71V016SA10PHG8 - INTEGRATED DEVICE TECHNOLOGY

AUGUST 2013

1

Features

◆◆

◆64K x 16 advanced high-speed CMOS Static RAM

◆◆

◆Equal access and cycle times

— Commercial: 10/12/15/20ns

— Industrial: 10/12/15/20ns

◆◆

◆One Chip Select plus one Output Enable pin

◆◆

◆Bidirectional data inputs and outputs directly

LVTTL-compatible

◆◆

◆Low power consumption via chip deselect

◆◆

◆Upper and Lower Byte Enable Pins

◆◆

◆Single 3.3V power supply

◆◆

◆Available in 44-pin Plastic SOJ, 44-pin TSOP, and

48-Ball Plastic FBGA packages

Description

The IDT71V016 is a 1,048,576-bit high-speed Static RAM organized

as 64K x 16. It is fabricated using high-perfomance, high-reliability CMOS

technology. This state-of-the-art technology, combined with innovative

circuit design techniques, provides a cost-effective solution for high-speed

memory needs.

The IDT71V016 has an output enable pin which operates as fast as

5ns, with address access times as fast as 10ns. All bidirectional inputs and

outputs of the IDT71V016 are LVTTL compatible and operation is from a

single 3.3V supply. Fully static asynchronous circuitry is used, requiring

no clocks or refresh for operation.

The IDT71V016 is packaged in a JEDEC standard 44-pin Plastic SOJ,

a 44-pin TSOP Type II, and a 48-ball plastic 7 x 7 mm FBGA.

Functional Block Diagram

Output

Enable

Buffer

Address

Buffers

Chip

Enable

Buffer

Write

Enable

Buffer

Byte

Enable

Buffers

OE

A0–A15 Row / Column

Decoders

CS

WE

BHE

BLE

64K x 16

Memory

Array

Sense

Amps

and

Write

Drivers

16

Low

Byte

I/O

Buffer

8

I/O8

I/O15

I/O7

I/O0

3834 drw 01

High

Byte

I/O

Buffer

3.3V CMOS Static RAM

1 Meg (64K x 16-Bit) IDT71V016SA

2

IDT71V016SA, 3.3V CMOS Static RAM

1 Meg (64K x 16-Bit) Commercial and Industrial Temperature Ranges

123456

ABLE OE A

0

A

1

A

2

NC

B I/O

8

BHE A

3

A

4

CS I/O

0

C I/O

9

I/O

10

A

5

A

6

I/O

1

I/O

2

DV

SS

I/O

11

NC A

7

I/O

3

V

DD

EV

DD

I/O

12

NC NC I/O

4

V

SS

F I/O

14

I/O

13

A

14

A

15

I/O

5

I/O

6

G I/O

15

NC A

12

A

13

WE I/O

7

HNC A

8

A

9

A

10

A

11

NC

3834 tbl 02a

Pin Configurations

SOJ/TSOP

Top View

Pin Description

Truth Table(1)

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

I/O

7

NC

A

12

A

13

A

14

A

15

WE

I/O

6

I/O

5

I/O

4

V

SS

V

DD

I/O

3

I/O

2

I/O

1

I/O

0

CS

A

0

A

1

A

2

A

3

A

4

44

43

42

41

40

39

38

37

36

35

34

33

32

31

30

29

28

27

26

25

24

23

A

6

A

7

OE

BHE

BLE

I/O

15

I/O

14

I/O

13

I/O

12

V

SS

V

DD

I/O

11

I/O

10

I/O

9

I/O

8

A

8

A

9

A

10

A

11

NC

A

5

NC

SO44-1

SO44-2

3834 drw 02

NOTE:

1. H = VIH, L = VIL, X = Don't care.

CS OE WE BLE BHE I/O

0

-I/O

7

I/O

8

-I/O

15

Function

H X X X X High-Z High-Z Deselected – Standby

LLH L H DATA

OUT

High -Z Low Byte Read

L L H H L High-Z DATA

OUT

High Byte Read

LLH L L DATA

OUT

DATA

OUT

Word Read

LXL L L DATA

IN

DATA

IN

Word Write

LXL L H DATA

IN

High-Z Low By te Write

L X L H L High-Z DATA

IN

High Byte Write

L H H X X High-Z High-Z Outputs Disabled

L X X H H High-Z High-Z Outputs Disabled

3834 tbl 02

FBGA (BF48-1)

Top View

3

IDT71V016SA, 3.3V CMOS Static RAM

1 Meg (64K x 16-Bit) Commercial and Industrial Temperature Ranges

Symbol Parameter

71V016SA10 71V016SA12 71V016SA15 71V016SA20

Unit

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

I

CC

Dynamic Operating Current

CS ≤ V

LC

, Outp uts Ope n, V

DD

= Max., f = f

MAX

(3)

