CPI 900W S/C-Band TWT System for Instrumentation Applications Model VZSC2780P2 S/C - Band Compact Provides 900 watts of power in the 2.0 to 8.0 GHz frequency band in a compact 19-inch rack-mount multiple drawer configuration for wideband testing. Efficient and Reliable S/C-Band Employs CPI dual-depressed collector helix traveling wave tubes, increasing efficiency by a nominal 20% over conventional single collector TWTs, and a power supply designed with a minimum number of parts for maximum uptime. Simple to Operate Integrated microprocessor control lets the user adjust and monitor all operating parameters from one easy-to-read local or remote panel, using straightforward menu-driven commands. Includes a built-in interface and serial bus for operation from the station computer. Safety Conforms to international safety and EMC compliance standards. Easy to Maintain 900W TWTA System Modular design provides for easy installation and maintainability in the field. Worldwide Support Backed by over two decades of satellite communications experience, and CPI’s worldwide 24-hour customer support network that includes sixteen regional factory service centers. 45 River Drive Georgetown, Ontario, Canada L7G 2J4 tel: +1 (905) 877-0161 fax: +1 (905) 877-5327 e-mail: [email protected] www.cpii.com/emc S / C- B a n d SPECIFICATIONS, VZSC2780P2 Environmental (Operating) Electrical Frequency 2.0 to 8.0 GHz TWT Model Number VTG6292 (modified) Ambient Temperature -10° to +40°C operating -20° to +70°C non-operating Relative Humidity 95% non-condensing Output Power Combined TWTs Flange 1000 W min. 900 W min. Altitude Up to 10,000 ft (3000 m) with standard adiabatic derating of 2°/1000 ft. Bandwidth 6.0 GHz Shock and Vibration Gain 60 dB min. at rated power output; 63 dB typ. at small signal Designed to meet conditions normally encountered in the laboratory Acoustic Noise 72 dBA one meter from front panel • Mimic Remote Control Panel RF Level Adjust 0 to 20 dB continuous Output Power Adjustability ±0.1 dB • Octave External Harmonic Filters Gain Stability (typical) ±0.25 dB/24 hr max. (at constant drive and temp.) • Octave Output Isolators Small Signal Gain Slope 0.02 dB/MHz max. Small Signal Gain Variation (typical) OPTIONS & C O M PA N I O N PRODUCTS: Mechanical Cooling (TWT) Forced air with integral blower and power supply fan. Maximum external pressure loss allowable: 0.25 inch water gauge. 10.0 dB pk-pk max. over the 6 GHz bandwidth RF Input Connection Type N female RF Output Connection Type SC female Input VSWR 1.4:1 max. RF Power Monitors Type-N female Output VSWR 2.0:1 max. Load VSWR 2.0:1 max. for full spec compliance; any value without damage Dimensions (W x H x D) RF Drawer (each) Residual AM -45 dBc up to 4 kHz; -20 [1.25 + log F (kHz)] dBc, 4 kHz to 500 kHz (F in kHz); -80 dBc above 500 kHz Harmonic Content -8 dBc typ. at 2 GHz Primary Power 3 phase, 5 wire 208/120 V ±10%, or 380-415/220-240 V ±10%, 47-63 Hz; 5 wires are: Phase 1, 2 & 3, neutral and ground connection. Neutral (wire 5 can be used if available) Power Factor 0.90 min. (at 50 Hz) Power Consumption 13.8 kVA typ. 15.0 kVA max. Power Supply (each) Weight Qty (2) RF Drawers total Qty (2) Power Supplies total Qty (2) Interconnects total 19 x 17.5 x 28 in. (483 x 445 x 711 mm) 19 x 8.75 x 24 in. (483 x 223 x 610 mm) 360 lbs (164 kg) 200 lbs (90 kg) 20 lbs (9 kg) This product is subject to the U.S. International Traffic in Arms Regulations (ITAR). Sale of this product is subject to US Government approval. In accordance with part 126.1 of the ITAR, it is the policy of the United States to deny licenses and other approvals for the sales, exports/ imports, and or transfer of items subject to the ITAR destined for or originating in certain countries in which the U.S. maintains an arms embargo. Certificate Number: 30515 For more detailed information, please refer to the corresponding CPI Technical Description. Note: 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 328, ISSUE 3 SEP 13 PDF