4 • Accessories
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80113-101_V25087
2023-11
2. Compare electrical capacity of
the instrument with the maximum
HF peak voltage of the required
mode
Example 1
You want to operate an instrument with a maximum electrical capacity of 4 kVp (4000
Vp) with the DRY CUT mode. You review the technical data of the DRY CUT mode.
In the table, you see the line "Max. HF peak voltage 900 Vp". The DRY CUT mode would
then load the instrument with maximum 900
Vp. The instrument sustains 4 kVp
(4000
Vp). The electrical capacity of the instrument (4000 Vp) is greater than the max-
imum HF peak voltage (900 Vp) of the DRY CUT mode. You may use the instrument
with the DRY CUT mode.
Example 2
You want to operate an instrument with a maximum electrical capacity of 800 Vp with
the DRY CUT mode. You review the technical data of the DRY CUT mode.
HF voltage waveform pulse-modulated sinusoidal alternat-
ing voltage
Rated frequency 540 kHz (at R
L
= 500 Ω) ± 10 %
Crest factor 2.4 (at R
L
= 500 Ω)
Rated load resistor 500 Ω
Max. HF peak voltage 900 Vp
HF power limitation VIO 50 C: 1 watt to 50 watts in 1 watt
steps
VIO 100 C: 1 watt to 100 watts in
1
watt steps
Max. power output at rated load resis-
tor
VIO 50 C: 50 watts ± 20 %
VIO 100 C: 100 watts ± 20 %
Max. RMS current (maximum HF output
current in normal use)
VIO 50 C: 200 mA
VIO 100 C: 330 mA
HF voltage waveform pulse-modulated sinusoidal alternat-
ing voltage
Rated frequency 540 kHz (at R
L
= 500 Ω) ± 10 %
Crest factor 2.4 (at R
L
= 500 Ω)
Rated load resistor 500 Ω
Max. HF peak voltage 900 Vp
HF power limitation VIO 50 C: 1 watt to 50 watts in 1 watt
steps
VIO 100 C: 1 watt to 100 watts in
1
watt steps
Max. power output at rated load resis-
tor
VIO 50 C: 50 watts ± 20 %
VIO 100 C: 100 watts ± 20 %
Max. RMS current (maximum HF output
current in normal use)
VIO 50 C: 200 mA
VIO 100 C: 330 mA
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