Dedicated hardware support for synchronization eliminates any latency of the network driver software. This applies to the data flow from the measurement server to the monitor for example measurement signal data and the data flow from the monitor to a measurement server for example to feed data to a recorder module.
Integrated communication hubs in the monitor allow flexible cabling options star topology, daisy chaining of servers. 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 the connection of an external wireless adapter or an internal wireless adapter J Switching between wired and wireless networks is automatically triggered by the plugging or unplugging of the network cable. After configuration, the monitoring system sends the digitized patient signals including wave data, numerical data and status information onto the network.
Control data representing user interactions 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 address.
The purpose of the support tool is to upgrade, configure and diagnose all monitoring components modules, measurement servers, and monitors in the system over the network. The service protocol developed for this purpose uses a raw access to the devices without the need for IP addresses etc.
The boot code itself can also be upgraded using the same protocol. The tool allows access to internal service information and to serial numbers. It can be remotecontrolled, for example via a dial-up connection from a response center, provided the proper infrastructure is in place.
Figure 8 shows the functional block diagram for the monitoring system. A legend explaining terms and diagram elements follows.
The information below varies depending on the purchased monitor options. The Application Server Client provides the Citrix 1 thin client. SpO 2 or tcpO 2 , and Respiration physiological data. This chapter provides a checklist of the testing and maintenance procedures for the monitor, the MMS, the Measurement Server Extensions and the modules. Preventive Maintenance refers specifically to the series of tests required to make sure the measurement results are accurate.
The accuracy and performance procedures are designed to be completed as specified in the following sections or when readings are in question. Authorized Philips personnel report test results back to Philips to add to the product development database.
Hospital personnel, however, do not need to report results. This table shows you what to record on the service record after completing the tests in this chapter.
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. Perform all safety, accuracy and performance test procedures listed in the following sections. If a particular measurement is in question, perform the measurement performance test only. This section describes NBP test procedures.
This test checks the performance of the non-invasive blood pressure measurement. Connect the equipment as shown:. 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 The value in parentheses indicates the actual pressure applied to the system. If not, proceed to the leakage test. Wait a few seconds after pumping stops until EnterPrVal is highlighted and then move the cursor to the value shown on the manometer. If one of the following prompt messages appears during this step, check whether there is leakage in the setup:.
The NBP leakage test checks the integrity of the system and of the valve. It is required once every two years and when you repair the monitor or replace parts. The value should be less than 10 mmHg. Allow five seconds between individual service procedures to ensure stable equipment conditions.
Wait until the monitor completes the current operation, then restart the service procedure. This test checks the performance of the CO 2 measurement for the Microstream extension.
The CO 2 performance test is required once per year and when the instrument is repaired or when parts are replaced. This test uses calibration equipment that you can order see the Parts section for the part number. The procedure is summarized in the following steps. Refer to the documentation accompanying the equipment for detailed instructions. You also need a 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 2 calibration for the Microstream extension consists of the following steps:. Check the barometric pressure value in the Microstream CO 2 extension as follows:. This activates the pump in the Microstream CO 2 Extension.
If so, proceed to the leakage check. If the value is not correct, calibrate as follows. Select CO 2 then select Barom. Press to activate a table of values. Select the 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 mmHg and a resolution of 1 mmHg from mmHg to mmHg. Confirm the barometric pressure setting. Check that the ambient pressure displayed in the status line at the bottom of the screen is the same as the value which you selected from the list in step b.
The cell pressure should be approximately 20 mmHg lower than ambient pressure. If the value is within the tolerance limits, continue with part 2 of the leakage check. If the connections are good, then there is a leakage in the tubing and you must exchange the measurement server extension. The cell pressure shown in the status line on the display should decrease to between and mmHg.
Do not block the inlet for longer than 25 seconds as this will lead to. If the value is within the tolerance limits, there are no leakages and the leakage check is completed; proceed to the pump check. If the connections are good, try replacing the FilterLine and repeating the leakage check.
If the situation remains, there is a leakage in the tubing and the MA must be exchanged. The cell pressure x4 should be more than mmHg below the ambient pressure shown. If the pressure difference is less than mmHg, the pump is not strong enough and you should replace it, irrespective of the Pump OpTime. Check the flow rate in the Microstream CO 2 extension as follows:. If the value is within tolerance, proceed to the CO 2 Gas calibration check. If the value is not within tolerance, calibrate as follows.
