User's Manual
Table Of Contents
- Software specifications
- Software features
- Software functions
- 1.Introduction to “Register” and “Sign in” functions
- 2.Introduction to “Measuring ” function
- 3.Introduction to a real-time ECG waveform diagram
- 3.Introduction to “End Measurement” function
- 4.Introduction to “Data Uploading” function
- 5.Introduction to “Measurement Records” function
- 6.Introduction to “User Profile” function
- 7.Introduction of “Playback ECG” function
- 8.Introduction of online customer service function
- 9.Set Sign-in password
15
For sinusoidal signals with frequency between 0.67Hz and 40Hz, the response amplitude
should be between 140% and 70% of the response amplitude at 5Hz (+3dB to -3dB).
The response amplitude for simulating a series of R wave narrow-wave 1.5mV 40ms
triangular wave clusters should be between 60% and 110% of the response amplitude for 1.5mV
200ms triangular wave clusters.
7.2.8 Minimum detectable signal
Applying a 10Hz 50uV (Peak to trough) sinusoidal signal with tracing speed 25mm/s and
gain 10 mm/mV can produce a noticeable deflection.
7.2.9 Measurement duration:
The device can measure for up to 24 hours continuously with a new and fully charged
battery.
7.3 Electromagnetic compatibility declarations and recommendations:
All electrical medical devices require a special note on electromagnetic compatibility and is
installed and used according to the electromagnetic compatibility information tested with random files.
Other portable and mobile rf communication devices may affect the use of this device.
Please use electrodes with medical device registration certificates to ensure optimal EMC performance
of your SWK801 SWCAN ECG Monitor.
The transducers and cables sold by SWCAN as internal OEM parts to the SWK801 SWCAN ECG Monitor are
the most suitable to the optimal function of the device. Any other transducers or cables not manufactured
according to the standards may lead to increased emission levels or reduced noise resistance.
The SWK801 SWCAN ECG Monitor should not be used in close proximity to or on top of other devices. If
it must be used in this fashion, then it should be observed and verified that it can operate normally in
such configurations.
When using the SWK8011 SWCAN ECG Monitor to detect minimum physiological signals at 50uV, inaccurate
measurements may result.
7.3.1 Functional description of basic performance:
The SWCAN ECG Monitor can detect and display cardio electric signals with added DC bias voltage of
±300mV at a change rate of 125mV/s, in increments of 10mV (peak to valley value, gain of 10mm/mV). The
error in amplitude between the time-varying output signal and the input signal should not exceed 10% or
50uV, whichever is bigger.
Guidance and Manufacturer’s Declaration - Electromagnetic Emissions
The SWK801 SWCAN ECG Monitor is intended for use in the electromagnetic environment specified below. The
customer or the user should assure that it is used in such an environment.
Emissions Test
Compliance
Electromagnetic Environment - Guidance
Rf emissions
GB 4824
1 Group
The SWK801 SWCAN ECG Monitor uses RF
energy only for its internal function.
Therefore, its RF emissions are very low
and are unlikely to cause any
interference to nearby electronics.
Rf emissions GB 4824
B Class
The SWK801 SWCAN ECG Monitor is suitable
for use in common households with
electronics that are not connected
directly to the public household low
voltage supply network.
Harmonic emissions GB 17625.1
Not Applicable
Voltage fluctuations/flicker
emissions GB 17625.1
Not Applicable
Guidance and Manufacturer’s Declaration – Electromagnetic Immunity
The SWK801 SWCAN ECG Monitor is intended for use in the electromagnetic environment specified below. The