RF Transmitters

Part Number	Description / PDF	Quantity
MAX2370ETM+T Maxim Integrated	RF TX IC CDMA2000 450MHZ 48WFQFN	0
MAX2900ETI+T Maxim Integrated	RF TX IC ASK 902-928MHZ 28WFQFN	0
MAX1479ATE+T Maxim Integrated	RF TX IC ASK 300-450MHZ 16WFQFN	7500
MAX41460GUB+ Maxim Integrated	RF TX IC ASK 300-960MHZ 10TFSOP	1053
MAX7060ATG/V+ Maxim Integrated	RF TX IC ASK 280-450MHZ 24WFQFN	0
MAX41463GUB+ Maxim Integrated	RF TX IC FSK 300-960MHZ 10TFSOP	1850
MAX7058ATG+ Maxim Integrated	RF TX IC ASK 315-390MHZ 24WFQFN	130
MAX41461GUB+ Maxim Integrated	RF TX IC ASK 300-960MHZ 10TFSOP	93
MAX2900ETI+ Maxim Integrated	RF TX IC ASK 902-928MHZ 28WFQFN	96
MAX1479ATE+ Maxim Integrated	RF TX IC ASK 300-450MHZ 16WFQFN	127
MAX7057ASE+ Maxim Integrated	RF TX IC ASK 300-450MHZ 16SOIC	175
MAX2902ETI+T Maxim Integrated	RF TX IC ASK 902-928MHZ 28WFQFN	2500
MAX2903ETI+ Maxim Integrated	RF TX IC ASK/BPSK 868MHZ 28WFQFN	392460
MAX41462GUB+ Maxim Integrated	RF TX IC ASK 300-960MHZ 10TFSOP	0
MAX1472AKA+T Maxim Integrated	RF TX IC ASK 300-450MHZ SOT23-8	4205
MAX2902ETI+ Maxim Integrated	RF TX IC ASK 902-928MHZ 28WFQFN	3854
MAX41464GUB+T Maxim Integrated	RF TX IC FSK 300-960MHZ 10TFSOP	215000
MAX7060ATG/V+T Maxim Integrated	RF TX IC ASK 280-450MHZ 24WFQFN	0
MAX7060ATG+ Maxim Integrated	RF TX IC ASK 280-450MHZ 24WFQFN	1206675
MAX7044AKA+T Maxim Integrated	RF TX IC ASK 300-450MHZ SOT23-8	2762

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

Type	Functional Features	Application Examples
ISM Band Transmitters	Unlicensed operation at 2.4 GHz/900 MHz	Wi-Fi routers, Bluetooth devices
Cellular Transmitters	5G/LTE protocol support with power control	Smartphones, base stations
UHF RFID Readers	860-960 MHz frequency agility	Warehouse inventory systems
HF RFID Modules	13.56 MHz contactless payment support	Access 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

Parameter	Significance
Frequency Range: 300 MHz - 6 GHz	Determines application compliance (e.g., FCC Part 15.247)
Output Power: 0.1 - 30 dBm	Affects transmission distance and regulatory class
Modulation Accuracy: EVM < 5%	Ensures data integrity in dense environments
Current Consumption: 5-100 mA	Battery 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

Vendor	Representative Product
TI (Texas Instruments)	CC1352P7 multi-band wireless MCU
Nordic Semiconductor	nRF52840 Bluetooth 5.3 SoC
Impinj	R420 UHF Gen2 RFID reader
STMicroelectronics	CR95HF 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