GS8161E18GT-133IT_技术文档

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

250 MHz–133 MHz

100-Pin TQFP & 165-Bump BGA

Commercial Temp

Industrial Temp

1M x 18, 512K x 32, 512K x 36

18Mb Sync Burst SRAMs

2.5 V or 3.3 V V

DD

2.5 V or 3.3 V I/O

with the Linear Burst Order (LBO) input. The Burst function need not

be used. New addresses can be loaded on every cycle with no

degradation of chip performance.

Features

• FT pin for user-configurable flow through or pipeline

operation

• Dual Cycle Deselect (DCD) operation

• IEEE 1149.1 JTAG-compatible Boundary Scan

• 2.5 V or 3.3 V +10%/–10% core power supply

• 2.5 V or 3.3 V I/O supply

• LBO pin for Linear or Interleaved Burst mode

• Internal input resistors on mode pins allow floating mode pins

• Default to Interleaved Pipeline mode

• Byte Write (BW) and/or Global Write (GW) operation

• Internal self-timed write cycle

• Automatic power-down for portable applications

• JEDEC-standard 100-lead TQFP and 165-bump BGA

packages

Flow Through/Pipeline Reads

The function of the Data Output register can be controlled by the user

via the FT mode pin (Pin 14). Holding the FT mode pin low places the

RAM in Flow Through mode, causing output data to bypass the Data

Output Register. Holding FT high places the RAM in Pipeline mode,

activating the rising-edge-triggered Data Output Register.

DCD Pipelined Reads

The GS8161E18(T/D)/GS8161E32(D)/GS8161E36(T/D) is a DCD

(Dual Cycle Deselect) pipelined synchronous SRAM. SCD (Single

Cycle Deselect) versions are also available. DCD SRAMs pipeline

disable commands to the same degree as read commands. DCD

RAMs hold the deselect command for one full cycle and then begin

turning off their outputs just after the second rising edge of clock.

Functional Description

Byte Write and Global Write

Byte write operation is performed by using Byte Write enable (BW)

input combined with one or more individual byte write signals (Bx).

In addition, Global Write (GW) is available for writing all bytes at one

time, regardless of the Byte Write control inputs.

Applications

The GS8161E18(T/D)/GS8161E32(D)/GS8161E36(T/D) is a

18,874,368-bit high performance synchronous SRAM with a 2-bit

burst address counter. Although of a type originally developed for

Level 2 Cache applications supporting high performance CPUs, the

device now finds application in synchronous SRAM applications,

ranging from DSP main store to networking chip set support.

Sleep Mode

Low power (Sleep mode) is attained through the assertion (High) of

the ZZ signal, or by stopping the clock (CK). Memory data is retained

during Sleep mode.

Controls

Addresses, data I/Os, chip enable (E1), address burst control inputs

(ADSP, ADSC, ADV) and write control inputs (Bx, BW, GW) are

synchronous and are controlled by a positive-edge-triggered clock

input (CK). Output enable (G) and power down control (ZZ) are

asynchronous inputs. Burst cycles can be initiated with either ADSP

or ADSC inputs. In Burst mode, subsequent burst addresses are

generated internally and are controlled by ADV. The burst address

counter may be configured to count in either linear or interleave order

Core and Interface Voltages

The GS8161E18(T/D)/GS8161E32(D)/GS8161E36(T/D) operates on

a 2.5 V or 3.3 V power supply. All input are 3.3 V and 2.5 V

compatible. Separate output power (V_DDQ) pins are used to decouple

output noise from the internal circuits and are 3.3 V and 2.5 V

compatible.

Parameter Synopsis

-250

-225

-200

-166 -150 -133 Unit

Pipeline

3-1-1-1

t_KQ

2.5

4.0

2.7

4.4

3.0

5.0

3.4

6.0

3.8

6.7

4.0

7.5

ns

tCycle

Curr (x18)

Curr (x36)

280

330

255

300

230

270

200

230

185

215

165

190

mA

3.3 V

2.5 V

Curr (x18)

Curr (x36)

275

320

250

295

230

265

195

225

180

210

165

185

mA

Flow Through

2-1-1-1

t_KQ

5.5

6.0

6.5

7.0

7.5

8.5

ns

tCycle

Curr (x18)

Curr (x36)

175

200

165

190

160

180

150

170

145

165

135

150

mA

3.3 V

2.5 V

Curr (x18)

Curr (x36)

175

200

165

190

160

180

150

170

145

165

135

150

mA

Rev: 2.14 3/2005

1/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

GS8161E18 100-Pin TQFP Pinout (Package T)

100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81

A

NC

1

2

3

4

5

6

7

8

9

80

79

78

77

76

75

74

73

72

71

70

69

68

67

66

65

64

63

62

61

60

59

58

57

56

55

54

53

52

51

NC

V

NC

V

DDQ

SS

V

NC

DQPA

DQA

V

DQA

V

NC

V^DD

ZZ

DQ^A

DQA

V

DQA

NC

V

NC

V

SS

NC

DQB

1M X 18

Top View

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

V

SS

DDQ

SS

V

DDQ

DQB

FT

SS

VDD

NC

V

SS

DQB

V

DDQ

SS

V

SS

DQB

DQPB

NC

V

SS

DDQ

SS

V

DDQ

NC

31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

Rev: 2.14 3/2005

2/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

GS8161E36 100-Pin TQFP Pinout (Package T)

