IDT71V432S7PFI8_技术文档

32Kx32CacheRAM™

3.3VSynchronousSRAM

BurstCounter

IDT71V432

SingleCycleDeselect

◆

Features

LBO input selects interleaved or linear burst mode

◆

32K x 32 memory configuration

Self-timed write cycle with global write control (GW),

byte write enable (BWE), and byte writes (BWx)

Power down controlled by ZZ input

Operates with a single 3.3V power supply (+10/-5%)

Packaged in a JEDEC Standard 100-pin rectangular

plastic thin quad flatpack (TQFP)

◆

Supports high-performance system speed:

◆

CommercialandIndustrial:

— 5nsClock-to-DataAccess(100MHz)

— 6ns Clock-to-Data Access (83MHz)

Single-cycle deselect functionality (Compatible with

◆

Micron Part # MT58LC32K32D7LG-XX)

Green parts available, see ordering information

Functional Block Diagram

LBO

ADV

INTERNAL

ADDRESS

Burst

Sequence

CE

CLK

2

Burst

Logic

32K x 32

BIT

MEMORY

ARRAY

Binary

Counter

15

ADSC

A0*

CLR

.

A1*

ADSP

A0, A1

CLK EN

2

A2–A14

ADDRESS

A

0

–A14

GW

BWE

32

15

REGISTER

15

Byte 1

Write Register

Byte 1

Write Driver

BW

1

8

Byte 2

Write Register

Byte 2

Write Driver

BW2

Byte 3

Write Register

Byte 3

Write Driver

BW

3

8

Byte 4

Write Register

Byte 4

Write Driver

BW4

OUTPUT

REGISTER

CE

Q

D

CS0

Enable

DATA INPUT

REGISTER

Register

CLK EN

CS1

Powerdown

ZZ

D

Q

Enable

Delay

Register

OUTPUT

BUFFER

OE

–I/O31

32

I/O

0

3104 drw 01

OCTOBER 2014

1

DSC-3104/08

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

CacheRAM. An internal burst address counter accepts the first

cycle address from the processor, initiating the access sequence.

The first cycle of output data will be pipelined for one cycle before

it is available on the next rising clock edge. If burst mode

operation is selected (ADV=LOW), the subsequent three cycles of

output data will be available to the user on the next three rising

clock edges. The order of these three addresses will be defined

by the internal burst counter and the LBO input pin.

The IDT71V432 CacheRAM utilizes high-performance, high-

volume 3.3V CMOS process, and is packaged in a JEDEC

Standard 14mm x 20mm 100-pin thin plastic quad flatpack

(TQFP) for optimum board density in both desktop and notebook

applications.

Description

The IDT71V432 is a 3.3V high-speed 1,048,576-bit

CacheRAM organized as 32K x 32 with full support of the

Pentium™ and PowerPC™ processor interfaces. The pipelined

burst architecture provides cost-effective 3-1-1-1 secondary

cache performance for processors up to 100 MHz.

The IDT71V432 CacheRAM contains write, data, address,

and control registers. Internal logic allows the CacheRAM to

generate a self-timed write based upon a decision which can be

left until the extreme end of the write cycle.

The burst mode feature offers the highest level of perfor-

mance to the system designer, as the IDT71V432 can provide

four cycles of data for a single address presented to the

Pin Description Summary

A0–A14

Address Inputs

Input

I/O

Synchronous

Asynchronous

Synchronous

N/A

Chip Enable

CE

CS

0, CS

1

Chips Selects

Output Enable

OE

Global Write Enable

Byte Write Enable

Individual Byte Write Selects

Clock

GW

BWE

BW^1,BW2, BW3, BW

4

CLK

Burst Address Advance

Address Status (Cache Controller)

Address Status (Processor)

Linear / Interleaved Burst Order

Sleep Mode

Synchronous

DC

ADV

ADSC

ADSP

LBO

ZZ

Asynchronous

Synchronous

DC

I/O0–I/O31

Data Input/Output

3.3V Power

V

DD

SS

Power

Ground

DC

3104 tbl 01

CacheRAM is a trademark of Integrated Device Technology.