If you do not store the adjusted flow within 60 seconds of the adjustment, the old flow setting is restored. If you still cannot make the flow adjustment, this indicates a fault in the measurement extension, which must be replaced. If the value exceeds 3 mmHg, replace the measurement extension. After switching the measurement extension on, wait at least 20 minutes before checking the calibration.
Check the calibration of the CO 2 gas measurement as follows:. Allow the value to stabilize. If the value is outside the tolerance, calibrate as described in step 9 in this procedure onwards. If so, the measurement extension is correctly calibrated. If the value is outside the tolerance, calibrate as follows. The default value is 5. Allow the value to stabilize before the start of the calibration. Leave the valve open until the instrument gives a. If one or both values are not within tolerances, you must exchange the measurement server extension.
You must check the time counters on the Microstream CO 2 extension before calibrating the instrument. As well, when parts are replaced, the appropriate counters must be reset to zero. The values are updated when entering the Setup CO 2 menu. If the counter time is greater than 15, hours, replace the appropriate part. See Repair and Disassembly for details.
See Repair and Disassembly. Some of the following test procedures 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. If required, open the screen menu in the monitor info line at the top of the screen and select Service to access the service screen. This is required particularly for Anesthetic Gas Module testing procedures.
Inspect the system for obvious signs of damage. Also check all external leads and accessories. The expected test result is pass: the monitor boots up and displays an ECG wave. The wave might be a flat line if no simulator is attached. Tools required: Patient simulator with 0. If the value is outside these tolerances, calibrate the MMS or measurement server extension.
If the MMS was calibrated with a dedicated reusable catheter, check the calibration together with this catheter. This test checks the performance of the SpO 2 measurement. The SpO 2 accuracy has been validated in human studies against arterial blood sample reference measured with a CO-oximeter. The population characteristics for those studies were:. NOTE A functional tester cannot be used to assess the accuracy of a pulse oximeter monitor.
However, it can be used to demonstrate that a particular pulse oximeter monitor reproduces a calibration curve that has been independently demonstrated to fulfill a particular accuracy specification.
The procedures below describe the mainstream and sidestream CO 2 performance tests for the MA Capnography Extension. Attach an airway adapter to the sensor. Make sure that the sensor is disconnected from the patient circuit. If the gas temperature is significantly above or below this value, correct the gas temperature setting. Ensure Zero Gas is set to Room Air. NOTE Make sure that you follow the above steps correctly.
If the sensor fails this check it must be exchanged. The sensor cannot be calibrated. Attach the sample line and the cal tube to the sensor. Welcome to ManualMachine.
We have sent a verification link to to complete your registration. Log In Sign Up. Forgot password? Enter your email address and check your inbox. Please check your email for further instructions. Enter a new password. IntelliVue MP How to Use This Guide This guide is divided into eight sections. Passwords In order to access different modes within the monitor a password may be required.
Monitoring Mode: No password required Configuration Mode: Demo Mode: Service Mode: Consult the configuration guide before making any changes to the monitor configuration. Warnings and Cautions 1 Introduction. System Boundaries The following diagram discusses specific boundaries within the overall system with respect to their openness and real-time requirements:.
Philips Clinical Network Measurement LAN combines components of one patient monitor; real time requirements across all interconnected elements Philips Clinical Network wired LAN connects multiple patient monitors, information centers, application servers; closed system, only Philips qualified products tested and with regulatory approval are connected, Philips is responsible for guaranteed real-time functionality and performance Philips Clinical Network wireless like Philips Clinical Network wired LAN, however due to current wireless technologies available it has reduced bandwidth, longer latencies, reduced functionality Hospital LAN, Internet Standard Network, not under Philips control, no guaranteed service, no real-time requirements.
Alarm Relays. Optional Hardware An integrated 4-Slot module rack and a battery board can be ordered optionally. Monitor Theory of Operation 2 Theory of Operation. Monitor Theory of Operation 2 Theory of Operation Data Flow The following diagram shows how data is passed through the monitoring system. Persistent Data Storage System Service Some applications require storage of data over longer periods of time.
Display and User Interface Service Applications can use high level commands to display monitoring data or status and command windows on the internal LCD panel. Data Output The monitoring system is very flexible and customizable regarding its data output devices. Monitor Applications The monitor applications provide additional system functionality over the basic measurement and monitoring capabilities. For details see the Instructions for Use for the Support Tool.
