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RF Transmitters

Image Part Number Description / PDF Quantity Rfq
ATA8401C-6AQY 66

ATA8401C-6AQY 66

Roving Networks / Microchip Technology

RF TX IC UHF 300-350MHZ 8TSSOP

0
TDA5100XUMA1

TDA5100XUMA1

IR (Infineon Technologies)

RF TX IC ASK 433-435MHZ 16TSSOP

0
MAX14726ESE+

MAX14726ESE+

Maxim Integrated

IC RF TRANSMITTER 16SOIC

0
RFM117W-868S1

RFM117W-868S1

RF Solutions

RF TRANSMITTER 240-960MHZ MODULE

0
SI4032-V2-FM

SI4032-V2-FM

Silicon Labs

RF TX IC FSK 240-930MHZ 20VFQFN

0
TH72005KLD-BAA-000-SP

TH72005KLD-BAA-000-SP

Melexis

RF TX IC ISM 290-350MHZ 10VFDFN

0
MICRF102BM

MICRF102BM

Roving Networks / Microchip Technology

RF TX IC ASK 300-470MHZ 8SOIC

0
CC2550RSTG3

CC2550RSTG3

Texas Instruments

RF TX IC 2-FSK/ASK 2.4GHZ 16VQFN

0
AS3977B-BQFT

AS3977B-BQFT

ams

RF XMITTER FSK 300-928MHZ 16VQFN

0
TH71071EDC

TH71071EDC

Melexis

RF XMITTER ASK 310-450MHZ 8SOIC

0
TH72011KDC-BAA-000-RE

TH72011KDC-BAA-000-RE

Melexis

RF TRANSMITTER FSK 433MHZ 8SOIC

0
MAX14726ESE+T

MAX14726ESE+T

Maxim Integrated

IC RF TRANSMITTER 16SOIC

0
TH72015KLD-BAA-000-SP

TH72015KLD-BAA-000-SP

Melexis

RF TX IC ISM 380-450MHZ 10VFDFN

0
TRF4400PWG4

TRF4400PWG4

Texas Instruments

RF XMITTER FM/FSK 433MHZ 24TSSOP

0
T48C862M-R3-TNS

T48C862M-R3-TNS

Roving Networks / Microchip Technology

RF XMITTER FM/FSK 315MHZ 24SOIC

0
TH72012KDC-BAA-000-RE

TH72012KDC-BAA-000-RE

Melexis

RF XMITTER ASK 380-450MHZ 8SOIC

0
SX1242ISETRT

SX1242ISETRT

Semtech

RF TRANSMITTER ISM 345MHZ 8SOIC

0
TH72015KLD-BAA-000-RE

TH72015KLD-BAA-000-RE

Melexis

RF TX IC ASK 380-450MHZ 10VFDFN

0
T5754-6AQ

T5754-6AQ

Roving Networks / Microchip Technology

RF TX IC ASK 429-439MHZ 8TSSOP

0
TDA5103AHTMA1

TDA5103AHTMA1

IR (Infineon Technologies)

RF TX IC ASK/FSK 345MHZ 10TFSOP

0

RF Transmitters

1. Overview

RF (Radio Frequency) transmitters are electronic devices that generate and transmit high-frequency electromagnetic waves for wireless communication. IF (Intermediate Frequency) components process signals at intermediate stages in transceivers. RFID (Radio Frequency Identification) RF transmitters specifically enable contactless data exchange between tags and readers. These technologies form the backbone of modern wireless systems, supporting applications from mobile communications to IoT networks.

2. Main Types and Functional Classification

TypeFunctional FeaturesApplication Examples
ISM Band TransmittersUnlicensed operation at 2.4 GHz/900 MHzWi-Fi routers, Bluetooth devices
Cellular Transmitters5G/LTE protocol support with power controlSmartphones, base stations
UHF RFID Readers860-960 MHz frequency agilityWarehouse inventory systems
HF RFID Modules13.56 MHz contactless payment supportAccess control terminals

3. Structure and Components

Typical RF transmitter architecture includes: Power Amplifier (PA) for signal boosting, Voltage-Controlled Oscillator (VCO) for frequency generation, modulator for data encoding, impedance matching networks, and antenna interfaces. Advanced systems integrate DSP cores for digital modulation (QAM, OFDM) and temperature-compensated crystal oscillators (TCXO) for stability. RFID variants add protocol-specific encoding circuits and impedance-tuned front-ends.

4. Key Technical Specifications

ParameterSignificance
Frequency Range: 300 MHz - 6 GHzDetermines application compliance (e.g., FCC Part 15.247)
Output Power: 0.1 - 30 dBmAffects transmission distance and regulatory class
Modulation Accuracy: EVM < 5%Ensures data integrity in dense environments
Current Consumption: 5-100 mABattery life consideration for IoT devices

5. Application Fields

  • Telecommunications: 5G small cells, satellite modems
  • Logistics: UHF RFID for supply chain tracking
  • Healthcare: Medical implant telemetry systems
  • Retail: NFC payment terminals (13.56 MHz HF RFID)

Case Study: Amazon's warehouse robots use 868 MHz RFID readers for real-time inventory with 5 cm accuracy.

6. Leading Manufacturers and Products

VendorRepresentative Product
TI (Texas Instruments)CC1352P7 multi-band wireless MCU
Nordic SemiconductornRF52840 Bluetooth 5.3 SoC
ImpinjR420 UHF Gen2 RFID reader
STMicroelectronicsCR95HF NFC/RFID transceiver

7. Selection Guidelines

  • Determine regulatory requirements (FCC/ETSI compliance)
  • Match frequency to use case (e.g., 900 MHz for liquid penetration)
  • Evaluate environmental factors (temperature, interference)
  • Assess protocol compatibility (LoRaWAN, BLE 5.4)
  • Optimize power vs. range trade-offs

8. Industry Trends

Key developments include: - 5G integration with sub-6 GHz RF front-ends - RFID moving to microwave frequencies (2.45 GHz active tags) - AI-enhanced spectrum sensing for dynamic frequency selection - Miniaturization via SiP (System-in-Package) technology - Energy harvesting transmitters for battery-free IoT

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