Max. 160 170 150 160 130 130 120 120 mA

Typ.(4) 65 -- 60 -- 55 -- 50 --

I

SB

Dynamic Standby Po we r Supply Current

CS ≥ V

HC

, Outputs Open, V

DD

= Max., f = f

MAX

(3)

45 50 40 45 35 35 30 30 mA

I

SB1

Full Stand b y Po we r Sup pl y Current (static)

CS ≥ V

HC

, Outputs Open, V

DD

= Max., f = 0

(3)

10 10 10 10 10 10 10 10 mA

3834 tb l 08

Absolute Maximum Ratings(1) Recommended Operating

Temperature and Supply Voltage

DC Electrical Characteristics

(VDD = Min. to Max., Commercial and Industrial Temperature Ranges)

Capacitance

(TA = +25°C, f = 1.0MHz, SOJ package)

Recommended DC Operating

Conditions

DC Electrical Characteristics(1,2)

(VDD = Min. to Max., VLC = 0.2V, VHC = VDD – 0.2V)

NOTE:

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.

NOTES:

1. For 71V016SA10 only.

2. For all speed grades except 71V016SA10.

3. VIH (max.) = VDD+2V for pulse width less than 5ns, once per cycle.

4. VIL (min.) = –2V for pulse width less than 5ns, once per cycle.

NOTE:

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

NOTES:

1. All values are maximum guaranteed values.

2. All inputs switch between 0.2V (Low) and VDD – 0.2V (High).

3. fMAX = 1/tRC (all address inputs are cycling at fMAX); f = 0 means no address input lines are changing .

4. Typical values are based on characterization data for H step only measured at 3.3V, 25°C and with equal read and write cycles.

Symbol Rating Value Unit

V

DD

Supply Voltag e Relative to V

SS

–0. 5 to + 4. 6 V

V

IN

, V

OUT

Te rminal Voltag e Relative to V

SS

–0.5 to V

DD

+0.5 V

T

BIAS

Temperature Under Bias –55 to +125

o

C

T

STG

Sto rage Te mp e rature –55 to +125

o

C

P

T

Po we r Di ss ip atio n 1.2 5 W

I

OUT

DC O u tp ut Curren t 50 m A

3834 tbl 03

Grade Temperature V

SS

V

DD

Commercial 0°C to +70°C 0V See Be low

Industrial -40°C to +85°C 0V See Below

3834 tbl 04

Symbol Parameter Min. Typ. Max. Unit

V

DD

(1)

Supply Voltage 3.15 3.3 3.6 V

V

DD

(2)

Supply Voltage 3.0 3.3 3. 6 V

Vss Ground 0 0 0 V

V

IH

In put High Volt age 2. 0

____

V

DD

+0.3

(3)

V

IL

In put Low Volt age –0.3

(4)

____

0.8 V

3834 tbl 05

Symbol Parameter

(1)

Conditions Max. Unit

C

IN

Inpu t C apacit ance V

IN

= 3dV 6 pF

C

I/O

I/O Capacitance V

OUT

= 3dV 7 pF

3834 tbl 06

Symbol Parameter Test Condition

IDT71V016SA

UnitMin. Max.

|I

LI

| I nput Le akage Current V

DD

= Max., V

IN

= V

SS

to V

DD

___

5µA

|I

LO

| O utput Leakage Current V

DD

= Max., CS = V

IH

, V

OUT

= V

SS

to V

DD

___

5µA

V

OL

O utput Lo w Volt age I

OL

= 8m A, V

DD

= M in.

___

0.4 V

V

OH

O utput H igh Volt age I

OH

= –4mA, V

DD

= M in. 2.4

___

V

3834 tbl 07

4

IDT71V016SA, 3.3V CMOS Static RAM

1 Meg (64K x 16-Bit) Commercial and Industrial Temperature Ranges

AC Test Conditions

AC Test Loads

Figure 3. Output Capacitive Derating

Figure 1. AC Test Load Figure 2. AC Test Load

(for t CLZ, tOLZ, tCHZ, tOHZ, tOW, and tWHZ)

*Including jig and scope capacitance.

