Monitoring tcGas | Philips MP60/70/80/90, MP20/30, MP40/50 specification

	Spirometry Values Window	192
	Alarms and Alarm Limits	192
	Changing the Apnea Alarm Delay	192
	Automatic Alarm Suppression	193
	Choosing Measured AWV Components	193
	Setting the Gas Compensation Mode	193
	Changing the Type of Balance Gas	193
	Changing the Concentration of Inspired O2 and the Inspired Agents	193
	Changing the Temperature of the Inspired Gas	194
16 Monitoring tcGas		195

Identifying tcGas Module Components		195
Setting the tcGas Sensor Temperature		196
Using the tcGas Site Timer		196
	Setting the tcGas Site Timer	196
	Restarting the tcGas SiteTimer	197
	Disabling the tcGas Site Timer	197
Setting the tcGas Barometric Pressure		197
Remembraning the tcGas Transducer		197
	New/Dried Out Transducers	198
	Storing tcGas Transducers	198
Calibrating the tcGas Transducer		199
	Calibration Failure	200
	Troubleshooting tcGas Calibration	200
Applying the tcGas Transducer		201
	Selecting the tcGas HeatPowerDisplay Mode	202
	Zeroing the tcGas Relative Heat Power	202
Finishing tcGas Monitoring		202
TcGas Corrections		202
	Temperature Correction for tcpCO2	202
	Metabolism Correction for tcpCO2	202
17 Monitoring SvO2		203

Preparing to Monitor SvO2		204
Carrying out a Pre-insertion Calibration		204
Inserting the Catheter		205
Performing a Light Intensity Calibration		205
Performing In-Vivo Calibration		206
	Setting Up the In-Vivo Calibration	206
	Making the In-Vivo Calibration	206
Calculating Oxygen Extraction		206
18 Monitoring EEG		207

EEG Monitoring Setup		208
Using the EEG Impedance/Montage Window		208
	Choosing an EEG Electrode Montage	209

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Philips MP60/70/80/90, MP20/30, MP40/50 manual Monitoring tcGas

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 Basic Operation Introducing the IntelliVue Family IntelliVue MP20/MP30 AC Power LED MP20/MP30 Major Parts and KeysMP20/MP30 left side MP20/MP30 front panel IntelliVue MP40/MP50 MP40/MP50 Major Parts and KeysMP40/MP50 left side IntelliVue MP60/MP70 MP40/MP50 front panel MP60/MP70 Major Parts and Keys IntelliVue MP80/MP90 Remote Alarm Device MP80/MP90 Major Parts and KeysD80 Intelligent Display Display Unit Related Products Docking StationFlexible Module Server M8048A Measurement Modules Multi-Measurement Server M3001A Example Module Pressure M3001A Connectors and Symbols Measurement Server Extensions M3014A, M3015A and M3016A Capnography Extensions M3014A Capnography M3016A Mainstream M3012A Hemodynamic Measurement Server Extension M3012A Hemodynamic Enter Main Setup menu Operating and NavigatingMonitor information line Other screen elements Using the Setup Menu Using the TouchscreenSelecting Screen Elements Disabling Touchscreen Operation Using the SpeedPoint Follows the Silence permanent key configuration Using the Navigation Point Using a Mouse or TrackballUsing Keys Permanent Keys SmartKeys Hardkeys Pop-Up Keys Using the On-Screen Keyboard Using the On-Screen CalculatorMC MR M+ Back √ C/CE Standby Mode Select Main Setup, followed by Monitor StandbyOperating Modes Switching to a Different Screen Changing a Screen’s ContentUnderstanding Screens Using Additional Displays Change Screen menuWaves a Split Screen a Loops Cardiac Output Vital Signs a Using the Visitor Screen Measurement SettingsMonitor Settings Understanding Profiles Swapping a Complete Profile Measurement a Measurement B Measurement C Measurement D Understanding Settings Swapping a Settings BlockDefault Profile Changing Measurement Settings Switching a Measurement On and Off Switching Numerics On and OffAdjusting a Measurement Wave Changing Wave Speeds Freezing Waves Changing Wave Speed for a ChannelFreezing An Individual Wave Freezing All Waves Using Labels Resolving Label Conflicts Conflicting measurementLabels are shown in red De-activated labels are Grayed-out Changing Monitor Settings Adjusting the Screen BrightnessAdjusting Touch Tone Volume Setting the Date and Time Switching On Setting up the Measurement Servers and ModulesChecking Your Monitor Revision Getting Started Disconnecting from Power Using Remote ApplicationsMonitoring After a Power Failure Networked Monitoring Remote Application Popup Keys Remote Applications SmartKeyPop-Up Keys Selecting this pop-up key lets you Again What’s New? What’s New in Release D.0? 