TCAN1051HGVDRBRQ1

Product Overview

• Category: Integrated Circuit
• Use: Communication and Networking
• Characteristics: High-Speed CAN Transceiver
• Package: VSON (Very Small Outline No-Lead) Package
• Essence: Reliable and Efficient Communication Solution
• Packaging/Quantity: Tape and Reel, 2500 units per reel

Specifications

• Supply Voltage: 3.3V
• Data Rate: Up to 5 Mbps
• Operating Temperature Range: -40°C to +125°C
• Number of Pins: 8
• Interface: SPI (Serial Peripheral Interface)
• Protection Features: Thermal Shutdown, Short-Circuit Protection, Undervoltage Lockout

Detailed Pin Configuration

1. VIO - Digital Supply Voltage Input
2. GND - Ground
3. TXD - Transmit Data
4. RXD - Receive Data
5. SCLK - Serial Clock
6. CS - Chip Select
7. STB - Standby Mode
8. VCC - Power Supply Voltage

Functional Features

• Supports CAN FD (Flexible Data Rate) protocol
• Compliant with ISO 11898-2 and ISO 11898-5 standards
• Low electromagnetic emissions and susceptibility
• Excellent ESD (Electrostatic Discharge) protection
• High fault tolerance and robustness
• Sleep mode for power-saving applications
• Automatic thermal shutdown for overtemperature conditions

Advantages

• High-speed data transmission up to 5 Mbps
• Wide operating temperature range for harsh environments
• Compact VSON package saves board space
• Easy integration with existing CAN networks
• Reliable communication with low error rates
• Enhanced protection against electrical disturbances
• Low power consumption in standby mode

Disadvantages

• Limited number of pins for additional functionalities
• Requires external components for complete CAN network implementation
• Relatively higher cost compared to standard transceivers

Working Principles

The TCAN1051HGVDRBRQ1 is a high-speed CAN transceiver designed to facilitate reliable communication between microcontrollers and CAN bus networks. It operates based on the principles of differential signaling, where data is transmitted as voltage differences between two wires (CANH and CANL). The transceiver converts digital signals from the microcontroller into differential signals suitable for transmission over the CAN bus. It also receives differential signals from the bus and converts them back into digital signals for the microcontroller to process.

Detailed Application Field Plans

• Automotive industry: Used in vehicle control systems, such as engine management, powertrain, and body electronics.
• Industrial automation: Enables communication between various devices in industrial control systems, including PLCs, sensors, and actuators.
• Medical equipment: Facilitates data exchange in medical devices, such as patient monitors, infusion pumps, and diagnostic equipment.
• Home automation: Integrates different smart home devices, allowing centralized control and monitoring of lighting, HVAC, security systems, etc.
• Aerospace and defense: Supports communication protocols in avionics systems, military vehicles, and satellite applications.

Detailed and Complete Alternative Models

1. SN65HVD230D - High-Speed CAN Transceiver by Texas Instruments
2. MCP2551 - CAN Transceiver with Integrated Protection Features by Microchip Technology
3. TJA1050 - Standalone CAN Transceiver by NXP Semiconductors
4. MAX3051 - Fault-Protected CAN Transceiver by Maxim Integrated
5. PCA82C251 - High-Speed CAN Transceiver with Sleep Mode by Infineon Technologies

(Note: This list is not exhaustive and there are several other alternative models available in the market.)

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