+1.5V

50Ω

I/O Z

0

=50Ω

3834 drw 03

30pF

3834 drw 04

320Ω

350Ω5pF*

DATA OUT

3.3V

1

2

3

4

5

6

7

20 40 60 80 100 120 140 160 180 200

Δt

AA,

t

ACS

(Typical, ns)

CAPACITANCE (pF)

8

3834 drw 05

•

Input Pulse Lev els

Input Rise/Fall Tim es

Input Tim ing Ref erence Levels

Output Reference Levels

AC Test Load

GND to 3.0V

1.5ns

1.5V

See Figure 1, 2 and 3

3834 tbl 09

5

IDT71V016SA, 3.3V CMOS Static RAM

1 Meg (64K x 16-Bit) Commercial and Industrial Temperature Ranges

71V016SA10 71V016SA12 71V016SA15 71V016SA20

Symbol Parameter Min. Max. Min. Max. Min. Max. Min. Max. Unit

READ CYCLE

t

RC

Re ad Cyc le Ti me 10 ____ 12 ____ 15 ____ 20 ____ ns

t

AA

Address Access Time ____ 10 ____ 12 ____ 15 ____ 20 ns

t

ACS

Chip Select Access Time ____ 10 ____ 12 ____ 15 ____ 20 ns

t

CLZ

(1)

Chip S el e c t Lo w to Outp ut in Lo w-Z 4 ____ 4____ 5____ 5____ ns

t

CHZ

(1)

Chip S el e c t Hi g h to Outp ut i n Hig h-Z ____ 5____ 6____ 6____ 8ns

t

OE

Outp ut Enab l e Lo w to Outp ut Val id ____ 5____ 6____ 7____ 8ns

t

OLZ

(1)

Outp ut Enab l e Lo w to Outp ut in Lo w-Z 0 ____ 0____ 0____ 0____ ns

t

OHZ

(1)

Outp ut E nab l e Hig h to Outp ut in Hi g h-Z ____ 5____ 6____ 6____ 8ns

t

OH

Outp ut Ho l d fro m A d d re ss Chang e 4 — 4 — 4 — 4 — ns

t

BE

Byte E nab le Lo w to Outp ut Vali d — 5 — 6 — 7 ____ 8ns

t

BLZ

(1)

Byte Enable Low to Outp ut in Lo w-Z 0 ____ 0____ 0____ 0____ ns

t

BHZ

(1)

Byte E nab le Hi g h to Outp ut in Hig h-Z ____ 5____ 6____ 6____ 8ns

WRITE CYCLE

t

WC

Write Cycle Time 10 ____ 12 ____ 15 ____ 20 ____ ns

t

AW

Address Valid to End of Write 7 ____ 8____ 10 ____ 12 ____ ns

t

CW

Chip S el e c t Lo w to End o f Wri te 7 ____ 8____ 10 ____ 12 ____ ns

t

BW

Byte Enable Low to End of Write 7 ____ 8____ 10 ____ 12 ____ ns

t

AS

Address Set-up Time 0 ____ 0____ 0____ 0____ ns

t

WR

Address Hold from End of Write 0 ____ 0____ 0____ 0____ ns

t

WP

Write P ulse Width 7 ____ 8____ 10 ____ 12 ____ ns

t

DW

Data Valid to End of Write 5 ____ 6____ 7____ 9____ ns

t

DH

Data Hol d Ti me 0 ____ 0____ 0____ 0____ ns

t

OW

(1)

Write E nab le Hi g h to Outp ut in Lo w-Z 3 ____ 3____ 3____ 3____ ns

t

WHZ

(1)

Write E nable Low to Outp ut in Hig h-Z ____ 5____ 6____ 6____ 8ns

3834 tb l 10

Timing Waveform of Read Cycle No. 1(1,2,3)

NOTES:

1. WE is HIGH for Read Cycle.

2. Device is continuously selected, CS is LOW.

3. OE, BHE, and BLE are LOW.

AC Electrical Characteristics (VDD = Min. to Max., Commercial and Industrial Temperature Ranges)

DATA

OUT

ADDRESS

3834 drw 06

t

RC

t

AA

t

OH

t

OH

DATA

OUT

VALID

PREVIOUS DATA

OUT

VALID

NOTE:

1. This parameter is guaranteed with the AC Load (Figure 2) by device characterization, but is not production tested.

6

IDT71V016SA, 3.3V CMOS Static RAM

1 Meg (64K x 16-Bit) Commercial and Industrial Temperature Ranges

Timing Wavefor m of Read Cycle No. 2(1)

NOTES:

1. A write occurs during the overlap of a LOW CS, LOW BHE or BLE, and a LOW WE.

2. OE is continuously HIGH. If during a WE controlled write cycle OE is LOW, tWP must be greater than or equal to tWHZ + tDW to allow the I/O drivers to turn off and data to be placed

on the bus for the required tDW. If OE is HIGH during a WE controlled write cycle, this requirement does not apply and the minimum write pulse is as short as the specified tWP.

3. During this period, I/O pins are in the output state, and input signals must not be applied.

4. If the CS LOW or BHE and BLE LOW transition occurs simultaneously with or after the WE LOW transition, the outputs remain in a high-impedance state.