PentiumprocessorisatrademarkofIntelCorp.

PowerPCisatrademarkofInternationalBusinessMachines,Inc.

6.42

2

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Pin Definitions⁽¹⁾

Symbol

Pin Function

I/O

Active

Description

Address Inputs

I

N/A

Synchronous Address inputs. The address register is triggered by a combination

A0–A14

of the rising edge of CLK and ADSC Low or ADSP Low and CE Low.

Address Status

(Cache Controller)

I

LOW

Synchronous Ad dress Status from Cache Controller. ADSC is an active LOW

input that is used to load the address registers with new addresses. ADSC is

NOT GATED by CE.

ADSC

Address Status

(Processor)

I

LOW

Synchronous Address Status from Processor. ADSP is an active LOW input that is

used to load the address registers with new addresses. ADSP is gated by CE.

ADSP

ADV

Burst Address Advance

Synchronous Address Advance. ADV is an active LOW input that is used to

advance the internal burst counter, co ntrolling burst access after the initial

address is loaded. When this input is HIGH the burst counter is not incremented;

that is, there is no address advance.

Byte Write Enable

I

LOW

Synchronous byte write enable gates the byte write inputs BW

LOW at the rising edge of CLK then BW inputs are passed to the next stage in

the circuit. A byte write can still be blocked if ADSP is LOW at the rising edge of

is LOW at the rising edge of CLK then data will

be written to the SRAM. If BWE is HIGH then the byte write inputs are blocked

and only GW can initiate a write cycle.

1

–BW

4

. If BWE is

BWE

X

CLK. If ADSP is HIGH and BW

X

Individual Byte

Write Enables

Synchronous byte write enables. BW

etc. Any active byte write causes all outputs to be disabled. ADSP LOW

disables all byte writes. BW –BW must meet specified setup and hold times

with respect to CLK.

1

controls I/O(7:0), BW2 controls I/O(15:8),

BW1

- BW

4

1

4

Chip Enable

Clock

I

LOW

N/A

Synchronous chip enable. CE is used with CS

IDT71V432. CE also gates ADSP.

0

and CS1 to enable the

CE

CLK

This is the clock input to the IDT71V432. All timing referenc es for the device are

made with respect to this input.

Chip Select 0

Chip Select 1

HIGH

LOW

Synchronous active HIGH chip select. CS

the chip.

0

is used with CE and CS

1

to enable

CS

0

Synchronous active LOW chip select. CS

1

is used with CE and CS

0

to enable

CS1

the chip.

Synchronous global write enable. This input will write all four 8-bit data bytes

when LOW on the rising edge of CLK. GW supercedes individual byte write

enables.

Global Write Enable

I

LOW

GW

Data Input/Output

Linear Burst Order

I/O

I

N/A

Synchronous data input/output (I/O) pins. Both the data input path and data output

path are registered and triggered by the rising edge of CLK.

I/O0–I/O31

LOW

Asynchronous burst order sele ction DC input. When LBO is HIGH the Interleaved

(Intel) burst sequence is selected. When LBO is LOW the Linear (PowerPC) burst

sequence is selected. LBO is a static DC input and must not change state while

the device is operating.

LBO

OE

Output Enable

I

LOW

Asynchronous output enable. When OE is LOW the data output drivers are

enabled on the I/O pins. OE is gated internally by a delay circuit driven by CE,

CS

0

, and CS1. In dual-bank mode, when the user is utilizing two banks of

IDT71V432 and toggling back and forth between them using CE, the internal

delay circuit delays the OE activation of the data output drivers by one cycle to

prevent bus contention between the banks. When used in single bank mode CE,

CS

0

, and CS are all tied active and there is no output enable delay. When OE is

1

HIGH the I/O pins are in a high-impedence state.

3.3V power supply inputs.

Ground pins.

V

DD

SS

Power Supply

Ground

N/A

I

N/A

ZZ

Sleep Mode

HIGH

Asynchronous sleep mode input. ZZ HIGH will gate the CLK internally and power

down the IDT71V432 to its lowest power consumption level. Data retention is

guaranteed in Sleep Mode.

