SN65HVD10DG4

Product Overview

• Category: Integrated Circuit (IC)
• Use: Transceiver for Controller Area Network (CAN) bus communication
• Characteristics: High-speed, low-power, and robust communication
• Package: SOIC-8 (Small Outline Integrated Circuit), 150 mil wide
• Essence: Facilitates reliable data transmission in industrial automation and automotive applications
• Packaging/Quantity: Available in reels of 2500 units

Specifications

• Supply Voltage: 3.3V to 5V
• Data Rate: Up to 1 Mbps
• Operating Temperature Range: -40°C to +125°C
• Transmitting Output Voltage: 0V to Vcc
• Receiver Input Voltage: -36V to +36V
• Quiescent Current: 5µA (typical)

Pin Configuration

The SN65HVD10DG4 has the following pin configuration:

```

---

| | --| Vcc GND |-- Pin 1: Ground (GND) --| CANH NC |-- Pin 2: Not Connected (NC) --| CANL RS |-- Pin 3: Receiver Input Voltage (RS) --| RO DI |-- Pin 4: Receiver Output (RO) --| DI DE |-- Pin 5: Driver Input (DI) --| DE RE |-- Pin 6: Driver Enable (DE) --| RE Vcc |-- Pin 7: Supply Voltage (Vcc) --| NC CANH |-- Pin 8: Not Connected (NC) |___________| ```

Functional Features

• Supports both CAN 2.0A and CAN 2.0B protocols
• Implements differential signaling for noise immunity
• Provides bus fault protection and thermal shutdown features
• Supports remote wake-up functionality
• Offers low quiescent current for power efficiency

Advantages and Disadvantages

Advantages: - High-speed data transmission - Robust communication in harsh environments - Wide operating temperature range - Low power consumption - Easy integration into existing systems

Disadvantages: - Limited to CAN bus applications - Requires external components for complete system implementation - Relatively higher cost compared to non-CAN transceivers

Working Principles

The SN65HVD10DG4 is a transceiver designed specifically for Controller Area Network (CAN) bus communication. It enables reliable data transmission between nodes in industrial automation and automotive applications. The transceiver utilizes differential signaling to provide robust communication, allowing it to withstand noise and interference commonly found in these environments.

The device operates by converting the digital signals from the controller into differential voltage levels on the CAN bus lines (CANH and CANL). It also receives differential signals from the bus and converts them back into digital signals for the controller. This bidirectional communication ensures accurate and efficient data transfer.

Detailed Application Field Plans

The SN65HVD10DG4 finds extensive use in various application fields, including:

1. Automotive Systems:

   • Engine control units
   • Transmission control modules
   • Body control modules
   • Instrument clusters

2. Industrial Automation:

   • Programmable logic controllers (PLCs)
   • Motor drives
   • Human-machine interfaces (HMIs)
   • Industrial sensors and actuators

3. Communication Systems:

   • Data loggers
   • Telematics devices
   • Network gateways
   • Remote monitoring systems

Detailed and Complete Alternative Models

1. MCP2551: A popular alternative with similar specifications and features.
2. TJA1050: Another widely used transceiver for CAN bus communication.
3. SN65HVD230: Suitable for applications requiring extended temperature range.

These alternative models offer compatibility with the CAN protocol and can be considered as substitutes for the SN65HVD10DG4 based on specific requirements.

In conclusion, the SN65HVD10DG4 is a high-performance transceiver designed for reliable data transmission in Controller Area Network (CAN) bus applications. With its robust communication capabilities, wide operating temperature range, and low power consumption, it serves as a vital component in various industrial automation and automotive systems.