Instruments For Testing Your Innovations
TS250
TS250-
TS250-
TS250-
TS250-
TS250-
TS250-
TS250-
TS250-
Output Voltage Range
TS250-
TS250-
TS250-
TS250-
TS250-
TS250-
TS250-
TS250-
Output Current (> 10Hz, VDC or Vpp = 0.75 Max, Resistive Load)
5.0ADC, -
3.1ADC, -
2.1ADC, -
1.7ADC, -
4.0ADC, -
2.1ADC, -
1.7ADC, -
2.1ADC, -
Maximum Frequency (Note 1)
3.5Vpp
10Vpp
20Vpp
40Vpp
80Vpp
Output Noise (Note 2)
RMS
Peak-
Output Slew Rate
Input Impedance
Hi-
50setting
Min Frequency
DC-
AC-
AC-
Voltage Gain
0dB setting
20dB setting
Current Monitor Scale (Note 3)
Current Monitor Accuracy (Max Current)
LCD Volt Meter Accuracy (Note 4)
LCD Ammeter Meter Accuracy (Note 4)
AC Power Supply Input
Operating Temperature Range
Storage Temperature Range
Operating Humidity Range (No Condensation)
Weight
Dimension
1MHz
450kHz
225kHz
112kHz
35kHz
1mVrms
6mVpp
16V/us
1k
50
DC
1Hz
50Hz
0dB (gain of 1V/V)
20dB (gain of 10V/V)
100mV/A
+/-
+/-
+/-
100VAC to 240VAC
0C to +40C
-
20% to 80%
4.0kg
11.25 x 10.5 x 5.5 Inches
1. The maximum frequency is calculated by fMAX = 4500/Vpp, in kHz. For example, the maximum frequency for a 20Vpp (-
2. 0dB gain, 50 setting, current monitor output is connected to an oscilloscope.
3. 100mV is equal to 1A output current when terminated with 50 ohm. Output voltage is twice if not terminated.
4. LCD meter reading is the average voltage or current. For example, the average voltage of a sinewave is 0V.
5. Specifications are subject to change without notice.
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