C-Band 10 and 20 W C-Band Mini-BUCs Compact and Lightweight Designed and built with VSAT stabilized antenna platforms and other similar satcom-on-the-move customer applications in mind. Low Cost, High Performance Designed for operation in high ambient temperature environments, with superior phase noise performance. Guaranteed specified minimum P1dB power. Comprehensive M&C Functionality Accessible anytime, anywhere via Internet or mobile phone. Integrate with SNMP to NMS. Enables effective operational management and minimizes network outage. Allows change of IP address without serial cable. Quad LO, serial and LAN interface. Internal Self-Resetting Protection Protects against high temperatures, open/short output conditions. Global Applications Models 4710 and 4720 10/20 watt C-band LAN mini-BUCs for satellite uplink applications OPTIONS •Multi-band BUC - select from multiple factory-set frequency bands within C-band •Auto-sensing, high stability internal 10 MHz OCXO reference of external multiplexed 10 MHz reference standard •1:1 redundant switching - BUC is configured for 1:1 systems as standard. System hardware is sold separately. Meets Electromagnetic Compatibility Directive 2004/108/EC to satisfy worldwide requirements and is CE-marked. Worldwide Support Backed by over 35 years of satellite communications experience, and CPI’sworldwide 24-hour customer support network that includes more than 20 regional factory service centers. 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 C-Band Specifications 10 and 20 W C-Band LAN Mini-BUCs Specification Model 4710 Model 4720 Frequency 5.850 to 6.425 GHz, or 5.850 to 6.725 GHz L-Band Input RF Output Power, P1dB Local Oscillator Frequency 950 to 1525 MHz or 950 to 1825 MHz 10 W min. (40 dBm) 20 W min. (43 dBm) 4900 and 4975 MHz (with extended band option user may also select 5200 and 5275 MHz) Gain at 0 dB Attenuation 70 dB ±2.0 dB Gain Stability Over any 50˚C range, freq. set Over temp, frequency set Over 24 hours ±1.5 dB max. ±2.0 dB max. ±0.25 dB (fixed temperature and constant drive) Gain Flatness Over Any 40 MHz ±1.0 dB max. Gain Flatness Over Full Band ±2.0 dB max. Intermodulation -25 dBc max. with respect to each of two equal carriers 5 MHz apart VSWR Input and output: 14 dB return loss, 1.5:1 max. Spectral Regrowth <-30 dBc @ 1.0x symbol rate, 1024 kbps, QPSK 7/8 VIT Reference Frequency 10 MHz (internal reference option available) Reference Freq. Input (external) Multiplexed on N-type transmit IF input Reference Freq. Level (external) -10 to +5 dBm Ref. Freq. Level Meter Yes, via M&C IF Input Level Meter -5 to -45 dBm, ±2.0 dBm Output Phase Noise -65 dBc/Hz at 100 Hz, -75 dBc/Hz at 1 kHz, -85 dBc/Hz at 10 kHz, -95 dBc/Hz at 100 kHz Transmit Attenuator 0 to 20 in 0.25 dB steps AM/PM Conversion 2.0˚/dB max. at 2 dB output backoff Output Power Meter Range: 15 dB; Absolute Accuracy: ±1 dB max. when compensation frequency compensation set; Relative Accuracy: ±0.5 dB max. when compensation frequency compensation set; Modes: CW and burst with adjustable threshold Spurious Group Delay -55 dBc max. at linear output power 0.03 ns/MHz linear max, 0.01 ns/MHz2 parabolic max, 1.0 ns pk-pk ripple max. in any 36 MHz band Power Supply Voltage Power Supply Turn-On Voltage Power Consumption Ambient Temperature 18 to 60 V DC via IF/IP and external DC connector Min. input voltage via IF +29 VDC to permit Tx on (IF connector limited to 5 A) + 20 VDC 75 watts typ. at PLIN, 90 watts max. Relative Humidity 100% condensing Altitude Shock and Vibration 100 watts typ. at PLIN, 130 watts max. -40˚C to +60˚C operating, -40˚C to +70˚C non-operating 5000 m operating (16,400 ft) 20 g peak, 11 msec, 1/2 sine; 2.1 grms, 5 to 500 Hz RF Output Connection WR-137G with tapped M5 M&C Interface FSK, RS-232, RS485 (2-wire); LAN M&C Protocols ASCII, NDSatcom v1, SABus, Codan packet, Telnet, SNMP v1, WEB GUI Dimensions, L x W x H 247 x 151 x 85 mm (9.72” x 5.9” x 3.5”), contact CPI for outline drawing if needed. Weight 2.6 kg (5.7 lbs) typ. 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 404, ISSUE 6 dated DEC 2015 Page 2 of 3 C-Band Configuration Guide 10 and 20 W C-band Mini-BUCs Configure your C-band Mini-BUC Configuring your BUC is easy. For this product, most of the configuration is predetermined. All that is left is to indicate output power, whether the LAN option is required, which frequency range is needed, and whether internal reference is required. Instructions follow: Box 1: Model number/desired power - Enter “4710” for 10 watt model - Enter “4720” for 20 watt model Box 2: LAN configuration -“L” is entered here because the LAN option is standard -Contact CPI if LAN option is not desired Box 4: Frequency range (within Ku-band) - Enter “S” for 5.850 to 6.425 GHz - Enter “E” for 5.850 to 6.725 GHz Box 8: Internal reference -Enter “R” only if internal reference option is selected -LEAVE BLANK if internal reference option is not selected L 1 2 _ W 3 / 4 _ DC / 5 EX _ CE _ 6 7 8 Examples: 4720L-W/S-DC/EX-CE-R indicates a 20 W BUC with the LAN option, a frequency range of 5.850 to 6.425 GHz and internal reference. 4710L-W/E-DC/EX-CE indicates a 10 W BUC with a frequency range of 5.850 to 6.725 GHz, with LAN but no internal reference. Notes: Box 3 indicates a waveguide RF output connection. Box 5 indicates that this product is DC powered. Box 6 indicates that power is fed via an external connector. Box 7 indicates that this product is CE marked. 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 404, ISSUE 6 dated DEC 2015, page 3 of 3