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PC28F256P30T2E
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PC28F256P30T2E Description
PC28F256P30T2E Description
The PC28F256P30T2E is a 256Mbit parallel flash memory IC from Micron Technology, designed for high-density storage and fast data access. With a memory organization of 16M x 16, this device offers ample storage capacity for various applications. It features a parallel memory interface, providing efficient data transfer rates. The PC28F256P30T2E operates within a voltage supply range of 1.7V to 2V, ensuring compatibility with a wide range of systems. This device is RoHS3 compliant and REACH unaffected, making it an environmentally friendly choice for electronic designs.
PC28F256P30T2E Features
- 256Mbit memory size for high-density storage
- 16M x 16 memory organization for efficient data management
- Parallel memory interface for fast data transfer
- 100ns access time for rapid data retrieval
- 100ns write cycle time for quick data updates
- 1.7V to 2V voltage supply range for system compatibility
- RoHS3 compliant and REACH unaffected for environmental sustainability
- Surface mount packaging for space-efficient integration
- StrataFlash™ series for reliable performance
PC28F256P30T2E Applications
The PC28F256P30T2E is ideal for applications requiring high-density storage and fast data access, such as:
- Embedded systems: Providing non-volatile storage for firmware and user data in embedded devices.
- Industrial control systems: Storing control algorithms and operational data in industrial automation equipment.
- Consumer electronics: Serving as a storage medium for digital media, settings, and user data in consumer devices.
- Telecommunications: Storing configuration data and call records in communication systems.
Conclusion of PC28F256P30T2E
The PC28F256P30T2E is a high-density, high-performance parallel flash memory IC from Micron Technology. Its unique combination of large memory capacity, fast access and write times, and wide voltage supply range make it an excellent choice for a variety of applications. While it is now considered obsolete, its performance benefits and features still make it a viable option for legacy systems and applications requiring its specific capabilities.



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