Products and Services

  1. Low-Noise Amplifiers For S-Band Applications
    4/7/2010
    These Low Noise Amplifiers are built with GaAs p-HEMT die attached on a ceramic thick film substrate. Alumina, the most commonly used type of ceramic, is what RHIC has chosen due to its relatively high thermal conductivity. These Low Noise Amplifiers are focused on giving the lowest noise possible; exhibiting low noise performance of better than 1dB noise figure. The devices work at input levels as high as 20dBm thanks to the initial gate length of 1200µm design.
  2. W-Band Low Noise Amplifier: CHA1008-99F
    6/8/2012

    This low noise amplifier (LNA) operates in the 80-105 GHz frequency range and features 16 dB linear gain, a 5 dB noise figure from 80 to 90 GHz, a 3.40x1.60x0.07mm chip size, and VD=2.5V @ ID=115 mA DC bias.

  3. High Linearity Wideband LNA in a Miniature Form Factor: µHILNA™: 50 to 1500 MHz, 20 dB Gain
    5/2/2012

    NuWaves’ µHILNA™ is a high linearity, wideband LNA (low noise amplifier) with a form factor of 1.00″ x 0.75″ x 0.50”. In addition to its miniature size, the LNA features reverse voltage protection, a ruggedized, fully characterized assembly, application diverstity, high intercept, a wide dynamic range and wide operational voltage range, multi-octave frequency coverage, reverse voltage protection, low cost, and much more.

  4. Low Noise Amplifiers: HLNA Series
    9/15/2009
    The HLNA Series of Low Noise Amplifiers covers the frequency range from 14 to 110 GHz. A wide variety of gain and bandwidth combinations are available to provide solutions for radar systems, communications systems and other applications. Variations of the amplifiers listed in the HLNA data sheet and totally new amplifier designs can also be provided, usually without an NRE charge. Most models offer single bias operation with internal regulation and bias sequencing. MMIC technology is employed in every amplifier for high reliability and repeatability.
  5. SiGe: C Low Noise Amplifiers (LNAs)
    12/16/2011
    NXP Semiconductors has released new low noise amplifiers with the ability to dynamically suppress strong transmit signals. These LNAs improve GPS signal reception, linearity, and noise figure.
  6. TMS Tactical/Airborne SATCOM Systems
    4/22/2015

    Teledyne Microwave Solutions (TMS) offers a wide range of RF modules specifically designed to meet demanding small size, weight, power and cost (SWaP-C) applications in the Land, Air and Marine markets. Using unique chip and wire capabilities TMS offers extremely rugged and reliable products suitable for the most demanding platforms.

  7. Pre-Filtered GPS LNA
    2/15/2013

    The 312 Series of pre-filtered GPS LNAs (low noise amplifiers) features a low noise figure, a wide input voltage range, compliance with many MIL-STD-810 and MIL-STD-461 requirements, and more. The LNAs come in a small, lightweight hermetically sealed package.

  8. High Intercept Low Noise Amplifier: HILNA™ V1: 50 to 1000 MHz, 20 dB Gain
    5/8/2012

    The HILNA™ V1 is a high intercept low noise amplifier that operates in the 50 MHz to 1 GHz frequency range. It features extremely low noise and high gain, a wide dynamic range, reverse voltage protection, high reliability, a high intercept point, a fully characterized and rugged assembly, and more.

  9. 20 MHz to 8 GHz Gain Block Amplifier: AM1023
    12/15/2014

    This gain block amplifier covers the 20 MHz to 8 GHz frequency range. It exhibits flat gain (19 dB), a 2.5 dB noise figure, and unconditional stability over the -40C to +85C operating temperature range. It comes in a 3mm QFN package and is operational to 1.7V.

  10. High Intercept Low Noise GPS Amplifier: HILNA™ GPS: 1.2 to 1.6 GHz, 32 dB Gain
    4/2/2012

    The HILNA™ GPS is a high intercept, low noise amplifier that features reverse voltage protection, a wide operational voltage range, extremely low noise and high gain, a wide dynamic range, an internal regulator/active bias, high reliability, a rugged, fully characterized assembly, multi-octave frequency coverage, and more.