Features: * 262,144x 8 only* Fast access time: 55/70/90/120ns* Low power consumption -30mA maximum active current -1uA typical standby current@5MHz* Programming and erasing voltage 5V±10%* Command register architecture -Byte Programming (7us typical) -Sector Erase (16K-Byte x1, 8K-Byte x 2, 32K-By...
MX29F022: Features: * 262,144x 8 only* Fast access time: 55/70/90/120ns* Low power consumption -30mA maximum active current -1uA typical standby current@5MHz* Programming and erasing voltage 5V±10%* Command r...
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Features: SpecificationsDescription The MX29F001T/B is a 1-mega bit Flash memory organized as 128K...
The MX29F022T/B is a 2-mega bit Flash memory organized as 256K bytes of 8 bits only. MXIC's Flash memories offer the most cost-effective and reliable read/write non-volatile random access memory.The MX29F022T/B is packaged in 32-pin PDIP, PLCC and 32-pin TSOP(I). It is designed to be reprogrammed and erased in-system or in-standard EPROM programmers.
The standard MX29F022T/B offers access time as fast as 55ns, allowing operation of high-speed microproc essors without wait states. To eliminate bus contention, the MX29F022T/B has separate chip enable (CE) and output enable (OE) controls.
MXIC's Flash memories augment EPROM functionality with in-circuit electrical erasure and programming. The MX29F022T/B uses a command register to manage this functionality. The command register allows for 100% TTL level control inputs and fixed power supply levels during erase and programming, while maintaining maximum EPROM compatibility.
MXIC's Flash technology reliably stores memory contents even after 100,000 erase and program cycles. The MXIC cell is designed to optimize the erase and programming mechanisms. In addition, the combination of advanced tunnel oxide processing and low internal electric fields for erase and programming operations produces reliable cycling. The MX29F022T/B uses a 5.0V ± 10% VCC supply to perform the High Reliability Erase and auto Program/Erase algorithms.
The highest degree of latch-up protection is achieved with MXIC's proprietary non-epi process. Latch-up protection is proved for stresses up to 100 milliamps on address and data pin from -1V to VCC + 1V.