3104 tbl 02

NOTE:

1. All synchronous inputs must meet specified setup and hold times with respect to CLK.

6.42

3

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Absolute Maximum Ratings⁽¹⁾

RecommendedOperating

TemperatureandSupplyVoltage

Symbol

Rating

Value

Unit

Grade

Commercial

Industrial

Temperature

0°C to +70°C

–40°C to +85°C

V

SS

VDD

(2)

Terminal Voltage with

Respect to GND

–0.5 to +4.6

V

TERM

0V

3.3V+10/-5%

(3)

TERM

Terminal Voltage with

Respect to GND

–0.5 to VDD+0.5

V

3104 tbl 03

T

P

A

Operating Temperature

Temperature Under Bias

Storage Temperature

Power Dissipation

0 to +70

–55 to +125

1.0

^oC

W

BIAS

STG

T

RecommendedDCOperating

Conditions

I

OUT

DC Output Current

50

mA

Symbol Parameter

Min.

3.135

0

Typ.

3.3

0

Max.

3.63

0

Unit

V

3104 tbl 05

V

DD

SS

IH

Supply Voltage

NOTES:

1. Stresses greater than those listed under ABSOLUTE MAXIMUM RATINGS may

cause permanent damage to the device. This is a stress rating only and functional

operation of the device at these or any other conditions above those indicated

in the operational sections of this specification is not implied. Exposure to absolute

maximum rating conditions for extended periods may affect reliability.

2. VDD and Input terminals only.

Ground

V

Input High Voltage — Inputs

Input High Voltage — I/O

Input Low Voltage

2.0

—

4.6⁽²⁾

DD+0.3

0.8

V

IH

2.0

—

V

IL

–0.5⁽¹⁾

—

V

3. I/O terminals.

3104 tbl 04

NOTES:

1. VIL (min) = –1.0V for pulse width less than tCYC/2, once per cycle.

2. VIH (max) = 6.0V for pulse width less than tCYC/2, once per cycle.

Capacitance

(TA = +25°C, f = 1.0MHz, TQFP package)

Symbol

Parameter⁽¹⁾

Input Capacitance

I/O Capacitance

Conditions

IN = 3dV

OUT = 3dV

Max. Unit

C

IN

V

6

7

pF

I/O

V

pF

3104 tbl 06

NOTE:

1. This parameter is guaranteed by device characterization, but not production

tested.

6.42

4

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

PinConfiguration

TopViewTQFP

NOTES:

1. Pin 14 can either be directly connected to VDD or not connected.

2. Pin 64 can be left unconnected and the device will always remain in active mode.

6.42

5

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

SynchronousTruthTable^(1,2)

Address

Used

Operation

Deselected Cycle, Power Down

Read Cycle, Begin Burst

CS

X

L

0

CLK

↑

I/O

CE

H

L

CS

X

H

X

H

X

L

1

ADSP ADSC ADV

GW

X

H

L

BWE

X

H

L

BW

X

H

L

X

OE⁽³⁾

X

L

None

X

L

X

L

Hi-Z

None

X

L

None

L

None

L

X

L

X

L

None

L

External

H

X

L

DOUT

Read Cycle, Begin Burst

L

H

L

Hi-Z

Read Cycle, Begin Burst

L

H

X

H

X

H

X

H

X

DOUT

Read Cycle, Begin Burst

L

DOUT

Read Cycle, Begin Burst

L

H

X

L

Hi-Z

Write Cycle, Begin Burst

L

D

IN

Write Cycle, Begin Burst

L

X

H

X

H

X

L

X

H

X

H

L

D

Read Cycle, Continue Burst

Write Cycle, Continue Burst

Read Cycle, Suspend Burst

Write Cycle, Suspend Burst

X

H

X

H

X

H

X

H

X

H

L

DOUT

H

L

Hi-Z

DOUT

H

L

Hi-Z

DOUT

H

L

Hi-Z

DOUT

H

X

L

Hi-Z

DIN

X

L

X

L

H

L

X

H

X

H

X

L

X

H

X

H

L

Current

H

L

DOUT

H

L

Hi-Z

DOUT

H

L

Hi-Z

DOUT

H

L

Hi-Z

DOUT

H

X

Hi-Z

DIN

X

L

X

L

H

L

X

3104 tbl 07

NOTES:

1. L = VIL, H = VIH, X = Don’t Care.

2. ZZ = LOW for this table.

3. OE is an asynchronous input.

6.42

6

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Synchronous Write Function Truth Table⁽¹⁾

Operation

GW

BWE

BW1

BW2

BW3

BW4

Read

H

L

X

L

X

H

X

L

X

H

X

L

X

H

X

L

X

H

X

L

H

Write all Bytes

Write Byte 1⁽²⁾

Write Byte 2⁽²⁾

Write Byte 3⁽²⁾

Write Byte 4⁽²⁾

L

H

L

H

L

H

L

H

L

H

3104 tbl 08

NOTES:

1. L = VIL, H = VIH, X = Don’t Care.

2. Multiple bytes may be selected during the same cycle.

AsynchronousTruthTable⁽¹⁾

Operation⁽²⁾

OE

ZZ

I/O Status

Data Out (I/O - I/O31)

Power

Active

Read

L

0

H

X

L

High-Z

High-Z — Data In (I/O

High-Z

Write

L

0 - I/O31)

Deselected

Sleep

X

L

Standby

Sleep

X

H

High-Z

3104 tbl 09

NOTES:

1. L = VIL, H = VIH, X = Don’t Care.

2. Synchronous function pins must be biased appropriately to satisfy operation requirements.

InterleavedBurstSequenceTable(LBO=V^DD)

Sequence 1

Sequence 2

Sequence 3

Sequence 4

A1

0

A0

0

A1

0

A0

1

A1

1

A0

0

A1

1

A0

1

First Address

Second Address

Third Address

Fourth Address⁽¹⁾

NOTE:

0

1

0

1

0

1

0

1

0

1

0

1

0

3104 tbl 10

1. Upon completion of the Burst sequence the counter wraps around to its initial state.

Linear Burst Sequence Table (LBO=VSS)

Sequence 1

Sequence 2

Sequence 3

Sequence 4

A1

0

A0

0

A1

0

A0

1

A1

1

A0

0

A1

1

A0

1

First Address

Second Address

Third Address

Fourth Address⁽¹⁾

NOTE:

0

1

0

1

0

1

0

1

0

1

0

1

0

3104 tbl 11

1. Upon completion of the Burst sequence the counter wraps around to its initial state.

6.42

7

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

DC Electrical Characteristics Over the Operating Temperature and

Supply Voltage Range(VDD = 3.3V +10/-5%, Commercial and Industrial Temperature Ranges)

Unit

µA

V

Symbol

Parameter

Test Conditions

DD = Max., VIN = 0V to VDD

Min.

Max.

|I^LI

|

Input Leakage Current

V

—

5

|I^LI

ZZ and LBO Input Leakage Current^{(1 )}

—

30

5

|I^LO

|

Output Leakage Current

—

CE > VIH or OE > VIH, VOUT = 0V to VDD, VDD = Max.

V

OL

Output Low Voltage (I/O

1

–I/O31

)

I

OL = 5mA, VDD = Min.

OH = –5mA, VDD = Min.

—

0.4

—

V

OH

Output High Voltage (I/O

1

–I/O31

)

I

2.4

V

3104 tbl 12

NOTE:

1. The LBO pin will be internally pulled to VDD if it is not actively driven in the application and the ZZ pin will be internally pulled to VSS if not actively driven.

DC Electrical Characteristics Over the Operating Temperature and

Supply Voltage Range⁽¹⁾(VDD = 3.3V +10/-5%, VHD = VDD–0.2V, VLD = 0.2V)

IDT71V432S5 IDT71V432S6

Unit

Symbol

Parameter

Test Conditions

Com'l. Ind. Com'l. Ind.