100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81

DQPB

DQB

DQPC

DQC

1

2

3

4

5

6

7

8

9

80

79

78

77

76

75

74

73

72

71

70

69

68

67

66

65

64

63

62

61

60

59

58

57

56

55

54

53

52

51

DQB

DQC

V

DDQ

SS

V

SS

DQB

DQC

512K x 36

Top View

V

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

V

SS

DDQ

SS

V

DDQ

DQB

DQC

FT

V

SS

NC

V

DD

V

ZZ

NC

DD

V

SS

DQ^A

DQA

DQD

DDQ

V

DDQ

SS

V

SS

DQA

DQD

V

SS

DDQ

SS

V

DDQ

DQA

DQD

DQA

DQD

DQPA

DQPD

31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

Rev: 2.14 3/2005

3/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

TQFP Pin Description

Symbol

A0, A1

A

Type

Description

Address field LSBs and Address Counter preset Inputs

Address Input

I

DQ^A

DQB

DQC

DQD

I/O

Data Input and Output pins

NC

—

I

No Connect

Byte Write—Writes all enabled bytes; active low

Byte Write Enable for DQA, DQB Data I/Os; active low

Clock Input Signal; active high

BW

B^A, BB, BC, BD

I

CK

GW

I

Global Write Enable—Writes all bytes; active low

Chip Enable; active low

E¹

I

G

I

Output Enable; active low

ADV

ADSP, ADSC

ZZ

I

Burst address counter advance enable; active low

Address Strobe (Processor, Cache Controller); active low

Sleep Mode control; active high

Scan Test Mode Select

I

TMS

TDI

I

Scan Test Data In

TDO

TCK

FT

O

I

Scan Test Data Out

Scan Test Clock

I

Flow Through or Pipeline mode; active low

Linear Burst Order mode; active low

Core power supply

LBO

I

V

I

DD

V

I

I/O and Core Ground

SS

V

Output driver power supply

DDQ

Rev: 2.14 3/2005

4/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

165 Bump BGA—x18 Commom I/O—Top View (Package D)

1

2

3

4

5

6

7

8

9

10

A

11

A

B

C

D

E

F

NC

A

E1

BB

NC

E3

BW

ADSC

ADV

A18

A

B

C

D

E

F

NC

A

E2

NC

BA

CK

GW

G

ADSP

A

NC

DQA

NC

A

NC

DQPA

DQA

ZZ

NC

V

DDQ

SS

DD

SS

DD

DDQ

NC

DQB

MCL

NC

V

NC

G

H

J

NC

G

H

J

FT

NC

DQB

DQPB

NC

V

NC

DDQ

K

L

NC

V

NC

K

L

NC

M

N

P

R

NC

M

N

P

R

NC

V

NC

TDI

A

NC

V

NC

DDQ

SS

DDQ

NC

A

A1

A0

TDO

TCK

A

A17

A

LBO

NC

A

TMS

A

11 x 15 Bump BGA—13mm x 15 mm Body—1.0 mm Bump Pitch

Rev: 2.14 3/2005

5/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

165 Bump BGA—x32 Common I/O—Top View (Package D)

1

2

3

4

5

6

7

8

9

10

A

11

A

B

C

D

E

F

NC

A

E1

BC

BB

E3

BW

ADSC

ADV

NC

A

B

C

D

E

F

NC

A

E2

BD

BA

CK

GW

G

ADSP

A

NC

V

NC

DDQ

SS

DD

SS

DD

DDQ

DQC

FT

DQC

MCL

DQD

NC

V

DQB

ZQ

DQB

ZZ

G

H

J

G

H

J

NC

DQD

NC

V

DQA

NC

DQA

NC

DDQ

K

L

V

K

L

M

N

P

R

M

N

P

R

V

NC

TDI

A

NC

V

SS

DDQ

SS

DDQ

NC

A

A1

A0

TDO

TCK

A

A17

A

LBO

NC

A

TMS

A

11 x 15 Bump BGA—13mm x 15 mm Body—1.0 mm Bump Pitch

Rev: 2.14 3/2005

6/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

165 Bump BGA—x36 Common I/O—Top View (Package D)

1

2

3

4

5

6

7

8

9

10

A

11

A

B

C

D

E

F

NC

A

E1

BC

BB

E3

BW

ADSC

ADV

NC

A

B

C

D

E

F

NC

DQPC

DQC

FT

A

E2

BD

BA

CK

GW

G

ADSP

A

NC

DQPB

DQB

ZZ

NC

V

NC

DDQ

SS

DD

SS

DD

DDQ

DQC

MCL

DQD

NC

V

DQB

NC

G

H

J

G

H

J

NC

DQD

DQPD

NC

V

DQA

NC

DQA

DQPA

A17

DDQ

K

L

V

K

L

M

N

P

R

M

N

P

R

V

NC

TDI

A

NC

V

SS

DDQ

SS

DDQ

NC

A

A1

A0

TDO

TCK

A

LBO

NC

A

TMS

A

11 x 15 Bump BGA—13mm x 15 mm Body—1.0 mm Bump Pitch

Rev: 2.14 3/2005

7/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

GS8161E18/32/36D 165-Bump BGA Pin Description

Symbol

A0, A1

An

Type

Description

Address field LSBs and Address Counter Preset Inputs

Address Inputs

I

DQ^A

DQB

DQC

DQD

I/O

Data Input and Output pins

B^A, BB, BC, BD

I

—

I

Byte Write Enable for DQA, DQB, DQC, DQD I/Os; active low

No Connect

NC

CK

Clock Input Signal; active high

Byte Write—Writes all enabled bytes; active low

Global Write Enable—Writes all bytes; active low

Chip Enable; active low

BW

I

GW

I

E¹

I

E³

I

Chip Enable; active low

E²

I

Chip Enable; active high

G

I

Output Enable; active low

ADV

ADSC, ADSP

ZZ

I

Burst address counter advance enable; active l0w

Address Strobe (Processor, Cache Controller); active low

Sleep mode control; active high

Flow Through or Pipeline mode; active low

Linear Burst Order mode; active low

Scan Test Mode Select

I

FT

I

LBO

TMS

TDI

I

Scan Test Data In

O

I

Scan Test Data Out

TDO

TCK

MCL

Scan Test Clock

—

I

Must Connect Low

V

Core power supply

DD

V

I

I/O and Core Ground

SS

V

Output driver power supply

DDQ

Rev: 2.14 3/2005

8/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

GS8161E18(T/D)/GS8161E32(D)/GS8161E36(T/D) Block Diagram

^RegisteQ^r

A0–An

D

A0

A1

A0

A1

D0

D1

Counter

Load

Q0

Q1

A

LBO

ADV

CK

Memory

Array

ADSC

ADSP

Q

D

Register

GW

BW

BA

D

Q

36

Register

D

Q

BB

BC

BD

4

Register

D

Q

Register

D

Q

Register

36

D

Q

36

32

Register

E1

D

Q

4

Parity

Register

Encode

4

D

Q

Parity

Compare

FT

G

36

0

Power Down

Control

DQx1–DQx9

NC

ZZ

Note: Only x36 version shown for simplicity.

Rev: 2.14 3/2005

9/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Mode Pin Functions

Mode Name

Pin Name

State

Function

Linear Burst

Interleaved Burst

Flow Through

Pipeline

L

Burst Order Control

Output Register Control

Power Down Control

LBO

H

L

FT

ZZ

H or NC

L or NC

H

Active

Standby, I = I

DD SB

Note:

Thereis a pull-up deviceonthe FT pin and a pull-down device on the ZZ pin, so input pin can be unconnected and the chip will operate in the

default states as specified in the above tables.

Burst Counter Sequences

Linear Burst Sequence

A[1:0] A[1:0] A[1:0] A[1:0]

Interleaved Burst Sequence

A[1:0] A[1:0] A[1:0] A[1:0]

1st address

2nd address

3rd address

4th address

00

01

10

11

01

10

11

00

10

11

00

01

11

00

01

10

1st address

2nd address

3rd address

4th address

00

01

10

11

01

00

11

10

11

00

01

11

10

01

00

Note:

The burst counter wraps to initial state on the 5th clock.

