SN74ABT543ADWR

Product Overview

Category: Integrated Circuit (IC)
Use: Bus Transceiver
Characteristics: High-speed, bidirectional data transfer, voltage level translation
Package: SOIC (Small Outline Integrated Circuit)
Essence: Transfers data between two buses with different voltage levels
Packaging/Quantity: Tape and Reel, 2500 units per reel

Specifications

Supply Voltage Range: 4.5V to 5.5V
Input Voltage Range: 0V to VCC
Output Voltage Range: 0V to VCC
Operating Temperature Range: -40°C to +85°C
Data Transfer Rate: Up to 400 Mbps

Detailed Pin Configuration

The SN74ABT543ADWR has a total of 24 pins. The pin configuration is as follows:

OE (Output Enable) A
A1 (Side A Data Bus Bit 1)
A2 (Side A Data Bus Bit 2)
A3 (Side A Data Bus Bit 3)
A4 (Side A Data Bus Bit 4)
A5 (Side A Data Bus Bit 5)
A6 (Side A Data Bus Bit 6)
GND (Ground)
B6 (Side B Data Bus Bit 6)
B5 (Side B Data Bus Bit 5)
B4 (Side B Data Bus Bit 4)
B3 (Side B Data Bus Bit 3)
B2 (Side B Data Bus Bit 2)
B1 (Side B Data Bus Bit 1)
OE (Output Enable) B
VCC (Supply Voltage)
DIR (Direction Control)
B7 (Side B Data Bus Bit 7)
B8 (Side B Data Bus Bit 8)
A8 (Side A Data Bus Bit 8)
A7 (Side A Data Bus Bit 7)
GND (Ground)
NC (No Connection)
NC (No Connection)

Functional Features

Bidirectional data transfer between two buses with different voltage levels
Automatic direction control based on DIR pin input
Output enable pins for each bus to disable the outputs when not in use
High-speed operation up to 400 Mbps
Voltage level translation for compatibility between different logic families

Advantages and Disadvantages

Advantages: - Enables seamless communication between buses operating at different voltage levels - High-speed data transfer capability - Easy integration into existing systems due to standard package and pin configuration

Disadvantages: - Requires careful consideration of voltage level compatibility to avoid data corruption or damage to connected devices - Limited to specific applications where voltage level translation is necessary

Working Principles

The SN74ABT543ADWR is a bidirectional bus transceiver that allows data transfer between two buses operating at different voltage levels. The direction of data flow is controlled by the DIR pin. When DIR is set to logic high, data flows from Side A to Side B, and when DIR is set to logic low, data flows from Side B to Side A.

The output enable pins (OE) for each side can be used to disable the outputs when not in use, reducing power consumption and preventing bus contention. The device operates at high speeds, making it suitable for applications requiring fast data transfer.

Voltage level translation is achieved through the use of internal circuitry that ensures proper signal conversion between the two voltage domains. This enables seamless communication between buses operating at different voltage levels without the need for additional level shifting components.

Detailed Application Field Plans

The SN74ABT543ADWR is commonly used in various applications where data transfer between buses with different voltage levels is required. Some of the typical application fields include:

Microcontroller interfacing: The transceiver facilitates communication between microcontrollers operating at different voltage levels, allowing seamless integration into mixed-voltage systems.
Communication systems: It can be used in networking equipment, such as routers and switches, to enable data exchange between different voltage domains within the system.
Industrial automation: The transceiver finds applications in industrial control systems, where it enables communication between devices operating at different voltage levels, such as sensors and actuators.
Automotive electronics: It can be utilized in automotive systems to interface between different voltage domains, enabling communication between various electronic components.

Detailed and Complete Alternative Models

SN74ABT541A: Similar to SN74ABT543ADWR but without direction control (DIR) pin.
SN74LVC543A: Low-voltage version of the bus transceiver, compatible with 1.8V to 3.3V systems.
SN74HCT543: CMOS

Seznam 10 běžných otázek a odpovědí souvisejících s aplikací SN74ABT543ADWR v technických řešeních

Sure! Here are 10 common questions and answers related to the application of SN74ABT543ADWR in technical solutions:

Q: What is SN74ABT543ADWR? A: SN74ABT543ADWR is a type of integrated circuit (IC) commonly used as an octal bus transceiver with 3-state outputs.
Q: What is the purpose of SN74ABT543ADWR? A: The purpose of this IC is to enable bidirectional data transfer between two buses, while providing isolation when necessary.
Q: What voltage levels does SN74ABT543ADWR support? A: SN74ABT543ADWR supports voltage levels ranging from 4.5V to 5.5V.
Q: How many channels does SN74ABT543ADWR have? A: SN74ABT543ADWR has 8 channels, allowing for simultaneous bidirectional data transfer on each channel.
Q: Can SN74ABT543ADWR handle high-speed data transfer? A: Yes, SN74ABT543ADWR is designed to support high-speed data transfer up to 100MHz.
Q: Does SN74ABT543ADWR have any built-in protection features? A: Yes, it has built-in ESD (Electrostatic Discharge) protection to prevent damage from static electricity.
Q: How can I control the direction of data flow using SN74ABT543ADWR? A: The direction of data flow can be controlled by setting the direction control pin (DIR) to either logic high or logic low.
Q: Can SN74ABT543ADWR handle multiple voltage levels? A: No, SN74ABT543ADWR is designed to work with a single voltage level, typically 5V.
Q: What is the maximum current that SN74ABT543ADWR can source or sink? A: SN74ABT543ADWR can source or sink up to 32mA of current per channel.
Q: Are there any specific layout considerations for using SN74ABT543ADWR? A: Yes, it is recommended to follow the layout guidelines provided in the datasheet to minimize noise and ensure proper operation.

Please note that these answers are general and may vary depending on the specific application and requirements. It's always best to refer to the datasheet and consult the manufacturer for detailed information.