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Solar 9354-2 Transient Generator

Description

For Susceptibility Tests MIL-STD461C/D/E and Other Specifications.

The Model 9354-1 & 9354-2 Transient Generators provide nine selectable waveforms, including six damped sinusoidal pulses (10 KHz,100 KHz, 1 MHz, 10 MHz, 30 MHz, and 100 MHz) and three double exponential pulses (6.4 µS, 70 µS, 500 µS and 120 µS on 9354-2).

Auto pulsing of the sinusoidal repetition rate is internally adjusted from 0.5 to 1.0 pulse per second. A front panel-mounted push button can be used to manually trigger single pulses. The peak amplitude of the selected output pulse is adjustable as a percentage of the charge voltage.

The six damped sinusoidal waveforms were designed to meet the requirements of MIL-STD-461D and E, method CS116, when applied in accordance with the test method of MIL-STD-462D. Continuous tunable frequencies can be obtained by the use of the optional variable frequency modules.

These same waveforms are applicable to the requirements of MIL-STD-461C, methods CS10 and CS11, when applied in accordance with the test method of MIL-STD-462, Notice 5.

The 1MHz and 10 MHz damped sinusoidal waveforms have been extended to a peak open circuit voltage of 3200 volts and a calculated short circuit current of 128 amperes to meet the requirements of RTCA DO-160E, Section 22, Table 22-2 and 22-3, waveform 3.

The three double exponential pulses were designed to meet the requirements of RTCA DO-160E, Section 22, Tables 22-2 and 22-3

Features

  • Panel-mounted digital voltmeter. Monitors the adjusted open circuit discharge voltage
  • Pulse rates up to one pulse per second maximum (factory adjusted)
  • Single pulse feature enables controlled isolation of transient effects
  • Output voltage adjustable from 0.1% to 100% of selected discharge voltage

Specifications

Damped Sinusoid Pulses

10 KHz

Open Circuit Voltage

30 Volts

Calculated Short Circuit Current

120 Amps

Source Impedance

<0.25 Ohm

100 KHz

Open Circuit Voltage

300 Volts

Calculated Short Circuit Current

120 Amps

Source Impedance

<2.5 Ohm

1 MHz

Open Circuit Voltage

3200 Volts

Calculated Short Circuit Current

128 Amps

Source Impedance

<25 Ohm

10 MHz

Open Circuit Voltage

3200 Volts

Calculated Short Circuit Current

128 Amps

Source Impedance

<25 Ohm

30 MHz

Open Circuit Voltage

1000 Volts

Calculated Short Circuit Current

20 Amps

Source Impedance

<0.50 Ohm

100 MHz

Open Circuit Voltage

300 Volts

Calculated Short Circuit Current

6 Amps

Source Impedance

<50 Ohm

 

Double Exponential Pulses

6.4 µS

Rise Time

100 nS

Open Circuit Voltage

1600 Volts

Calculated Short Circuit Current

800 Amps

Source Impedance

< 2.0 ohms

70.0 µS

Rise Time

6.4 µS

Open Circuit Voltage

1600 Volts

Calculated Short Circuit Current

800 Amps

Source Impedance

< 2.0 ohms

500 µS

Rise Time

50 µS

Open Circuit Voltage

1600 Volts

Calculated Short Circuit Current

400 Amps

Source Impedance

< 4.0 ohms

120 µS (9354-2)

Rise Time

40 µS

Open Circuit Voltage

1600 Volts

Calculated Short Circuit Current

400 Amps

Source Impedance

< 4.0 ohms

Standards

CISPR
CISPR 11
CISPR 14 - 1
CISPR 14 - 2
CISPR 14 - 2
CISPR 16 - 1
CISPR 16 - 2
CISPR 16 - 3
CISPR 16 - 4
CISPR 22
CISPR 24
IEC
IEC/TR EN 61000 - 1 - 1
IEC/TR EN 61000 - 2 - 1
IEC/TR EN 61000 - 2 - 3
IEC EN 61000 - 3 - 2
IEC EN 61000 - 3 - 4
IEC/TC EN 61000 - 3 - 5
IEC EN 61000 - 4 - 2
IEC EN 61000 - 4 - 3
IEC EN 61000 - 4 - 4
IEC EN 61000 - 4 - 5
IEC EN 61000 - 4 - 6
IEC EN 61000 - 4 - 7
IEC EN 61000 - 4 - 8
IEC EN 61000 - 4 - 9
IEC EN 61000 - 4 - 11
European
EN 50 081 part 1
EN 50 081 part 2
EN 55 011
EN 55 013
EN 55 014
EN 55 015
EN 55 020
EN 55 022
EN 55 024
EN 50 082 part 1
EN 50 082 part 2
EN 50 093
American
FCC Part 15
MIL-STD - 461E