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ST93CS67B1013TR データシート(PDF) 7 Page - STMicroelectronics |
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ST93CS67B1013TR データシート(HTML) 7 Page - STMicroelectronics |
7 / 16 page Output data changes are triggered by the Low to High transition of the Clock (C). The ST93CS66/67 will automatically increment the address and will clock out the next word as long as the Chip Select input (S) is held High. In this case the dummy ’0’ bit is NOT output between words and a continuous stream of data can be read. Write Enable and Write Disable The Write Enable instruction (WEN) authorizes the following Write instructions to be executed, the Write Disable instruction (WDS) disables the exe- cution of the following Erase/Write instructions. When power is first applied, the ST93CS66/67 enters the Disable mode. When the Write Enable instruction (WEN) is executed, Write instructions remain enabled until a Write Disable instruction (WDS) is executed or if the Power-on reset circuit becomes active due to a reduced VCC. To protect the memory contents from accidental corruption, it is advisable to issue the WDS instruction after every write cycle. The READ instruction is not affected by the WEN or WDS instructions. Write The Write instruction (WRITE) is followed by the address and the word to be written. The Write Enable signal (W) must be held high during the WRITE instruction. Data input D is sampled on the Low to High transition of the clock. After the last data bit has been sampled, Chip Select (S) must be brought Low before the next rising edge of the clock (C), in order to start the self-timed program- ming cycle, providing that the address is NOT in the protected area. If the ST93CS66/67 is still per- forming the programming cycle, the Busy signal (Q = 0) will be returned if the Chip Select input (S) is driven high, and the ST93CS66/67 will ignore any data on the bus. When the write cycle is completed, the Ready signal (Q = 1) will indicate (if S is driven high) that the ST93CS66/67 is ready to receive a new instruction. Page Write A Page Write instruction (PAWRITE) contains the first address to be written followed by up to 4 data words. The Write Enable signal (W) must be held High duringthe Write instruction. Input address and data are read on the Low to High transition of the clock. After the receipt of each data word, bits A1-A0 of the internal address register are incre- mented, the high order bits A7-A2 remaining un- changed. Users must take care by software to ensure that the last word address has the same six upper order address bits as the initial address transmitted to avoid address roll-over. After the LSB of the last data word, Chip Select (S) must be brought Low before the next rising edge of the Clock (C). The falling edge of Chip Select (S) initiates the internal, self-timed write cycle. The Page Write operation will not be performed if any of the 4 words is addressing the protected area. If the ST93CS66/67 is still performing the program- ming cycle, the Busy signal (Q = 0) will be returned if the Chip Select input (S) is driven high, and the ST93CS66/67 will ignore any data on the bus. When the write cycle is completed, the Ready signal (Q = 1) will indicate (if S is driven high) that the ST93CS66/67 is ready to receive a new instruc- tion. Write All The Write All instruction (WRALL) is valid only after the Protect Register has been cleared by executing a PRCLEAR (Protect Register Clear) instruction. The Write All instruction simultaneously writes the whole memory with the same data word included in the instruction. The Write Enable signal (W) must be held High before and during the Write instruction. Input address and data are read on the Low to High transition of the clock. If the ST93CS66/67 is still performing the programming cycle, the Busy signal (Q = 0) will be returned if the Chip Select input (S) is driven high, and the ST93CS66/67 will ignore any data on the bus. When the write cycle is completed, the Ready signal (Q = 1) will indicate (if S is driven high) that the ST93CS66/67 is ready to receive a new instruc- tion. MEMORY WRITE PROTECTION AND PROTECT REGISTER The ST93CS66/67 offers a Protect Register con- taining the bottom address of the memory area which has to be protected against write instruc- tions. In addition to this Protect Register, two flag bits are used to indicate the Protect Register status: the Protect Flag enabling/disabling the protection of theProtect Register and the OTP bit which, when set, disables access to the Protect Register and thus prevents any further modifications of this Pro- tect Register value. The content of the Protect Register is defined when using the PRWRITE in- struction, it may be read when using the PRREAD instruction. A specific instruction PREN (Protect Register Enable) allows the user to execute the protect instructions PRCLEAR, PRWRITE and PRDS; this PREN instruction being used together with the signals applied on the input pins PRE (Protect Register Enable pin) and W (Write En- able). 7/16 ST93CS66, ST93CS67 |
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同様の説明 - ST93CS67B1013TR |
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