Guerrilla RF, a fabless semiconductor company developing high performance Monolithic Microwave Integrated Circuits (MMICs) for the wireless infrastructure market has introduced the GRF2110, an ultra-low noise amplifier renowned for its consistently flat gain response across a broad tune from 5 to 8 GHz.
When operated at 6 GHz, the device delivers 16.3 dB of gain, 22 dBm of OP1dB compression, 38 dBm of OIP3 linearity, and a low noise figure of 1.2 dB (as measured on the device’s standard evaluation board; de-embedded NF values are approximate 0.2 dB lower). As with most of GRF’s amplifier cores, the GRF2110 touts a flexible biasing architecture allowing for customizable tradeoffs in linearity and power consumption. Supply voltages can vary between 2.7 and 6 V, although most customers will elect to use a standard 5 V supply with 70 mA of biasing current.
“Given its native operating band, the GRF2110 will be a compelling LNA for satellite communications, aeronautical telemetry, radar, industrial scientific medical (ISM), WiFi 6E, and 5G cellular infrastructure applications targeting new n96, n102 and n104 bands in the 5.9 to 7.2 GHz range,” says Jim Ahne, vice president of automotive and 5G products at Guerrilla RF. “In each of these end markets, customers are continuously seeking LNA cores offering an excellent blend of low noise, high linearity, and high compression performance – critical for enhancing a system’s overall receiver sensitivity while overcoming link impairments due to blocker interference.”
The GRF2110 utilizes Guerilla RF’s popular 1.5 x 1.5 mm DFN-6 package – the company’s ultra-small packaging option supporting a common footprint for over 30 devices. The entire family of parts provides customers with a multitude of options for addressing different frequency, gain, noise figure, compression, and linearity requirements. This modular approach is extremely popular with GRF’s client base since it provides an exceptional degree of design latitude, translating directly into design speed and agility.
Click here for more information on Guerrilla RF.