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? Alarms ↑ ** HR High Visual Alarm Indicators Audible Alarm IndicatorsAlarm Tone Configuration Changing the Alarm Tone Volume Minimum Volume for No Central Monitoring InopTraditional Audible Alarms HP/Agilent/Philips/Carenet ISO/IEC Standard 9703-2 Audible Alarms Acknowledging Alarms Pausing or Switching Off AlarmsAlarm Reminder ReAlarm Select Main Setup -Alarm Settings To Pause All Alarms To Switch All Alarms OffTo Switch Individual Measurement Alarms On or Off While Alarms are Paused or Off Alarm Limits Restarting Paused AlarmsResetting Arrhythmia Alarm Timeouts Extending the Alarm Pause Time Viewing All Alarm Limits Changing Alarm Limits AlarmsOn/Off About Automatic Alarm Limits AutoLimits Documenting Alarm LimitsAlarm limits Measurement value Reviewing Alarms Alarm Messages WindowReview Alarms Window Alarm Review Pause Al Limits Alarms Min 10 Min Understanding Alarm Messages Latching AlarmsViewing the Alarm Latching Settings Testing Alarms Alarm Behavior at On/OffAlarm Latching Behavior Patient Alarms and INOPs Patient Alarm MessagesAlarm Message From Condition Indication CCO/CCI High CCO/CCI LOWCPP High CPP LOW HR High HR LOWIrregular HR Missed Beat NON-SUSTAIN VT Pacer not CaptPacer NT Pacing RR High RR LOWST Multi Alarm Vent BigeminyVent FIB/TACH Vent Rhythm Technical Alarm Messages INOPs Inop Message, Indication Source What to do BIS DSC Update BIS Cable IncompatBIS Cable Usage BIS DSC Disconn BIS Isoelectrc EEG BIS Lead OFFBIS Overcurrent BIS Sensor Disconn Cannot Analyze ECG Cannot Analyze STCCI no BSA CCO BAD Press Sign CCO Press Invalid CCO Press OverrangCCO Pulse Overrang CCO Recalibrate CO2 CAL Mode Lead OFFCO2 Auto Zero CO2 CAL Running CO2 Update FW CO2 Check CALEquip Malf CO2 Equip Malf CO2 Zero Failed CO2 Zero RequiredCO2 Zero Running CPP CHK Sources Eegx Lead OFF Eegx Leads OFFEEG Line Noise EEG Muscle Noise Leads OFF LL Lead OFFMMS Unplugged MMS Unsupported Signal PPV BAD SignalNBP Interrupted NBP Measure Failed Malf TransducerPulsatile Overrange Some ECG Alarms OFF Spiro UpgradeSpiro Alarms Suppr Resp Erratic SpO2 label EXTD. Update SpO2 Label Poor SignalSpO2 label Deactivated SpO2 label Equip Malf Label Upgrade CAL ModeConfiguration CAL Failed SVR/SVRI CHK Sources SVR/SVRI CHK UnitsSVR/SVRI SET CVP Used CAL Requird No Transduc Stabilizing Setup CableConf Managing Patients Admitting a Patient Quick Admitting a Patient Patient Category and Paced StatusAdmitting a Centrally-Monitored Patient Editing Patient Information Discharging a Patient Transferring Patients Transferring a Centrally-Monitored Patient MMS Trend Upload and MMS Settings Upload Data Upload from an MMSTransferring a Patient with an MMS no Central Station Data Exchange Between Information Centers Resolving Patient Information MismatchManually Resolving Patient Mismatch Patient Mismatch If One Set of Patient Data is Correct Patient Mismatch If Neither Patient Data Set is Correct Care Groups Automatically Resolving Patient MismatchPatient Mismatch If Both Patient Data Sets Are Correct Patient Information This information is taken from Understanding the Care Group Overview Bar Depending on space available Main Setup menu, select My Care Group Viewing the My Care Group Window 110 Viewing the Other Bed Window Care Group Alarms Visual Alarm Status Information in the Other Bed WindowOther Bed Pop-Up Keys Unpairing a Telemetry Device Telemetry Data Overview Silencing Telemetry Alarms from the Bedside Suspending