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SUB SCAN mode for specific scans which helps to detect resonants for pre-selected substances.
An EAP (electro acupuncture) capability is integrated for diagnostic use by experts. The optional EA P- SET is
required to use this f eature.
A broad band application of frequencies (SWEEP) can be selected from an individual touch screen w indow.
The device provides a significantly larger storage capability than older F-SCAN models. 100 applications of up
to 50 frequencies, complete w ith names and all individual settings, or the co mplete results of DIRP runs and
EA P analysis, can be stored in the “123” section. Additionally, the “DUO+” section storage can be used for up
to 100 protocols for multi channel FSM applications. In addition, up to 460 user defined frequency sets (up to
30 values each) can be saved in the F-SCAN5 memory.
DUO+ protocols can be memorized and recalled on a ChipCard in their ow n section w ithout interfering w ith the
standard single channel programs.
Single protocols can be selected to be copied from the standard ChipCard into the device so that not the entire
memory need to be loaded.
CONTINUE: w ith the continue feature, you can queue as many protocols as you like. Just place the CONT
instruction at the end of a protocol and let the mach ine know which program has to follow .
PROTECTbutton (SETUP menu) to avoid accidental modification of protocols.
A pow erful state of the art 32-bit micro-processor controls all functions.
Custo mized ChipCard-functions support the data transfer betw een our products F-SCAN5, F-SCAN4, F-
SCA N3, F-SCA N MOBILE, F-SCAN COMPA CT and the MinDevice.
We are convinced that the touch panel operation w ill be mastered by all users w ithout problems.
OSCA the new standard
OSCA is the abbreviation for “Output Signal Control Algorithm”.
OSCA is a procedure that has been developed by TB-Electronics. This f eature can be used to adjust output
signal to the application in real time. The very sensitive measuring method that is used in this procedure can
measure electrical currents in the micro ampere range and control them according to their w aveform and
impedance.
Electrical currents that are generated by f requency generators, comply w ith the impedance of the “consumer”
or “load”. “Load” is w hat is attached to the output. In this case impedance means that the “load” does not
behave linearly like an electric resistor but like a combination of resistors and capacitors. Therefore, the “load”
is dependent on the frequency and even on the activated w aveform.
On F-SCA N devices of the upper class you can choose between square waves and sine waves and a
frequency range of 0.01 Hz up to over 3 MHz. For the frequency-dependent “load” this means, that w ith e.g.
low frequencies the impact could be huge, even though the electrical current flow is low. High frequencies on
the other hand could only have a small impact, even though the electrical current flow is high. And adding to all
this, it matters w hat w ave form you choose.
In order for the application to w ork ideally w ith an F-SCAN5, OSCA is being introduced for the first time. OSCA
can be activated on different levels. You can choose betw een “OFF”, “SENSITIV E”, “STANDA RD” and “HIGH”;
depending on the sensitivity of the “load”.
If OSCA is turned off, the signal strength is — according to the amplitude-setting — activated for all the
waveforms. As soon as OSCA is activated, the amplitude is continuously controlled according to the current
measurement of the electrical current flow (measured in micro amperes). During application, the measured
electrical current as well as the amplitude-settings are displayed in real-time in all the menus of the F-SCAN5.
The combination of the DIRP (to record the feedback) and the OSCA is unique and it is going to optimize
frequency application once more.
