CY7C1339G-133AXE Datasheet CY7C1339G-133AXET, CY7C1339G-133AXE, CY7C1339G-133AXI | P4-P6

CY7C1339G

Document #: 38-05520 Rev. *F Page 4 of 18

Functional Overview

All synchronous inputs pass through input registers controlled

by the rising edge of the clock. All data outputs pass through

output registers controlled by the rising edge of the clock.

Maximum access delay from the clock rise (t

) is 2.6 ns

(250-MHz device).

The CY7C1339G supports secondary cache in systems

utilizing either a linear or interleaved burst sequence. The

interleaved burst order supports Pentium and i486™

processors. The linear burst sequence is suited for processors

that utilize a linear burst sequence. The burst order is user

selectable, and is determined by sampling the MODE input.

Accesses can be initiated with either the Processor Address

Strobe (ADSP

) or the Controller Address Strobe (ADSC).

Address advancement through the burst sequence is

controlled by the ADV input. A two-bit on-chip wraparound

burst counter captures the first address in a burst sequence

and automatically increments the address for the rest of the

burst access.

Byte Write operations are qualified with the Byte Write Enable

(BWE) and Byte Write Select (BW

[A:D]

) inputs. A Global Write

Enable (GW

) overrides all Byte Write inputs and writes data to

all four bytes. All writes are simplified with on-chip

synchronous self-timed Write circuitry.

Three synchronous Chip Selects (CE

, CE

) and an

asynchronous Output Enable (OE

) provide for easy bank

selection and output tri-state control. ADSP

is ignored if CE

is HIGH.

Single Read Accesses

This access is initiated when the following conditions are

satisfied at clock rise: (1) ADSP

or ADSC is asserted LOW, (2)

, CE

are all asserted active, and (3) the Write

signals (GW

, BWE) are all deserted HIGH. ADSP is ignored if

is HIGH. The address presented to the address inputs (A)

is stored into the address advancement logic and the Address

corresponding data is allowed to propagate to the input of the

Output Registers. At the rising edge of the next clock the data

is allowed to propagate through the output register and onto

the data bus within 2.6 ns (250-MHz device) if OE

is active

LOW. The only exception occurs when the SRAM is emerging

from a deselected state to a selected state, its outputs are

always tri-stated during the first cycle of the access. After the

first cycle of the access, the outputs are controlled by the OE

ADV Input-

Synchronous

Advance Input signal, sampled on the rising edge of CLK, active LOW. When asserted, it

automatically increments the address in a burst cycle.

ADSP

Input-

Synchronous

Address Strobe from Processor, sampled on the rising edge of CLK, active LOW. When

asserted LOW, addresses presented to the device are captured in the address registers. A1, A0

are also loaded into the burst counter. When ADSP and ADSC are both asserted, only ADSP is

recognized. ASDP

is ignored when CE

is deasserted HIGH.

ADSC

Input-

Synchronous

Address Strobe from Controller, sampled on the rising edge of CLK, active LOW. When

asserted LOW, addresses presented to the device are captured in the address registers. A1, A0

are also loaded into the burst counter. When ADSP

and ADSC are both asserted, only ADSP is

recognized.

ZZ Input-

Asynchronous

ZZ “sleep” Input, active HIGH. When asserted HIGH places the device in a non-time-critical

“sleep” condition with data integrity preserved. For normal operation, this pin has to be LOW or

left floating. ZZ pin has an internal pull-down.

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 the addresses presented during the previous clock rise of the read cycle. The direction

of the pins is controlled by OE

. When OE is asserted LOW, the pins behave as outputs. When

HIGH, DQs are placed in a tri-state condition.

Power Supply Power supply inputs to the core of the device.

Ground Ground for the core of the device.

DDQ

I/O Power

Supply

Power supply for the I/O circuitry.

SSQ

I/O Ground Ground for the I/O circuitry.

MODE Input-

Static

Selects Burst Order. When tied to GND selects linear burst sequence. When tied to V

or left

floating selects interleaved burst sequence. This is a strap pin and should remain static during

device operation. Mode Pin has an internal pull-up.

