG 1 F3-P3 EEG 2 F4-P4 EEG Monitoring SetupUsing the EEG Impedance/Montage Window EEG Montage SmartKey Label1 Choosing an EEG Electrode MontageChanging the Impedance Limit Montage Name About Electrode-to-Skin Impedance Impedance Indicators CSA contains the following information About Compressed Spectral Arrays CSA Changing the Scale of the EEG Waves for Display Changing EEG SettingsChanging CSA Settings Switching EEG Numerics On and Off CSA on Report EEG ReportsChanging Filter Frequencies Changing the Speed of the EEG Wave EEG and Electrical Interference EEG Safety Information Monitoring BIS Monitoring BIS Using the DSC and BIS Engine BIS Monitoring Setup With sensors for single-patient use Monitoring BIS using the BISxBoard Aspect BIS Sensor Aspect BISx 185-0145-PH Starting a Cyclic Impedance Check BIS Continuous Impedance CheckBIS Cyclic Impedance Check Manufacturer’s Information Symbol Color Action BIS Impedance IndicatorsBIS Window Changing the Scale of the EEG Wave Switching BIS and Individual Numerics On and OffSwitching BIS Filters On or Off Changing the BIS Smoothing Rate BIS Safety Information 222 Viewing Trends Trends Viewing Vital Signs Trends Viewing Graphic Trends Trends Pop-Up Keys Setting Up Trends Making Segment Settings Trend Parameter Scales Trend GroupsTrend Interval Trend Priority Graphical Trend Presentation Documenting Trends Trending Multiple-Value Measurements Trends DatabasesScreen Trends Aperiodic Trends Database Setting the Screen Trend Time Tabular View Changing the Selection of Screen Trends DisplayedActivating the Cursor for Screen Trends Changing the Screen Trend View Setting the Horizon Trend Scale Setting the HorizonHorizon View Viewing Calculations CalculationsHemodynamic Oxygenation Ventilation Calculations Pop-Up Keys Calculations Windows Performing Calculations Reviewing Calculations Manual Unit Conversion Entering Values for CalculationsAutomatic Value Substitution Automatic Unit Conversion Documenting Calculations 238 Hi-Res Trend Waves and OxyCRG High Resolution Trend WavesChanging the Hi-Res Trend Waves Displayed Hi-Res Trend Wave Scales Hi-Res Trend Wave Recordings Printing Hi-Res Trend Wave ReportsRecordings Surveillance Advanced Event Surveillance Event SurveillanceLevels of Event Surveillance Basic Event Event Episodes Event Groups Detail Events Pop-Up KeysEvent Episode Types Pre-time Post-time Open the Event Episode window to review the selected event SpO2 Resp Event TriggersABP Event Retriggering Setting Triggers for NER and Basic Event SurveillanceEvent Notification HR Pulse Triggering Events ManuallySet the event trigger For each Viewing Events Events DatabaseEvent Counter Counting Neonatal Event Review NER Events Counting Combi-EventsAD21 BD71 AB D 11 D6 M0 Event Review Window Event Summary Window Apnea Event Episode Window Documenting Events Annotating EventsDocumenting Event Review Event Recordings Documenting an Event EpisodeEvent Review Recordings Res Event ReportsEvent Episode Recordings Plet Event Review Reports Event Summary Reports Event Episode Reports 256 Stop key Stops the current recording Recording Quickstarting Recordings Starting and Stopping Recordings Recording Without a Template Overview of Recording TypesExtending Recordings Stopping Recordings Creating and Changing Recordings Templates All ECG Waves Recordings Changing ECG Wave Gain Setup Recording menu select General Select ECG Gain Sample Recording Strip Recording PrioritiesRecording Strip Code Maintaining Recording Strips Recorded WaveformsCode Meaning Reloading Paper Recorder Status Messages Explanation Recorder Status Messages 266 Printing Patient Reports Report types Report contents How to start printing reportsStarting Reports Printouts Limits Setting Up ReportsSetting