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AM93LC56IN Folha de dados(PDF) 5 Page - Anachip Corp |
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AM93LC56IN Folha de dados(HTML) 5 Page - Anachip Corp |
5 / 10 page 2048-bits Serial Electrically Erasable PROM AM93LC56 Anachip Corp. www.anachip.com.tw Rev. A1 Oct 20, 2003 5/10 ATC Functional Description (Continued) Write (WRITE) The WRITE instruction includes 8-bit or 16-bit of data to be written into the specified register. After the last data bit has been applied to DI, and before the next rising edge of SK, CS must be brought LOW. The falling edge of CS initiates the self-timed programming cycle. After a minimum wait of 250ns (5V operation) from the falling edge of CS (tcs), DO will indicate the READY/BUSY status of the chip if CS is brought HIGH. This means that logical "0" implies the programming is still in progress while logical "1" indicates the selected register has been written, and the part is ready for another instruction. (See Figure 6) Note: The combination of CS HIGH, DI HIGH and the rising edge of the SK clock, resets the READY/BUSY flag. Therefore, it is important if you want to access the READY/BUSY flag, not to reset it through this combination of control signals. Before a WRITE instruction can be executed, the device must be in the WRITE ENABLE (WEN) state. Write All (WRALL) The Write All (WRALL) instruction programs all registers with the data pattern specified in the instruction. While the WRALL instruction is being loaded, the address field becomes a sequence of DON'T-CARE bits. (Shown in Figure 7.) As with the WRITE instruction, if CS is brought HIGH after a minimum wait of 250ns (tcs), the DO pin indicates the READY/BUSY status of the chip. (Shown in Figure 7.) Erase (ERASE) After the erase instruction is entered, CS must be brought LOW. The falling edge of CS initiates the self-timed internal programming cycle. Bringing CS HIGH after minimum of tcs, will cause DO to indicate the READ/BUSY status of the chip. To explain this, a logical "0" indicates the programming is still in progress while a logical "1" indicates the erase cycle is complete and the part is ready for another instruction. (Shown in Figure 8.) Erase All (ERALL) Full chip erase is provided for ease of programming. Erasing the entire chip involves setting all bits in the entire memory array to a logical "1". (Shown in Figure 9.) Security Consideration To protect the entire part against accidental modification of data, each programming instruction (WRITE, WRALL, ERASE, and ERALL) must satisfy two conditions before user initiate self-timed programming cycle (the falling edge of CS). One is that the AM93LC56 is at WEN status. The other is that the Vcc value must exceed a lock-out value which can be adjusted by ANALOG TECHNOLOGY INC. |
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Descrição semelhante - AM93LC56IN |
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