RFICs and BFICs for Licensed and Unlicensed 5G
A broad range of millimeter wave (mmWave) radio frequency integrated circuits (RFICs) and beamformer integrated circuits (BFICs) for both licensed and unlicensed frequencies, from 24 GHz to 71 GHz.
Whether seeking to operate in the licensed or unlicensed band, Sivers Semiconductors’ radio frequency integrated circuits (RFICs) and beamformer integrated circuits (BFICs)
provide unrivaled power, flexibility, and quality.
Cost-effective
Tested and pre-tuned wireless chipsets simplify development and reduce time to market.
Adaptable
Uniquely wide spectrum, coverage, superior link budget, flexible channelization.
Reliable
Capable of operating in a temperature range of -40°C to +85°C – ideal for outdoor installation.
5G mmWave RFICs and BFICs
SUMMIT2427e™ - 24 GHz BFIC
An eight-channel RF front-end for 24 GHz, 5G phased array antenna systems fabricated in RF-Silicon on Insulator (RF-SOI)
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SUMMIT2629e™ - 28 GHz BFIC
An eight-channel RF front-end for 28 GHz, 5G phased array antenna systems fabricated in RF-Silicon on Insulator (RF-SOI)
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SUMMIT3741™ - 39 GHz BFIC
An eight-channel RF front-end for 39 GHz, 5G phased array antenna system fabricated in RF-Silicon on Insulator (RF-SOI)
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TRB02801 - 28 GHz RFIC
Highly integrated, state of the art 5G NR RFIC for 24.25 GHz - 29.5 GHz
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TRB03901 - 39 GHz RFIC
Highly integrated, state of the art 5G NR RFIC for 37.0 GHz - 43.5 GHz
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Other Wireless Products
RF Modules
The simplest way to add wireless connectivity to your product. Beamforming transceiver IC, antenna arrays, low pass filters, and base-band interface - pre-tuned and tested.
Evaluation Kits
Our evaluation kits allow you to quickly assess the RF aspect of your 5G mmWave system. Minimize development time, product cost, and time to market.
Frequently asked questions
- What is the TRXBF01?
- It is a complete 16RX + 16TX beam forming RF transceiver supporting the frequency band 57-71GHz.
- What is the architecture used in the TRXBF01?
- It is a Zero-IF topology ie 16 RF in/out and analog base band I/Q in/out.
- What is the main targeted application for TRXBF01?
- The Transceiver is targeting data and telecommunication infrastructure solutions for unlicensed 5G mm-wave use cases.
- Does the TRXBF01 have any internal calibration routines?
- The TRXBF01 includes support for DC offset, LO leakage and IQ calibration. It includes an auxiliary ADC, supporting various external functions, e.g. power and temperature measurements as well as production test support.
- What is the size of the TRXBF01 package?
- 1.26×1.26cm.
- TRXBF01: The beam book states 64 phase vectors can be stored. Can you describe what each vector consists of and the process of importing our own?
- Regarding the beambook we will give you a short explanation for now, hopefully soon we can provide you with a user manual describing this in more details: The beam book file consists of a matrix of the form 16 columns and 64 rows. Each column contains information to the corresponding antenna how the phase shifts should stand (note that the beambook is reversed ie column 0 controls antenna patch 16) and each row contains one of 64 possible beams that the memories may contain. Each cell can thus have values from 0x0000 to 0x3F3F.
- What packaging technology does TRXBF01 use?
- It uses embedded wafer level ball grid array (eWLB) package.
- What is the TRXBF02?
- It is a complete 16RX + 16TX beam forming RF transceiver supporting the frequency band 24-29.5 GHz.
- What is the architecture used in TRXBF02?
- It is a Zero-IF topology ie 16 RF in/out and analog base band I/Q in/out.
- What is the main targeted application for TRXBF02?
- The Transceiver is targeting data and telecommunication infrastructure solutions for unlicensed 5G mm-wave use cases.
- Does the TRXBF02 have any internal calibration routines?
- The TRXBF02 includes support for DC offset, LO leakage and IQ calibration. It includes an auxiliary ADC, supporting various external functions, e.g. power and temperature measurements as well as production test support.
- What is the size of the TRXBF02 package?
- 1.26×1.26cm.
- TRXBF02: The beam book states 64 phase vectors can be stored. Can you describe what each vector consists of and the process of importing our own?
- Regarding the beambook we will give you a short explanation for now, hopefully soon we can provide you with a user manual describing this in more details: The beam book file consists of a matrix of the form 16 columns and 64 rows. Each column contains information to the corresponding antenna how the phase shifts should stand (note that the beambook is reversed ie column 0 controls antenna patch 16) and each row contains one of 64 possible beams that the memories may contain. Each cell can thus have values from 0x0000 to 0x3F3F.
- What packaging technology does TRXBF02 use?
- It uses embedded wafer level ball grid array (eWLB) package.
- How many polarisations can the chip AFEVM2Q275/295 support?
- It can support two polarisations.
- How much power does the chip AFEVM2Q275/295 consume?
- Please contact [email protected] for further assistance.
- What packaging technology does the chip AFEVM2Q275/295 use?
- It uses Wafer-level chip scale packaging (WL-CSP) technology.
- Does the chip AFEVM2Q275/295 have it’s own clock synthesiser, up/down converter?
- No. This is an analog beamformer IC which requires signals at 5G NR frequencies (24 to 29 GHz).
- Do I need to sign an NDA to get the datasheet for AFEVM2Q275/295 ?
- Yes.
- Does one chip AFEVM2Q275/295 cover the whole 5G NR frequency range from 24.25 to 29.5 GHz?
- No. Two chips are needed for this. AFEVM2Q275 covers 24.25-27.5 GHz and AFEVM2Q295 covers 26.5-29.5 GHz.
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