Note:

The burst counter wraps to initial state on the 5th clock.

BPR 1999.05.18

Rev: 2.14 3/2005

10/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Byte Write Truth Table

Function

Read

GW

BW

H

L

BA

X

BB

X

BC

X

BD

X

Notes

1

H

L

Read

H

L

H

L

H

L

H

L

1

Write byte a

Write byte b

Write byte c

Write byte d

Write all bytes

L

2, 3

L

H

L

2, 3

L

H

L

2, 3, 4

L

H

L

X

Notes:

1. All byte outputs are active in read cycles regardless of the state of Byte Write Enable inputs.

2. Byte Write Enable inputs BA, BB, BC and/or BD may be used in any combination with BW to write single or multiple bytes.

3. All byte I/Os remain High-Z during all write operations regardless of the state of Byte Write Enable inputs.

4. Bytes “C” and “D” are only available on the x36 version.

Rev: 2.14 3/2005

11/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Synchronous Truth Table

Operation

State

3

4

Diagram

Address Used

E1

ADSP ADSC

ADV

W

DQ

5

Key

Deselect Cycle, Power Down

Read Cycle, Begin Burst

None

External

R

H

L

X

L

X

L

X

L

X

F

T

F

T

F

T

High-Z

Q

D

Q

D

Q

D

Read Cycle, Begin Burst

Write Cycle, Begin Burst

Read Cycle, Continue Burst

Write Cycle, Continue Burst

Read Cycle, Suspend Burst

Write Cycle, Suspend Burst

R

L

X

H

X

H

X

H

X

H

X

H

X

H

X

H

X

W

L

CR

CW

H

Current

H

Notes:

1. X = Don’t Care, H = High, L = Low

2. W = T (True) and F (False) is defined in the Byte Write Truth Table preceding.

3. G is an asynchronous input. G can be driven high at any time to disable active output drivers. G low can only enable active drivers (shown

as “Q” in the Truth Table above).

4. All input combinations shown above are tested and supported. Input combinations shown in gray boxes need not be used to accomplish

basic synchronous or synchronous burst operations and may be avoided for simplicity.

5. Tying ADSP high and ADSC low allows simple non-burst synchronous operations. See BOLD items above.

6. Tying ADSP high and ADV low while using ADSC to load new addresses allows simple burst operations. See ITALIC items above.

Rev: 2.14 3/2005

12/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Simplified State Diagram

X

Deselect

W

R

W

R

X

R

X

First Write

First Read

CW

CR

W

R

X

Burst Write

X

Burst Read

CR

CW

CR

Notes:

1. The diagram shows only supported (tested) synchronous state transitions. The diagram presumes G is tied low.

2. The upper portion of the diagram assumes active use of only the Enable (E1) and Write (BA, BB, BC, BD, BW, and GW) control inputs, and

that ADSP is tied high and ADSC is tied low.

3. The upper and lower portions of the diagram together assume active use of only the Enable, Write, and ADSC control inputs, and

assumes ADSP is tied high and ADV is tied low.

Rev: 2.14 3/2005

13/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Simplified State Diagram with G

X

Deselect

W

R

W

R

X

W

R

X

First Write

First Read

CR

CW

CR

W

R

W

X

Burst Write

X

Burst Read

CR

CW

CR

Notes:

1. The diagram shows supported (tested) synchronous state transitions plus supported transitions that depend upon the use of G.

2. Use of “Dummy Reads” (Read Cycles with G High) may be used to make the transition from read cycles to write cycles without passing

through a Deselect cycle. Dummy Read cycles increment the address counter just like normal read cycles.

3. Transitions shown in gray tone assume G has been pulsed high long enough to turn the RAM’s drivers off and for incoming data to meet

Data Input Set Up Time.

Rev: 2.14 3/2005

14/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Absolute Maximum Ratings

(All voltages reference to V

)

SS

Symbol

Description

Value

Unit

V

Voltage on V Pins

–0.5 to 4.6

DD

V

Voltage in V

Pins

DDQ

–0.5 to 4.6

V

DDQ

V

–0.5 to V

+0.5 (≤ 4.6 V max.)

DDQ

Voltage on I/O Pins

Voltage on Other Input Pins

Input Current on Any Pin

Output Current on Any I/O Pin

Package Power Dissipation

Storage Temperature

V

I/O

V

–0.5 to V +0.5 (≤ 4.6 V max.)

V

IN

DD

I

+/–20

mA

W

IN

I

OUT

P

1.5

D

o

T

–55 to 125

C

STG

o

T

Temperature Under Bias

C

BIAS

Note:

Permanent damage to the device may occur if the Absolute Maximum Ratings are exceeded. Operation should be restricted to Recommended

Operating Conditions. Exposure to conditions exceeding the Absolute Maximum Ratings, for an extended period of time, may affect reliability of

this component.

Power Supply Voltage Ranges

Parameter

Symbol

Min.

3.0

Typ.

3.3

Max.

3.6

Unit

Notes

V

3.3 V Supply Voltage

2.5 V Supply Voltage

V

DD3

V

2.3

2.5

2.7

DD2

3.3 V V

I/O Supply Voltage

V

3.0

3.3

3.6

DDQ

DDQ3

2.5 V V

I/O Supply Voltage

V

2.3

2.5

2.7

DDQ2

Notes:

1. The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-

tions quoted are evaluated for worst case in the temperature range marked on the device.

2. Input Under/overshoot voltage must be –2 V > Vi < V +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.

DDn

Rev: 2.14 3/2005

15/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

V

Range Logic Levels

Parameter

DDQ3

Symbol

Min.

2.0

Typ.

—

Max.

Unit

Notes

V

Input High Voltage

V

+ 0.3

DD

V

1

DD

IH

V

Input Low Voltage

V

–0.3

2.0

—

0.8

+ 0.3

1

DD

IL

V

I/O Input High Voltage

I/O Input Low Voltage

V

—

1,3

DDQ

IHQ

DDQ

V

–0.3

—

0.8

DDQ

ILQ

Notes:

1. The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-

tions quoted are evaluated for worst case in the temperature range marked on the device.

2. Input Under/overshoot voltage must be –2 V > Vi < V +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.

DDn

3.

V

(max) is voltage on V

pins plus 0.3 V.

IHQ

DDQ

V

Range Logic Levels

Parameter

DDQ2

Symbol

Min.

Typ.

—

Max.