Telemetry AlarmsUsing Standby Telemetry Data Overview Screen Element Skin Preparation for Electrode Placement Connecting ECG CablesECG, Arrhythmia, and ST Monitoring Selecting the Primary and Secondary ECG Leads Checking Paced Status Understanding the ECG Display Monitoring Paced Patients Setting the Paced Status Pace Pulse Rejection Changing the Size of the ECG WaveAvoiding Pace Pulse Repolarization Tails To Change the Size of an Individual ECG Wave Changing the Volume of the QRS Tone Changing the ECG Filter SettingsTo Change the Size of all the ECG Waves Choosing Easi or Standard Lead Placement About ECG LeadsECG Leads Monitored Changing Lead Sets ECG Lead Placements ECG Lead FallbackElectrode labels Electrode colors Standard 3-Lead Placement Standard 5-Lead Placement Chest Electrode Placement Lead Placement Conventional 12-Lead ECG Choosing Standard or Modified Electrode Placement Labelling 12-Lead ECG ReportsModified 12-Lead ECG Easi ECG Lead Placement When Mod. LeadPlacement is set to OffCapture 12-Lead On the lower sternum at the level ECG, Arrhythmia, and ST Alarm Overview Using ECG Alarms ECG Safety Information 106 Where Can I Find More Information? About Arrhythmia MonitoringArrhythmia Options Switching Arrhythmia Analysis On and Off Choosing an ECG Lead for Arrhythmia MonitoringAberrantly-Conducted Beats Atrial Fibrillation and Flutter Understanding the Arrhythmia Display Intermittent Bundle Branch BlockViewing Arrhythmia Waves Arrhythmia Beat Labels Arrhythmia Status Messages Rhythm Status MessagesDescription Or E Arrhythmia Relearning Initiating Arrhythmia Relearning ManuallyEctopic Status Messages Explanation Or E Arrhythmia Alarms Automatic Arrhythmia RelearnArrhythmia Relearn and Lead Fallback Yellow Arrhythmia Alarms Arrhythmia Alarms and LatchingSwitching Individual Arrhythmia Alarms On and Off Switching All Yellow Arrhythmia Alarms On or Off How are Yellow Arrhythmia Alarms Indicated? What is a Timeout Period?Resetting the Timeout Period Behavior of Unsilenced Arrhythmia Alarms Arrhythmia Alarm Chaining Red Arrhythmia AlarmsPVC Alarms Chain Yellow Arrhythmia Alarms Beat Detection Alarms Chain Understanding PVC-Related Alarms Non-Sustain TachRun PVCs Pair PVCs Switching ST On and Off About ST MonitoringSelecting ST Leads for Analysis Understanding the ST Display ST-II ST-V ST-aVR Updating ST Baseline Snippets Recording ST Segments Adjusting ST Measurement Points About the ST Measurement Points ST-I ISO Point ST Point J+60 ST Alarms Single- or Multi-lead ST AlarmingChanging ST Alarm Limits Viewing ST Maps Trend View ST Map Current Switching Between ST Map Views Setup ST Analysis menu, select ST MapViewing an ST Map Working in the ST Map Task Window Displaying an ST Reference Baseline Updating an ST Map Reference BaselineChanging the Scale of the ST Map Changing the Trending Interval 126 Entering the Setup Pulse Menu Monitoring Pulse RateSystem Pulse Source Switching Pulse On and Off Using Pulse AlarmsSelecting the Active Alarm Source HR or Pulse? Setup SpO2 menu Alarm Source Selection Disabled Changing HR/Pulse Alarm LimitsQRS Tone 130 Lead Placement for Monitoring Resp Optimizing Lead Placement for RespCardiac Overlay Auto Detection Mode Understanding the Resp DisplayChanging Resp Detection Modes Lateral Chest Expansion Manual Detection Mode Changing the Size of the Respiration WaveResp Detection Modes and Cardiac Overlay Using Resp Alarms Changing the Apnea Alarm DelayResp Safety Information Changing the Speed of the Respiration Wave 135 136 Monitoring SpO2 SpO2 SensorsApplying the Sensor Connecting SpO2 Cables Measuring SpO2 Assessing a Suspicious SpO2 Reading Understanding SpO2 Alarms Alarm DelaysAdjusting the Alarm Limits Adjusting the Desat Limit Alarm Perfusion Pleth Indicator Setting SpO2/Pleth as Pulse SourceSetting Up Tone Modulation Setting the QRS Volume Choose the second measurement source Monitoring NBP Introducing the