User's Manual
Table Of Contents
- Introduction
- What's New
- What's New in Release J.3
- Avalon CL Transducer System
- Support For Use of Maternal Cableless Measurement Devices
- Maternal Temperature Measurement
- Manually Entered Maternal Temperature Measurements
- New Design for the User Interface
- New SmartKeys
- Coincidence INOP Tone
- Increased Internal Back-up Memory
- USB Interface
- Flexible Nurse Call Interface
- DHCP Support
- Data Export Support
- NBP Configurable Measurement Sequence
- Alarms Enhancements
- Alarm Reminder
- Auto Free
- What's New in Release G.0
- Battery Option and Patient Transport Improvements for the Avalon FM20 and FM30
- Maternal Pulse from Toco MP Transducer
- Non Stress Test (NST) Analysis as Clinical Decision Support (CDS) Application
- FHR Sound Source
- FHR Numeric Display
- Improved FHR and DFHR Label Concept
- New SmartKeys
- Trace Separation On/Off Operation
- NBP
- Alarms
- CCV INOP
- New Demographic Fields
- Recorder
- Stored Data Recording
- FHR Sound Volume
- Avalon CTS
- What's New in Release J.3
- Basic Operation
- Supported Measurements
- Avalon FM20 and FM30
- Avalon FM40 and FM50
- Avalon CL Transducer System
- Getting to Know Your Avalon FM20/FM30
- Getting to Know Your Avalon FM40/FM50
- Transducers
- Getting to Know Your Avalon CL
- Cableless Transducers
- Radio Range of CL Transducers
- The CL transducers have a operating range around the base station of at least 70 m in the line of sight. Obstructions as walls, metal doors, elevators and other environment structures can lead to signal loss. The Tele symbol indicator and the Tele In...
- Connector Cap for the CL Toco+ MP Transducer
- Cableless Transducer LED Indication
- CL Transducer Battery
- Audio Signal CL Transducers
- CL Pods
- Operating and Navigating
- Operating Modes
- Automatic Screen Layouts
- Settings
- Preparing to Monitor
- Switching the Monitor to Standby
- After Monitoring
- Disconnecting from Power
- Power On/Power Off Behavior
- Monitoring After a Power Failure
- Troubleshooting
- FM20/30 Battery Option
- Alarms
- Patient Alarms and INOPs
- Admitting and Discharging
- Non-Stress Test Timer
- Non-Stress Test Report
- Cross-Channel Verification (CCV)
- Monitoring FHR and FMP Using Ultrasound
- Technical Description
- Limitations of the Technology
- Misidentification of MHR as FHR
- What You Need
- Cableless Monitoring - Important Considerations
- Preparing to Monitor
- Selecting Fetal Heart Sound
- Changing the Fetal Heart Sound Volume
- Fetal Movement Profile
- Troubleshooting
- Additional Information
- Testing Ultrasound Transducers
- Monitoring Twin FHRs
- Monitoring Triple FHRs
- Fetal Heart Rate Alarms
- Monitoring Uterine Activity Externally
- Monitoring Uterine Activity Internally
- Monitoring FHR Using DECG
- Monitoring Noninvasive Blood Pressure
- Introducing the Oscillometric Noninvasive Blood Pressure Measurement
- Preparing to Measure Noninvasive Blood Pressure
- Starting and Stopping Measurements
- Enabling Automatic Mode and Setting Repetition Time
- Enabling Sequence Mode and Setting Up The Sequence
- Choosing the Alarm Source
- Assisting Venous Puncture
- Calibrating NBP
- Troubleshooting
- Monitoring Maternal Temperature
- Monitoring SpO2
- Monitoring Maternal Heart / Pulse Rate
- Printing the ECG Waveform
- Paper Save Mode for Maternal Measurements
- Recovering Data
- Care and Cleaning
- Maintenance
- Accessories and Supplies
- Specifications and Standards Compliance
- Environmental Specifications
- Physical Specifications
- Performance Specifications
- Recorder Specifications
- Compatible External Displays: FM40/FM50 Only
- Manufacturer's Information
- Trademark Acknowledgment
- Regulatory and Standards Compliance
- Safety and Performance
- Safety Tests Fetal Monitor
- Electromagnetic Compatibility (EMC)
- EMC Testing
- Reducing Electromagnetic Interference
- System Characteristics
- Electromagnetic Emissions and Immunity
- Electromagnetic Immunity
- Radio Compliance Notice
- Finding Recommended Separation Distances
- Recommended Separation Distances from Other RF Equipment
- Radio Frequency Radiation Exposure Information
- Environment
- Monitoring After a Loss of Power
- ESU, MRI and Defibrillation
- Cardiac Pacemakers and Electrical Stimulators
- Fast Transients/Bursts
- Symbols on the System
- Default Settings Appendix
24
241
24Recovering Data
The monitor stores trace data, including annotations, in its internal backup memory. This allows the
monitor to recover trace data that would otherwise be lost under certain circumstances. This trace
recovery data can be automatically retrieved and printed in the event of the paper running out, or
automatically transmitted to an OB TraceVue/IntelliSpace Perinatal system (LAN connection only),
allowing continuity of data.
The fetal trace printed from the trace recovery data contains all data from the real-time trace, with the
exception of the maternal heart rate, the pulse numeric and the MECG wave.
Note that the data in the memory is cleared when a software upgrade is performed.
CAUTION
Only use Philips paper. Using paper other than Philips paper may result in the failure to recover traces.
Recovering Traces on Paper
The monitor is able to recover traces by printing them out at a high speed from the monitor's backup
memory. If the monitor runs out of paper, or if the paper drawer is open, the exact time when this
happens is annotated in the backup memory. If the
Bridge Paperout setting is set to On (default),
when new paper is loaded and the recorder is started, a trace recovery printout of the data recovered
from the backup memory is automatically printed out at high speed (up to 20 mm/s), starting from the
time noted in the backup memory. This ensures that no data is lost. A minimum of one hour of trace
recovery data can be printed out from the backup memory. When the trace recovery printout has
finished, the recorder automatically switches back to continue recording the current trace at the normal
speed.
Note the following:
• If you press the fetal recorder
Start/ Stop SmartKey during a trace recovery printout, the
recording stops and the next recording following a recorder restart will be a normal, real-time
trace.
After switching the monitor off and then back on again, or following a power failure, the time of
the last
Check Paper INOP or paper-out detection is lost, and therefore any trace recovery data in
the backup memory is no longer available to print. The next recording made following a restart of
the recorder is a normal, real-time trace.