Microchip Technology's ATA6662-EK Evaluation Kit

The ATA6662-EK from Microchip Technology is a comprehensive evaluation kit designed for engineers and developers to explore the capabilities of the ATA6662 high-speed CAN transceiver. This evaluation kit serves as an excellent tool for testing, developing, and prototyping applications that require robust communication via the Controller Area Network (CAN) protocol.

The ATA6662 is a device that is compliant with the ISO 11898-2 standard, ensuring compatibility with industrial and automotive CAN networks. It is designed to operate in harsh environments, with features that enable reliable communication even in the presence of high electromagnetic interference (EMI).

The evaluation kit includes an evaluation board pre-mounted with the ATA6662 transceiver, which provides a convenient platform for interfacing with a microcontroller or other CAN network devices. It also features various test points and jumpers, allowing users to easily configure the transceiver settings and monitor its performance.

Key features of the ATA6662-EK include:

• Support for high-speed CAN communication up to 1 Mbps.
• Low electromagnetic emission (EME) and high electromagnetic immunity (EMI).
• Protection features such as thermal shutdown, overcurrent protection, and short-circuit detection.
• Power-on reset and voltage brown-out protection.
• An onboard 5V voltage regulator, making it suitable for a wide range of supply voltages.
• Diagnostic and status reporting capabilities.

The ATA6662-EK is ideal for automotive applications, industrial automation, and any other systems that require a reliable CAN interface. With its user-friendly design, the evaluation kit provides a seamless experience for users to validate their designs and accelerate the development process.

Overall, the ATA6662-EK evaluation kit from Microchip Technology is an essential tool for any professional working with CAN networks, offering a mix of performance, reliability, and ease of use that is crucial for the successful deployment of CAN-based systems.