Oscillometric NBP Measurement Preparing to Measure NBP Measurement LimitationsMeasurement Methods Reference Method Correcting the Measurement if Limb is not at Heart Level Understanding the NBP Numerics Enabling Automatic Mode and Setting Repetition Time Starting and Stopping Measurements Choosing the NBP Alarm Source Assisting Venous PunctureCalibrating NBP Menu option Pressure value monitored 148 Monitoring Temperature Selecting a Temperature for MonitoringMaking a Temp Measurement Extended Temperature Label Set Calculating Temp Difference Setting up the Pressure Measurement Monitoring Invasive Pressure Zeroing the Pressure Transducer Selecting a Pressure for MonitoringExtended Pressure Label Set Label Description Using the Zero Hardkey Zeroing ICP or IC1/IC2Determining a Pressure’s Most Recent Zero Zeroing a Pressure Measurement Adjusting the Calibration Factor Troubleshooting the ZeroDisplaying a Mean Pressure Value Only Changing the Pressure Wave Scale Choosing the Pressure Alarm Source Optimizing the WaveformNon-Physiological Artifact Suppression Calibrating Reusable Transducer CPJ840J6 Making the Pressure Calibration Troubleshooting the Pressure Calibration Calculating Cerebral PerfusionCalculating Pulse Pressure Variation Measuring Pulmonary Artery Wedge Pressure Editing the Wedge Identifying the Pressure Analog Output Connector Monitoring Cardiac Output Hemodynamic Parameters Using the C.O. Procedure Window Cardiac Output Transpulmonary Accessing the Setup C.O. and Setup CCO Menus Measuring C. O. Using the PiCCO MethodEntering the HemoCalc Window Measuring Continuous Cardiac Output Setting Up the PiCCO C.O. Measurement CVP Performing PiCCO C.O. Measurements Editing PiCCO C.O. Measurements CCO Calibration Status Indicators Saving and Calibrating PiCCO C.O. Measurements Measuring C.O. Using the Right Heart Thermodilution Method Setting up RH C.O. MeasurementsIce-Bath Setup for RH Thermodilution C.O. Measurements Setting the Computation Constant Documenting C.O. MeasurementsPerforming RH C.O. Measurements Editing and Saving RH C.O. Measurements Injectate Volume, Patient Weight and Etvi Values PiCCO Only Cold Injectate Room Temperature Injectate Etvi Etvi ≥Injectate Guidelines Guidelines for Right Heart Thermodilution C.O. Injectate CCO Curve Alert Messages Possible Causes CCO Prompt Messages CCO Prompt Messages Possible Causes CCO Safety Information CCO Warning MessagesCCO Warning Messages Possible Causes O. module or measurement server extension has been plugged 174 Monitoring Carbon Dioxide Using the Capnography Extension M3014A Preparing to Measure Mainstream CO2 Preparing to Measure Sidestream CO2 Using the Sidestream Sensor Holder Using the Mainstream CO2 Extension M3016A Checking Transducer AccuracyRemoving Exhaust Gases from the System Calibrating the Transducer Attaching and Removing the CO2 Transducer Using the Microstream CO2 Extension M3015A Using Microstream AccessoriesPreparing to Measure Microstream CO2 Using the FilterLine and Airway Adapter Removing Exhaust Gases from the System Setting up Mainstream and Sidestream CO2 Adjusting the CO2 Wave ScaleSetting up CO2 Corrections Suppressing Zero Calibration Changing CO2 Alarms Changing the Apnea Alarm DelayDeriving Alarms From awRR Changing awRR Alarm Limits 185 186 Monitoring Airway Flow, Volume and Pressure Attaching the Flow Sensor 189 Zero Calibration Automatic Purging Adult Mode Incorrect Balance Gas Setting N2O instead of N2Manual Purging Gas Compensation Setting up Spirometry Optimizing Scale SettingsAlarms and Alarm Limits Changing the Apnea Alarm Delay Setting the Gas Compensation Mode Automatic Alarm SuppressionSetup Spirometry menu, select Gas Compensation Choosing Measured AWV Components Changing the Temperature of the Inspired Gas Monitoring tcGas Identifying tcGas Module Components Setting the tcGas Sensor Temperature Using the tcGas Site TimerSetting the tcGas Site Timer Setting