Monitor Software Block Diagram Figure 8 shows the functional block diagram for the monitoring system. The OS performs system checks and allocates resources to ensure safe operation when the system is first started. This includes internal self-tests on several hardware modules and configuration checks for validity of configuration with the operating software. During normal operation, the OS continues to run checks on system integrity.
If error conditions are detected the OS will halt monitoring operations and inform the operator about the error condition. System Services The System Services provide generic common system services.
In particular: They use a real-time clock component to track time. They synchronize to network time sources and verify the accuracy of the system time information. They are also responsible for managing persistent user configuration data for all Measurement Servers, Flexible Module Servers and IntelliVue Patient Monitoring System software modules. Functional Block Description Reports The Reports Service retrieves current and stored physiological data and status data to format reports for printing paper documentation.
Loops, Review Applications, Drug report The Reports service generates report data which can be printed on a local or a central printer. Record The Record Service retrieves current and stored physiological data and status data to format a continuous strip recording. A recording can be triggered manually by the operator or automatically by an alarm condition. The Record Service can also send data to a central recorder. Visual alarm signals messages are displayed at the top of the IntelliVue Patient Monitoring System display and alarm sounds are generated by a loudspeaker.
Alarm conditions may be generated when a physiological parameter exceeds preselected alarm limits or when a physiological parameter or any other software module reports an inoperative status technical alarm, for example, the ECG leads may have fallen off the patient. The Alarm service manages the alarm inactivation states, for example suspension of alarms, silencing of alarms, and alarm reminder.
Alarm signals may also be configured as latching alarm signals are issued until they are acknowledged by the operator, even when the alarm condition is no longer true. The Alarm service controls the visual alarm signals alarm lamps.
Functional Block Description Trend The Trend service stores the sample values of physiological data and status data with a resolution of 12 seconds, 1 minute or 5 minutes for a period of up to 48 hours.
The stored data is protected via consistency checks and checksums. When a new patient is admitted, the trend database erases all data of the previous patient.
The OxyCRG is specialized for neonatal applications, allowing the operator to identify sudden drops in Heart Rate Bradycardia and SpO 2 or tcpO 2 Desaturations , and supporting the operator in visualizing Apnea situations. The operator may admit a new patient, discharge the old patient and enter or modify the patient demographics. The ADT service controls the deletion of old patient data, the upload of trend data from the MA and the switching back of all settings to user defaults.
It also synchronizes patient information with a central station on the network. Calc Param The Calc Param Calculated Parameters service accesses current, stored and manually entered physiological data as input to calculation formulas.
With these formulas, derived hemodynamic, oxygenation and ventilation variables are computed. The calculation results, including the input parameters, are stored for later review using the Trend service.
Drug Calc The Drug Calc application aids in calculating drug dosages for patients. PV Loops The PV Loops application compares graphic representations of airway waves to help detect changes in the patient airway condition.
Battery Provides battery operation of the monitor. MDSE establishes and maintains a data communication link between the devices. It provides configuration information about the remote device to applications in the local device and it allows the exchange of measurement data and status information between the devices. The Printer Interface Manager notifies the operator in such cases. Electronically separated interfaces are used for communication to the Measurement Servers or Flexible Module Server and to the network.
Centronics The Centronics interface implements the standard signaling method for bi-directional parallel peripheral devices according to IEEE I. The interface is used as a parallel interface to a standard printer with electrical isolation and ESD protection. The Display Controller interface processes the high level display commands character and graphic generation, wave drawing and translates them into pixels, which are written into the video RAM where the video controller chip generates the video synchronization signals and the pixel stream for the Color LCD Display.
The interface is a serial, differential, full-duplex link. The interface is ESD protected. Nurse Call The Nurse Call board contains 2 connectors. A phone jack type connector and a multi-port connector.
When you switch from a complex to a less complex Screen layout, some measurements may not be visible but are still monitored in the background. If you do not want to change the entire Screen content, but only some parts of it, you can substitute individual waves, numerics, high-res waves, or trends. Be aware that these changes cannot be stored permanently in Monitoring Mode. Change HiResTrend , and then select the wave or numeric you want, or select the highresolution trend wave you want from the list of available waves.
