Overview of M24C32-WMN6TP by STMicroelectronics
The M24C32-WMN6TP is a 32 Kbit serial I2C bus EEPROM that operates with a maximum clock frequency of 1 MHz. This component is encapsulated in an 8-pin Small Outline Integrated Circuit (SOIC) package, with a body size of 4.9 mm in length and 3.9 mm in width. Designed for applications demanding a robust and reliable non-volatile memory, it supports a wide operating voltage range from 2.5 V to 5.5 V, and offers a nominal voltage of 3 V.
Among its technical specifications, it features a moisture sensitivity level of 1, indicating its resilience against moisture during soldering, alongside a peak reflow temperature reaching up to 260 degrees Celsius. Operating temperature ranges are broad, spanning from -40 °C to +85 °C, suitable for various industrial environments. The M24C32-WMN6TP allows for up to 5 ms write cycle time, demonstrating moderate data management efficiency.
It’s important to note that while this part is RoHS compliant, meeting high environmental standards, it is marked by the manufacturer as “Not Recommended for new designs,” suggesting that potential users should consider future part availability and potential alternates for long-term designs.
Industry Applications for M24C32-WMN6TP
The versatile features of M24C32-WMN6TP make it applicable in several industries, particularly where non-volatile storage that can operate across various temperatures is needed. However, these applications should be considered potential use cases and require confirmation by engineering teams:
- Consumer Electronics: M24C32-WMN6TP might be used in devices like smart wearables and home automation systems where data retention without power is crucial. The compact SOP-8 package and I2C interface could simplify integration into space-constrained designs.
- Internet of Things (IoT): The EEPROM could potentially be employed in IoT devices for configuration settings or storing device states crucial for recovery after power loss. Its industrial temperature tolerance makes it suitable for outdoor smart devices, operating under variable weather conditions.
- Computing and Data Storage: Although the part is not suited for new high-performance computing designs, it could still be used in legacy systems requiring EEPROMs with 1 MHz clock frequency and serial I2C buses for minor data logging tasks or configuration data storage.
Note: The utility of M24C32-WMN6TP across these suggested industrial applications is purely illustrative and would need rigorous validation according to the specific requirements of each use case and relevant industry standards.
About STMicroelectronics
STMicroelectronics is a global semiconductor company with a strong focus on multifaceted silicon solutions which include memories, microcontrollers, analog ICs, and a wide range of other semiconductor products. In the domain of EEPROMs, STMicroelectronics has established a competitive portfolio that encompasses a variety of memory capacities and form factors, catering to diverse market needs. The M24C32-WMN6TP is among the EEPROM solutions offered by this manufacturer, demonstrating STMicroelectronics’ commitment to supporting legacy devices even as they focus on evolving new, more capable technologies. Their products are known for reliability, supported by robust design and stringent quality control measures.
Where to Find M24C32-WMN6TP by STMicroelectronics
To procure M24C32-WMN6TP, it is advisable to use comprehensive databases like findchips.com to check current availability, compare prices, and view distributor options. Historically, this part has been stocked by distributors such as DigiKey, Mouser Electronics, LCSC, and Newark. However, inventory levels for electronic components can fluctuate significantly, and prospective buyers should research the most current stock information and price comparisons.
Additionally, for alternatives to M24C32-WMN6TP or to look for related EEPROMs provided by STMicroelectronics or other manufacturers, visiting the EEPROM section on findchips.com can provide additional choices that might better meet specific technical requirements.