Unit

Notes

V

Input High Voltage

V

0.6*V

V

+ 0.3

DD

V

1

DD

IH

DD

V

Input Low Voltage

V

0.3*V

DD

–0.3

—

1

DD

IL

V

I/O Input High Voltage

I/O Input Low Voltage

V

0.6*V

V

+ 0.3

DDQ

—

1,3

DDQ

IHQ

DD

V

0.3*V

DD

–0.3

—

DDQ

ILQ

Notes:

1. The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-

tions quoted are evaluated for worst case in the temperature range marked on the device.

2. Input Under/overshoot voltage must be –2 V > Vi < V +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.

DDn

3.

V

(max) is voltage on V

pins plus 0.3 V.

IHQ

DDQ

Recommended Operating Temperatures

Parameter

Symbol

Min.

0

Typ.

25

Max.

70

Unit

°C

Notes

T

Ambient Temperature (Commercial Range Versions)

2

A

T

Ambient Temperature (Industrial Range Versions)

–40

25

85

°C

A

Notes:

1. The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-

tions quoted are evaluated for worst case in the temperature range marked on the device.

2. Input Under/overshoot voltage must be –2 V > Vi < V +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.

DDn

Rev: 2.14 3/2005

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Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Undershoot Measurement and Timing

Overshoot Measurement and Timing

V

IH

50% tKC

V

+ 2.0 V

50%

DD

V

SS

50%

V

DD

V

– 2.0 V

SS

50% tKC

V

IL

Capacitance

o

(T = 25 C, f = 1 MHZ, V = 2.5 V)

A

DD

Parameter

Symbol

Test conditions

Typ.

Max.

Unit

pF

C

V

= 0 V

Input Capacitance

4

6

5

7

IN

C

V

OUT

= 0 V

Input/Output Capacitance

pF

I/O

Note:

These parameters are sample tested.

AC Test Conditions

Parameter

Conditions

V

– 0.2 V

Input high level

Input low level

DD

0.2 V

1 V/ns

/2

Input slew rate

V

Input reference level

DD

V

/2

Output reference level

Output load

DDQ

Fig. 1

Notes:

1. Include scope and jig capacitance.

2. Test conditions as specified with output loading as shown in Fig. 1

unless otherwise noted.

3. Device is deselected as defined by the Truth Table.

Output Load 1

DQ

*

50Ω

30pF

V

DDQ/2

* Distributed Test Jig Capacitance

Rev: 2.14 3/2005

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Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

DC Electrical Characteristics

Parameter

Symbol

Test Conditions

Min

Max

Input Leakage Current

(except mode pins)

I

V = 0 to V

IN DD

–1 uA

1 uA

IL

V

≥ V ≥ V

IN

–1 uA

1 uA

100 uA

DD

IH

I

ZZ Input Current

FT Input Current

IN1

0 V ≤ V ≤ V

IN

V

≥ V ≥ V

IN

–100 uA

–1 uA

1 uA

DD

IL

I

IN2

0 V ≤ V ≤ V

IN

I

Output Disable, V

= 0 to V

DD

Output Leakage Current

Output High Voltage

Output Low Voltage

–1 uA

1.7 V

2.4 V

—

1 uA

—

OL

OUT

DDQ

V

I

= –8 mA, V

= 2.375 V

= 3.135 V

OH2

OH

V

—

OH3

V

I

= 8 mA

OL

0.4 V

OL

Rev: 2.14 3/2005

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Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Rev: 2.14 3/2005

19/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

AC Electrical Characteristics

-250

-225

-200

-166

-150

-133

Parameter

Symbol

Unit

Min Max Min Max Min Max Min Max Min Max Min Max

Clock Cycle Time

tKC

tKQ

4.0

—

2.5

—

5.5

—

4.4

—

2.7

—

6.0

—

5.0

—

3.0

—

6.5

—

6.0

—

3.4

—

7.0

—

6.7

—

3.8

—

7.5

—

7.5

—

1.5

0.5

8.5

—

3.0

1.5

0.5

1.7

2

—

4.0

—

8.5

—

ns

Clock to Output Valid

Clock to Output Invalid

Pipeline

tKQX

1.5

1.2

0.2

5.5

—

3.0

1.5

0.5

1.3

1.5

1.3

0.3

6.0

—

3.0

1.5

0.5

1.3

1.5

1.4

0.4

6.5

—

3.0

1.5

0.5

1.3

1.5

0.5

7.0

—

3.0

1.5

0.5

1.3

1.5

0.5

7.5

—

3.0

1.5

0.5

1.5

1.7

1

Clock to Output in Low-Z

tLZ

Setup time

Hold time

tS

tH

Clock Cycle Time

Clock to Output Valid

tKC

tKQ

tKQX

Clock to Output Invalid

Clock to Output in Low-Z

Setup time

Flow

Through

1

tLZ

tS

tH

Hold time

Clock HIGH Time

Clock LOW Time

tKH

tKL

Clock to Output in

High-Z

1

1.5

2.3

1.5

2.5

1.5

3.0

1.5

3.0 1.5 3.0 1.5 3.0

ns

tHZ

G to Output Valid

G to output in Low-Z

G to output in High-Z

ZZ setup time

tOE

—

0

2.3

—

2.3

—

0

2.5

—

2.5

—

0

3.2

—

3.0

—

0

3.5

—

3.0

—

0

3.8

—

3.0

—

0

4.0

—

3.0

—

ns

1

tOLZ

1

—

5

—

5

—

5

—

5

—

5

—

5

tOHZ

2

tZZS

2

ZZ hold time

1

tZZH

ZZ recovery

tZZR

20

Notes:

1. These parameters are sampled and are not 100% tested.

2. ZZ is an asynchronous signal. However, in order to be recognized on any given clock cycle, ZZ must meet the specified setup and hold

times as specified above.