If you do not see Change Numeric in the menu, this Screen may be configured to always display the numeric beside its wave. Changing the wave will automatically change the numeric. In the Change Screen menu, the changed Screen is shown linked to the original Screen and marked with an asterisk. The ten most recently-used Screens including up to three modified Screens can be accessed. Modified Screens are still available in the. If a modified Screen was the last active Screen when the monitor was switched off, it is retained unless Automat.
Default is configured to Yes. A second display, showing the same Screen as the main display, can be connected to any of the monitors, for viewing only. The MP90 can have two main displays and additionally, as a third main display, the D80 Intelligent Display connected.
All main displays can be configured and operated individually using standard input devices. For MP90 monitors with multiple displays and multiple input devices, the usage and behavior can be configured according to specific requirements at installation for example, use for two independent operators or tracking of mouse input across two displays.
For details refer to the Service Guide. When two operators are using two displays, the scope of an action depends on the type of operation:.
If you are operating two displays with one remote SpeedPoint, to navigate from one display to another:. The content of each Screen can be changed individually as described in the previous section. If you are operating two or three displays, you can choose Screens for all displays from one location:. Select Profiles in the monitor info line of the first display,. Select Display 1 , Display 2, or Display 3 then select the Screen you want to display.
When two displays are mounted next to each other or one above the other, a special Screen can be assigned which spans across both displays. The Screen content for these Tall and Wide Screens can then use the increased area available with two displays. Certain windows for example: cardiac output procedure can only be shown on one display at a time. If you try to open one of these windows when it is already shown on another display, you will see a blank grey window with a cross through it.
If a visitor Screen is configured for your monitor, you can use it to clear the screen of all waves and numerics but continue to monitor the patient with active alarms and trend storage at the bedside and Information Center. You can change the name of the visitor Screen in Configuration Mode. Profiles are predefined monitor configurations. They let you change the configuration of the whole monitor so you can adapt it to different monitoring situations. The changes that occur when you change a complete profile are more far reaching than those made when you change a Screen.
Screens affect only what is shown on the display. Profiles affect all monitor and measurement settings. The settings that are defined by Profiles are grouped into three categories. These categories are:. If you are using a second display, each display can have its own individual screen selection. When you change the profile, the screen selection configured for the new profile becomes active. These relate directly. Changes you make to any element within the settings blocks are not saved when you discharge the patient, unless you save them in Configuration Mode.
You might find it helpful to think of the three categories in terms of a restaurant menu. The Measurement Settings are like the dessert course. From these you build your meal. Depending on your monitor configuration, when you switch on or discharge a patient the monitor either continues with the previous profile, or resets to the default profile configured for that monitor.
WARNING If you switch to a different profile, the patient category and paced status normally change to the setting specified in the new profile. However some profiles may be setup to leave the patient category and paced status unchanged. Always check the patient category, paced status, and all alarms and settings, when you change profiles.
Settings or. Monitor Settings to call up a list of the settings blocks in each category. Your monitor has a default profile that it uses when you leave Demonstration, or Service modes, or when you discharge a patient. This profile is indicated by a diamond. Some profiles are locked, so that you cannot change them, even in Configuration Mode.
These are indicated by this lock symbol. Each aspect of how the monitor works and looks is defined by a setting. There are a number of different categories of settings, including,. Screen Settings , to define the selection and appearance of elements on each individual Screen. Measurement settings , to define settings unique to each measurement, for example, high and low alarm limits.
Monitor settings , including settings that affect more than one measurement or Screen and define general aspects of how the monitor works, for example, alarm volume, reports and recordings, and display brightness. All settings are reset to the stored defaults:. Default is set to. Each measurement has a setup menu in which you can adjust all of its settings. You can enter a setup menu:. Then select the measurement name from the popup list. With this SmartKey you can access any setup menu in the monitor.
This guide always describes the entry method using the setup menu. But you can use any method you prefer. The monitor stops data acquisition and alarming for this measurement.
A measurement automatically switches off if you disconnect its module or measurement server. If you disconnect a transducer, the monitor replaces the measurement numeric with question marks. The screen display indicates the active setting. For some measurements, such as EEG, you can choose which numerics to view on the screen.
This displays the measurement Wave menu, which has only waverelated measurement settings. Lowering the wave speed compresses the wave and lets you view a longer time period.
