Teseq has expanded its broadband amplifier line to include a Class A linear and low distortion model that operates from 10 kHz to 400 MHz with a rated power level of 260 W. For use in commercial or in-house EMC test laboratories, the CBA 400M-260 is suitable for automotive, military and aerospace bulk current injections (BCI) applications that require testing at higher levels and has a three year parts and labour warranty.
Like other Teseq broadband amplifiers in its class, the CBA 400M-260 uses GaAs integrated circuit technology to provide better compression characteristics and increased efficiency compared to silicon-based power amplifiers. This amplifier is claimed to reduce overall power consumption, features harmonics better than -20 dBc at 210 W output and has an operating temperature range from 0º to 40ºC (32ºF to 104ºF)
It is designed for demanding EMC testing environments with non-ideal load conditions due to mismatch caused by the coupling device or equipment under test (EUT) in an antenna’s path, making it ideal for automotive, military and aerospace BCI EMC testing. The push pull design of the GaAs amplifier circuit ensures high reliability and low distortion linear performance across the unit’s frequency range as well as continuous operation at full power, even when an open or short circuit is present. Testing accuracy is improved because the desired test signal is generated with low harmonics.
The CBA 400M-260 is powered from a switched mode power supply for high efficiency, giving the amplifier a high power factor and a wide voltage operating range. All tests are performed with this single band amplifier no range switching or amplifier changes are necessary.
Integral fans are built into the amplifier for cooling and an excess temperature sensor in the unit prevents possible damage due to a blocked filter or faulty cooling. A remote control option is available for the CBM 400M-260 upon request. Two safety interlock BNC connectors are provided for added flexibility should a standby mode be needed. Front panel indicators denote over-temperature and RF interlock conditions.