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GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Pipeline Mode Timing

Begin

Read A Cont

Deselect Deselect Write B Read C Read C+1 Read C+2 Read C+3 Cont

tKL

Deselect Deselect

tKH

tKC

CK

ADSP

tS

ADSC initiated read

tH

ADSC

ADV

tS

tH

A

B

C

Ao–An

GW

tS

tH

BW

tS

Ba–Bd

E1

tS

Deselected with E1

tH

E2 and E3 only sampled with ADSC

tH

E2

E3

G

tS

D(B)

tKQ

tHZ

tOE

tOHZ

Q(A)

tH

tLZ

tKQX

Hi-Z

Q(C)

Q(C+1)

Q(C+2)

Q(C+3)

DQa–DQd

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Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Flow Through Mode Timing

Begin

Read A Cont

tKH

Deselect Write B

tKC

Read C Read C+1 Read C+2 Read C+3 Read C Deselect

tKL

CK

Fixed High

ADSP

tS

tH

tS

tH

ADSC initiated read

ADSC

ADV

Ao–An

GW

tH

tS

tH

tS

tH

A

B

C

tS

tH

tS

tH

BW

tH

tS

Ba–Bd

E1

tS

Deselected with E1

tH

E1 masks ADSP

tS

tH

E2 and E3 only sampled with ADSP and ADSC

E1 masks ADSP

E2

tS

tH

E3

G

tH

tS

tOE

tKQ

tKQX

tHZ

tOHZ

D(B)

tLZ

Q(A)

Q(C)

Q(C+1)

Q(C+2)

Q(C+3)

Q(C)

DQa–DQd

Rev: 2.14 3/2005

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Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Sleep Mode

During normal operation, ZZ must be pulled low, either by the user or by its internal pull down resistor. When ZZ is pulled high,

the SRAM will enter a Power Sleep mode after 2 cycles. At this time, internal state of the SRAM is preserved. When ZZ returns to

low, the SRAM operates normally after ZZ recovery time.

Sleep mode is a low current, power-down mode in which the device is deselected and current is reduced to I 2. The duration of

SB

Sleep mode is dictated by the length of time the ZZ is in a High state. After entering Sleep mode, all inputs except ZZ become

disabled and all outputs go to High-Z The ZZ pin is an asynchronous, active high input that causes the device to enter Sleep mode.

When the ZZ pin is driven high, I 2 is guaranteed after the time tZZI is met. Because ZZ is an asynchronous input, pending

SB

operations or operations in progress may not be properly completed if ZZ is asserted. Therefore, Sleep mode must not be initiated

until valid pending operations are completed. Similarly, when exiting Sleep mode during tZZR, only a Deselect or Read commands

may be applied while the SRAM is recovering from Sleep mode.

Sleep Mode Timing Diagram

tKH

tKC

tKL

CK

Setup

Hold

ADSP

ADSC

tZZR

tZZS

tZZH

ZZ

Application Tips

Single and Dual Cycle Deselect

SCD devices force the use of “dummy read cycles” (read cycles that are launched normally but that are ended with the output

drivers inactive) in a fully synchronous environment. Dummy read cycles waste performance but their use usually assures there

will be no bus contention in transitions from reads to writes or between banks of RAMs. DCD SRAMs (like this one) do not waste

bandwidth on dummy cycles and are logically simpler to manage in a multiple bank application (wait states need not be inserted at

bank address boundary crossings) but greater care must be exercised to avoid excessive bus contention.

JTAG Port Operation

Overview

The JTAG Port on this RAM operates in a manner that is compliant with IEEE Standard 1149.1-1990, a serial boundary scan

interface standard (commonly referred to as JTAG). The JTAG Port input interface levels scale with V . The JTAG output

DD

drivers are powered by V

.

DDQ

Disabling the JTAG Port

It is possible to use this device without utilizing the JTAG port. The port is reset at power-up and will remain inactive unless

clocked. TCK, TDI, and TMS are designed with internal pull-up circuits.To assure normal operation of the RAM with the JTAG

Port unused, TCK, TDI, and TMS may be left floating or tied to either V or V . TDO should be left unconnected.

DD

SS

Rev: 2.14 3/2005

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GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

JTAG Pin Descriptions

Pin Name

I/O

Description

Clocks all TAP events. All inputs are captured on the rising edge of TCK and all outputs propagate

from the falling edge of TCK.

TCK

Test Clock

In

The TMS input is sampled on the rising edge of TCK. This is the command input for the TAP

TMS

TDI

Test Mode Select

Test Data In

In controller state machine. An undriven TMS input will produce the same result as a logic one input

level.

The TDI input is sampled on the rising edge of TCK. This is the input side of the serial registers

placed between TDI and TDO. The register placed between TDI and TDO is determined by the

In state of the TAP Controller state machine and the instruction that is currently loaded in the TAP

Instruction Register (refer to the TAP Controller State Diagram). An undriven TDI pin will produce

the same result as a logic one input level.

Output that is active depending on the state of the TAP state machine. Output changes in

Out response to the falling edge of TCK. This is the output side of the serial registers placed between

TDI and TDO.

TDO

Test Data Out

Note:

This device does not have a TRST (TAP Reset) pin. TRST is optional in IEEE 1149.1. The Test-Logic-Reset state is entered while TMS is

held high for five rising edges of TCK. The TAP Controller is also reset automaticly at power-up.

JTAG Port Registers

Overview

The various JTAG registers, refered to as Test Access Port orTAP Registers, are selected (one at a time) via the sequences of 1s

and 0s applied to TMS as TCK is strobed. Each of the TAP Registers is a serial shift register that captures serial input data on the

rising edge of TCK and pushes serial data out on the next falling edge of TCK. When a register is selected, it is placed between the

TDI and TDO pins.

Instruction Register

The Instruction Register holds the instructions that are executed by the TAP controller when it is moved into the Run, Test/Idle, or

the various data register states. Instructions are 3 bits long. The Instruction Register can be loaded when it is placed between the

TDI and TDO pins. The Instruction Register is automatically preloaded with the IDCODE instruction at power-up or whenever the

controller is placed in Test-Logic-Reset state.

Bypass Register

The Bypass Register is a single bit register that can be placed between TDI and TDO. It allows serial test data to be passed through

the RAM’s JTAG Port to another device in the scan chain with as little delay as possible.

Boundary Scan Register

The Boundary Scan Register is a collection of flip flops that can be preset by the logic level found on the RAM’s input or I/O pins.

The flip flops are then daisy chained together so the levels found can be shifted serially out of the JTAG Port’s TDO pin. The

Boundary Scan Register also includes a number of place holder flip flops (always set to a logic 1). The relationship between the

device pins and the bits in the Boundary Scan Register is described in the Scan Order Table following. The Boundary Scan

Register, under the control of the TAP Controller, is loaded with the contents of the RAMs I/O ring when the controller is in

Capture-DR state and then is placed between the TDI and TDO pins when the controller is moved to Shift-DR state. SAMPLE-Z,

SAMPLE/PRELOAD and EXTEST instructions can be used to activate the Boundary Scan Register.

Rev: 2.14 3/2005

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Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

JTAG TAP Block Diagram

·

Boundary Scan Register

·

0

Bypass Register

2

1 0

Instruction Register

TDI

TDO

ID Code Register

31 30 29

2 1

0

·

· · ·

Control Signals

Test Access Port (TAP) Controller

TMS

TCK

Identification (ID) Register

The ID Register is a 32-bit register that is loaded with a device and vendor specific 32-bit code when the controller is put in

Capture-DR state with the IDCODE command loaded in the Instruction Register. The code is loaded from a 32-bit on-chip ROM.