Increasing the speed expands the waveform, giving you a more detailed view. To set an individual channel speed, select a numeric value from the list of available speeds. This overrides the wave group speed setting and set the speed for the individual wave channel on the monitor Screen. The wave channel speed is independent of the wave label depicted in the channel, if you change the wave, the new wave will retain the set channel speed.
You can freeze waves on the screen and measure parts of the wave using cursors. The waves are frozen with a history of 20 seconds so that you can go back and measure what you have seen. If you are using touch, this automatically positions the vertical cursor.
The cursor can be repositioned by touching the required point on the wave, or. The vertical cursor moves through the time axis and the current value is displayed next to the cursor.
The horizontal cursor measures the wave value, which is displayed above the cursor line. You can measure multiple invasive pressures, temperatures, and SpO 2 simultaneously.
The monitor uses labels to distinguish between them. The default settings defined in the profile such as measurement color, wave scale, and alarm settings are stored within each label. When you assign a label to a measurement, the monitor automatically applies these default settings to the measurement.
The labels assigned are used throughout the monitor, in reports, recordings, and in trends. Your monitor may be configured to use a Restricted or Full label set. The Full label set provides extra labels for Pressure and Temp.
See the sections in this Instructions for Use on Pressure and Temp for more information. This may cause a label conflict with other monitored measurements.
Be aware that connecting a monitor using the Full label set to an Information Center with certain software revisions may affect the availability of measurement information from the additional labels on the Information Center. To change a measurement label of a measurement with multiple labels invasive pressure, temperature, or SpO 2 ,. The monitor automatically applies the scale, color, etc. Now you want to use the same module to measure ABP with a new patient. When you connect the pressure transducer to the module, the pressure shown on the screen still uses the CVP color and wave scale and is labeled CVP.
To rectify this, just change the pressure label to ABP. Now the pressure has the correct color, the wave is shown in the correct scale, and the appropriate alarm limits for ABP are active. Each label must be unique, that is, it can only be assigned once. If you need to use two identical pressures, you must assign different labels to them, for example, P and ICP. Measurement labels are stored in the measurement device module or measurement server.
If you try to use two measurement devices that have identical labels, this causes a label conflict in the monitor. All the currently available measurement devices are depicted in the Measurement Selection window. Any measurement labels causing a label conflict are shown in red. Welcome to ManualMachine. We have sent a verification link to to complete your registration.
Log In Sign Up. Forgot password? Enter your email address and check your inbox. Please check your email for further instructions.
Enter a new password. Procedure Window Accessing the Setup C. Measurements Documenting C. Measurements C. Introducing the IntelliVue Family The Philips IntelliVue family of patient monitors offers a monitoring solution optimized for the surgical, cardiac, medical and neonatal care environments. Remote Alarm Device The Remote Alarm Device provides audio and visual indicators of alarms, in addition to those shown on the display.
Two color coded alarm lamps right-hand lamp flashes red or yellow for patient alarms, left-hand lamp flashes light blue for INOPs Alarms off lamp - when illuminated it indicates that all alarms are deactivated. Power on LED - green when monitor is on. Flexible Module Server MA. You might have a version of the MMS that 3 does not have this connector.
Cardiac Output orange; Temperature connectors brown optional. Operating and Navigating Everything you need to operate the monitor is contained on its screen. Pause duration depends on monitor change screen menu configuration. Select again to immediately re-enable alarm indicators.
Operating and Navigating 1 Basic Operation Selecting Screen Elements Select a screen element to tell the monitor to carry out the actions linked to the element. Using the Setup Menu. Behavior follows the Silence permanent key configuration. Behavior follows the Pause Alarms permanent key configuration. Exact behavior depends on Pause Alarms permanent key configuration 3 Main Screen - closes all open menus and windows and return to the main screen. Using a Mouse or Trackball If you are using a mouse or trackball, select screen elements by clicking on them press and release the left mouse button.