Up ECG Reports Stopping Reports Printouts Setting Up Auto Reports Setting Up Vital Signs and Graphic Trend Reports Checking Printer Settings Setting Up Individual Print Jobs Unavailable Printer Re-routing Reports Dashed Lines on Reports Sample Report Printouts Printer Status MessagesPrinter Status Message Possible causes and suggested action Patient Name Alarm Limits Report Realtime Report Cardiac Output Report Other Reports ECG ReportsECG Report type Available Formats Available Paper Sizes Accessing the Drug Calculator Using the Drug Calculator About the Rule of Six Performing Drug CalculationsPerforming Calculations for a Non-Specific Drug Drug Calculator Performing Calculations for a Specific Drug Titr.Table Charting Infusion ProgressUsing the Titration Table Documenting Drug Calculations Module Type Max External Devices Wave Numeric VueLink Modules Viewing the VueLink Device Data Window Connecting an External DeviceSetup Device Name menu, select Show Device Data Changing VueLink Waves and Numerics Displayed Switching VueLink On and Off Using VueLink ScreensAlarms/INOPs From External Devices Language Conflict with External Device Drivers Notification Using TimersViewing Timers Select Main Setup Timers Timer Label Timer Setup Pop-up KeysSetting Up Timers Timer Types Run Time Displaying Timers On The Main ScreenTimer Counting Direction Select Change Numeric Select Any Timer Label Main Screen Timer Pop-up KeysSetup Displaying a Clock On The Main Screen Viewing Loops Respiratory Loops Capturing and Deleting Loops Select Main SetupShowing/Hiding Loops Changing Loops Display Size Using the Loops CursorSetting Up Source Device Setup VueLink Device menu Documenting Loops General Points Care and Cleaning Cleaning Monitoring Accessories CleaningDisinfecting Cleaning the Batteries and Battery Compartment Cleaning the Recorder Printhead M1116B onlySterilizing 296 MP20/MP30 one or two Philips Using the Batteries Battery LED Battery Power IndicatorsBattery Status on the Main Screen Battery status symbols Recording Battery Status Checking Battery ChargeBattery Status Window Viewing Individual Battery Status Replacing Batteries Optimizing Battery Performance Unequally-Charged Batteries Display Brightness SettingCharging Batteries Conditioning Batteries Battery Safety Information 304 Inspecting the Equipment and Accessories Maintenance TroubleshootingInspecting the Cables and Cords Maintenance Task and Test Schedule Disposing of the Monitor TroubleshootingDisposing of Empty Calibration Gas Cylinders 308 Electrode Cable Sets AccessoriesECG/Resp Accessories Trunk Cables Electrode One Piece Cables Set Combiners and Organizers NBP AccessoriesReusable Cuff Kits Bladder Tubing Width Adult/Pediatric Antimicrobial Coated Reusable cuffsNeonatal/Infant Cuffs Disposable, non-sterile Patient Category SpO2 Accessories Invasive Pressure AccessoriesTransducer, accessories, sensor kits Required Philips disposable sensors. Available worldwide Philips disposable sensors. Not available in the USA MAX-A Adapter Cable for Masimo sensors Extension / Adapter Cables for Philips and Nellcor Sensors Temperature Accessories Right Heart Thermodilution Cardiac Output C.O. AccessoriesTranspulmonary Thermodilution Sidestream CO2 Accessories for M3014A Mainstream CO2 Accessories for M3014AMainstream CO2 Accessories for M3016A Spirometry Accessories Microstream CO2 AccessoriesMicrostream accessory selection flowchart EEG Accessories TcGas AccessoriesBIS Accessories Other BIS Accessories SvO2 AccessoriesBIS Sensors Recorder Accessories Intended Use Installation and SpecificationsIndication for Use BIS Manufacturer’s Information Manufacturer’s InformationAddress of the EU Authorized Representative Trademark Acknowledgement Symbols Symbols