I

DD

SB

Operating Power Supply Current

Device Selected, Outputs Open, VDD = Max.,

200

180

180 mA

(2)

V

IN > VIH or < VIL, f = fMAX

I

Standby Power Supply Current

Device Deselected, Outputs Open, VDD = Max.,

65

60

15

10

mA

(2)

VIN > VIH or < VIL, f = fMAX

I

SB1

Full Standby Power Supply Current

Device Deselected, Outputs Open, VDD = Max.,

15

V

IN > VHD or < VLD, f = 0⁽²⁾

I

ZZ

Full Sleep Mode Power Supply Current ZZ > VHD, VDD = Max.

10

3104 tbl 13a

NOTES:

1. All values are maximum guaranteed values.

2. At f = fMAX, inputs are cycling at the maximum frequency of read cycles of 1/tCYC while ADSC = LOW; f=0 means no input lines are changing.

AC Test Loads

+3.3V

+1.5V

317Ω

50Ω

I/O

Z0 = 50Ω

5pF*

351Ω

3104 drw 03

Figure 1. AC Test Load

3104 drw 04

* Including scope and jig capacitance.

6

5

4

3

2

1

Figure 2. AC Test Load

(for tOHZ, tCHZ, tOLZ, and tDC1)

ΔtCD

(Typical, ns)

AC Test Conditions

Input Pulse Levels

0 to 3.0V

Input Rise/Fall Times

2ns

1.5V

20 30 50

80 100

Capacitance (pF)

200

Input Timing Reference Levels

Output Timing Reference Levels

AC Test Load

1.5V

3104 drw 05

See Figures 1 and 2

Figure 3. Lumped Capacitive Load, Typical Derating

3104 tbl 14

6.42

8

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

AC Electrical Characteristics

(VDD = 3.3V +10/-5%, Commercial and Industrial Temperature Ranges)

71V432S5

71V432S6

Min.

Max.

Min.

Max.

Symbol

Parameter

Unit

CLOCK PARAMETERS

____

t

CYC

(1)

Clock Cycle Time

10

4

12

4.5

ns

CH

(1)

Clock High Pulse Width

Clock Low Pulse Width

CL

4

OUTPUT PARAMETERS

____

t

CD

Clock High to Valid Data

5

6

ns

____

CDC

Clock High to Data Change

Clock High to Output Active

Clock High to Data High-Z

1.5

0

2

0

(2)

____

CLZ

CHZ

OE

(2)

1.5

5

2

5

____

Output Enable Access Time

Output Enable Low to Data Active

Output Enable High to Data High-Z

5

(2)

____

OLZ

0

(2)

____

OHZ

4

5

SETUP TIMES

____

t

SA

Address Setup Time

2.5

ns

SS

Address Status Setup Time

Data in Setup Time

SD

SW

SAV

SC

Write Setup Time

Address Advance Setup Time

Chip Enable/Select Setup Time

HOLD TIMES

____

t

HA

Address Hold Time

0.5

ns

HS

Address Status Hold Time

Data In Hold Time

HD

HW

HAV

HC

Write Hold Time

Address Advance Hold Time

Chip Enable/Select Hold Time

SLEEP MODE AND CONFIGURATION PARAMETERS

____

t

ZZPW

ZZ Pulse Width

100

40

—

100

50

ns

(3)

ZZR

ZZ Recovery Time

Configuration Set-up Time

(4)

CFG

ns

3104 tbl 15a

NOTES:

1. Measured as HIGH above 2.0V and LOW below 0.8V.

2. Transition is measured ±200mV from steady-state.

3. Device must be deselected when powered-up from sleep mode.

4. tCFG is the minimum time required to configure the device based on the LBO input. LBO is a static input and must not change during normal operation.

6.42

9

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Timing Waveform of Pipelined Read Cycle^(1,2)

6.42

10

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Timing Waveform of Combined Pipelined Read and Write Cycles^(1,2,3)

6.42

11

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Timing Waveform of Write Cycle No. 1 — GW Controlled^(1,2,3)

.

6.42

12

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Timing Waveform of Write Cycle No. 2 — Byte Controlled^(1,2,3)

6.42

13

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Timing Waveform of Sleep (ZZ) and Power-Down Modes^(1,2,3)

6.42

14

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

Non-Burst Read Cycle Timing Waveform^(1,2,3,4)

CLK

ADSP or ADSC

Av

Aw

Ax

Ay

Az

ADDRESS

DATA^OUT

(Av)

(Aw)

(Ax)

(Ay)

3104 drw 11

NOTES:

1. ZZ, CE, CS¹, and OE are LOW for this cycle.

2. ADV, GW, BWE, BWx, and CS0 are HIGH for this cycle.

3. (Ax) represents the data for address Ax, etc.

