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RF Transceiver ICs

Image Part Number Description / PDF Quantity Rfq
MKW41Z256VHT4

MKW41Z256VHT4

NXP Semiconductors

IC RF TXRX+MCU 802.15.4 48VFQFN

248
ADF7025BCPZ-RL7

ADF7025BCPZ-RL7

Analog Devices, Inc.

HIGH PERFORMANCE ISM BAND TRANSC

10500
ATMEGA256RFR2-ZF

ATMEGA256RFR2-ZF

Roving Networks / Microchip Technology

IC RF TXRX+MCU 802.15.4 64VFQFN

142
EFR32MG1V132F256GM32-C0R

EFR32MG1V132F256GM32-C0R

Silicon Labs

IC RF TXRX+MCU 802.15.4 32VFQFN

2325
MAX2839ETN+

MAX2839ETN+

Analog Devices, Inc.

WIRELESS B/BAND RF TRANSCEIVER

5286
MC13212

MC13212

NXP Semiconductors

MICROPROCESSOR CIRCUIT, SIP 802.

177
NRF52832-QFAA-T

NRF52832-QFAA-T

Nordic Semiconductor

IC RF TXRX+MCU BLUETOOTH 48VFQFN

0
ATSAMR21G18A-MF

ATSAMR21G18A-MF

Roving Networks / Microchip Technology

IC RF TXRX+MCU ISM<1GHZ 48VFQFN

0
AT86RF231-ZU

AT86RF231-ZU

Roving Networks / Microchip Technology

IC RF TXRX+MCU 802.15.4 32VFQFN

0
SI1082-A-GMR

SI1082-A-GMR

Silicon Labs

IC RF TXRX+MCU ISM<1GHZ 36-WFQFN

0
SI4463-C2A-GM

SI4463-C2A-GM

Silicon Labs

IC RF TXRX+MCU ISM<1GHZ 20VFQFN

0
CC2520RHDT

CC2520RHDT

Texas Instruments

IC RF TXRX+MCU 802.15.4 28VFQFN

326
EFR32FG1V132F256GM48-C0

EFR32FG1V132F256GM48-C0

Silicon Labs

IC RF TXRX+MCU 48VFQFN

400
EFR32FG1P131F256GM32-C0

EFR32FG1P131F256GM32-C0

Silicon Labs

IC RF TXRX+MCU 32VFQFN

0
EZR32HG320F64R69G-C0R

EZR32HG320F64R69G-C0R

Silicon Labs

64 KB M0+ USB +13/+20 DBM EZRADI

1933
ATMEGA256RFR2-ZUR

ATMEGA256RFR2-ZUR

Roving Networks / Microchip Technology

IC RF TXRX+MCU 802.15.4 64VFQFN

884
EFR32MG1B232P1088GM32-C

EFR32MG1B232P1088GM32-C

Silicon Labs

IC RF TXRX MCU 32QFN

0
NRF52832-CIAA-R

NRF52832-CIAA-R

Nordic Semiconductor

IC RF TXRX+MCU ISM>1GHZ 50XFBGA

0
EFR32FG1V131F64GM32-C0

EFR32FG1V131F64GM32-C0

Silicon Labs

IC RF TXRX+MCU 802.15.4 32VFQFN

490
HDG200-DN-3

HDG200-DN-3

H&D Wireless

IC RF TXRX+MCU WIFI 44TQFN

0

RF Transceiver ICs

1. Overview

RF (Radio Frequency) and IF (Intermediate Frequency) transceiver ICs are integrated circuits that enable wireless communication by transmitting and receiving radio signals. These devices are critical in modern technologies, supporting applications from cellular networks to IoT (Internet of Things). RFID (Radio-Frequency Identification) RF transceivers specialize in short-range communication for identification and tracking systems. Their miniaturization, energy efficiency, and reliability have driven advancements in connectivity across industries.

2. Major Types and Functional Classification

Type Functional Features Application Examples
Low-Power RF Transceivers Optimized for energy efficiency, supports sub-1GHz and 2.4GHz bands IoT sensors, smart meters, wearable devices
High-Performance RF Transceivers High output power (up to +20dBm), low phase noise 5G base stations, military communication systems
Multi-Band RF Transceivers Supports multiple frequency bands (e.g., 400MHz-6GHz) Dual-mode radios, global navigation systems
Integrated RFID Transceivers Embedded protocol handling, on-chip modulation/demodulation Inventory tracking, access control systems

3. Structure and Components

Typical RF transceiver ICs include:

  • Transmitter Section: Power Amplifier (PA), up-conversion mixer, frequency synthesizer
  • Receiver Section: Low-Noise Amplifier (LNA), down-conversion mixer, channel filter
  • Digital Baseband: ADC/DAC, error correction, protocol engine
  • Process Technology: CMOS, SiGe, or GaAs for high-frequency performance
  • Package Types: QFN (Quad Flat No-leads), BGA (Ball Grid Array)

4. Key Technical Specifications

Parameter Description Importance
Frequency Range Operational bandwidth (e.g., 868MHz-915MHz, 2.4GHz-5.8GHz) Determines application compatibility
Output Power Transmit power level (e.g., -20dBm to +20dBm) Impacts transmission distance and regulatory compliance
Receiver Sensitivity Minimum detectable signal level (e.g., -120dBm) Defines signal quality in noisy environments
Data Rate Maximum throughput (e.g., 1Mbps-1Gbps) Affects real-time data transmission capability
Power Consumption Operating current/voltage requirements Crucial for battery-powered devices

5. Application Areas

  • Telecommunications: 5G small cells, Wi-Fi 6 access points
  • Industrial IoT: Predictive maintenance sensors
  • Automotive: Tire Pressure Monitoring Systems (TPMS), keyless entry
  • Healthcare: Remote patient monitoring devices
  • Retail: Smart shelves with RFID inventory tracking

6. Leading Manufacturers and Products

Manufacturer Representative Product Key Features
TI (Texas Instruments) CC1352P Sub-1GHz & 2.4GHz dual-band, +7dBm output power
Nordic Semiconductor nRF52840 Bluetooth 5.2, 2.4GHz, 128-bit AES encryption
STMicroelectronics S2-LP Very low-power (14mA RX), sub-GHz transceiver
Infineon Technologies BTS720 Automotive-grade RFID transceiver for immobilizers

7. Selection Guidelines

Key considerations include:

  • Frequency band alignment with regulatory standards (FCC, ETSI)
  • Power budget vs. transmission range requirements
  • Integration level (e.g., on-chip MCU, external PA needs)
  • Environmental factors (temperature range, EMI resilience)
  • Cost vs. performance trade-offs for mass production

8. Industry Trends

Future developments include:

  • Ultra-low-power designs for energy-harvesting IoT nodes
  • Massive MIMO integration for 6G infrastructure
  • AI-enhanced spectrum management algorithms
  • Expanded use of mmWave bands (24GHz+) for high-speed applications
  • Standardization of RFID protocols for global supply chains
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