It describes various attributes of the RAM as indicated below. The register is then placed between the TDI and TDO pins when the

controller is moved into Shift-DR state. Bit 0 in the register is the LSB and the first to reach TDO when shifting begins.

ID Register Contents

Die

Revision

Code

GSI Technology

JEDEC Vendor

ID Code

I/O

Not Used

Configuration

Bit # 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

0

1

x36

x18

X

0

X

1

0

1

0

1

0

1

0

0 1 1 0 1 1 0 0 1

Rev: 2.14 3/2005

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Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Tap Controller Instruction Set

Overview

There are two classes of instructions defined in the Standard 1149.1-1990; the standard (Public) instructions, and device specific

(Private) instructions. Some Public instructions are mandatory for 1149.1 compliance. Optional Public instructions must be

implemented in prescribed ways. The TAP on this device may be used to monitor all input and I/O pads, and can be used to load

address, data or control signals into the RAM or to preload the I/O buffers.

When the TAP controller is placed in Capture-IR state the two least significant bits of the instruction register are loaded with 01.

When the controller is moved to the Shift-IR state the Instruction Register is placed between TDI and TDO. In this state the desired

instruction is serially loaded through the TDI input (while the previous contents are shifted out at TDO). For all instructions, the

TAP executes newly loaded instructions only when the controller is moved to Update-IR state. The TAP instruction set for this

device is listed in the following table.

JTAG Tap Controller State Diagram

Test Logic Reset

1

0

1

Run Test Idle

Select DR

Select IR

0

1

Capture DR

Capture IR

0

Shift DR

Shift IR

0

1

Exit1 DR

Exit1 IR

0

Pause DR

Pause IR

0

1

Exit2 DR

Exit2 IR

1

Update DR

Update IR

1

0

1

0

Instruction Descriptions

BYPASS

When the BYPASS instruction is loaded in the Instruction Register the Bypass Register is placed between TDI and TDO. This

occurs when the TAP controller is moved to the Shift-DR state. This allows the board level scan path to be shortened to facili-

tate testing of other devices in the scan path.

Rev: 2.14 3/2005

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GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

SAMPLE/PRELOAD

SAMPLE/PRELOAD is a Standard 1149.1 mandatory public instruction. When the SAMPLE / PRELOAD instruction is

loaded in the Instruction Register, moving the TAP controller into the Capture-DR state loads the data in the RAMs input and

I/O buffers into the Boundary Scan Register. Boundary Scan Register locations are not associated with an input or I/O pin, and

are loaded with the default state identified in the Boundary Scan Chain table at the end of this section of the datasheet. Because

the RAM clock is independent from the TAP Clock (TCK) it is possible for the TAP to attempt to capture the I/O ring contents

while the input buffers are in transition (i.e. in a metastable state). Although allowing the TAP to sample metastable inputs will

not harm the device, repeatable results cannot be expected. RAM input signals must be stabilized for long enough to meet the

TAPs input data capture set-up plus hold time (tTS plus tTH). The RAMs clock inputs need not be paused for any other TAP

operation except capturing the I/O ring contents into the Boundary Scan Register. Moving the controller to Shift-DR state then

places the boundary scan register between the TDI and TDO pins.

EXTEST

EXTEST is an IEEE 1149.1 mandatory public instruction. It is to be executed whenever the instruction register is loaded with

all logic 0s. The EXTEST command does not block or override the RAM’s input pins; therefore, the RAM’s internal state is

still determined by its input pins.

Typically, the Boundary Scan Register is loaded with the desired pattern of data with the SAMPLE/PRELOAD command.

Then the EXTEST command is used to output the Boundary Scan Register’s contents, in parallel, on the RAM’s data output

drivers on the falling edge of TCK when the controller is in the Update-IR state.

Alternately, the Boundary Scan Register may be loaded in parallel using the EXTEST command. When the EXTEST instruc-

tion is selected, the sate of all the RAM’s input and I/O pins, as well as the default values at Scan Register locations not asso-

ciated with a pin, are transferred in parallel into the Boundary Scan Register on the rising edge of TCK in the Capture-DR

state, the RAM’s output pins drive out the value of the Boundary Scan Register location with which each output pin is associ-

ated.

IDCODE

The IDCODE instruction causes the ID ROM to be loaded into the ID register when the controller is in Capture-DR mode and

places the ID register between the TDI and TDO pins in Shift-DR mode. The IDCODE instruction is the default instruction

loaded in at power up and any time the controller is placed in the Test-Logic-Reset state.

SAMPLE-Z

If the SAMPLE-Z instruction is loaded in the instruction register, all RAM outputs are forced to an inactive drive state (high-

Z) and the Boundary Scan Register is connected between TDI and TDO when the TAP controller is moved to the Shift-DR

state.

RFU

These instructions are Reserved for Future Use. In this device they replicate the BYPASS instruction.

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GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

JTAG TAP Instruction Set Summary

Instruction

EXTEST

IDCODE

Code

000

001

Description

Notes

1

1, 2

Places the Boundary Scan Register between TDI and TDO.

Preloads ID Register and places it between TDI and TDO.

Captures I/O ring contents. Places the Boundary Scan Register between TDI and

SAMPLE-Z

010

011

TDO.

1

Forces all RAM output drivers to High-Z.

Do not use this instruction; Reserved for Future Use.

Replicates BYPASS instruction. Places Bypass Register between TDI and TDO.

RFU

SAMPLE/

PRELOAD

Captures I/O ring contents. Places the Boundary Scan Register between TDI and

TDO.

GSI private instruction.

Do not use this instruction; Reserved for Future Use.

Replicates BYPASS instruction. Places Bypass Register between TDI and TDO.

100

101

110

111

1

GSI

RFU

BYPASS

Places Bypass Register between TDI and TDO.

Notes:

1. Instruction codes expressed in binary, MSB on left, LSB on right.

2. Default instruction automatically loaded at power-up and in test-logic-reset state.

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GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

JTAG Port Recommended Operating Conditions and DC Characteristics

Parameter

Symbol

Min.

2.0

Max.

Unit Notes

V

+0.3

DD3

3.3 V Test Port Input High Voltage

3.3 V Test Port Input Low Voltage

2.5 V Test Port Input High Voltage

2.5 V Test Port Input Low Voltage

TMS, TCK and TDI Input Leakage Current

TDO Output Leakage Current

V

1

IHJ3

V

–0.3

0.8

+0.3

ILJ3

V

0.6 * V

V

1

IHJ2

DD2

V

0.3 * V

1

–0.3

–300

–1

V

1

ILJ2

DD2

I

uA

V

2

INHJ

I

100

1

3

INLJ

I

–1

4

OLJ

V

Test Port Output High Voltage

1.7

—

5, 6

5, 7

5, 8

5, 9

OHJ

V

Test Port Output Low Voltage

—

0.4

V

OLJ

V

– 100 mV

DDQ

Test Port Output CMOS High

—

V

OHJC

V

Test Port Output CMOS Low

—

100 mV

V

OLJC

Notes:

1. Input Under/overshoot voltage must be –2 V > Vi < V

+2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tTKC.

