Products

Displaying 1 - 12 of 29
The Model RFDS-8CH is an equipment package consisting of an RF power amplifiers, analog signal generator, coupler and power splitters providing 16 RF channels at > 3W each up to 6GHz. The equipment is housed in a 12U enclosure. AC mains power distribution and control is provided along with all the necessary interconnect cables. The Model RFDS-8CHM1 adds vector modulation capability.
The Model RFDS-16CH is an equipment package consisting of an RF power amplifiers, analog signal generator, coupler and power splitters providing 16 RF channels at > 3W each up to 6GHz. The equipment is housed in a 12U enclosure. AC mains power distribution and control is provided along with all the necessary interconnect cables. The Model RFDS-16CHM1 adds vector modulation capability.
The Model RFDS-80CH is an equipment package consisting of 10 RF power amplifiers, signal generator and power splitters providing 80 RF channels at > 3W each up to 6GHz. The equipment is housed in a 40U cabinet. AC mains power distribution is provided along with all the necessary interconnect cables. The Model RFDS-80CHM1 adds vector modulation capability.
The SSIEC10V2M System is designed to develop a 1.5 x 1.5 meter uniform field area (UFA) of up to 18 V/m CW at a 2m test distance for IEC 61000-4-3 testing from 80MHz-6GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.
The SSIEC10V3M System is designed to develop a 1.5 x 1.5 meter uniform field area (UFA) of up to 18 V/m CW up to a 3m test distance for IEC 61000-4-3 testing from 80MHz-6GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.
The SSIEC30V2M System is designed to develop a 1.5 x 1.5 meter uniform field area (UFA) of up to 54 V/m CW up to a 2m test distance for IEC 61000-4-3 testing from 80MHz-6GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.
The SSIEC30V3M System is designed to develop a 1.5 x 1.5 meter uniform field area (UFA) of up to 54 V/m CW up to a 3m test distance for IEC 61000-4-3 testing from 80 MHz–6 GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.
The SSIEC3V3M System is designed to develop a 1.5 x 1.5 meter uniform field area (UFA) of up to 5.4 V/m CW up to a 3m test distance for IEC 61000-4-3 testing from 80MHz-6GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.
The SSISOC100V10K18G is designed to develop a 100 V/m field level at a 1m test distance for ISO 11452-2 and ISO 11452-5 testing from 10 kHz to 18 GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.
The SSISOC100V80M18G is designed to develop a 100 V/m field level at a 1m test distance for ISO 11452-2 testing from 10 kHz to 18 GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.
The SSISOC200V10K18G System is designed to develop a 200 V/m field level at a 1m test distance for ISO 11452-2 and ISO 11452-5 testing from 10 kHz to 18 GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.
The SSISOC200V80M18G System is designed to develop a 200 V/m field level at a 1m test distance for ISO 11452-2 testing from 80 MHz to 18 GHz. The signal generation, control, and power monitoring equipment shall be mounted in a ventilated equipment rack along with the RF amplifiers.