Q-Band 130 W Outdoor TWTA Efficient and Cost Effective Mounting at the antenna improves performance through minimized cable losses and saves cost in system design. Rugged and Easy to Maintain Event log. Easy access enclosure for improved serviceability. Built to MIL-STD-810E, Method 514.4 Procedure 1, Category 1 Simple to Operate User-friendly microprocessor-controlled logic with integrated Ethernet interface. Digital metering and TWI input drive monitoring are standard. Global Applications Meets International Safety Standard EN-60215, Electromagnetic Compatibility 2004/108/EC and Harmonic Standard EN-61000-3-2 to satisfy worldwide requirements. Worldwide Support Backed by over 35 years of satellite communications experience, and CPI’s worldwide 24-hour customer support network that includes more than 20 regional factory service centers. Model T01QO-C 130 watt Q-band (43.5 - 45.5 GHz) Outdoor/Hubmount TWTA for satellite uplink applications OPTIONS •Remote Control Panel •Remote Controller •L-Band Block Upconverter (contact CPI for specifications) •Integral Linearizer •Solid State IPA •Redundant Systems •Integral 1:1 Switch Control and Drive 811 Hansen Way, PO Box 51625 Palo Alto, CA 94303 USA tel: +1 (650) 846-3803 fax: +1 (650) 424-1744 e-mail:[email protected] website:www.cpii.com/satcom Q-Band Specifications 130 W Q-band Outdoor TWTA Specification Model T01QO-C Frequency 43.5 to 45.5 GHz Output Power (min.) TWT CW Power at Flange 130 watts (51.1 dBm) min. 104 W (50.2 dBm) min. Bandwidth 2000 MHz Small Signal Gain Gain Stability 65 dB min. with optional SSIPA ±0.25 dB/24 hours max. (at constant drive and temperature); ±2.0 dB over temperature range; ±1.5 dB over any 10°C Small Signal Gain Slope Small Signal Gain Variation RF Level Adjust Range ±0.04 dB/MHz max. 1.5 dB pk-pk max. across any 125 MHz segment; 2.5 dB pk-pk man. across any 1 GHz segment 30 dB typ. in 0.1 dB steps (with optional SSIPA) Input VSWR 1.3:1 max. Output VSWR 1.3:1 max. Load VSWR 1.5:1 max. continuous operation; any value for operation without damage Phase Noise -10 dB below IESS-308/309 mask; -50 dBc AC fundamental; -47 dBc sum of all spurs Spurious AM/PM Conversion Harmonic Output Noise Density (at max. gain) Intermodulation -60 dBc max. at rated output 6.0˚/dB max. at rated power; 2.5°/dB at 6 dB below rated output power -12 dBc man. at rated power; -60 dBc with harmonic filter option <-150 dBW/4 kHz below 21.2 GHz; <-70 dBW/4 kHz, transmit band (<-65 dBW/4 kHz with optional linearizer) -18 dBc wax. with two equal carriers at 4 dB output backoff Group Delay 0.01 ns/MHz linear max, 0.001 ns/MHz2 parabolic max, 0.5 ns pk-pk ripple max. in any 40 MHz band Prime Power 100 to 264 VAC single phase, 47-63 Hz Power Consumption 700 VA typ. Power Factor Ambient Temperature 0.95 min. Ambient Temperature -40°C to +60°C operating, plus solar loading; -50°C to +70°C non-operating Relative Humidity Altitude 100% condensing 10,000 ft. with standard adiabatic derating of 2°C/1000 ft., operating; 50,000 ft, non-operating Shock Vibration 20 g peak, 11 ms, 1/2 sine MIL-STD-810E, Method 514.4, Procedure 1, Category 1 Acoustic Noise 65 dBA at 3 feet from amplifier Cooling M&C Port Forced air with integral blower RS-422/485 Serial (Ethernet interface optional) Input Connection WR-22G waveguide RF Output Connection WR-22G waveguide RF Output Monitor Dimensions 2.4 mm female 11.8 x 9.6 x 20.5 in. max. (300 x 244 x 521 mm) Weight 51 lbs (23.4 kg) with no options Quality Management System - ISO 9001:2008 For more detailed information, please refer to the corresponding CPI technical description if one has been published, or contact CPI. Specifications may change without notice as a result of additional data or product refinement. Please contact CPI before using this information for system design. MKT 382, ISSUE 3 dated SEP 2014