SN65HVD230D TI CAN Interface IC
Parameter
| Manufacturer |
Texas Instruments |
| Product Category |
CAN Interface IC |
| Mounting Style |
SMD/SMT |
| Package / Case |
SOIC-18 |
| Number of Drivers |
1 Driver |
Series
|
SN65HVD230 |
Supply Voltage Voltage - Min
|
3 V
|
Supply Voltage Voltage - Max
|
3.6 V |
Minimum Operating Temperature
|
- 40 C
|
Maximum Operating Temperature
|
+ 85 C
|
Packaging
|
Tube
|
Factory Pack Quantity
|
75 |
Introduction
The SN65HVD230D is a low-power, half-duplex transceiver IC designed for use in industrial and automotive applications. This chip features a wide operating voltage range of 3.3V to 5V and can operate at data rates up to 1Mbps. It includes a built-in protection circuitry that guards against electrostatic discharge (ESD) and other voltage transients. The SN65HVD230D is compatible with the Controller Area Network (CAN) protocol and supports both standard and extended data frames. Other features include thermal shutdown protection, low quiescent current, and high electromagnetic immunity. The SN65HVD230D is available in a small, space-saving 8-pin SOIC package, making it suitable for use in compact and ruggedized applications.
Application
The SN65HVD230D is a popular transceiver IC that is widely used in industrial and automotive applications. Its compatibility with the Controller Area Network (CAN) protocol makes it ideal for use in automotive systems such as engine management, powertrain control, and body electronics. It is also used in industrial control systems such as process automation, robotics, and machine vision. The SN65HVD230D's rugged design, wide operating voltage range, and protection circuitry make it suitable for harsh environments where electromagnetic interference (EMI) and electrostatic discharge (ESD) are common. The low quiescent current and thermal shutdown protection make it an energy-efficient solution for battery-powered systems. Its small package size and ease of use make it a popular choice for space-constrained designs where reliability and performance are critical.
