Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

ISSI

Copyright © 2005 Integrated Silicon Solution, Inc. All rights reserved. ISSI reserves the right to make changes to this specification and its products at any time without notice. ISSI assumes no liability
arising out of the application or use of any information, products or services described herein. Customers are advised to obtain the latest version of this device specification before relying on any
published information and before placing orders for products.

IS61VPS25672A IS61LPS25672A
IS61VPS51236A IS61LPS51236A
IS61VPS102418A IS61LPS102418A

FEATURES

· Internal self-timed write cycle

· Individual Byte Write Control and Global Write

· Clock controlled, registered address, data and

control

· Burst sequence control using MODE input

· Three chip enable option for simple depth

expansion and address pipelining

· Common data inputs and data outputs

· Auto Power-down during deselect

· Single cycle deselect

· Snooze MODE for reduced-power standby

· JTAG Boundary Scan for PBGA package

· Power Supply

LPS: V

3.3V + 5%, V

DDQ

3.3V/2.5V + 5%

VPS: V

2.5V + 5%, V

DDQ

2.5V + 5%

· JEDEC 100-Pin TQFP, 119-ball PBGA, 165-ball

PBGA, and 209-ball (x72) packages

· Lead-free available

DESCRIPTION

The

ISSI

IS61LPS/VPS51236A, IS61LPS/VPS102418A,

and IS61LPS/VPS25672A are high-speed, low-power syn-
chronous static RAMs designed to provide burstable, high-
performance memory for communication and networking
applications. The IS61LPS/VPS51236A is organized as
524,288 words by 36 bits, the IS61LPS/VPS102418A is
organized as 1,048,576 words by 18 bits, and the IS61LPS/
VPS25672A is organized as 262,144 words by 72 bits.
Fabricated with

ISSI

's advanced CMOS technology, the

device integrates a 2-bit burst counter, high-speed SRAM
core, and high-drive capability outputs into a single mono-
lithic circuit. All synchronous inputs pass through regis-
ters controlled by a positive-edge-triggered single clock
input.

Write cycles are internally self-timed and are initiated by
the rising edge of the clock input. Write cycles can be one
to four bytes wide as controlled by the write control inputs.

Separate byte enables allow individual bytes to be written.
The byte write operation is performed by using the byte
write enable (

BWE

) input combined with one or more

individual byte write signals (

BWx

). In addition, Global

Write (

) is available for writing all bytes at one time,

regardless of the byte write controls.

Bursts can be initiated with either

ADSP

(Address Status

Processor) or

ADSC

(Address Status Cache Controller)

input pins. Subsequent burst addresses can be generated
internally and controlled by the

ADV

(burst address

advance) input pin.

The mode pin is used to select the burst sequence order,
Linear burst is achieved when this pin is tied LOW.
Interleave burst is achieved when this pin is tied HIGH or
left floating.

256K x 72, 512K x 36, 1024K x 18
18Mb SYNCHRONOUS PIPELINED,
SINGLE CYCLE DESELECT STATIC RAM

FEBRUARY 2005

FAST ACCESS TIME

Symbol

Parameter

250

200

Units

Clock Access Time

2.6

3.1

Cycle Time

Frequency

250

200

MHz

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

PIN CONFIGURATION -- 256K X 72, 209-Ball PBGA (TOP VIEW)

DQg

CE2

ADSP

ADSC

ADV

CE2

DQb

DQg

BWE

DQb

DQg

DQb

DQg

VSS

DQb

DQPg

DQPc

DDQ

DQPf

DQPb

DQc

VSS

DQf

DQc

DDQ

DQf

DQc

VSS

DQf

DQc

DDQ

DQf

CLK

VSS

DQh

DDQ

DQa

DQh

VSS

DQa

DQh

DDQ

DQa

DQh

VSS

DQa

DQPd

DQPh

DDQ

DQPa

DQPe

DQd

VSS

MODE

VSS

DQe

DQd

DQe

DQd

DQe

DQd

TMS

TDI

TDO

TCK

DQe

11 x 19 Ball BGA--14 x 22 mm

Body--1 mm Ball Pitch

PIN DESCRIPTIONS

Symbol

Pin Name

Address Inputs

A0, A1

Synchronous Burst Address Inputs

ADV

Synchronous Burst Address
Advance

ADSP

Address Status Processor

ADSC

Address Status Controller

Global Write Enable

CLK

Synchronous Clock

CE2

CE2

Synchronous Chip Select

x (x=a,b,c,d

Synchronous Byte Write

e,f,g,h)