NC,NC/9M,

NC/18M.

NC/72M,

NC/144M,

NC/288M,

NC/576M,

NC/1G

– No Connects. Not internally connected to the die. NC/9M, NC/18M, NC/72M, NC/144M,

NC/288M, NC/576M and NC/1G are address expansion pins are not internally connected to the

die.

Pin Definitions (continued)

Name I/O Description

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CY7C1339G

Document #: 38-05520 Rev. *F Page 5 of 18

signal. Consecutive single Read cycles are supported. Once

the SRAM is deselected at clock rise by the chip select and

either ADSP or ADSC signals, its output will tri-state immedi-

ately.

Single Write Accesses Initiated by ADSP

This access is initiated when both of the following conditions

are satisfied at clock rise: (1) ADSP

is asserted LOW, and

(2) CE

, CE

are all asserted active. The address

presented to A is loaded into the address register and the

address advancement logic while being delivered to the

memory array. The Write signals (GW

, BWE, and BW

[A:D]

) and

ADV

inputs are ignored during this first cycle.

ADSP-triggered Write accesses require two clock cycles to

complete. If GW

is asserted LOW on the second clock rise, the

data presented to the DQs inputs is written into the corre-

sponding address location in the memory array. If GW

is HIGH,

then the Write operation is controlled by BWE

and BW

[A:D]

signals. The CY7C1339G provides Byte Write capability that

is described in the Write Cycle Descriptions table. Asserting

the Byte Write Enable input (BWE) with the selected Byte

Write (BW

[A:D]

) 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.

Because the CY7C1339G is a common I/O device, the Output

Enable (OE

) must be deserted HIGH before presenting data

to the DQs inputs. Doing so will tri-state the output drivers. As

a safety precaution, DQs are automatically tri-stated whenever

a Write cycle is detected, regardless of the state of OE

Single Write Accesses Initiated by ADSC

ADSC Write accesses are initiated when the following condi-

tions are satisfied: (1) ADSC

is asserted LOW, (2) ADSP is

deserted HIGH, (3) CE

, CE

are all asserted active, and

(4) the appropriate combination of the Write inputs (GW

, BWE,

and BW

[A:D]

) are asserted active to conduct a Write to the

desired byte(s). ADSC

-triggered Write accesses require a

single clock cycle to complete. The address presented to A is

loaded into the address register and the address

advancement logic while being delivered to the memory array.

The ADV

input is ignored during this cycle. If a global Write is

conducted, the data presented to the DQs is written into the

corresponding address location in the memory core. If a Byte

Write is conducted, only the selected bytes are written. 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.

Because the CY7C1339G is a common I/O device, the Output

Enable (OE

) must be deserted HIGH before presenting data

to the DQs inputs. Doing so will tri-state the output drivers. As

a safety precaution, DQs are automatically tri-stated whenever

a Write cycle is detected, regardless of the state of OE

Burst Sequences

The CY7C1339G provides a two-bit wraparound counter, fed

by A1, A0, that implements either an interleaved or linear burst

sequence. The interleaved burst sequence is designed specif-

ically to support Intel Pentium applications. The linear burst

sequence is designed to support processors that follow a

linear burst sequence. The burst sequence is user selectable

through the MODE input.

Asserting ADV

LOW at clock rise will automatically increment

the burst counter to the next address in the burst sequence.

Both Read and Write burst operations are supported.

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

, CE

, ADSP, and ADSC must

remain inactive for the duration of t

ZZREC

after the ZZ input

returns LOW.

