Logic - Translators, Level Shifters

Part Number	Description / PDF	Quantity
74AVC1T8832GSX Nexperia	74AVC1T8832GS/SOT1203/X2SON8	0
74LVCH1T45GF,132 Nexperia	IC TRNSLTR BIDIRECTIONAL 6XSON	2667
74AUP1T34GM,132 Nexperia	IC TRNSLTR UNIDIRECTIONAL 6XSON	0
74AVC4T774BQX Nexperia	IC TRNSLTR BIDIR 16DHVQFN	1717
74AVCH16T245DGG,18 Nexperia	IC TRNSLTR BIDIRECTIONAL 48TSSOP	537
74AUP1T97GW,125 Nexperia	IC LP CONFIG GATE V-XLATR 6TSSOP	1831
74LVC4245APW-Q100J Nexperia	IC TRNSLTR BIDIRECTIONAL 24TSSOP	3266
74AVC4TD245BQ,115 Nexperia	IC TRNSLTR BIDIR 16DHVQFN	6842
74AUP1T98GS,132 Nexperia	LOGIC CIRCUIT, CMOS, PDSO6	5000
NXB0104PW-Q100J Nexperia	IC TXRX TRANSLATING 14TSSOP	3249
74AUP1T57GW,125 Nexperia	IC LP CONFIG GATE V-XLATR 6TSSOP	4581
74LVCH2T45DC-Q100H Nexperia	IC TRNSLTR BIDIRECTIONAL 8VSSOP	1116
74LVC4245AD-Q100J Nexperia	IC TRNSLTR BIDIRECTIONAL 24SO	0
74AUP1T34GM-Q100X Nexperia	LOW-POWER DUAL SUPPLY TRANSLATIN	14990
74AVC20T245DGG,118 Nexperia	IC TRNSLTR BIDIRECTIONAL 56TSSOP	1915
74AVC4TD245PW,118 Nexperia	IC TRNSLTR BIDIRECTIONAL 16TSSOP	1277
74AUP1T58GF,132-NEX Nexperia	LOGIC CIRCUIT, CMOS, PDSO6	0
74AVC16T245DGV,118 Nexperia	IC TRNSLTR BIDIRECTIONAL 48TSSOP	0
74AUP1T98GN,132 Nexperia	IC LP CONFIG GATE V-XLATR 6XSON	0
74AVCH1T45GM,132 Nexperia	IC TRNSLTR BIDIRECTIONAL 6XSON	0

Logic - Translators, Level Shifters

1. Overview

Logic translators and level shifters are semiconductor devices that enable signal compatibility between circuits operating at different voltage levels. These ICs ensure reliable data transmission by converting logic signals from one voltage domain to another, maintaining signal integrity in mixed-voltage systems. Their importance has grown with the proliferation of low-voltage CMOS technologies and multi-rail power architectures in modern electronics.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Single-direction translators	Unidirectional voltage conversion with isolation	SPI interface between 3.3V FPGA and 1.8V sensors
Bi-directional translators	Automatic direction detection, dual-voltage I/O	I2C bus bridging between 5V microcontroller and 2.5V EEPROM
Multi-channel level shifters	Parallel conversion of multiple signals (4-32 channels)	Memory interface between SoC and DDR4 SDRAM modules
Direction-controlled translators	External control pin for signal direction selection	UART level conversion in industrial communication modules

3. Structure and Composition

Typical devices feature a monolithic CMOS structure with dual power supply inputs (VCCA and VCCB). Physical components include:

Dual-supply MOSFET pairs for voltage translation
Integrated clamp circuits for ESD protection
Direction control logic (for bidirectional types)
Channel-specific enable/disable circuitry

Common package types: TSSOP (14-48 pins), QFN (20-64 pins), WLCSP (1.5 1.5mm ultra-compact).

4. Key Technical Specifications

Parameter	Significance
Voltage range (1.2V-5.5V)	Determines compatibility with different logic families
Conversion rate (100Mbps-1.2Gbps)	Limits maximum operating frequency
Channel count (1-32)	Impacts system integration density
Propagation delay (2-20ns)	Affects timing critical applications
Quiescent current (1-100 A)	Power efficiency in battery-powered systems

5. Application Areas

Key industries include:

Telecommunications: 5G baseband processors interfacing with RF front-ends
Industrial automation: PLC modules connecting 24V sensors to 3.3V MCUs
Consumer electronics: Smartphone PMIC to application processor communication
Automotive systems: CAN-FD transceiver voltage adaptation
IoT devices: Sensor hub interfacing between different voltage rail components

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
TI (Texas Instruments)	TXB0108	8-channel, 1.2-3.6V to 1.65-5.5V translation, auto-direction detection
NXP Semiconductors	LTC2850	3.3/5V dual supply, 15kV ESD protection, RS485/UART interface
ON Semiconductor	NXU408	4-channel, 0.9-5.5V range, sub-1ns propagation delay
STMicroelectronics	L6470	Stepper motor driver with integrated level shifting for industrial automation

7. Selection Guidelines

Key considerations:

Match supply voltage ranges with source/target systems
Ensure conversion rate meets timing requirements
Choose appropriate channel density to minimize PCB area
For bidirectional buses, select devices with automatic direction sensing
Consider thermal performance for high-current applications
Evaluate ESD protection levels for industrial environments

8. Industry Trends

Development directions include:

Voltage scaling down to 0.8V core operation
Integration with signal conditioning functions
Increased adoption of capacitive isolation technology
Advanced packaging (3D TSV, fan-out WLP)
Protocol-aware smart translation (I3C, PCIe 6.0)