the tcGas Barometric Pressure Restarting the tcGas SiteTimerDisabling the tcGas Site Timer Remembraning the tcGas Transducer New/Dried Out Transducers Storing tcGas Transducers Calibrating the tcGas Transducer Troubleshooting tcGas Calibration Calibration Failure Applying the tcGas Transducer Finishing tcGas Monitoring TcGas Corrections Monitoring SvO2 Preparing to Monitor SvO2 Carrying out a Pre-insertion Calibration Inserting the Catheter Performing a Light Intensity Calibration Setting Up the In-Vivo Calibration Performing In-Vivo CalibrationCalculating Oxygen Extraction Making the In-Vivo Calibration Percentage of total power in each frequency band Monitoring EEG EEG Monitoring Setup Using the EEG Impedance/Montage WindowEEG Montage SmartKey KOhm ImpedanceLimit5kOhm EEG 1 F3-P3 EEG 2 F4-P4 Choosing an EEG Electrode Montage Changing the Impedance LimitMontage Name Label1 Impedance Indicators About Electrode-to-Skin Impedance About Compressed Spectral Arrays CSA CSA contains the following information Changing EEG Settings Changing CSA SettingsSwitching EEG Numerics On and Off Changing the Scale of the EEG Waves for Display EEG Reports Changing Filter FrequenciesChanging the Speed of the EEG Wave CSA on Report EEG Safety Information EEG and Electrical Interference Monitoring BIS BIS Monitoring Setup Monitoring BIS Using the DSC and BIS Engine Monitoring BIS using the BISx BoardAspect BIS Sensor Aspect BISx 185-0145-PH With sensors for single-patient use BIS Continuous Impedance Check BIS Cyclic Impedance CheckManufacturer’s Information Starting a Cyclic Impedance Check BIS Impedance Indicators Symbol Color ActionBIS Window Switching BIS and Individual Numerics On and Off Switching BIS Filters On or OffChanging the BIS Smoothing Rate Changing the Scale of the EEG Wave BIS Safety Information 222 Trends Viewing Trends Viewing Graphic Trends Viewing Vital Signs Trends Setting Up Trends Trends Pop-Up Keys Making Segment Settings Trend Groups Trend IntervalTrend Priority Trend Parameter Scales Documenting Trends Graphical Trend Presentation Trends Databases Screen TrendsAperiodic Trends Database Trending Multiple-Value Measurements Setting the Screen Trend Time Changing the Selection of Screen Trends Displayed Activating the Cursor for Screen TrendsChanging the Screen Trend View Tabular View Setting the Horizon Setting the Horizon Trend ScaleHorizon View Calculations Viewing CalculationsHemodynamic Oxygenation Ventilation Calculations Windows Calculations Pop-Up Keys Reviewing Calculations Performing Calculations Entering Values for Calculations Automatic Value SubstitutionAutomatic Unit Conversion Manual Unit Conversion Documenting Calculations 238 High Resolution Trend Waves Changing the Hi-Res Trend Waves DisplayedHi-Res Trend Wave Scales Hi-Res Trend Waves and OxyCRG Printing Hi-Res Trend Wave Reports Hi-Res Trend Wave RecordingsRecordings Event Surveillance Levels of Event SurveillanceBasic Event Surveillance Advanced Event Surveillance Event Groups Event Episodes Events Pop-Up Keys Event Episode Types Pre-time Post-timeOpen the Event Episode window to review the selected event Detail Event Triggers SpO2 RespABP Setting Triggers for NER and Basic Event Surveillance Event RetriggeringEvent Notification Triggering Events Manually Set the event triggerFor each HR Pulse Events Database Viewing EventsEvent Counter Counting Combi-Events Counting Neonatal Event Review NER EventsAD21 BD71 AB D 11 D6 M0 Event Summary Window Event Review Window Event Episode Window Apnea Annotating Events Documenting EventsDocumenting Event Review Documenting an Event Episode Event RecordingsEvent Review Recordings Event Reports Event Episode RecordingsPlet Res Event Review Reports Event Episode Reports Event Summary Reports 256 Recording Stop key Stops the current recording Starting and Stopping Recordings Quickstarting Recordings Overview of Recording Types Extending RecordingsStopping