Manufacturer Part Number
SN75HVD07DR
Manufacturer
Texas Instruments
Introduction
The SN75HVD07DR is a half-duplex transceiver designed for RS422 and RS485 communication.
Product Features and Performance
Supports RS422 and RS485 protocols
Half-duplex communication interface
1 Driver and 1 Receiver
35 mV receiver hysteresis for improved noise immunity
Data Rate of 1Mbps for medium-speed data transmission
Operates from a single 5V supply (4.5V to 5.5V range)
Surface Mount 8-SOIC package
Designed for use in industrial temperature range from 0°C to 70°C
Product Advantages
Reliable data integrity with built-in hysteresis
Low power consumption for energy-efficient designs
Wide operating temperature range suitable for industrial environments
Compatibility with multiple protocols increases versatility
High integration to minimize additional component needs
Key Technical Parameters
Duplex: Half
Data Rate: 1Mbps
Voltage - Supply: 4.5V ~ 5.5V
Operating Temperature Range: 0°C ~ 70°C
Mounting Type: Surface Mount
Package / Case: 8-SOIC
Receiver Hysteresis: 35mV
Quality and Safety Features
Standardized 8-SOIC package ensures reliable soldering and mounting
Built according to Texas Instruments' quality control standards
Compatibility
Compatible with RS422 and RS485 protocols
Suitable for various microcontrollers and digital interfaces adhering to the mentioned standards
Application Areas
Industrial Networks
Building Automation
Factory Automation
Data Acquisition Systems
Point of Sale Equipment
Product Lifecycle
Active product status, indicating ongoing production and availability
Not nearing discontinuation; replacements or upgrades not required at present
Several Key Reasons to Choose This Product
Texas Instruments' reputation for quality and reliability
Suitable for both RS422 and RS485 communications, offering flexibility
Optimal for low to medium speed data transfer at 1Mbps
Energy efficient with single supply operation
Easily mountable surface mount package accommodating modern PCB design
Supports industrial grade operating temperatures, making it reliable in harsh conditions
Built-in hysteresis enhances noise immunity, improving signal integrity