Controls

Symbol

Pin Name

BWE

Byte Write Enable

Output Enable

Power Sleep Mode

MODE

Burst Sequence Selection

TCK, TDO

JTAG Pins

TMS, TDI

No Connect

DQx

Data Inputs/Outputs

DQPx

Data Inputs/Outputs

3.3V/2.5V Power Supply

DDQ

Isolated Output Power Supply
3.3V

/2.5V

Vss

Ground

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

119 BGA PACKAGE PIN CONFIGURATION-

512K

(TOP VIEW)

PIN DESCRIPTIONS

DDQ

ADSP

DDQ

ADSC

DQc

DQPc

Vss

DQPb

DQb

DQc

Vss

DQb

DDQ

DQc

Vss

DQb

DDQ

DQc

BWc

ADV

BWb

DQb

DQc

Vss

DQb

DDQ

DQd

Vss

CLK

Vss

DQa

DQd

BWd

BWa

DQa

DDQ

DQd

Vss

BWE

Vss

DQa

DDQ

DQd

Vss

DQa

DQd

DQPd

Vss

DQPa

DQa

MODE

DDQ

TMS

TDI

TCK

TDO

DDQ

Symbol

Pin Name

Address Inputs

A0, A1

Synchronous Burst Address Inputs

ADV

Synchronous Burst Address
Advance

ADSP

Address Status Processor

ADSC

Address Status Controller

Global Write Enable

CLK

Synchronous Clock

Synchronous Chip Select

x (x=a-d)

Synchronous Byte Write Controls

BWE

Byte Write Enable

Symbol

Pin Name

Output Enable

Power Sleep Mode

MODE

Burst Sequence Selection

TCK, TDO

JTAG Pins

TMS, TDI

No Connect

DQa-DQd

Data Inputs/Outputs

DQPa-Pd

Output Power Supply

Power Supply

DDQ

Output Power Supply

Vss

Ground

Note: * A

and A

are the two least significant bits (LSB) of the address field and set the internal burst counter if burst is desired.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

119 BGA PACKAGE PIN CONFIGURATION

(TOP VIEW)

PIN DESCRIPTIONS

Note: * A

and A

are the two least significant bits (LSB) of the address field and set the internal burst counter if burst is desired.

DDQ

ADSP

DDQ

ADSC

DQb

Vss

DQPa

DQb

Vss

DQa

DDQ

Vss

DQa

DDQ

DQb

BWb

ADV

Vss

DQa

DQb

Vss

DQa

DDQ

DQb

Vss

CLK

Vss

DQa

DQb

Vss

BWa

DQa

DDQ

DQb

Vss

BWE

Vss

DDQ

DQb

Vss

DQa

DQPb

Vss

DQa

MODE

DDQ

TMS

TDI

TCK

TDO

DDQ

Symbol

Pin Name

Address Inputs

A0, A1

Synchronous Burst Address Inputs

ADV

Synchronous Burst Address
Advance

ADSP

Address Status Processor

ADSC

Address Status Controller

Global Write Enable

CLK

Synchronous Clock

Synchronous Chip Select

x (x=a,b)

Synchronous Byte Write Controls

BWE

Byte Write Enable

Symbol

Pin Name

Output Enable

Power Sleep Mode

MODE

Burst Sequence Selection

TCK, TDO

JTAG Pins

TMS, TDI

No Connect

DQa-DQb

Data Inputs/Outputs

DQPa-Pb

Output Power Supply

Power Supply

DDQ

Output Power Supply

Vss

Ground

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

PIN DESCRIPTIONS

165 PBGA PACKAGE PIN CONFIGURATION

512K

36 (TOP VIEW)

Note: * A

and A

are the two least significant bits (LSB) of the address field and set the internal burst counter if burst is desired.

