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Ultra-low Noise Amplifier (LNA) MMICs Designed with the RF / Microwave Engineer in Mind

Custom MMIC has developed high performance, GaAs and GaN RF / Microwave ultra-low noise amplifiers (LNAs) to meet stringent design requirements for low bias current, low bias voltage, extremely low noise figure, high gain and broadband operation. They’re available from 2 to 45 GHz (L through Q band), and come in ultra-small die and small QFN packages. With noise figures as low as 1 dB in microwave frequencies, our GaAs and GaN MMIC LNAs are fit for highly sensitive SATCOM and radar applications, and are built for high survivability rated RF / Microwave military and aerospace radio design. Additional LNA features include single positive bias voltage supply and input power handling of 20 dBm.

NEW PRODUCTS
Part
Number
Frequency
(GHz)
Gain
(dB)
Noise
Figure
(dB)
Outputv
P1dB
(dBm)
Outputv
Psat
(dBm)
OIP3
(dBm)
Phase
Noise
(dBc/Hz)
Bias
Voltage
Part
Number
Part
Current
(mA)
Package
CMD264
LOW NOISE AMPLIFIER
10 - 17 32.4 10.4 14 24 44 46 - + 4 - 3 49 3x4 mm QFN
CMD279
LOW NOISE AMPLIFIER
10 - 17 32.2 10.1 16 23 43 43 - + 3 - 2 45 3x3 mm QFN
CMD267
LOW NOISE AMPLIFIER
12 - 18 32.5 14.1 18 23 43 43 - + 6 - 2 49 9x3 mm QFN
CMD267
LOW NOISE AMPLIFIER
12 - 18 32.5 14.1 18 23 43 43 - + 6 - 2 49 9x3 mm QFN
CMD267
LOW NOISE AMPLIFIER
12 - 18 32.5 14.1 18 23 43 43 - + 6 - 2 49 9x3 mm QFN
CMD267
LOW NOISE AMPLIFIER
12 - 18 32.5 14.1 18 23 43 43 - + 6 - 2 49 9x3 mm QFN
CMD267
LOW NOISE AMPLIFIER
12 - 18 32.5 14.1 18 23 43 43 - + 6 - 2 49 9x3 mm QFN
CMD267
LOW NOISE AMPLIFIER
12 - 18 32.5 14.1 18 23 43 43 - + 6 - 2 49 9x3 mm QFN
NEW PRODUCTS
  • Tech Brief: Throw Out Complex Bias Sequencers along with Negative Voltage Supply

    Learn how you can reduce your bill of materials, simplify your circuitry, and reduce the number of extraneous noise sources in your signal chain to increase efficiency with LNAs that utilize positive bias.

  • Tech Brief: Throw Out Complex Bias Sequencers along with Negative Voltage Supply

    Learn how you can reduce your bill of materials, simplify your circuitry, and reduce the number of extraneous noise sources in your signal chain to increase efficiency with LNAs that utilize positive bias.

RFQ

CONTACT INFORMATION

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MOODY'S TOP-NOTCH CREDIT RATING FOR ATTB'NOT SUR-PRISING':EXPERT UPDATED: 2017-07-01 14:15

MOODY'S TOP-NOTCH CREDIT RATING FOR ATTB'NOT SUR-PRISING':EXPERT UPDATED: 2017-07-01 14:15

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