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CY7C1470V33-250BZXC Datasheet(PDF) 6 Page - Cypress Semiconductor

Part # CY7C1470V33-250BZXC
Description  72-Mbit (2M x 36/4M x 18/1M x 72) Pipelined SRAM with NoBL??Architecture
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Manufacturer  CYPRESS [Cypress Semiconductor]
Direct Link  http://www.cypress.com
Logo CYPRESS - Cypress Semiconductor

CY7C1470V33-250BZXC Datasheet(HTML) 6 Page - Cypress Semiconductor

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CY7C1470V33
CY7C1472V33
CY7C1474V33
Document #: 38-05289 Rev. *I
Page 6 of 29
Pin Definitions
Pin Name
I/O Type
Pin Description
A0
A1
A
Input-
Synchronous
Address Inputs used to select one of the address locations. Sampled at the rising edge of
the CLK.
BWa
BWb
BWc
BWd
BWe
BWf
BWg
BWh
Input-
Synchronous
Byte Write Select Inputs, active LOW. Qualified with WE to conduct writes to the SRAM.
Sampled on the rising edge of CLK. BWa controls DQa and DQPa, BWb controls DQb and DQPb,
BWc controls DQc and DQPc, BWd controls DQd and DQPd, BWe controls DQe and DQPe, BWf
controls DQf and DQPf, BWg controls DQg and DQPg, BWh controls DQh and DQPh.
WE
Input-
Synchronous
Write Enable Input, active LOW. Sampled on the rising edge of CLK if CEN is active LOW. This
signal must be asserted LOW to initiate a write sequence.
ADV/LD
Input-
Synchronous
Advance/Load Input used to advance the on-chip address counter or load a new address.
When HIGH (and CEN is asserted LOW) the internal burst counter is advanced. When LOW, a
new address can be loaded into the device for an access. After being deselected, ADV/LD should
be driven LOW in order to load a new address.
CLK
Input-
Clock
Clock Input. Used to capture all synchronous inputs to the device. CLK is qualified with CEN.
CLK is only recognized if CEN is active LOW.
CE1
Input-
Synchronous
Chip Enable 1 Input, active LOW. Sampled on the rising edge of CLK. Used in conjunction with
CE2 and CE3 to select/deselect the device.
CE2
Input-
Synchronous
Chip Enable 2 Input, active HIGH. Sampled on the rising edge of CLK. Used in conjunction with
CE1 and CE3 to select/deselect the device.
CE3
Input-
Synchronous
Chip Enable 3 Input, active LOW. Sampled on the rising edge of CLK. Used in conjunction with
CE1 and CE2 to select/deselect the device.
OE
Input-
Asynchronous
Output Enable, active LOW. Combined with the synchronous logic block inside the device to
control the direction of the I/O pins. When LOW, the I/O pins are allowed to behave as outputs.
When deasserted HIGH, I/O pins are tri-stated, and act as input data pins. OE is masked during
the data portion of a write sequence, during the first clock when emerging from a deselected state
and when the device has been deselected.
CEN
Input-
Synchronous
Clock Enable Input, active LOW. When asserted LOW the clock signal is recognized by the
SRAM. When deasserted HIGH the clock signal is masked. Since deasserting CEN does not
deselect the device, CEN can be used to extend the previous cycle when required.
DQS
I/O-
Synchronous
Bidirectional Data I/O lines. As inputs, they feed into an on-chip data register that is triggered
by the rising edge of CLK. As outputs, they deliver the data contained in the memory location
specified by A[17:0] during the previous clock rise of the read cycle. The direction of the pins is
controlled by OE and the internal control logic. When OE is asserted LOW, the pins can behave
as outputs. When HIGH, DQa–DQd are placed in a tri-state condition. The outputs are automat-
ically tri-stated during the data portion of a write sequence, during the first clock when emerging
from a deselected state, and when the device is deselected, regardless of the state of OE.
DQPX
I/O-
Synchronous
Bidirectional Data Parity I/O lines. Functionally, these signals are identical to DQX. During write
sequences, DQPa is controlled by BWa, DQPb is controlled by BWb, DQPc is controlled by BWc,
and DQPd is controlled by BWd, DQPe is controlled by BWe, DQPf is controlled by BWf, DQPg
is controlled by BWg, DQPh is controlled by BWh.
MODE
Input Strap Pin
Mode Input. Selects the burst order of the device. Tied HIGH selects the interleaved burst order.
Pulled LOW selects the linear burst order. MODE should not change states during operation.
When left floating MODE will default HIGH, to an interleaved burst order.
TDO
JTAG Serial
Output
Synchronous
Serial data-out to the JTAG circuit. Delivers data on the negative edge of TCK.
TDI
JTAG Serial Input
Synchronous
Serial data-In to the JTAG circuit. Sampled on the rising edge of TCK.
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