Recordings Recording Without a Template All ECG Waves Recordings Creating and Changing Recordings Templates Setup Recording menu select General Select ECG Gain Changing ECG Wave Gain Recording Priorities Sample Recording StripRecording Strip Code Recorded Waveforms Maintaining Recording StripsCode Meaning Reloading Paper Recorder Status Messages Recorder Status Messages Explanation 266 Report types Report contents How to start printing reports Printing Patient ReportsStarting Reports Printouts Setting Up Reports Setting Up ECG ReportsStopping Reports Printouts Limits Setting Up Vital Signs and Graphic Trend Reports Setting Up Auto Reports Setting Up Individual Print Jobs Checking Printer Settings Dashed Lines on Reports Unavailable Printer Re-routing Reports Printer Status Messages Sample Report PrintoutsPrinter Status Message Possible causes and suggested action Alarm Limits Report Patient Name Realtime Report Cardiac Output Report ECG Reports Other ReportsECG Report type Available Formats Available Paper Sizes Using the Drug Calculator Accessing the Drug Calculator Performing Drug Calculations About the Rule of SixPerforming Calculations for a Non-Specific Drug Performing Calculations for a Specific Drug Drug Calculator Charting Infusion Progress Using the Titration TableDocumenting Drug Calculations Titr.Table VueLink Modules Module Type Max External Devices Wave Numeric Connecting an External Device Setup Device Name menu, select Show Device DataChanging VueLink Waves and Numerics Displayed Viewing the VueLink Device Data Window Using VueLink Screens Switching VueLink On and OffAlarms/INOPs From External Devices Language Conflict with External Device Drivers Using Timers Viewing TimersSelect Main Setup Timers Notification Timer Setup Pop-up Keys Setting Up TimersTimer Types Timer Label Displaying Timers On The Main Screen Timer Counting DirectionSelect Change Numeric Select Any Timer Run Time Main Screen Timer Pop-up Keys SetupDisplaying a Clock On The Main Screen Label Respiratory Loops Viewing Loops Select Main Setup Capturing and Deleting LoopsShowing/Hiding Loops Using the Loops Cursor Setting Up Source DeviceSetup VueLink Device menu Changing Loops Display Size Documenting Loops Care and Cleaning General Points Cleaning Cleaning Monitoring AccessoriesDisinfecting Cleaning the Recorder Printhead M1116B only Cleaning the Batteries and Battery CompartmentSterilizing 296 Using the Batteries MP20/MP30 one or two Philips Battery Power Indicators Battery LEDBattery Status on the Main Screen Battery status symbols Checking Battery Charge Battery Status WindowViewing Individual Battery Status Recording Battery Status Optimizing Battery Performance Replacing Batteries Display Brightness Setting Charging BatteriesConditioning Batteries Unequally-Charged Batteries Battery Safety Information 304 Maintenance Troubleshooting Inspecting the Equipment and AccessoriesInspecting the Cables and Cords Maintenance Task and Test Schedule Troubleshooting Disposing of the MonitorDisposing of Empty Calibration Gas Cylinders 308 Accessories ECG/Resp AccessoriesTrunk Cables Electrode Cable Sets Electrode One Piece Cables NBP Accessories Set Combiners and OrganizersReusable Cuff Kits Adult/Pediatric Antimicrobial Coated Reusable cuffs Neonatal/Infant Cuffs Disposable, non-sterilePatient Category Bladder Tubing Width Invasive Pressure Accessories SpO2 AccessoriesTransducer, accessories, sensor kits Required Philips disposable sensors. Not available in the USA Philips disposable sensors. Available worldwide MAX-A Extension / Adapter Cables for Philips and Nellcor Sensors Adapter Cable for Masimo sensors Temperature Accessories Cardiac Output C.O. Accessories Right Heart ThermodilutionTranspulmonary Thermodilution Mainstream CO2 Accessories for M3014A Sidestream CO2 Accessories for M3014AMainstream CO2 Accessories for M3016A Microstream CO2 Accessories Spirometry