RFIC Solutions Inc. Preliminary Datasheet RGLNA10 Low Noise Amplifier Description . Functional Diagram The RGLNA10 is 7.0-26.0 GHz; Low Noise Distributed Amplifiers using GaAs pHEMT Technology. The self-biased amplifier provides 19 dB of gain and 14 dBm of output power at P1 dB gain compression while requiring only 86 mA from a single 3.0 V supply. . Supply Biasing Ckt Matching Matching Gain flatness is excellent from 7.0-26.0 GHz for RADAR and test equipment applications. Applications. • Satellite Communication. • RADAR Applications. • EW and ECM Electrical Specifications. . Key Features . • Ultra Broadband Amplifier • Low Cost • High Performance • 2 dB Gain Flatness over the band. . Conditions: Vcc = 3 V & TA=25 0C Parameter Minimum Typical Maximum Minimum Typical Maximum Units Frequency Range Gain Gain Flatness Noise Figure Input Return Loss Output Return Loss Power Output (P1 dB) OIP3 Supply Current DC Voltage March 12, 2007 7 19.7 16 20 16 20 3 3 0.3 3.7 2 12 13 13.5 23.5 26 18 4 13 13 14 24 86 3 14 24 14 24 86 3 www.rficsolutions.com RFIC Solutions Inc. Proprietary Information Data subject to change without Notice Page 1 of 2 GHz dB dB dB dB dB dBm dBm mA V RFIC Solutions Inc. Preliminary Datasheet RGLNA10 Low Noise Amplifier Simulated results. Gain Vs Freq . Gain Vs Input Power Gain vs Pin Gain 25 25 p1: Freq = 16 GHz p2: Freq = 26 GHz p3: Freq = 7 GHz 20 20 15 15 10 p1 p2 p3 10 5 5 0 7 12 17 Frequency (GHz) 22 26 -30 -20 Pout Vs Pin -10 Power (dBm) 0 7 Noise Figure Vs Freq Noise Figure Pout vs Pin 5 20 p1 p2 p3 4.5 10 4 p1: Freq = 16 GHz p2: Freq = 26 GHz p3: Freq = 7 GHz 0 3.5 3 -10 2.5 -20 2 -30 -20 -10 Power (dBm) 0 7 7 12 17 Frequency (GHz) 22 26 Input /Output Return Loss Vs Freq Input and Output Return Loss 0 -5 -10 -15 -20 -25 2 March 12, 2007 12 Frequency (GHz) 22 28 www.rficsolutions.com RFIC Solutions Inc. Proprietary Information Data subject to change without Notice Page 2 of 2