Industrial Test Equipment Co., Inc.

2 Manhasset Ave., Port Washington, NY 11050
Phone: 516-883-1700 Fax: 516-883-7155

 

AC Power Source, AC Power Supply, Power Amplifier AC Output Constant Current Source, High Frequency Transformer, High Voltage Transformer, Frequency Converter, Power Oscillator

AC Voltage Sources

80-500 watts

 

AC Voltage Sources

1000-3000 watts

 

RF Power Amplifiers

50-1000 watts

 

AC Current Sources

250-500 watts

 

AC Current Sources

1000-3000 watts

 

AC Current Sources

1000-3000 watts

 

Frequency Converters

80-3000 watts

 

AC Power Amplifiers

(Voltage Mode)

 

AC Power Amplifiers

(Current Mode)

 

Plasma Power Supplies

 

Dedicated AC Power Sources

 

IEEE Controlled

Oscillators

 

Plug-in Oscillators

 

Three Phase Linear

 

High Frequency Transformer

 

 

 

 

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GPIB (IEEE-488) Controlled Oscillators

 

 

General Description

 

This sine/square wave oscillator is a versatile digitally synthesized IEEE-488 listen only signal source for power applications. Up to 6 channel outputs are available with precise individual amplitude, frequency, phase, closed loop and Sync control. Either current or voltage may be formed as a closed loop.

 

Model

Number

Output

Phases

Frequency

Response

Output

Volts

Output

Waveform

Weight

Rack

Height

5700B-1

1

20Hz -10KHz

0 -1V

sine/square

9 lbs

3.5"

5700B-3

3

20Hz -10KHz

0 -1V

sine/square

9 lbs

3.5"

5700B-6

6

20Hz -10KHz

0 -1V

sine/square

9 lbs

3.5"

 

Specifications

 

Frequency Range: 20 Hz 10000 Hz in .01 Hz steps
Output Waveform: Sine wave or Square wave
Frequency Accuracy:

+/- .05% of programmed frequency

Frequency Stability: 5 PPM per degree C from 0-50 degree C
Distortion: Less that 1% over frequency range
Output Amplitude: 0 - 1.000V rms. Programmable in 0.001V steps
Voltage Accuracy:

+/- 0.5% of full voltage range

Voltage Stability:

+/- .02% of setting, 0-50 deg. C

Voltage Regulation: +/- .5% 0-full load, +/- .05% 110V-130V Line
Phase Angle Range: 0-360 in 0.1 degree increments
Phase Accuracy: +/- 1 degree over frequency range for programmer
Phase Relationship:

phase 2,3,4,5 and 6 programmable independently with respect of phase 1