4. For read cycles, ADSP and ADSC function identically and are therefore interchangeable.

Non-Burst Write Cycle Timing Waveform^(1,2,3,4)

CLK

ADSP

ADSC

Av

Aw

Ax

Ay

Az

ADDRESS

GW or

BWE and BWx

(Av)

(Aw)

(Ax)

(Ay)

(Az)

DATA^IN

3104 drw 12

NOTES:

1. ZZ, CE and CS¹are LOW for this cycle.

2. ADV, OE and CS0 are HIGH for this cycle.

3. (AX) represents the data for address AX, etc.

4. For write cycles, ADSP and ADSC have different limitations.

6.42

15

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

OrderingInformation

6.42

16

IDT71V432, 32K x 32 CacheRAM

3.3V Synchronous SRAM with Burst Counter, Single Cycle Deselect

Commercial and Industrial Temperature Ranges

DatasheetDocumentHistory

9/10/99

Updated to new format

Pg. 3–5

Pg. 5

Pg. 11–14

Pg. 17

Adjusted page layout, added extra page

Added notes to pin configuration

Revised notes

Added Datasheet Document History

03/09/00 Pg. 1, 4, 8, 9, 16 Added Industrial temperature range offerings

04/04/00

08/09/00

08/17/01

03/31/05 Pg. 17

08/01/14 Pg. 1-3

Pg. 16

Added100pinTQFPpackageDiagramOutline

Added “Not recommended for new designs”

Removed “Not recommended for new designs” from the background on the datasheet

Added RoHS “Restricted Hazardous Substance Device” to ordering information

Moved the FBD, the pin description and pin definition tables to pages 1 - 3 respectively to

align the datasheet reading flow to that of our other established datasheets

In the Ordering Information, Tape & Reel added & RoHS designation changed to Green

Removed 7ns Clock-to-Data Access (66MHz). and added green availability in Features

Moved notes regarding IDT’s use of the CacheRAM, the Pentium processor & the PowerPC

terminology

Pg. 17

10/03/14 Pg. 1

Pg. 1-2

Pg. 2

Pg. 5

Pg. 8

Pg. 9

Pg. 16

Removed the reference to IDT with regards to the CMOS process

The package code PK100-1 changed to PK100 to match standard package codes

Removed IDT71V432S7 speed grade offering in the DC Chars table

Removed 71V432S7 speed grade offering in the AC Chars table

Removed TQFP Package Diagram Outline

In the Ordering Information, PK100-1 package code changed to PK100 and 7ns speed

grade was removed

Pg. 17

Updated Customer’s SRAM Tech Support phone number and email address

CORPORATE HEADQUARTERS

6024 Silver Creek Valley Road

San Jose, CA 95138

for SALES:

for Tech Support:

408-284-4532

sramhelp@idt.com

800-345-7015 or

408-284-8200

fax: 408-284-2775

www.idt.com

The IDT logo is a registered trademark of Integrated Device Technology, Inc.

6.42

17


型号：	IDT71V432S7PFI8
厂家：	INTEGRATED DEVICE TECHNOLOGY
描述：	Cache SRAM, 32KX32, 7ns, CMOS, PQFP100, 14 X 20 MM, 1.40 MM HEIGHT, POWER, PLASTIC, TQFP-100 时钟静态存储器内存集成电路
文件：	总17页 (文件大小：242K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

IDT71V432S7PFI8 [IDT]

相关型号：

IDT71V432S8PF

IDT71V432S8PF9

IDT71V432S8PFG

IDT71V432S8PFG8

IDT71V432S9PF

IDT71V432S9PF8

IDT71V432SA6PF

IDT71V433

IDT71V433S11PF

IDT71V433S11PF8

IDT71V433S11PF9

IDT71V433S11PFG8