CY7C1304DV25
Document #: 38-05628 Rev. *A
Page 3 of 18
Introduction
Functional Overview
The CY7C1304DV25 is a synchronous pipelined Burst SRAM
equipped with both a Read port and a Write port. The Read
port is dedicated to Read operations and the Write port is
dedicated to Write operations. Data flows into the SRAM
through the Write port and out through the Read port. These
devices multiplex the address inputs in order to minimize the
number of address pins required. By having separate Read
and Write ports, the device completely eliminates the need to
“turn-around” the data bus and avoids any possible data
contention, thereby simplifying system design. Each access
consists of four 18-bit data transfers in two clock cycles.
Accesses for both ports are initiated on the rising edge of the
positive input clock (K). All synchronous input timing is refer-
enced from the rising edge of the input clocks (K and K) and
all output timing is referenced to the rising edge of output
clocks (C and C, or K and K when in single clock mode).
All synchronous data inputs (D[17:0]) pass through input
registers controlled by the rising edge of input clocks (K and
K). All synchronous data outputs (Q[17:0]) pass through output
registers controlled by the rising edge of the output clocks (C
and C, or K and K when in single clock mode).
RPS
Input-
Synchronous
Read Port Select, active LOW. Sampled on the rising edge of positive input clock (K).
When active, a Read operation is initiated. Deasserting will cause the Read port to be
deselected. When deselected, the pending access is allowed to complete and the output
drivers are automatically three-stated following the next rising edge of the C clock. Each
read access consists of a burst of four sequential 18-bit transfers.
C
Input-
Clock
Positive Input Clock for Output Data. C is used in conjunction with C to clock out the
Read data from the device. C and C can be used together to deskew the flight times of
various devices on the board back to the controller. See application example for further
details.
C
Input-
Clock
Negative Input Clock for Output Data. C is used in conjunction with C to clock out the
Read data from the device. C and C can be used together to deskew the flight times of
various devices on the board back to the controller. See application example for further
details.
K
Input-
Clock
Positive Input Clock Input. The rising edge of K is used to capture synchronous inputs
to the device and to drive out data through Q[17:0] when in single clock mode. All accesses
are initiated on the rising edge of K.
K
Input-
Clock
Negative Input Clock Input. K is used to capture synchronous inputs being presented
to the device and to drive out data through Q[17:0] when in single clock mode.
ZQ
Input
Output Impedance Matching Input. This input is used to tune the device outputs to the
system data bus impedance. Q[17:0] output impedance are set to 0.2 x RQ, where RQ is
a resistor connected between ZQ and ground. Alternately, this pin can be connected
directly to VDDQ, which enables the minimum impedance mode. This pin cannot be
connected directly to GND or left unconnected.
TDO
Output
TDO for JTAG.
TCK
Input
TCK pin for JTAG.
TDI
Input
TDI pin for JTAG.
TMS
Input
TMS pin for JTAG.
NC/18M
N/A
Address expansion for 18M. This is not connected to the die and so can be connected
to any voltage level.
NC/36M
N/A
Address expansion for 36M. This is not connected to the die and so can be connected
to any voltage level.
GND/72M
Input
Address expansion for 72M. This must be tied LOW on the CY7C1304DV25.
GND/144M
Input
Address expansion for 144M. This must be tied LOW on the CY7C1304DV25.
VREF
Input-
Reference
Reference Voltage Input. Static input used to set the reference level for HSTL inputs
and outputs as well as AC measurement points.
VDD
Power Supply
Power supply inputs to the core of the device.
VSS
Ground
Ground for the device.
VDDQ
Power Supply
Power supply inputs for the outputs of the device.
NC
N/A
Not connected to the die. Can be tied to any voltage level.
Pin Definitions (continued)
Name
I/O
Description
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