Connectors Installation Safety Information12V MP20/MP30 MP40/MP50 MP60/MP70 333 MP80/MP90 Bedside Adapter Wireless Network Adapter Monitor Safety Specifications Altitude Setting Product Physical SpecificationsH x D Comments 338 Monitor MP20, MP30, MP40, MP50, MP60, MP70, MP80, MP90 Environmental SpecificationsMonitor MP40, MP50, MP60, MP70, MP80, MP90 Condition Range Monitor MP20, MP30 Condition Range Docking Station M8045A Condition Range D80 Intelligent Display Condition Range Remote SpeedPoint M8026A Condition Range M4605A Battery SpecificationsRemote Alarm Device M8025A Condition Range Thermal Array Recorder Module M1116B Condition Range MP20/30, MP40/50, MP60/70/80/90 Monitor Performance Specifications Trends IndicatorsMP20/MP30 Sounds D80 Intelligent Display Performance Specifications Alarm signalReview Alarms MMS M3001A Performance Specifications Trends Monitor Interface Specifications Display Specifications Sxga MP80, MP90 IntelliVue 802.11 Bedside Adapter Wireless Network AdapterVideo Interface MP60 MP70/MP80/MP90 ECG/Arrhythmia/ST Performance Specifications Measurement SpecificationsECG/Arrhythmia/ST Extreme Brady ECG/Arrhythmia/ST Alarm Specifications Range AdjustmentTime to Alarm for Extreme Tachy Respiration Respiration Performance SpecificationsSpO2 SpO2 Performance Specifications NBP Performance Specifications Range Adjustment Systolic Auto Mode Repetition TimesStat Mode Cycle Time Venipuncture Mode Inflation Inflation Pressure Adult Invasive Pressure and Pulse Invasive Pressure Performance Specifications Temp Range Adjustment Delay PressureAlarms Temp Microstream CO2 Humidity Correction Factor M3015A Microstream CO2 Performance Specifications Response Time M3014A Mainstream CO2 Performance SpecificationsM3014A Sidestream CO2 Performance Specifications Operating Temperature Mainstream CO2 Humidity Correction Factor M3016A Mainstream CO2 Performance Specifications Spirometry Spirometry Performance SpecificationsInterfering Gas and Vapor Effects On CO2 Measurement Values Whichever is greater Volume numericInspired Volume Expired Volume Cardiac Output / Continuous Cardiac Output CCO Performance Specifications TcGas TcGas Performance Specifications SvO2 SvO 2 Performance Specifications EEG Performance Specifications Electromagnetic Emissions Safety and Performance TestsElectromagnetic Compatibility EMC Specifications Accessories Compliant with EMC Standards Recommended Separation Distance Electromagnetic Immunity 367 Restart time Fast Transients/Bursts Default Settings Appendix ECG, Arrhythmia, and ST Default Settings Alarm Default Settings 371 372 Pulse Default Settings SpO 2 Alarm Default Settings Adult Pediatric Neonatal Respiration Default SettingsSpO2 Default Settings SpO 2 Settings Factory Adult Factory Pedi Factory Neo Temperature Default Settings NBP Default Settings Invasive Pressure PAP Settings Invasive Pressure Default SettingsSettings Factory Adult Factory Pedi Factory Neo Cardiac Output Default Settings Spirometry Default Settings CO2 Default SettingsSpirometry Adult Pedi Neo Settings SvO2 Settings TcGas Default SettingsSvO2 Default Settings TcGas Settings Factory Adult Adult Pedi Neo EEG Default SettingsBIS Default Settings EEG Settings Factory Adult Factory Pedi Factory Neo Device Alarms Ignored Color Green VueLink Default Settings 382 EEG 322 Hospira Inc Timeout periods 113 yellow Cpap Resp DSC BIS Fast Marker input connector Preparing skin for ECG Pressure PVR/PVRI Re-triggering events Retrolental fibroplasia SpO2 Viewing 223 trends pop-up keys 225 trends priority list Module options 281 module setup Visible waves and numerics Xii

Measurement Specifications

CO2

Safety and Performance Tests

35 Default Settings Appendix

MP60/70/80/90, MP40/50, MP20/30 specifications