Microchip Technology's ATA5577M133SC-DDB RFID Transponder

The ATA5577M133SC-DDB is a high-quality Radio-Frequency Identification (RFID) transponder from Microchip Technology, a leading provider of smart, connected, and secure embedded control solutions. This transponder is part of Microchip's extensive product lineup designed for access control, industrial automation, and animal identification, offering a versatile solution for various applications.

The ATA5577M133SC-DDB operates at a frequency of 125 kHz, which is a standard frequency for low-power and short-range communication, making it ideal for applications where power consumption and data security are critical. It is based on the ATA5577 IC, which is known for its flexibility and reliability in RFID systems.

Key Features:

• Programmable: The device is highly configurable, allowing users to program the chip according to their specific application needs. It supports various data rates and modulation schemes.
• Memory: It comes with 363 bits of EEPROM memory, which can be segmented for multiple data storage areas. This memory is organized in blocks and can be protected with a 32-bit password to prevent unauthorized access.
• Compatibility: The transponder is compatible with the T5557, T5567, and ATA5567, ensuring a smooth transition for systems upgrades or replacements.
• Durability: Encased in a robust package, the ATA5577M133SC-DDB is designed to withstand harsh environments, making it suitable for outdoor applications.

Potential Applications:

• Access control systems (key fobs, entry cards)
• Animal identification (pet tags, livestock tracking)
• Industrial automation (asset tracking, process control)
• Time and attendance systems

Microchip Technology's ATA5577M133SC-DDB RFID transponder is a testament to the company's commitment to providing advanced and secure identification solutions. Its programmability, compatibility, and robustness make it a top choice for system integrators and product developers looking to incorporate reliable RFID technology into their applications.