PRELIMINARYCY7C1333H
Functional Overview
The CY7C1333H is a synchronous
Accesses can be initiated by asserting all three Chip Enables (CE1, CE2, CE3) active at the rising edge of the clock. If Clock Enable (CEN) is active LOW and ADV/LD is asserted LOW, the address presented to the device will be latched. The access can either be a Read or Write operation, depending on the status of the Write Enable (WE). BW[A:D] can be used to conduct Byte Write operations.
Write operations are qualified by the Write Enable (WE). All writes are simplified with
Three synchronous Chip Enables (CE1, CE2, CE3) and an asynchronous Output Enable (OE) simplify depth expansion. All operations (Reads, Writes, and Deselects) are pipelined. ADV/LD should be driven LOW once the device has been deselected in order to load a new address for the next operation.
Single Read Accesses
A read access is initiated when the following conditions are satisfied at clock rise: (1) CEN is asserted LOW, (2) CE1, CE2, and CE3 are ALL asserted active, (3) the Write Enable input signal WE is deasserted HIGH, and 4) ADV/LD is asserted LOW. The address presented to the address inputs is latched into the address register and presented to the memory array and control logic. The control logic determines that a read access is in progress and allows the requested data to propagate to the output buffers. The data is available within 6.5 ns
Burst Read Accesses
The CY7C1333H has an
beginning of a burst cycle. Therefore, the type of access (Read or Write) is maintained throughout the burst sequence.
Single Write Accesses
Write access are initiated when the following conditions are satisfied at clock rise: (1) CEN is asserted LOW, (2) CE1, CE2, and CE3 are ALL asserted active, and (3) the write signal WE is asserted LOW. The address presented to the address bus is loaded into the Address Register. The write signals are latched into the Control Logic block. The data lines are automatically
On the next clock rise the data presented to DQs (or a subset for Byte Write operations, see Truth Table for details) inputs is latched into the device and the write is complete. Additional accesses (Read/Write/Deselect) can be initiated on this cycle.
The data written during the Write operation is controlled by BW[A:D] signals. The CY7C1333H provides Byte Write capability that is described in the Truth Table. Asserting the Write Enable input (WE) with the selected Byte Write Select input will selectively write to only the desired bytes. Bytes not selected during a Byte Write operation will remain unaltered. A synchronous
Because the CY7C1333H is a common I/O device, data should not be driven into the device while the outputs are active. The Output Enable (OE) can be deasserted HIGH before presenting data to the DQ inputs. Doing so will
Burst Write Accesses
The CY7C1333H has an
Sleep Mode
The ZZ input pin is an asynchronous input. Asserting ZZ places the SRAM in a power conservation “sleep” mode. Two clock cycles are required to enter into or exit from this “sleep” mode. While in this mode, data integrity is guaranteed. Accesses pending when entering the “sleep” mode are not considered valid nor is the completion of the operation guaranteed. The device must be deselected prior to entering the “sleep” mode. CE1, CE2, and CE3, must remain inactive for the duration of tZZREC after the ZZ input returns LOW.
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