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CY7C1527AV18-250BZXC Datasheet(PDF) 8 Page - Cypress Semiconductor

Part # CY7C1527AV18-250BZXC
Description  72-Mbit DDR-II SRAM 2-Word Burst Architecture
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Manufacturer  CYPRESS [Cypress Semiconductor]
Direct Link  http://www.cypress.com
Logo CYPRESS - Cypress Semiconductor

CY7C1527AV18-250BZXC Datasheet(HTML) 8 Page - Cypress Semiconductor

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PRELIMINARY
CY7C1516AV18
CY7C1527AV18
CY7C1518AV18
CY7C1520AV18
Document #: 001-06982 Rev. *B
Page 8 of 28
Functional Overview
The CY7C1516AV18, CY7C1527AV18, CY7C1518AV18, and
CY7C1520AV18 are synchronous pipelined Burst SRAMs
equipped with a DDR interface which operates with a read
latency of one and half cycles when DOFF pin is tied HIGH.
When DOFF pin is set LOW or connected to VSS the device
will behave in DDR-I mode with a read latency of one clock
cycle.
Accesses are initiated on the rising edge of the positive input
clock (K). All synchronous input timing is referenced from the
rising edge of the input clocks (K and K) and all output timing
is referenced to the rising edge of the output clocks (C/C or
K/K when in single clock mode).
All synchronous data inputs (D[x:0]) pass through input
registers controlled by the rising edge of the input clocks (K
and K). All synchronous data outputs (Q[x:0]) pass through
output registers controlled by the rising edge of the output
clocks (C/C or K/K when in single-clock mode).
All synchronous control (R/W, LD, BWS[0:X]) inputs pass
through input registers controlled by the rising edge of the
input clock (K).
CY7C1518AV18 is described in the following sections. The
same
basic
descriptions
apply
to
CY7C1516AV18,
CY7C1527AV18, and CY7C1520AV18.
Read Operations
The CY7C1518AV18 is organized internally as a single array
of 4M x 18. Accesses are completed in a burst of two
sequential 18-bit data words. Read operations are initiated by
asserting R/W HIGH and LD LOW at the rising edge of the
positive input clock (K). The address presented to Address
inputs is stored in the Read address register and the least
significant bit of the address is presented to the burst counter.
The burst counter increments the address in a linear fashion.
Following the next K clock rise the corresponding 18-bit word
of data from this address location is driven onto the Q[17:0]
using C as the output timing reference. On the subsequent
rising edge of C the next 18-bit data word from the address
location generated by the burst counter is driven onto the
Q[17:0]. The requested data will be valid 0.45 ns from the rising
edge of the output clock (C or C, or K and K when in single
clock mode, 200-MHz, 250-MHz and 300-MHz device). In
order to maintain the internal logic, each read access must be
allowed to complete. Read accesses can be initiated on every
rising edge of the positive input clock (K).
When read access is deselected, the CY7C1518AV18 will first
complete the pending read transactions. Synchronous internal
circuitry will automatically tri-state the outputs following the
next rising edge of the positive output clock (C). This will allow
for a seamless transition between devices without the
insertion of wait states in a depth expanded memory.
Write Operations
Write operations are initiated by asserting R/W LOW and LD
LOW at the rising edge of the positive input clock (K). The
address presented to Address inputs is stored in the Write
address register and the least significant bit of the address is
presented to the burst counter. The burst counter increments
the address in a linear fashion. On the following K clock rise
the data presented to D[17:0] is latched and stored into the
18-bit Write Data register provided BWS[1:0] are both asserted
active. On the subsequent rising edge of the Negative Input
Clock (K) the information presented to D[17:0] is also stored
into the Write Data register provided BWS[1:0] are both
asserted active. The 36 bits of data are then written into the
memory array at the specified location. Write accesses can be
initiated on every rising edge of the positive input clock (K).
Doing so will pipeline the data flow such that 18 bits of data
can be transferred into the device on every rising edge of the
input clocks (K and K).
When write access is deselected, the device will ignore all
inputs after the pending Write operations have been
completed.
Byte Write Operations
Byte Write operations are supported by the CY7C1518AV18.
A Write operation is initiated as described in the Write
Operation section above. The bytes that are written are deter-
mined by BWS0 and BWS1 which are sampled with each set
of 18-bit data word. Asserting the appropriate Byte Write
Select input during the data portion of a Write will allow the
data being presented to be latched and written into the device.
Deasserting the Byte Write Select input during the data portion
of a write will allow the data stored in the device for that byte
to remain unaltered. This feature can be used to simplify
Read/Modify/Write operations to a Byte Write operation.
Single Clock Mode
The CY7C1518AV18 can be used with a single clock that
controls both the input and output registers. In this mode the
device will recognize only a single pair of input clocks (K and
K) that control both the input and output registers. This
operation is identical to the operation if the device had zero
skew between the K/K and C/C clocks. All timing parameters
remain the same in this mode. To use this mode of operation,
the user must tie C and C HIGH at power-on. This function is
a strap option and not alterable during device operation.
DDR Operation
The CY7C1518AV18 enables high-performance operation
through high clock frequencies (achieved through pipelining)
and double data rate mode of operation. The CY7C1518AV18
requires a single No Operation (NOP) cycle when transitioning
from a Read to a Write cycle. At higher frequencies, some
applications may require a second NOP cycle to avoid
contention.
If a Read occurs after a Write cycle, address and data for the
Write are stored in registers. The write information must be
stored because the SRAM cannot perform the last word Write
to the array without conflicting with the Read. The data stays
in this register until the next Write cycle occurs. On the first
Write cycle after the Read(s), the stored data from the earlier
Write will be written into the SRAM array. This is called a
Posted Write.
If a Read is performed on the same address on which a Write
is performed in the previous cycle, the SRAM reads out the
most current data. The SRAM does this by bypassing the
memory array and reading the data from the registers.
Depth Expansion
Depth expansion requires replicating the LD control signal for
each bank. All other control signals can be common between
banks as appropriate.
[+] Feedback
[+] Feedback


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