Anokiwave is Now Qorvo

Ground Apps | Satcom Terminals | Space

Ground Applications

Flat Panel Arrays

Ku-Band
Rx: 10.7 to 12.75 GHz; Tx: 13.75 to 14.5 GHz

Ku-Band Quad Beamformer ICs
AWMF-0240^NEW!, AWMF-0241^NEW!
AWMF-0146, AWMF-0147
New Quad 4x2 Tx and Rx integrated ICs
advancing efficiency and performance.
Recommended Rx Gain Stage: CMD264P3
Recommended Tx Driver: CMD264P3

Ka-Band
Rx: 17.7 to 21.2 GHz; Tx: 27.5 to 31.0 GHz

Ka-Band Quad Beamformer ICs
AWMF-0197, AWMF-0198
Quad 4x2 Tx and Rx highly integrated ICs
simplifying active antenna design.
Recommended Rx Gain Stage: QPA2626
Recommended Tx Driver: QPA2628

SATCOM Terminals

Ku-Band Tx Power Amplifiers

QPA0015, QPA0016, QPA0017
8, 15, or 25 W GaN Power Amplifiers

Ku-Band Low Noise Amplifier

CMD320C3
Market leading Market leading NF=1.07 dB, 18 dB gain with no external DC blocks or RF matching required. Low power dissipation. Market leading NF=1.07 dB, 18 dB gain with no external DC blocks or RF matching required. Low power dissipation.

Ka-Band Low Noise Amplifier

CMD298C4
Market leading NF=1.07 dB, 18dB gain with no external DC blocks or RF matching required. Low power dissipation.

Ka-Band TX Power Amplifier

QPA221D
25 W GaN Power Amplifier

Space Applications

Space Payload
Ku-Band
Rx: 13.75 to 14.5 GHz; Tx: 10.7 to 12.75 GHz

Ku-Band Tx Power Amplifiers
QPA1006D, QPA1009D
17.5 or 35 W GaN TX Power Amplifier

Ku-band Low Noise Amplifiers
QPA2735
Market leading Market leading NF=1.3 dB, 25.5 dB gain

Ka-Band
Rx: 27.5 to 31.0 GHz; Tx: 17.7 to 21.2 GHz

Ka-Band Tx Power Amplifier
QPA1722^NEW!, QPA1724, QPA1721D
10, 20 or 30 W GaN Tx Power Amplifiers

Ka-band Low Noise Amplifier
QPA2628
Market leading NF=1.6 dB, 23 dB gain
with no external DC blocks or RF
matching required.

Design Resources

Playbook - LEO Satellites: Driving the Future SATCOM

LEO (Low Earth Orbit), AESA (Active Electronically Scanned Array) and NTNs (Non Terrestrial Networks) - what's powering the new space race? Read the playbook.
DOWNLOAD >>

Blog Series: How LEO Satellites Shape Wireless Communication

This multi-part blog series examines how Low Earth Orbit (LEO) satellites are shaping the future of global wireless connectivity.
READ MORE >>

Navigating the SATCOM User Terminal Trade-Space

Examine the trade-offs between SATCOM flat panel phased array and high gain terminals to identify the best fit for performance needs.
WATCH >>

RF Technology Trends for LEO Satellite Systems

Download this article for guidance on Qorvo’s standard flow for screening MMIC die for space. Each subsection provides a general overview of requirements derived from MIL-PRF-38534, Table C-II, Class K.
DOWNLOAD >>