Standards

Absolute EMC with strategic partners is offing Antenna Arrays for meeting the high demanding levels required by DO-160 CAT L and MIL-STD-464. Testing for HiRF High Intens Radio Fields up to and exceeding 7200 V/m with commercially available TWT Pulsed or Solid-state amplifiers. Antennas can also be used for HERO testing of MIL-STD-464 System-level requirements. 

• 1-2 GHz Gain @ 1m, 22.7 - 23.5 dBi Min
• 2-4 GHz Gain @ 1m, 24 dBi
• 4-6 GHz Gain @ 1m, 26 dBi

Absolute EMC with strategic partners is offing Antenna Arrays for meeting the high demanding levels required by DO-160 CAT K and MIL-STD-464. Testing for HiRF High Intens Radio Fields up to and exceeding 5000 V/m with commercially available TWT Pulsed or Solid-state amplifiers. Antennas can also be used for HERO testing of MIL-STD-464 System-level requirements. 

• 400 - 1000 MHz Gain @ 1m, 11.6-15.8 dBi
• 1 - 1.6 GHz Gain @ 1m, 18.9 - 20.6 dBi
• 1.5 - 2.6 GHz Gain @ 1m, 20.3 - 22 dBi

Absolute EMC with strategic partners is offing Lens Antenna for meeting the high demanding levels required by DO-160 CAT K and MIL-STD-464. Testing for HiRF High Intens Radio Fields up to and exceeding 5000 V/m with commercially available TWT Pulsed or Solid-state amplifiers. Antennas can also be used for HERO testing of MIL-STD-464 System-level requirements. Lens Antennas focus the field to reach higher levels in the near-field.

• 2 - 3.2 GHz Gain @ 1m, 20.0 - 20.9 dBi
• 2.6 - 4 GHz Gain @ 1m, 20.2 - 22.8 dBi
• 4 - 6 GHz Gain @ 1m, 21.1 - 23.6 dBi

Absolute EMC with strategic partners is offing high gain HiRF Antennas for meeting the high demanding levels required by DO-160 CAT K and MIL-STD-464. Testing for HiRF High Intens Radio Fields up to and exceeding 5000 V/m with commercially available TWT Pulsed or Solid-state amplifiers. Antennas can also be used for HERO testing of MIL-STD-464 System-level requirements. 

• 6 - 8.2 GHz Gain @ 1m, 21.8 - 23.1 dBi
• 8 - 12.4 GHz Gain @ 1m, 20.7 - 23.3 dBi
• 12.4 - 18 GHz Gain @ 1m, 21.6 - 23.2 dBi

The High-Voltage Pulse Generator Type IPG 809 is designed for dielectric testing of X- and Y-capacitors with standard impulse voltages 1.7/46 µs –0/+50% up to 8 kV acc. to IEC 60384-14, EN 132400, VDE 0565 etc. Picture: incl. Option PA 503

The PG 10-150 consists essentially of a variable transformer with motor drive, isolating transformer, filter circuit, DUT with parallel capacitor and a high-voltage pulse generator. All settings in the power section are made on the control unit. The pulse-forming networks according to IEC 60384-14 are adjustable.

The HV-Pulse generator PG10-200 / PG12-360 is used for impulse voltage tests of solar modules (photovoltaic panels) with the standard surge voltage waveform 1.2/50 µs according to IEC 60060-1/2 up to 10 kV acc. to. IEC 61730-1/2 / EN 61730-1. For the surge voltage tests of solar modules, these are enveloped with a copper foil as described in the relative above standard. After that the connections of the solar modules are tested with surge voltage against the copper foils. The tight copper foil envelope required by the standard results in comparatively high capacitances of approx. 0 - 183 nF, which is switched in parallel to the output of the impulse generator.

The HV-Pulse generator PG20-100 is used for impulse voltage tests of solar modules (photovoltaic panels) with the standard surge voltage waveform 1.2/50 µs according to IEC 60060-1/2 up to 20 kV acc. to. IEC 61730-1/2 / EN 61730-1.

Emergency stop switch for interrupting / close the internal safety circuits.

Footswitch to trigger certain generator functions.