BWc

BWb

CE2

BWE

ADSC

ADV

CE2

BWd

BWa

CLK

ADSP

DQPc

DDQ

Vss

DDQ

DQPb

DQc

DDQ

Vss

DDQ

DQb

DQc

DDQ

Vss

DDQ

DQb

DQc

DDQ

Vss

DDQ

DQb

DQc

DDQ

Vss

DDQ

DQb

Vss

DQd

DDQ

Vss

DDQ

DQa

DQd

DDQ

Vss

DDQ

DQa

DQd

DDQ

Vss

DDQ

DQa

DQd

DDQ

Vss

DDQ

DQa

DQPd

DDQ

Vss

DDQ

NC DQPa

TDI

TDO

MODE

TMS

TCK

Symbol

Pin Name

Address Inputs

A0, A1

Synchronous Burst Address Inputs

ADV

Synchronous Burst Address
Advance

ADSP

Address Status Processor

ADSC

Address Status Controller

Global Write Enable

CLK

Synchronous Clock

CE2

CE2

Synchronous Chip Select

x (x=a,b,c,d) Synchronous Byte Write

Controls

Symbol

Pin Name

BWE

Byte Write Enable

Output Enable

Power Sleep Mode

MODE

Burst Sequence Selection

TCK, TDO

JTAG Pins

TMS, TDI

No Connect

DQx

Data Inputs/Outputs

DQPx

Data Inputs/Outputs

3.3V/2.5V Power Supply

DDQ

Isolated Output Power Supply
3.3V

/2.5V

Vss

Ground

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

Note: * A

and A

are the two least significant bits (LSB) of the address field and set the internal burst counter if burst is desired.

165 PBGA PACKAGE PIN CONFIGURATION

18 (TOP VIEW)

PIN DESCRIPTIONS

BWb

CE2

BWE

ADSC

ADV

CE2

BWa

CLK

ADSP

DDQ

Vss

DDQ

DQPa

DQb

DDQ

Vss

DDQ

DQa

DQb

DDQ

Vss

DDQ

DQa

DQb

DDQ

Vss

DDQ

DQa

DQb

DDQ

Vss

DDQ

DQa

Vss

DQb

DDQ

Vss

DDQ

DQa

DQb

DDQ

Vss

DDQ

DQa

DQb

DDQ

Vss

DDQ

DQa

DQb

DDQ

Vss

DDQ

DQa

DQPb

DDQ

Vss

DDQ

TDI

TDO

MODE

TMS

TCK

Symbol

Pin Name

Address Inputs

A0, A1

Synchronous Burst Address Inputs

ADV

Synchronous Burst Address
Advance

ADSP

Address Status Processor

ADSC

Address Status Controller

Global Write Enable

CLK

Synchronous Clock

CE2

CE2

Synchronous Chip Select

x (x=a,b)

Synchronous Byte Write
Controls

Symbol

Pin Name

BWE

Byte Write Enable

Output Enable

Power Sleep Mode

MODE

Burst Sequence Selection

TCK, TDO

JTAG Pins

TMS, TDI

No Connect

DQx

Data Inputs/Outputs

DQPx

Data Inputs/Outputs

3.3V/2.5V Power Supply

DDQ

Isolated Output Power Supply
3.3V/2.5V

Vss

Ground

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

DQPb
DQb
DQb
VDDQ
VSS
DQb
DQb
DQb
DQb
VSS
VDDQ
DQb
DQb
VSS
NC
VDD
ZZ
DQa
DQa
VDDQ
VSS
DQa
DQa
DQa
DQa
VSS
VDDQ
DQa
DQa
DQPa

CE2

BWd BWc BWb BWa CE2

VDD

VSS

CLK

GW BWE OE ADSC ADSP ADV

DQPc

DQc
DQc

VDDQ

VSS
DQc
DQc
DQc
DQc
VSS

VDDQ

DQc
DQc

VDD

VSS

DQd
DQd

VDDQ

VSS

DQd
DQd
DQd
DQd

VSS

VDDQ

DQd
DQd

DQPd

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

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

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

31 32 33 34 35 36 37 38 39 40 41 42 43 44 45

MODE

VSS

VDD

46 47 48 49 50

PIN DESCRIPTIONS

A0, A1

Synchronous Address Inputs. These
pins must tied to the two LSBs of the
address bus.

