Logic - Universal Bus Functions

Part Number	Description / PDF	Quantity
SN74ABT162501DL Texas Instruments	REGISTERED BUS TRANSCEIVER	15837
SN74ALVCH162835GR Texas Instruments	BUS DRIVER	12000
74ABT16501CSSC	BUS TRANSCEIVER, ABT SERIES	1705
SN74ALVCH16524DL Texas Instruments	SN74ALVCH16524 18-BIT REGISTERED	12649
74LVTH16501MTD	REGISTERED BUS TRANSCEIVER	4569
SN74ALVCH16525DLR Texas Instruments	REGISTERED BUS TRANSCEIVER	10000
74HC299DB,112 Nexperia	IC UNIV SHIFT REGISTER 20SSOP	0
74HC299PW,118 NXP Semiconductors	PARALLEL IN PARALLEL OUT	59751
SN74VMEH22501ADGVR Texas Instruments	IC UNIVERSAL BUS TXRX 48TVSOP	1020
SN74LVCH16901DGGR Texas Instruments	REGISTERED BUS TRANSCEIVER	15000
SN74GTL1655DGGR Texas Instruments	SN74GTL1655 16-BIT LVTTL TO GTL/	5555
SN74ALVC162835DL Texas Instruments	BUS DRIVER	6146
SN74AVC16334DGVR Texas Instruments	SN74AVC16334 16-BIT UNIVERSAL BU	0
GTLP18T612MTDX	REGISTERED BUS TRANSCEIVER	30861
74ABT16501CMTD	BUS TRANSCEIVER, ABT SERIES	782
SN74ALVCH162836GR Texas Instruments	SN74ALVCH162836 20-BIT UNIVERSAL	6000
SN74AVC16835DGGR Texas Instruments	BUS DRIVER	96000
SN74LVTH16835DLR Texas Instruments	BUS DRIVER, LVT SERIES	1000
74VCX16601MTD	REGISTERED BUS TRANSCEIVER	18034
74FCT162501CTPVCT Texas Instruments	CY74FCT162501T 18-BIT UNIVERSAL	35000

Logic - Universal Bus Functions

1. Overview

Universal Bus Function ICs are logic devices designed to manage data transfer between different components in electronic systems. They provide critical interface capabilities for voltage level translation, signal buffering, bus arbitration, and protocol conversion. These ICs are essential in modern electronics for enabling compatibility between devices with different electrical and logical characteristics.

2. Major Types and Functional Classification

Type	Functional Characteristics	Application Examples
Bus Transceivers	Dual-directional data transfer with 3-state I/O ports	Memory interfaces, PCI Express buses
Bus Buffers	Signal amplification and isolation	Industrial control backplanes
Level Translators	Voltage conversion between 1.2V-5V domains	Multivoltage SoC interfaces
Bus Controllers	Protocol management and arbitration logic	USB host controllers, CAN bus systems

3. Structure and Composition

Typical physical structure includes:

Plastic/ceramic package (TSSOP, QFN, BGA variants)
Multiple channel configurations (4/8/16-bit)
Internal components: logic gates, buffer amplifiers, clamping diodes
ESD protection structures on I/O pins
Power rails with decoupling capacitors

4. Key Technical Specifications

Parameter	Significance
Voltage Range (1.2V-5.5V)	Defines compatibility with host systems
Data Rate (up to 500Mbps)	Determines maximum bus throughput
Drive Strength ( 24mA)	Affects signal integrity over long traces
Propagation Delay (<2ns)	Critical for timing-sensitive applications
ESD Rating ( 8kV HBM)	Reliability indicator in industrial environments

5. Application Areas

Major industries include:

Telecommunications (5G base stations, optical modules)
Automotive (CAN-FD interfaces, ADAS systems)
Industrial Automation (PLC backplanes, motor controllers)
Consumer Electronics (smartphones, SSD interfaces)

6. Leading Manufacturers and Products

Manufacturer	Product Series	Key Features
TI	SN74LVC16T245	1.2V-3.6V operation, 64-pin TSSOP
NXP	74ALVC164245	2.3V-3.6V, 24mA drive current
STMicro	LVC1G125	Single-channel buffer in SOT23-5
Intel	I3TBUF0242	1.7V-5.5V, hot-swap capability

7. Selection Recommendations

Key considerations:

Voltage compatibility with existing bus standards
Required data bandwidth and timing margins
Package size constraints (BGA vs TSSOP)
Temperature rating for industrial/military use
Cost vs. integrated features trade-off

8. Industry Trends

Current development directions include:

Migration to 10+ Gbps data rates for 5G applications
Integration with protocol-specific accelerators
Adoption of advanced packaging (3D stacking)
Enhanced EMI reduction techniques
Support for emerging standards like CXL and UCIe