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AMC020DFLKA Datasheet(PDF) 9 Page - Advanced Micro Devices |
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AMC020DFLKA Datasheet(HTML) 9 Page - Advanced Micro Devices |
9 / 46 page AmC0XXDFLKA 9 Byte-Wide Operations Byte-wide data is available on D0–D7 for read and write operations (CE1 = low, CE2 = high). Even and odd bytes are stored in separate memory segments (i.e., S0 and S1) and are accessed when A0 is low and high respectively. The even byte is the low order byte and the odd byte is the high order byte of a 16-bit word. Erase operations in the byte-wide mode must account for data multiplexing on D0–D7 by changing the state of A0. Each memory sector or memory segment pair must be addressed separately for erase operations. Card Detection Each CD (output) pin should be read by the host sys- tem to determine if the memory card is adequately seated in the socket. CD1 and CD2 are internally tied to ground. If both bits are not detected, the system should indicate that the card must be reinserted. Write Protection The AMD Flash memory card has three types of write protection. The PCMCIA/JEIDA socket itself provides the first type of write protection. Power supply and con- trol pins have specific pin lengths in order to protect the card with proper power supply sequencing in the case of hot insertion and removal. A mechanical write protect switch provides a second type of write protection. When this switch is activated, WE is internally forced high. The Flash memory com- mand register is disabled from accepting any write commands. The third type of write protection is achieved with VCC1 and VCC2 below 3.2 V VLKO. Each Flash memory de- vice that comprises a Flash memory segment will reset the command register to the read-only mode when VCC is below VLKO. VLKO is the voltage below which write operations to individual command regis- ters are disabled. MEMORY CARD BUS OPERATIONS Read Enable Two Card Enable (CE) pins are available on the mem- ory card. Both CE pins must be active low for word-wide read accesses. Only one CE is required for byte-wide accesses. The CE pins control the selection and gates power to the high and low memory seg- ments. The Output Enable (OE) controls gating ac- cessed data from the memory segment outputs. The device will automatically power-up in the read/ reset state. In this case, a command sequence is not required to read data. Standard microprocessor read cycles will retrieve array data. This default value en- sures that no spurious alteration of the memory content occurs during the power transition. Refer to the AC Read Characteristics and Waveforms for the specific timing parameters. Output Disable Data outputs from the card are disabled when OE is at a logic-high level. Under this condition, outputs are in the high-impedance state. Standby Operations Byte-wide read accesses only require half of the read/ write output buffer (x16) to be active. In addition, only one memory segment is active within either the high order or low order bank. Activation of the appropriate half of the output buffer is controlled by the combination of both CE pins. The CE pins also control power to the high and low-order banks of memory. Outputs of the memory bank not selected are placed in the high im- pedance state. The individual memory segment is acti- vated by the address decoders. The other memory segments operate in standby. An active memory seg- ment continues to draw power until completion of a write or erase operation if the card is deselected in the process of one of these operations. Auto Select Operation A host system or external card reader/writer can deter- mine the on-card manufacturer and device I.D. codes. Codes are available after writing the 90H command to the command register of a memory segment per Tables 3 and 4. Reading from address location 00000H in any segment provides the manufacturer I.D. while address location 00002H provides the device I.D. To terminate the Auto Select operation, it is neces- sary to write the Read/Reset command sequence into the register. Write Operations Write and erase operations are valid only when VCC1 and VCC2 are above 4.75 V. This activates the state ma- chine of an addressed memory segment. The com- mand register is a latch which saves address, commands, and data information used by the state ma- chine and memory array. When Write Enable (WE) and appropriate CE(s) are at a logic-level low, and Output Enable (OE) is at a logic-high, the command register is enabled for write operations. The falling edge of WE latches address in- formation and the rising edge latches data/command information. Write or erase operations are performed by writing ap- propriate data patterns to the command register of ac- cessed Flash memory sectors or memory segments. The byte-wide and word-wide commands are defined in Tables 3, 4, and 5, respectively. |
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