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Les langues disponibles
Les langues disponibles
I N T E L E C T ® M O B I L E 2 Q U I C K S TA RT G U I D E
WAVEFORMS (CONTINUED)
Isoplanar Vector Interferential Current
Interferential Current is a medium frequency waveform. Current is
distributed through two channels (four electrodes). The currents
cross each other in the body at the area requiring treatment. The
two currents interfere with each other at this crossing point,
resulting in a modulation of the intensity (the current intensity
increases and decreases at a regular frequency). In Isoplanar
Vector IFC Channel B has a fixed phase shift of 45° against Channel
A.
Output Mode
Available on Channel
Treatment Time
Amplitude
Beat Frequency
Carrier Frequency
Cycle Time
Ramp
Sweep Time
Sweep Low Beat Frequency
Sweep High Beat Frequency
Vector Scan
IRMS
DC component
30
Electrodes
1&2
1-60 Minutes
0-100 mA (CC)
1-200 Hz
2000-10,000 Hz
Continuous or User Defined
0-5 s
14 sec
1-199 Hz
2-200 Hz
Fixed at 45°
0-55mA
No
Dipole Vector Interferential Current
Interferential Current is a medium frequency waveform. Current is
distributed through two channels (four electrodes). The currents
cross each other in the body at the area requiring treatment. The
two currents interfere with each other at this crossing point,
resulting in a modulation of the intensity (the current intensity
increases and decreases at a regular frequency). With the dipole
vector technique the currents from the two electrode pairs are
vectorially summed in the tissue. The effect is that stimulation
only occurs into the direction of the resulting vector, which can be
adjusted over a range of 360º.
The angle is either manually adjusted and constant, or
automatically generated so that the full revolution (360°) is
automatically generated in an adjustable timing (rotation time).
Output Mode
Available on Channel
Treatment Time
Amplitude
Beat Frequency
Carrier Frequency
Cycle Time
Ramp
Resolution Vector angle (manual mode)
Rotation Time (automatic mode)
Sweep Time
Sweep Low Beat Frequency
Sweep High Beat Frequency
Vector Scan
IRMS
DC component
Electrodes
1&2
1-60 Minutes
0-100 mA (CC)
1-200 Hz
2000-10,000 Hz
Continuous or User Defined
0-5 s
359°
1-10 s
14 sec
1-199 Hz
2-200 Hz
Manual / Automatic
0-55mA
No
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