Balun

Part Number	Description / PDF	Quantity
EHF-FD1617 Panasonic	BALUN 130MHZ-500MHZ 50/200 OHM	3187
EHF-FD1755T Panasonic	BALUN 3.4GHZ-4GHZ 50/100 0805	295
EHF-FD1620 Panasonic	BALUN 900MHZ-1.35GHZ 50/200 0606	2855
EHF-4BE5250 Panasonic	BALUN 5.15-5.35GHZ 50/100 0603	3653
EHF-FD1622 Panasonic	BALUN 700MHZ-900MHZ 50/200 0606	3491
EHF-2BG2450 Panasonic	BALUN 2.4GHZ-2.5GHZ 50/200 0805	75
EHF-1BE1800 Panasonic	BALUN 1.7GHZ-1.9GHZ 50/100 1206	0
EHF-2BE1800 Panasonic	BALUN 1.7GHZ-1.9GHZ 50/100 0805	0
EHF-1BD1800 Panasonic	BALUN 1.7GHZ-1.9GHZ 50/50 1206	0
EHF-1BG1800 Panasonic	BALUN 1.7GHZ-1.9GHZ 50/200 1206	0
EHF-2BG2060 Panasonic	BALUN 1.92-2.17GHZ 50/200 0805	0
EHF-FD1626 Panasonic	BALUN 1.6GHZ-1.8GHZ 50/200 1206	0
EHF-2BG1800 Panasonic	BALUN 1.7GHZ-1.9GHZ 50/200 0805	0
EHF-2BD1800 Panasonic	BALUN 1.7GHZ-1.9GHZ 50/50 0805	0
EHF-2BD2060 Panasonic	BALUN 1.92GHZ-2.17GHZ 50/50 0805	0
EHF-FD1624B Panasonic	BALUN 1.6GHZ-1.95GHZ 50/200 0606	0
EHF-FD1750 Panasonic	BALUN 1.7GHZ-1.95GHZ 50/200 0603	0
EHF-FD1618 Panasonic	BALUN 700MHZ-1.3GHZ 50/50 1206	0
EHF-FD1624 Panasonic	BALUN 3.4GHZ-4GHZ 50/200 0606	0
EHF-2BE2060 Panasonic	BALUN 1.92-2.17GHZ 50/100 0805	0

Balun

1. Overview

A Balun (short for "balanced-unbalanced") is a critical RF/microwave component that converts between balanced differential signals and unbalanced single-ended signals. In RF/IF (Radio Frequency/Intermediate Frequency) and RFID (Radio Frequency Identification) systems, Baluns enable impedance matching, signal isolation, and noise suppression. They are essential for ensuring signal integrity in wireless communication, radar, and sensor networks. Modern IoT, 5G, and RFID infrastructure heavily rely on high-performance Baluns to optimize power transfer and minimize signal distortion.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Transmission Line Balun	High-frequency operation (up to 10 GHz), compact PCB design	Wi-Fi 6E antennas, RFID readers
Transformer Balun	Magnetic coupling, galvanic isolation, low-loss at sub-6 GHz	Cellular base stations, NFC devices
IC Balun	Monolithic integration, ultra-miniaturized form factor	Bluetooth LE modules, RFID tags
Marchand Balun	Wideband performance, precise phase matching	5G mmWave systems, microwave sensors

3. Structure and Components

Typical RF Balun structures include:

Transmission Line Design: Microstrip or coplanar waveguide circuits on FR4/Rogers substrates
Transformer Core: Ferrite toroids with twisted-pair windings for magnetic coupling
IC Integration: CMOS/GaAs semiconductor processes with on-chip inductors
Package Types: QFN, BGA, or coaxial connectors with EMI shielding

Advanced models incorporate temperature-stable dielectrics and low-PIM (Passive Intermodulation) materials.

4. Key Technical Specifications

Parameter	Description	Importance
Frequency Range	Operational bandwidth (e.g., 800 MHz - 6 GHz)	Determines compatibility with target standards (e.g., RFID Gen2)
Impedance Ratio	Typical 1:1 or 4:1 for 50 -75 conversion	Ensures VSWR < 1.5:1 for minimal reflection
Insertion Loss	0.2 dB - 2.0 dB depending on topology	Impacts system noise figure and TX power efficiency
Phase Balance	5 deviation across operating band	Crucial for IQ modulator/demodulator performance
Power Handling	10W - 100W peak power capability	Prevents thermal damage in high-power RFID readers

5. Application Areas

Major industries include:

Telecommunications: 5G NR base stations, fiber-wireless integration
Healthcare: Medical telemetry, implantable RFID sensors
Logistics: UHF RFID warehouse management systems
Automotive: Tire Pressure Monitoring Systems (TPMS)

Case Study: Alien Technology's ALR-9900 RFID reader employs Marchand Baluns for 900 MHz band operation, achieving 30 dBm output with 0.5 dB insertion loss.

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Mini-Circuits	TCM1-63AX+	0.01-6 GHz, 50 -75 , 0.3 dB loss
Analog Devices	ADL5571	400 MHz - 6 GHz GaAs MMIC Balun
STMicroelectronics	RFAL1242	NFC/RFID IC with integrated Balun
Coilcraft	1427AP	1.5 GHz - 2.8 GHz, 250W power handling

7. Selection Guidelines

Key considerations:

Match frequency range with application (e.g., 900 MHz for UHF RFID vs. 5.8 GHz for DSRC)
Verify power ratings for TX chain applications
Assess size constraints (IC Baluns for wearables vs. discrete for infrastructure)
Environmental factors: Temperature (-40 C to +85 C), humidity resistance
Cost vs. performance trade-offs (e.g., PCB vs. LTCC Baluns)

8. Industry Trends

Future developments include:

Sub-6 GHz and mmWave Baluns for 5G/6G expansion
Multiband integrated solutions for universal RFID readers
AI-driven Balun optimization using electromagnetic simulation
Green manufacturing: Lead-free substrates and reduced PIM designs

Market growth projected at 8.2% CAGR through 2030, driven by IoT and smart city deployments.