Synchronous Address Inputs

ADSC

Synchronous Controller Address
Status

ADSP

Synchronous Processor Address
Status

ADV

Synchronous Burst Address Advance

BWa

BWd

Synchronous Byte Write Enable

BWE

Synchronous Byte Write Enable

CE2

CE2 Synchronous Chip Enable

CLK

Synchronous Clock

DQa-DQd

Synchronous Data Input/Output

DQPa-DQPd

Parity Data Input/Output

Synchronous Global Write Enable

MODE

Burst Sequence Mode Selection

Output Enable

3.3V/2.5V Power Supply

DDQ

Isolated Output Buffer Supply:
3.3V/2.5V

Vss

Ground

Snooze Enable

PIN CONFIGURATION

512K x 36

100-PIN TQFP

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

PIN CONFIGURATION

1024K x 18

PIN DESCRIPTIONS

A0, A1

Synchronous Address Inputs. These
pins must tied to the two LSBs of the
address bus.

Synchronous Address Inputs

ADSC

Synchronous Controller Address Status

ADSP

Synchronous Processor Address Status

ADV

Synchronous Burst Address Advance

BWa

BWb

Synchronous Byte Write Enable

BWE

Synchronous Byte Write Enable

, CE2,

CE2

Synchronous Chip Enable

CLK

Synchronous Clock

DQa-DQb

Synchronous Data Input/Output

DQPa-DQPb

Parity Data I/O; DQPa is parity for
DQa1-8; DQPb is parity for DQb1-8

Synchronous Global Write Enable

MODE

Burst Sequence Mode Selection

Output Enable

3.3V/2.5V Power Supply

DDQ

Isolated Output Buffer Supply:
3.3V/2.5V

Vss

Ground

Snooze Enable

A
NC
NC
VDDQ
VSS
NC
DQPa
DQa
DQa
VSS
VDDQ
DQa
DQa
VSS
NC
VDD
ZZ
DQa
DQa
VDDQ
VSS
DQa
DQa
NC
NC
VSS
VDDQ
NC
NC
NC

CE2

BWb BWa CE2

VDD

VSS

CLK

GW BWE OE ADSC ADSP ADV

NC
NC
NC

VDDQ

VSS

NC
NC

DQb
DQb

VSS

VDDQ

DQb
DQb

VDD

VSS

DQb
DQb

VDDQ

VSS

DQb
DQb

DQPb

VSS

VDDQ

NC
NC
NC

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

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

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

31 32 33 34 35 36 37 38 39 40 41 42 43 44 45

MODE

VSS

VDD

46 47 48 49 50

100-PIN TQFP

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

TRUTH TABLE

(1-8)

(3CE option)

OPERATION

ADDRESS

CE2

ADSP

ADSP ADSC

ADSC

ADV

ADV WRITE

WRITE

CLK

Deselect Cycle, Power-Down

None

L-H

High-Z

Deselect Cycle, Power-Down

None

L-H

High-Z

Deselect Cycle, Power-Down

None

L-H

High-Z

Deselect Cycle, Power-Down

None

L-H

High-Z

Deselect Cycle, Power-Down

None

L-H

High-Z

Snooze Mode, Power-Down

None

High-Z

Read Cycle, Begin Burst

External

L-H

Read Cycle, Begin Burst

External

L-H

High-Z

Write Cycle, Begin Burst

External

L-H

Read Cycle, Begin Burst

External

L-H

Read Cycle, Begin Burst

External

L-H

High-Z

Read Cycle, Continue Burst

L-H

Read Cycle, Continue Burst

L-H

High-Z

Read Cycle, Continue Burst

L-H

Read Cycle, Continue Burst

L-H

High-Z

Write Cycle, Continue Burst

L-H

Write Cycle, Continue Burst

L-H

Read Cycle, Suspend Burst

Current

L-H

Read Cycle, Suspend Burst

Current

L-H

High-Z

Read Cycle, Suspend Burst

Current

L-H

Read Cycle, Suspend Burst

Current

L-H

High-Z

Write Cycle, Suspend Burst

Current

L-H

Write Cycle, Suspend Burst

Current

L-H

NOTE:

1. X means "Don't Care." H means logic HIGH. L means logic LOW.
2. For

WRITE

, L means one or more byte write enable signals (

BWa-h

) and

BWE

are LOW or

is LOW.

WRITE

= H for all

BWx

BWE

HIGH.

BWa

enables WRITEs to DQa's and DQPa.

BWb

enables WRITEs to DQb's and DQPb.

BWc

enables WRITEs to DQc's and

DQPc.

BWd

enables WRITEs to DQd's and DQPd.