AccessoriesMicrostream accessory selection flowchart TcGas Accessories EEG AccessoriesBIS Accessories SvO2 Accessories Other BIS AccessoriesBIS Sensors Recorder Accessories Installation and Specifications Intended UseIndication for Use Manufacturer’s Information BIS Manufacturer’s InformationAddress of the EU Authorized Representative Trademark Acknowledgement Symbols Symbols Installation Safety Information Connectors12V MP20/MP30 MP40/MP50 MP60/MP70 333 MP80/MP90 Bedside Adapter Wireless Network Adapter Altitude Setting Monitor Safety Specifications Physical Specifications ProductH x D Comments 338 Environmental Specifications Monitor MP40, MP50, MP60, MP70, MP80, MP90 Condition RangeMonitor MP20, MP30 Condition Range Monitor MP20, MP30, MP40, MP50, MP60, MP70, MP80, MP90 D80 Intelligent Display Condition Range Docking Station M8045A Condition Range M4605A Battery Specifications Remote Alarm Device M8025A Condition RangeThermal Array Recorder Module M1116B Condition Range Remote SpeedPoint M8026A Condition Range Monitor Performance Specifications MP20/30, MP40/50, MP60/70/80/90 Indicators MP20/MP30Sounds Trends Alarm signal Review AlarmsMMS M3001A Performance Specifications Trends D80 Intelligent Display Performance Specifications Monitor Interface Specifications Display Specifications IntelliVue 802.11 Bedside Adapter Wireless Network Adapter Video Interface MP60MP70/MP80/MP90 Sxga MP80, MP90 Measurement Specifications ECG/Arrhythmia/ST Performance SpecificationsECG/Arrhythmia/ST ECG/Arrhythmia/ST Alarm Specifications Range Adjustment Time to Alarm forExtreme Tachy Extreme Brady Respiration Performance Specifications RespirationSpO2 SpO2 Performance Specifications NBP Performance Specifications Auto Mode Repetition Times Stat Mode Cycle TimeVenipuncture Mode Inflation Inflation Pressure Adult Range Adjustment Systolic Invasive Pressure Performance Specifications Invasive Pressure and Pulse Range Adjustment Delay Pressure AlarmsTemp Temp M3015A Microstream CO2 Performance Specifications Microstream CO2 Humidity Correction Factor M3014A Mainstream CO2 Performance Specifications M3014A Sidestream CO2 Performance SpecificationsOperating Temperature Response Time M3016A Mainstream CO2 Performance Specifications Mainstream CO2 Humidity Correction Factor Spirometry Performance Specifications SpirometryInterfering Gas and Vapor Effects On CO2 Measurement Values Volume numeric Inspired VolumeExpired Volume Whichever is greater CCO Performance Specifications Cardiac Output / Continuous Cardiac Output TcGas Performance Specifications TcGas SvO 2 Performance Specifications SvO2 EEG Performance Specifications Safety and Performance Tests Electromagnetic Compatibility EMC SpecificationsAccessories Compliant with EMC Standards Electromagnetic Emissions Electromagnetic Immunity Recommended Separation Distance 367 Fast Transients/Bursts Restart time Default Settings Appendix Alarm Default Settings ECG, Arrhythmia, and ST Default Settings 371 372 Pulse Default Settings Respiration Default Settings SpO2 Default SettingsSpO 2 Settings Factory Adult Factory Pedi Factory Neo SpO 2 Alarm Default Settings Adult Pediatric Neonatal NBP Default Settings Temperature Default Settings Invasive Pressure Default Settings Invasive Pressure PAP SettingsSettings Factory Adult Factory Pedi Factory Neo Cardiac Output Default Settings CO2 Default Settings Spirometry Default SettingsSpirometry Adult Pedi Neo Settings TcGas Default Settings SvO2 Default SettingsTcGas Settings Factory Adult SvO2 Settings EEG Default Settings BIS Default SettingsEEG Settings Factory Adult Factory Pedi Factory Neo Adult Pedi Neo VueLink Default Settings Device Alarms Ignored Color Green 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

16 Monitoring tcGas

Using the tcGas Site Timer

17 Monitoring SvO2

18 Monitoring EEG

Using the EEG Impedance/Montage Window

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