CY7C1511V18_06 Datasheet, PDF(7/28 Page) Cypress Semiconductor – 72-Mbit QDR™- II SRAM 4-Word Burst Architecture

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CY7C1511V18_06 Datasheet, PDF (7/28 Pages) Cypress Semiconductor – 72-Mbit QDR™- II SRAM 4-Word Burst Architecture

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CY7C1511V18

CY7C1526V18

CY7C1513V18

CY7C1515V18

Pin Definitions (continued)

Pin Name

DOFF

TDO

TCK

TDI

TMS

VSS/144M

VSS/288M

VREF

VDD

VSS

VDDQ

I/O

Pin Description

Echo Clock CQ is referenced with respect to C. This is a free running clock and is synchronized to the Input

clock for output data (C) of the QDR-II. In the single clock mode, CQ is generated with respect to

K. The timings for the echo clocks are shown in the AC Timing table.

Echo Clock CQ is referenced with respect to C. This is a free running clock and is synchronized to the Input

clock for output data (C) of the QDR-II. In the single clock mode, CQ is generated with respect to

K. The timings for the echo clocks are shown in the AC Timing table.

Input

Output Impedance Matching Input. This input is used to tune the device outputs to the system

data bus impedance. CQ,CQ and Q[x: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.

Input

DLL Turn Off - Active LOW. Connecting this pin to ground will turn off the DLL inside the device.

The timings in the DLL turned off operation will be different from those listed in this data sheet.

Output TDO for JTAG.

Input TCK pin for JTAG.

Input TDI pin for JTAG.

Input TMS pin for JTAG.

N/A

Not connected to the die. Can be tied to any voltage level.

Input Address expansion for 144M. Can be tied to any voltage level.

Input Address expansion for 288M. Can be tied to any voltage level.

Input- Reference Voltage Input. Static input used to set the reference level for HSTL inputs and Outputs

Reference as well as AC measurement points.

Power Power supply inputs to the core of the device.

Supply

Ground Ground for the device.

Power Power supply inputs for the outputs of the device.

Supply

Functional Overview

The CY7C1511V18, CY7C1526V18, CY7C1513V18,

CY7C1515V18 are synchronous pipelined Burst SRAMs

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 QDR-II completely eliminates the need to

âturn-aroundâ the data bus and avoids any possible data

contention, thereby simplifying system design. Each access

consists of four 8-bit data transfers in the case of

CY7C1511V18, four 9-bit data transfers in the case of

CY7C1526V18, four 18-bit data transfers in the case of

CY7C1513V18, and four 36-bit data in the case of

CY7C1515V18 transfers in two clock cycles.

Accesses for both ports are initiated on 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 output clocks (C and C or K and K when

in single clock mode).

All synchronous data inputs (D[x:0]) inputs pass through input

registers controlled by the input clocks (K and K). All

synchronous data outputs (Q[x:0]) outputs 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).

All synchronous control (RPS, WPS, BWS[x:0]) inputs pass

through input registers controlled by the rising edge of the

input clocks (K and K).

CY7C1513V18 is described in the following sections. The

same basic descriptions apply to CY7C1511V18,

CY7C1526V18 and CY7C1515V18.

Read Operations

The CY7C1513V18 is organized internally as 4 arrays of 1M x

18. Accesses are completed in a burst of four sequential 18-bit

data words. Read operations are initiated by asserting RPS

active at the rising edge of the Positive Input Clock (K). The

address presented to Address inputs are stored in the Read

address register. Following the next K clock rise, the corre-

sponding lowest order 18-bit word of data is driven onto the

Q[17:0] using C as the output timing reference. On the subse-

quent rising edge of C the next 18-bit data word is driven onto

the Q[17:0]. This process continues until all four 18-bit data

words have been driven out onto 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 or K when in single-clock mode)). In order to

maintain the internal logic, each read access must be allowed

Document #: 38-05363 Rev. *D

Page 7 of 28

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