Interleaved Burst Address Table

(MODE = Floating or V

)

First

Address

A1, A0

Second

Address

A1, A0

Third

Address

A1, A0

Fourth

Address

A1, A0

00 01 10 11

01 00 11 10

10 11 00 01

11 10 01 00

Linear Burst Address Table (MODE = GND)

First

Address

A1, A0

Second

Address

A1, A0

Third

Address

A1, A0

Fourth

Address

A1, A0

00 01 10 11

01 10 11 00

10 11 00 01

11 00 01 10

ZZ Mode Electrical Characteristics

Parameter Description Test Conditions Min. Max. Unit

DDZZ

Snooze mode standby current ZZ > V

– 0.2V 40 mA

ZZS

Device operation to ZZ ZZ > V

– 0.2V 2t

CYC

ZZREC

ZZ recovery time ZZ < 0.2V 2t

CYC

ZZI

ZZ active to snooze current This parameter is sampled 2t

CYC

RZZI

ZZ Inactive to exit snooze current This parameter is sampled 0 ns

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CY7C1339G

Document #: 38-05520 Rev. *F Page 6 of 18

Truth Table

[2, 3, 4, 5, 6, 7]

Operation Add. Used CE

ADSP ADSC ADV WRITE OE CLK DQ

Deselect Cycle, Power-down None H X X L X L X X X L-H Tri-State

Deselect Cycle, Power-down None L L X L L X X X X L-H Tri-State

Deselect Cycle, Power-down None L X H L L X X X X L-H Tri-State

Deselect Cycle, Power-down None L L X L H L X X X L-H Tri-State

Deselect Cycle, Power-down None L X H L H L X X X L-H Tri-State

Snooze Mode, Power-down None X X X H X X X X X X Tri-State

READ Cycle, Begin Burst External L H L L L X X X L L-H Q

READ Cycle, Begin Burst External L H L L L X X X H L-H Tri-State

WRITE Cycle, Begin Burst External L H L L H L X L X L-H D

READ Cycle, Begin Burst External L H L L H L X H L L-H Q

READ Cycle, Begin Burst External L H L L H L X H H L-H Tri-State

READ Cycle, Continue Burst Next X X X L H H L H L L-H Q

READ Cycle, Continue Burst Next X X X L H H L H H L-H Tri-State

READ Cycle, Continue Burst Next H X X L X H L H L L-H Q

READ Cycle, Continue Burst Next H X X L X H L H H L-H Tri-State

WRITE Cycle, Continue Burst Next X X X L H H L L X L-H D

WRITE Cycle, Continue Burst Next H X X L X H L L X L-H D

READ Cycle, Suspend Burst Current X X X L H H H H L L-H Q

READ Cycle, Suspend Burst Current X X X L H H H H H L-H Tri-State

READ Cycle, Suspend Burst Current H X X L X H H H L L-H Q

READ Cycle, Suspend Burst Current H X X L X H H H H L-H Tri-State

WRITE Cycle, Suspend Burst Current X X X L H H H L X L-H D

WRITE Cycle, Suspend Burst Current H X X L X H H L X L-H D

Notes:

2. X = “Don't Care.” H = Logic HIGH, L = Logic LOW.

3. WRITE

= L when any one or more Byte Write enable signals (BW

, BW

) and BWE = L or GW= L. WRITE = H when all Byte write enable signals

(BW

, BW

), BWE, GW = H.

4. The DQ pins are controlled by the current cycle and the

signal.

is asynchronous and is not sampled with the clock.

5. CE

, CE

, and CE

are available only in the TQFP package. BGA package has only 2 chip selects CE

and CE

6. The SRAM always initiates a read cycle when ADSP

is asserted, regardless of the state of GW, BWE, or BW

[A: D]

. Writes may occur only on subsequent clocks

after the ADSP or with the assertion of ADSC. As a result,

must be driven HIGH prior to the start of the write cycle to allow the outputs to tri-state. OE is a

don't care for the remainder of the write cycle.

7. OE

is asynchronous and is not sampled with the clock rise. It is masked internally during write cycles. During a read cycle all data bits are tri-state when OE is

inactive or when the device is deselected, and all data bits behave as output when OE

is active (LOW).

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CY7C1339G-133AXE

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Manufacturer:

Cypress Semiconductor

Description:

IC SRAM 4M PARALLEL 100TQFP

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CY7C1339G-133AXE

CY7C1339G-133AXE

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