RF Mixers

Part Number	Description / PDF	Quantity
TRF1216IRGPT Texas Instruments	DOWN CONVERTER	14180
TRF1122IRTMR Texas Instruments	UP CONVERTER	17427
TRF1115IRGPR Texas Instruments	DOWN CONVERTER	12500
TRF1115IRGPT Texas Instruments	DOWN CONVERTER	26777
TRF1222IRTMT Texas Instruments	UP CONVERTER	17295
TRF1216IRGPR Texas Instruments	DOWN CONVERTER	42000
TRF1222IRTMR Texas Instruments	UP CONVERTER	48000
GC5016-PB Texas Instruments	RF AND BASEBAND CIRCUIT, PBGA252	7170
TRF1122IRTMT Texas Instruments	UP CONVERTER	17155
GC5016-PBZ Texas Instruments	RF AND BASEBAND CIRCUIT, PBGA252	79419
PGC5016-PB Texas Instruments	PROTOTYPE FOR GC5016-PB	0
SN761688PW Texas Instruments	IC MIXER 50-280MHZ DWN 16TSSOP	0
TRF1216IRGPTG3 Texas Instruments	IC MIXER 3.3-3.8GHZ DWN 20QFN	0
TRF1115IRGPRG3 Texas Instruments	IC MIXER 2.5GHZ DOWN CONV 20QFN	0
SN761688PWRG4 Texas Instruments	IC MIXER 50-280MHZ DWN 16TSSOP	0
SN761688PWR Texas Instruments	IC MIXER 50-280MHZ DWN 16TSSOP	0
TRF1222IRTMTG3 Texas Instruments	IC MIXER 3.3-3.8GHZ UP 32VQFN	0

RF Mixers

1. Overview

RF/IF Mixers are three-port nonlinear devices that convert signals from one frequency to another by multiplying two input signals (RF and LO) to produce intermediate frequency (IF) or baseband outputs. They are critical components in wireless communication systems, enabling frequency translation for signal processing. RFID RF Mixers specialize in handling signals for Radio Frequency Identification systems, ensuring accurate data transmission between readers and tags. These components underpin modern technologies including 5G, IoT, and industrial automation.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Passive Mixers	Use diodes or FETs without external power, offering high linearity and wide bandwidth	Satellite communication, test equipment
Active Mixers	Use transistors with power supply, provide conversion gain and isolation	5G base stations, RFID readers
Up-Conversion Mixers	Convert low-frequency signals to higher RF frequencies	Wireless transmitters, radar systems
Down-Conversion Mixers	Convert high-frequency signals to lower IF/baseband	Smartphone receivers, RFID interrogators
Zero-IF Mixers	Direct conversion to DC/baseband, eliminating IF stages	Software-defined radios, BLE modules

3. Structure and Components

Typical RF Mixers consist of nonlinear semiconductor elements (diodes, BJTs, or FETs), impedance matching networks, and three frequency-selective ports (RF, LO, IF). Advanced designs integrate baluns for balanced signal processing and temperature compensation circuits. Packaging varies from surface-mount (SMD) for PCB integration to coaxial connectors for high-power applications. RFID-specific mixers often include on-chip filtering for 860-960 MHz UHF bands.

4. Key Technical Specifications

Parameter	Significance	Typical Values
Frequency Range	Determines operational bandwidth	50 MHz - 100 GHz
Conversion Loss/Gain	Measures efficiency of frequency translation	-6 dB to +12 dB
LO Drive Level	Required local oscillator power	0 dBm - 20 dBm
Isolation (RF-LO, IF-LO)	Prevents signal leakage	20 dB - 45 dB
IP3 (Third-Order Intercept)	Indicates linearity performance	+5 dBm - +25 dBm
Phase Noise	Affects signal purity	-150 dBc/Hz @ 100 kHz offset

5. Application Fields

Telecommunications: 5G NR base stations, microwave backhaul
RFID Systems: UHF Gen2 readers, NFC payment terminals
Test & Measurement: Spectrum analyzers, signal generators
Industrial IoT: Wireless sensor networks, asset tracking
Medical Imaging: MRI system frequency conversion
Automotive Radar: 76-81 GHz FMCW radar mixers

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Analog Devices	ADL5801	6 GHz active mixer, +18 dBm IIP3, 4G/5G applications
Mini-Circuits	ZMX-7R2-S+	26.5 GHz passive mixer, 50-4000 MHz bandwidth
Nordic Semiconductor	nRF24L01	2.4 GHz active mixer for Bluetooth LE
Infineon	B4100N60E	SiC mixer for 600V RFID systems
STMicroelectronics	SAW36R1M	3.6 GHz SAW mixer for RFID readers

7. Selection Recommendations

Key selection criteria include: matching target frequency bands, required conversion gain/loss budget, LO power availability, and linearity requirements. For RFID applications, prioritize low LO leakage (<-15 dBm) and integrated filters. High-volume manufacturing should consider package type (QFN vs. die) and RoHS compliance. Always verify IP3 performance for multi-signal environments and check temperature stability (-40 C to +85 C) for industrial use.

8. Industry Trends

The market shifts toward: 1) Millimeter-wave mixers for 28/39 GHz 5G FR2 bands 2) System-on-Chip (SoC) integration with on-die mixers 3) Energy-efficient designs for battery-powered RFID tags 4) Software-defined radio (SDR) compatibility with programmable IF 5) Increased adoption of GaN mixers for high-power aerospace applications 6) Refined zero-IF architectures reducing component count in mobile devices