DDn

2.

V

≤ V ≤ V

ILJ

IN

DDn

3. 0 V ≤ V ≤ V

IN

ILJn

4. Output Disable, V

= 0 to V

DDn

OUT

5. The TDO output driver is served by the V

supply.

DDQ

6.

7.

8.

9.

I

= –4 mA

OHJ

= + 4 mA

OLJ

= –100 uA

= +100 uA

OHJC

OLJC

JTAG Port AC Test Conditions

Parameter

Conditions

JTAG Port AC Test Load

V

– 0.2 V

Input high level

Input low level

DQ

DD

0.2 V

1 V/ns

*

50Ω

Input slew rate

30pF

V

/2

Input reference level

DDQ

V

/2

DDQ

/2

Output reference level

DDQ

* Distributed Test Jig Capacitance

Notes:

1. Include scope and jig capacitance.

2. Test conditions as shown unless otherwise noted.

Rev: 2.14 3/2005

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GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

JTAG Port Timing Diagram

tTKC

tTKH

tTKL

TCK

TDI

tTH

tTS

TMS

TDO

tTKQ

tTH

tTS

Parallel SRAM input

JTAG Port AC Electrical Characteristics

Parameter

TCK Cycle Time

Symbol

tTKC

tTKQ

tTKH

tTKL

tTS

Min

50

—

Max

—

Unit

ns

TCK Low to TDO Valid

TCK High Pulse Width

TCK Low Pulse Width

TDI & TMS Set Up Time

TDI & TMS Hold Time

20

—

20

10

—

tTH

—

Boundary Scan (BSDL Files)

For information regarding the Boundary Scan Chain, or to obtain BSDL files for this part, please contact our Applications

Engineering Department at: apps@gsitechnology.com.

Rev: 2.14 3/2005

30/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

TQFP Package Drawing (Package T)

θ

L

c

L1

Symbol

Description

Standoff

Min. Nom. Max

A1

A2

b

0.05

1.35

0.20

0.09

0.10

1.40

0.30

—

0.15

1.45

0.40

0.20

22.1

20.1

16.1

14.1

—

Body Thickness

Lead Width

c

Lead Thickness

D

Terminal Dimension 21.9

Package Body 19.9

Terminal Dimension 15.9

22.0

20.0

16.0

14.0

0.65

0.60

1.00

e

D1

E

b

E1

e

Package Body

Lead Pitch

13.9

—

L

Foot Length

Lead Length

Coplanarity

Lead Angle

0.45

—

0.75

—

L1

Y

A1

A2

E1

E

0.10

7°

θ

0°

—

Notes:

1. All dimensions are in millimeters (mm).

2. Package width and length do not include mold protrusion.

Rev: 2.14 3/2005

31/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Package Dimensions—165-Bump FPBGA (Package D; Variation 1)

A1

1

TOP

7

BOTTOM

M

A1

Ø0.10

C

Ø0.25 C AB

Ø0.40~0.50

2

3

4

5

6

8 9 10

11 10 9 8

7

6 5 4 3 2

A

B

C

D

E

F

G

H

J

A

B

C

D

E

F

G

H

J

K

L

M

N

P

K

L

M

N

P

R

A

1.0

10.

13±0.0

B

0.20(4

SEATING

C

Rev: 2.14 3/2005

32/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Ordering Information for GSI Synchronous Burst RAMs

2

Speed

3

1

Org

Type

Package

Status

T

Part Number

A

(MHz/ns)

1M x 18

GS8161E18T-250

GS8161E18T-225

GS8161E18T-200

GS8161E18T-166

GS8161E18T-150

GS8161E18T-133

GS8161E36T-250

GS8161E36T-225

GS8161E3T-200

GS8161E36T-166

GS8161E36T-150

GS8161E36T-133

GS8161E18T-250I

GS8161E18T-225I

GS8161E18T-200I

GS8161E18T-166I

GS8161E18T-150I

GS8161E18T-133I

GS8161E36T-250I

GS8161E36T-225I

GS8161E36T-200I

GS8161E36T-166I

GS8161E36T-150I

GS8161E36T-133I

GS8161E18D-250

GS8161E18D-225

GS8161E18D-200

GS8161E18D-166

GS8161E18D-150

GS8161E18D-133

DCD Pipeline/Flow Through

TQFP

250/5.5

225/6

C

I

1M x 18

TQFP

200/6.5

166/7

1M x 18

TQFP

1M x 18

TQFP

150/7.5

133/8.5

250/5.5

225/6

1M x 18

TQFP

512K x 36

1M x 18

TQFP

200/6.5

166/7

TQFP

150/7.5

133/8.5

250/5.5

225/6

TQFP

1M x 18

TQFP

I

1M x 18

TQFP

200/6.5

166/7

I

1M x 18

TQFP

I

1M x 18

TQFP

150/7.5

133/8.5

250/5.5

225/6

I

1M x 18

TQFP

I

512K x 36

1M x 18

TQFP

I

TQFP

I

TQFP

200/6.5

166/7

I

TQFP

I

TQFP

150/7.5

133/8.5

250/5.5

225/6

I

TQFP

I

165 BGA (var. 1)

C

1M x 18

200/6.5

166/7

1M x 18

150/7.5

133/8.5

1M x 18

Notes:

1. Customers requiring delivery in Tape and Reel should add the character “T” to the end of the part number. Example: GS816118D-133IT.

2. The speed column indicates the cycle frequency (MHz) of the device in Pipeline mode and the latency (ns) in Flow Through mode. Each

device is Pipeline/Flow Through mode-selectable by the user.

3. T = C = Commercial Temperature Range. T = I = Industrial Temperature Range.

A

4. GSI offers other versions this type of device in many different configurations and with a variety of different features, only some of which are

covered in this data sheet. See the GSI Technology web site (www.gsitechnology.com) for a complete listing of current offerings.