Using Keys The monitor has four different types of keys. Permanent Keys A permanent key is a graphical key that remains on the screen all the time to give you fast access to functions. Main Setup - enter main setup menu. SmartKeys A SmartKey is a configurable graphical key, located at the bottom of the main screen. Operating and Navigating 1 Basic Operation start a delayed recording Realtime Record SmartKey to access pop- up recording keys set wide automatic alarm limits set narrow automatic alarm limits access wedge procedure window access the Loops window review vital signs trend review graph trend access event surveillance access calculations access the calculator access the Drug Calculator gas analyzer - exit standby mode suppress zero for all gas measurements unpair equipment access ST Map application start Lead Capture only available access remote applications if Application if Information Center is connected Server is connected access EEG CSA access the EEG montage display VueLink information access timers access the spirometry data window switch CO 2 pump off Hardkeys A hardkey is a physical key on a monitoring device, such as the zero pressure key on the MMS or a setup key on a module.
Pop-Up Keys Pop-up keys are task-related graphical keys that appear automatically on the monitor screen when required. Using the On-Screen Keyboard Use this as you would a conventional keyboard. Using the On-Screen Calculator You can use the on-screen calculator to perform any of the standard operations for which you would normally use a handheld calculator.
To change to a different mode: 1 Select the Main Setup menu. Config When the monitor is in Demonstration Mode, Configuration Mode, or Service Mode, this is indicated by a box with the mode name in the center of the Screen and in the bottom right-hand corner.
Standby Mode Standby mode can be used when you want to temporarily interrupt monitoring. Understanding Screens Your monitor comes with a set of preconfigured Screens, optimized for common monitoring scenarios such as OR adult, or ICU neonatal. To change the selection of elements on a Screen, 1 Select the element you want to change. The changed Screen is shown with an asterisk in the monitor info line. Using Additional Displays In the Change Screen menu, the changed Screen is shown linked to the original Screen and marked with an asterisk.
Up to three modified Screens can be accessed via the Change Screen menu. Modified Screens are still available in the Change Screen menu. Using Additional Displays A second display, showing the same Screen as the main display, can be connected to any of the monitors, for viewing only.
If you are operating two displays with one remote SpeedPoint, to navigate from one display to another: 1 Move the highlight to the Main Screen key and then turn one click further. Using the Visitor Screen If a visitor Screen is configured for your monitor, you can use it to clear the screen of all waves and numerics but continue to monitor the patient with active alarms and trend storage at the bedside and Information Center.
Understanding Profiles Profiles are predefined monitor configurations. When you leave Demonstration Mode, the monitor uses the default profile. Settings or Monitor Settings to call up a list of the settings blocks in each category. Default Profile Your monitor has a default profile that it uses when you leave Demonstration, or Service modes, or when you discharge a patient.
Locked Profiles Some profiles are locked, so that you cannot change them, even in Configuration Mode. Understanding Settings Each aspect of how the monitor works and looks is defined by a setting.
There are a number of different categories of settings, including, Screen Settings , to define the selection and appearance of elements on each individual Screen Measurement settings , to define settings unique to each measurement, for example, high and low alarm limits Monitor settings , including settings that affect more than one measurement or Screen and define general aspects of how the monitor works, for example, alarm volume, reports and recordings, and display brightness.
Default is set to Yes. Changing Measurement Settings Each measurement has a setup menu in which you can adjust all of its settings. Changing Wave Speeds Lowering the wave speed compresses the wave and lets you view a longer time period.
Changing the Wave Group Speed The wave speed group setting defines the speed of all the waves in the group. Changing Wave Speed for a Channel To change the wave speed of an individual wave channel, 1 Enter the Wave menu for a measurement by selecting its wave.
Freezing Waves You can freeze waves on the screen and measure parts of the wave using cursors. Freezing An Individual Wave To freeze a wave, 1 Enter the Wave menu for the measurement by selecting the wave on the screen. The realtime wave is replaced with the frozen wave. All realtime waves are replaced with frozen waves.
Measuring Frozen Waves To measure a frozen wave, 1 Select the frozen wave. To change the wave speed: 1 Select the frozen wave. Updating The Frozen Wave To update the wave, that is freeze the current wave: 1 Select the frozen wave.
Releasing Frozen Waves To release frozen waves, 1 Select a frozen wave. All frozen waves are released. Using Labels You can measure multiple invasive pressures, temperatures, and SpO 2 simultaneously. Changing Measurement Labels e. Pressure To change a measurement label of a measurement with multiple labels invasive pressure, temperature, or SpO 2 ,. Resolving Label Conflicts Each label must be unique, that is, it can only be assigned once.
Depending on your configuration, the monitor will either. You can only view or download manuals with. Sign Up and get 5 for free.
0コメント