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CAT35C704PITE13 Datasheet(PDF) 11 Page - Catalyst Semiconductor |
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CAT35C704PITE13 Datasheet(HTML) 11 Page - Catalyst Semiconductor |
11 / 14 page Preliminary CAT35C704 11 Doc. No. 25045-00 2/98 the following commands: ERAL ERAL An ERAL will be executed ERAL WRAL A WRAL will be executed Both the ERAL and WRAL commands will program/ erase the entire array and will not be blocked by the memory pointer. THE PARITY BIT The SECS protocol supports an even parity bit if the PE pin of the device is set HIGH, otherwise, there is no parity. If PE is set LOW and the incoming instruction contains a parity bit, it may be interpreted as the start bit of the next instruction. When PE is HIGH, the CAT35C704 expects a parity bit at the end of every incoming instruc- tion packet. For example, the RSEQ instruction will look like this: 1100 1011 A15…A8 A7…A0 P The device then outputs data continuously until it reaches the end of the memory. The last byte of data contains 9 bits. The ninth bit is the parity bit calculated over the entire transmitted data packet. The RSEQ instruction may be terminated at any time by bringing CS low; the output will then go to high impedance. SYSTEM ERRORS Whenever an error occurs, be it an instruction error (unknown instruction), or parity error (perhaps caused by transmission error), the device will stop its operation. To return to normal operation, the device must be reset by pulsing CS LOW and then set back to HIGH. Reset- ting the device will not affect the ENAC, EWEN and ENBSY status. The error may be determined by entering the READ STATUS REGISTER (RSR) instruction immediatly following the reset. The status output is an 8 bit word with the first three bits being 101. This three bit pattern indicates that the device is functioning normally. The fourth bit is “1” if a parity error occurred. The fifth bit is a “1” if an instruction error occurred. The sixth bit is a “1” if the device is in a program/erase cycle. The last two bits are reserved for future use. The reason for the “101” pattern is to distinguish be- tween an error conditon (DO tri-stated) and a device busy status. If an error condition exists, it will not respond to any input instruction from DI. However, if the device is in a program/erase cycle, it responds to the RSR instruc- tion by outputting “101 00100”. If RSR is executed at the end of a program/erase cycle, the output will be “101000 00”. 5074 FHD F09 Figure 13. Next Instruction Timing(1) 5074 FHD F16 Note: (1) DO will be high impedance after the last instruction bit has been clocked in, unless the instruction is RSR or RMPR, in which case, DO will become active. PARITY ERROR INSTRUCTION ERROR RDY/BUSY STATUS FUTURE USE 1 0 1 X X X X X CS CLK DI DO OP CODE NEXT INSTRUCTION HIGH-Z tHZ tEW tSV READY BUSY HIGH-Z |
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