CY7C1351F-117AC Cypress Semiconductor Corp, CY7C1351F-117AC Datasheet - Page 5

CY7C1351F-117AC

Manufacturer Part Number

CY7C1351F-117AC

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CY7C1351F-117AC.pdf (15 pages)

Specifications of CY7C1351F-117AC

Density

4.5Mb

Access Time (max)

7.5ns

Sync/async

Synchronous

Architecture

SDR

Clock Freq (max)

117MHz

Operating Supply Voltage (typ)

3.3V

Address Bus

17b

Package Type

TQFP

Operating Temp Range

0C to 70C

Number Of Ports

Supply Current

220mA

Operating Supply Voltage (min)

3.135V

Operating Supply Voltage (max)

3.6V

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

100

Word Size

36b

Number Of Words

128K

Lead Free Status / Rohs Status

Not Compliant

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Document #: 38-05210 Rev. *B

Functional Overview

The CY7C1351F is a synchronous flow-through burst SRAM

designed specifically to eliminate wait states during

Write-Read transitions. All synchronous inputs pass through

input registers controlled by the rising edge of the clock. The

clock signal is qualified with the Clock Enable input signal

(CEN). If CEN is HIGH, the clock signal is not recognized and

all internal states are maintained. All synchronous operations

are qualified with CEN. Maximum access delay from the clock

rise (t

Accesses can be initiated by asserting all three Chip Enables

(CE

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

conduct byte write operations.

Write operations are qualified by the Write Enable (WE). All

writes are simplified with on-chip synchronous self-timed write

circuitry.

Three synchronous Chip Enables (CE

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) CE

and CE

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 (133-MHz device) provided OE is active LOW. After the first

clock of the read access, the output buffers are controlled by

OE and the internal control logic. OE must be driven LOW in

order for the device to drive out the requested data. On the

subsequent clock, another operation (Read/Write/Deselect)

can be initiated. When the SRAM is deselected at clock rise

by one of the chip enable signals, its output will be three-stated

immediately.

Burst Read Accesses

The CY7C1351F has an on-chip burst counter that allows the

user the ability to supply a single address and conduct up to

four Reads without reasserting the address inputs. ADV/LD

must be driven LOW in order to load a new address into the

SRAM, as described in the Single Read Access section above.

The sequence of the burst counter is determined by the MODE

input signal. A LOW input on MODE selects a linear burst

mode, a HIGH selects an interleaved burst sequence. Both

burst counters use A0 and A1 in the burst sequence, and will

wrap around when incremented sufficiently. A HIGH input on

ADV/LD will increment the internal burst counter regardless of

the state of chip enable inputs or WE. WE is latched at the

, CE

CDV

are ALL asserted active, (3) the Write Enable input

) is 6.5 ns (133-MHz device).

, CE

) active at the rising edge of the clock. If Clock

, CE

[A:D]

can be used to

, CE

) and an

, CE

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) CE

and CE

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 three-stated regardless of the state of the OE

input signal. This allows the external logic to present the data

on DQs and DQP

On the next clock rise the data presented to DQs and DQP

(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

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 self-timed write mechanism has been provided

to simplify the write operations. Byte write capability has been

included in order to greatly simplify Read/Modify/Write

sequences, which can be reduced to simple byte write opera-

tions.

Because the CY7C1351F 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 DQs and DQP

three-state the output drivers. As a safety precaution, DQs and

DQP

portion of a write cycle, regardless of the state of OE.

Burst Write Accesses

The CY7C1351F has an on-chip burst counter that allows the

user the ability to supply a single address and conduct up to

four Write operations without reasserting the address inputs.

ADV/LD must be driven LOW in order to load the initial

address, as described in the Single Write Access section

above. When ADV/LD is driven HIGH on the subsequent clock

rise, the Chip Enables (CE

ignored and the burst counter is incremented. The correct

in order to write the correct bytes of data.

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. CE

the duration of t

[A:D]

inputs must be driven in each cycle of the burst write,

.are automatically three-stated during the data

are ALL asserted active, and (3) the write signal WE

signals. The CY7C1351F provides byte write

ZZREC

[A:D]

, CE

after the ZZ input returns LOW.

, CE

, and CE

, must remain inactive for

[A:D]

CY7C1351F

inputs. Doing so will

) and WE inputs are

Page 5 of 15

, CE

[A:D]

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