RGLNA10(7.0-26.0 GHz GaAs pHEMT).pdf part of Rficsolutions.Inc RGLNA10 RGLNA10(7.0-26.0 GHz GaAs pHEMT).pdf, 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. Gain flatness is excellent from 7.0-26.0 GHz for RADAR and test equipment applications. text manual preview

Text preview for : RGLNA10(7.0-26.0 GHz GaAs pHEMT).pdf part of Rficsolutions.Inc RGLNA10 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. Gain flatness is excellent from 7.0-26.0 GHz for RADAR and test equipment applications.

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RFIC Solutions Inc.
Low Noise Amplifier
Description .

Preliminary Datasheet RGLNA10

Functional Diagram
Supply Biasing Ckt Matching Matching

.

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. Gain flatness is excellent from 7.0-26.0 GHz for RADAR and test equipment applications. Applications. · Satellite Communication. · RADAR Applications. · EW and ECM .

Key Features . · Ultra Broadband Amplifier · Low Cost · High Performance · 2 dB Gain Flatness over the band.

Electrical Specifications.

.

Conditions: Vcc = 3 V & TA=25 0C

Parameter
Frequency Range Gain Gain Flatness Noise Figure Input Return Loss Output Return Loss Power Output (P1 dB) OIP3 Supply Current DC Voltage

Minimum Typical Maximum Minimum Typical Maximum Units
7 19.7 0.3 3.7 12 13 13.5 23.5 86 3 14 24 14 24 86 3 3 3 13 13 14 24 16 20 16 20 2 4 26 18 GHz dB dB dB dB dB dBm dBm mA V

March 12, 2007

www.rficsolutions.com

Page 1 of 2

RFIC Solutions Inc. Proprietary Information
Data subject to change without Notice

RFIC Solutions Inc.
Low Noise Amplifier
Simulated results. Gain Vs Freq
Gain
25
25

Preliminary Datasheet RGLNA10

. Gain Vs Input Power
Gain vs Pin
p1: Freq = 16 GHz p2: Freq = 26 GHz p3: Freq = 7 GHz

20

20

15
15

10
10
p1 p2 p3

5

0 7 12 17 Frequency (GHz) 22 26

5 -30 -20 -10 Power (dBm) 0 7

Pout Vs Pin
Pout vs Pin
20
p1 p2 p3

Noise Figure Vs Freq
Noise Figure
5 4.5

10

4
p1: Freq = 16 GHz p2: Freq = 26 GHz p3: Freq = 7 GHz

0

3.5 3

-10

2.5
-20 -30 -20 -10 Power (dBm) 0 7

2 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 12 Frequency (GHz) 22 28

March 12, 2007

www.rficsolutions.com

Page 2 of 2

RFIC Solutions Inc. Proprietary Information
Data subject to change without Notice