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AM29SL800DT150WCC Datasheet(PDF) 11 Page - Advanced Micro Devices |
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AM29SL800DT150WCC Datasheet(HTML) 11 Page - Advanced Micro Devices |
11 / 46 page D A TA SH EE T January 23, 2007 27546A6 Am29SL800D 9 words. Refer to Word/Byte Configuration‚ on page 8 for more information. The device features an Unlock Bypass mode to facili- tate faster programming. Once the device enters the Unlock Bypass mode, only two write cycles are required to program a word or byte, instead of four. The Word/Byte Program Command Sequence‚ on page 15 has details on programming data to the device using both sta n da rd an d Unlock Bypa ss co mm and sequences. An erase operation can erase one sector, multiple sec- tors, or the entire device. Tables 2 and 3 indicate the address space that each sector occupies. A “sector address” consists of the address bits required to uniquely select a sector. The Command Definitions‚ on page 14 has details on erasing a sector or the entire chip, or suspending/resuming the erase operation. After the system writes the autoselect command sequence, the device enters the autoselect mode. The system can then read autoselect codes from the internal register (which is separate from the memory array) on DQ7–DQ0. Standard read cycle timings apply in this mode. Refer to the Autoselect Mode‚ on page 12 and Autoselect Command Sequence‚ on page 15 sec- tions for more information. ICC2 in the DC Characteristics table represents the active current specification for the write mode. AC Characteristics‚ on page 28 contains timing specifica- tion tables and timing diagrams for write operations. Program and Erase Operation Status During an erase or program operation, the system may check the status of the operation by reading the status bits on DQ7–DQ0. Standard read cycle timings and ICC read specifications apply. Refer to Write Operation Status‚ on page 20 for more information, and to “AC Characteristics” for timing diagrams. Standby Mode When the system is not reading or writing to the device, it can place the device in the standby mode. In this mode, current consumption is greatly reduced, and the outputs are placed in the high impedance state, inde- pendent of the OE# input. The device enters the CMOS standby mode when the CE# and RESET# pins are both held at VCC ± 0.2 V. (Note that this is a more restricted voltage range than VIH.) If CE# and RESET# are held at VIH, but not within VCC ± 0.2 V, the device will be in the standby mode, but the standby current will be greater. The device requires standard access time (tCE) for read access when the device is in either of these standby modes, before it is ready to read data. The device also enters the standby mode when the RESET# pin is driven low. Refer to the next section, RESET#: Hardware Reset Pin. If the device is deselected during erasure or program- ming, the device draws active current until the operation is completed. ICC3 in Table 7 on page 25 represents the standby current specification. Automatic Sleep Mode The automatic sleep mode minimizes Flash device energy consumption. The device automatically enables this mode when addresses remain stable for tACC + 50 ns. The automatic sleep mode is independent of the CE#, WE#, and OE# control signals. Standard address access timings provide new data when addresses are changed. While in sleep mode, output data is latched and always available to the system. ICC4 in Table 7 on page 25 represents the automatic sleep mode current specification. RESET#: Hardware Reset Pin The RESET# pin provides a hardware method of reset- ting the device to reading array data. When the RESET# pin is driven low for at least a period of tRP, the device immediately terminates any operation in progress, tristates all output pins, and ignores all read/write commands for the duration of the RESET# pulse. The device also resets the internal state machine to reading array data. The operation that was interrupted should be reinitiated once the device is ready to accept another command sequence, to ensure data integrity. Current is reduced for the duration of the RESET# pulse. When RESET# is held at VSS±0.2 V, the device draws CMOS standby current (ICC4). If RESET# is held at VIL but not within VSS±0.2 V, the standby current is greater. The RESET# pin may be tied to the system reset cir- cuitry. A system reset would thus also reset the Flash memory, enabling the system to read the boot-up firm- ware from the Flash memory. If RESET# is asserted during a program or erase oper- ation, the RY/BY# pin remains a “0” (busy) until the internal reset operation is complete, which requires a time of tREADY (during Embedded Algorithms). The system can thus monitor RY/BY# to determine whether the reset operation is complete. If RESET# is asserted when a program or erase operation is not executing (RY/BY# pin is “1”), the reset operation is completed within a time of tREADY (not during Embedded Algo- rithms). The system can read data tRH after the RESET# pin returns to VIH. |
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