Rev: 2.14 3/2005

33/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

Ordering Information for GSI Synchronous Burst RAMs

2

Speed

3

1

Org

Type

Package

Status

T

Part Number

A

(MHz/ns)

512K x 32

512K x 36

1M x 18

GS8161E32D-250

GS8161E32D-225

GS8161E32D-200

GS8161E32D-166

GS8161E32D-150

GS8161E32D-133

GS8161E36D-250

GS8161E36D-225

GS8161E36D-200

GS8161E36D-166

GS8161E36D-150

GS8161E36D-133

GS8161E18D-250I

GS8161E18D-225I

GS8161E18D-200I

GS8161E18D-166I

GS8161E18D-150I

GS8161E18D-133I

DCD Pipeline/Flow Through

165 BGA (var. 1)

250/5.5

225/6

C

I

200/6.5

166/7

150/7.5

133/8.5

250/5.5

225/6

200/6.5

166/7

150/7.5

133/8.5

250/5.5

225/6

1M x 18

I

1M x 18

200/6.5

166/7

I

1M x 18

I

1M x 18

150/7.5

133/8.5

250/5.5

225/6

I

1M x 18

I

512K x 32 GS8161E32D-250I

512K x 32 GS8161E32D-225I

512K x 32 GS8161E32D-200I

512K x 32 GS8161E32D-166I

512K x 32 GS8161E32D-150I

512K x 32 GS8161E32D-133I

512K x 36 GS8161E36D-250I

512K x 36 GS8161E36D-225I

512K x 36 GS8161E36D-200I

512K x 36 GS8161E36D-166I

512K x 36 GS8161E36D-150I

I

200/6.5

166/7

I

150/7.5

133/8.5

250/5.5

225/6

I

200/6.5

166/7

I

150/7.5

133/8.5

I

512K x 36 GS8161E36D-133I

I

Notes:

1. Customers requiring delivery in Tape and Reel should add the character “T” to the end of the part number. Example: GS816118D-133IT.

2. The speed column indicates the cycle frequency (MHz) of the device in Pipeline mode and the latency (ns) in Flow Through mode. Each

device is Pipeline/Flow Through mode-selectable by the user.

3. T = C = Commercial Temperature Range. T = I = Industrial Temperature Range.

A

4. GSI offers other versions this type of device in many different configurations and with a variety of different features, only some of which are

covered in this data sheet. See the GSI Technology web site (www.gsitechnology.com) for a complete listing of current offerings.

Rev: 2.14 3/2005

34/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

18Mb Sync SRAM Datasheet Revision History

Types of Changes

Format or Content

DS/DateRev. Code: Old;

Page;Revisions;Reason

New

• Converted from 0.25u 3.3V process to 0.18u 2.5V process.

Master File Rev B

GS8161E18T-150IT 1.00 9/

1999A;GS8161E18T-150IT

2.00 1/1999B

Content

• Added x72 Pinout.

• Added GSI Logo.

• Changed pin description in TQFP to match order of pins in

pinout.

GS8161E18T 2.01 1/

2000C;GS8161E18 T 2.02 1/

2000D

• Front page; Features - changed 2.5V I/O supply to 2.5V

or3.3V I/O supply; Core and Interface voltages - Changed

paragraph to include information for 3.3V;Completeness

• Absolute Maximum Ratings; Changed VDDQ - Value: From: -

.05 to VDD : to : -.05 to 3.6; Completeness.

GS18/362.0 1/2000DGS18/

362.03 2/2000E

• Recommended Operating Conditions;Changed: I/O Supply

Voltage- Max. from VDD to 3.6; Input High Voltage- Max. from

VDD +0.3 to 3.6; Same page - took out Note 1;Completeness

• Electrical Characteristics - Added second Output High Voltage

line to table; completeness.

• Note: There was not a Rev 2.02 for the 8160Z or the 8161Z.

• Changed the value of ZZ recovery in the AC Electrical

Characteristics table on page 15 from 20 ns to 100 ns

GS18/3662.03 2/2000E;

8161E18_r2_04

Content

• Added 225 MHz speed bin

• Updated numbers in page 1 table, AC Characteristics table,

and Operating Currents table

8161E18_r2_04;

8161E18_r2_05

Content/Format

• Updated format to comply with Technical Publications

standards

• Updated Capitance table—removed Input row and changed

Output row to I/O

8161E18_r2_05;

8161E18_r2_06

Content

• Updated Features list on page 1

8161E18_r2_06;

8161E18_r2_07

• Completely reworked table on page 1

• Updated Mode Pin Functions table on page 6

• Added 3.3 V references to entire document

• Updated Operating Conditions table

• Updated JTAG section

8161E18_r2_07;

8161E18_r2_08

• Updated Boundary Scan Chain table

• Added Pin 56 to Pin Description table

• Updated Operating Currents table and added note

• Updated Application Tips paragraph

• Updated table on page 1; added power numbers

Content

• Updated Operating Currents table

• Updated Synchronous Truth Table

8161E18_r2_08;

8161E18_r2_09

• Updated table on page 1; updated power numbers

• Updated Recommended Operating Conditions table (added

V

references)

DDQ

Rev: 2.14 3/2005

35/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

GS8161E18(T/D)/GS816132(D)/GS816136(T/D)

18Mb Sync SRAM Datasheet Revision History

Types of Changes

Format or Content

DS/DateRev. Code: Old;

Page;Revisions;Reason

New

• Updated table on page 1

• Created recommended operating conditions tables on pages

11 and 12

• Updated AC Electrical Characteristics table

• Added Sleep mode description on page 22

• Updated Ordering Information for 225 MHz part (changed

from 7ns to 6.5 ns)

8161E18_r2_09;

8161E18_r2_10

Content

• Updated BSR table (2 and 3 changed to X (value undefined))

• Added 250 MHz speed bin

• Deleted 180 MHz speed bin

• Updated AC Characteristics table

• Updated FT power numbers

• Updated Mb references from 16Mb to 18Mb

• Removed ByteSafe references

8161E18_r2_10;

8161E18_r2_11

Content

• Changed DP and QE pins to NC

• Updated ZZ recovery time diagram

• Updated AC Test Conditions table and removed Output Load

2 diagram

• Removed Preliminary banner

8161E18_r2_11;

8161E18_r2_12

• Removed BSR table

• Removed pin locations from pin description table

• Updated format

8161E18_r2_12;

8161E18_r2_13

Format/Content

Content

• Updated timing diagrams

• Added 165 BGA

• Corrected Bump N6 on all 165 BGA pinouts (from NC to A)

8161E18_r2_13;

8161E18_r2_14

Rev: 2.14 3/2005

36/36

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.


型号：	GS8161E18GT-133IT
厂家：	GSI TECHNOLOGY
描述：	Cache SRAM, 1MX18, 8.5ns, CMOS, PQFP100, TQFP-100 静态存储器
文件：	总36页 (文件大小：935K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

GS8161E18GT-133IT [GSI]

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