5. Transition is measured ±200mV from steady state.

Timing Waveform of Write Cycle No. 1 (WE Controlled Timing)(1,2,4)

NOTES:

1. WE is HIGH for Read Cycle.

2. Address must be valid prior to or coincident with the later of CS, BHE, or BLE transition LOW; otherwise tAA is the limiting parameter.

3. Transition is measured ±200mV from steady state.

ADDRESS

OE

CS

DATA

OUT

3834 drw 07

(3)

DATA VALID

t

AA

t

RC

t

OE

t

OLZ

t

CHZ

t

OHZ

OUT

BHE,BLE

(3)

t

ACS

(3)

t

BLZ

t

CLZ

(2)

t

BE

t

OH

t

BHZ

(3)

(2)

ADDRESS

CS

DATA

IN

3834 drw 08

(5)

DATA

IN

VALID

t

WC

t

AS

t

WHZ

(2)

t

CW

t

CHZ

t

OW

t

WR

WE

t

AW

DATA

OUT

t

DW

t

DH

PREVIOUS DATA VALID DATA VALID

BHE

,

BLE

t

BW

t

WP

(5)

t

BHZ

(3)

7

IDT71V016SA, 3.3V CMOS Static RAM

1 Meg (64K x 16-Bit) Commercial and Industrial Temperature Ranges

Timing Waveform of Write Cycle No. 2 (CS Controlled Timing)(1,4)

NOTES:

1. A write occurs during the overlap of a LOW CS, LOW BHE or BLE, and a LOW WE.

2. OE is continuously HIGH. If during a WE controlled write cycle OE is LOW, tWP must be greater than or equal to tWHZ + tDW to allow the I/O drivers to turn off and data to be placed

on the bus for the required tDW. If OE is HIGH during a WE controlled write cycle, this requirement does not apply and the minimum write pulse is as short as the specified tWP.

3. During this period, I/O pins are in the output state, and input signals must not be applied.

4. If the CS LOW or BHE and BLE LOW transition occurs simultaneously with or after the WE LOW transition, the outputs remain in a high-impedance state.

5. Transition is measured ±200mV from steady state.

Timing Waveform of Write Cycle No. 3 (BHE, BLE Controlled Timing)(1,4)

ADDRESS

CS

DATA

IN

3834 drw 09

DATA

IN

VALID

t

WC

t

AS (2)

t

CW

t

WR

WE

t

AW

DATA

OUT

t

DW

t

DH

BHE,BLE

t

BW

t

WP

ADDRESS

CS

DATA

IN

3834 drw 10

DATA

IN

VALID

t

WC

t

AS

(2)

t

CW

t

WR

WE

t

AW

DATA

OUT

t

DW

t

DH

BHE, BLE

t

BW

t

WP

8

IDT71V016SA, 3.3V CMOS Static RAM

1 Meg (64K x 16-Bit) Commercial and Industrial Temperature Ranges

Ordering Information

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

Datasheet Document History

9

IDT71V016SA, 3.3V CMOS Static RAM

1 Meg (64K x 16-bit) Commercial and Industrial Temperature Ranges

CORPORATE HEADQUARTERS for SALES:

6024 Silver Creek Valley Road 800-345-7015 or

San Jose, CA 95138 408-284-8200

fax: 408-284-2775

www.idt.com

for Tech Support:

sramhelp@idt.com

408-284-4532

01/07/00 Updated to new format

Pg. 1, 3, 5, 8 Added Industrial Temperature range offerings

Pg. 2 Numbered I/Os and address pins on FBGA Top View

Pg. 6 Revised footnotes on Write Cycle No. 1 diagram

Pg. 7 Revised footnotes on Write Cycle No. 2 and No. 3 diagrams

Pg. 9 Added Datasheet Document History

08/30/00 Pg. 3 Tighten ICC and ISB.

Pg. 5 Tighten tCLZ, tCHZ, tOHZ, tBHZ and tWHZ

08/22/01 Pg. 8 Removed footnote "available in 15ns and 20ns only"

06/20/02 Pg. 8 Added tape and reel field to ordering information

01/30/04 Pg. 8 Added "Restricted hazardous substance device" to ordering information.

09/27/06 Pg. 8 Corrected ordering information, changed position of I and G.

02/14/07 Pg.8 Added H step generation to data sheet ordering information.

06/26/07 Pg.3 Changed typical parameters for ICC, DC electrical characteristics table.

10/13/08 Pg.8 Removed "IDT" from orderable part number

10/11/11 Pg.1,8 Updated datasheet with removal of Obsolete HSA part number.

08/13/13 Pg.1,3,5,8 Added 10ns for Industrial Temperature range offerings.