BWe

enables WRITEs to DQe's and DQPe.

BWf

enables WRITEs to DQf's

and DQPf.

BWg

enables WRITEs to DQg's and DQPg.

BWh

enables WRITEs to DQh's and DQPh. DQPa-DQPh are avail-

able on the x72 version. DQPa and DQPb are available on the x18 version. DQPa-DQPd are available on the x36 version.

4. All inputs except

and ZZ must meet setup and hold times around the rising edge (LOW to HIGH) of CLK.

5. Wait states are inserted by suspending burst.
6. For a WRITE operation following a READ operation,

must be HIGH before the input data setup time and held HIGH during the

input data hold time.

7. This device contains circuitry that will ensure the outputs will be in High-Z during power-up.
8.

ADSP

LOW always initiates an internal READ at the L-H edge of CLK. A WRITE is performed by setting one or more byte write

enable signals and

BWE

LOW or

LOW for the subsequent L-H edge of CLK. See WRITE timing diagram for clarification.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

PARTIAL TRUTH TABLE

Function

BWE

BWa

BWb

BWc

BWd

BWe

BWf

BWg

BWh

Read

Write Byte 1

Write All Bytes

TRUTH TABLE

(1-8)

(1CE option)

NEXT CYCLE

ADDRESS

ADSP

ADSC

ADV

WRITE

Deselected

None

High-Z

Read, Begin Burst

External

Read, Begin Burst

External

High-Z

Write, Begin Burst

External

Read, Begin Burst

External

Read, Begin Burst

External

High-Z

Read, Continue Burst

High-Z

Read, Continue Burst

High-Z

Write, Continue Burst

Read, Suspend Burst

Current

Read, Suspend Burst

Current

High-Z

Read, Suspend Burst

Current

Read, Suspend Burst

Current

High-Z

Write, Suspend Burst

Current

Write, Suspend Burst

Current

NOTE:

1. X means "Don't Care." H means logic HIGH. L means logic LOW.
2. For

WRITE

, L means one or more byte write enable signals (

BWa-h

) and

BWE

are LOW or

is LOW.

WRITE

= H for all

BWx

BWE

HIGH.

BWa

enables WRITEs to DQa's and DQPa.

BWb

enables WRITEs to DQb's and DQPb.

BWc

enables WRITEs to DQc's and

DQPc.

BWd

enables WRITEs to DQd's and DQPd.

BWe

enables WRITEs to DQe's and DQPe.

BWf

enables WRITEs to DQf's

and DQPf.

BWg

enables WRITEs to DQg's and DQPg.

BWh

enables WRITEs to DQh's and DQPh. DQPa-DQPh are avail-

able on the x72 version. DQPa and DQPb are available on the x18 version. DQPa-DQPd are available on the x36 version.

4. All inputs except

and ZZ must meet setup and hold times around the rising edge (LOW to HIGH) of CLK.

5. Wait states are inserted by suspending burst.
6. For a WRITE operation following a READ operation,

must be HIGH before the input data setup time and held HIGH during the

input data hold time.

7. This device contains circuitry that will ensure the outputs will be in High-Z during power-up.
8.

ADSP

LOW always initiates an internal READ at the L-H edge of CLK. A WRITE is performed by setting one or more byte write

enable signals and

BWE

LOW or

LOW for the subsequent L-H edge of CLK. See WRITE timing diagram for clarification.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

INTERLEAVED BURST ADDRESS TABLE (MODE = V

or No Connect)

External Address

1st Burst Address

2nd Burst Address

3rd Burst Address

A1 A0

LINEAR BURST ADDRESS TABLE (MODE = VSS)

0,0

1,0

0,1

A1', A0' = 1,1

ABSOLUTE MAXIMUM RATINGS

(1)

Symbol

Parameter

Value

Unit

STG

Storage Temperature

55 to +150

°C

Power Dissipation

1.6

OUT

Output Current (per I/O)

100

, V

OUT

Voltage Relative to Vss for I/O Pins

0.5 to V

DDQ

+ 0.5

Voltage Relative to Vss for

0.5 to V

+ 0.5

for Address and Control Inputs

Voltage on V

Supply Relative to Vss

0.5 to 4.6

Notes:
1. Stress greater than those listed under ABSOLUTE MAXIMUM RATINGS may cause perma-

nent 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. This device contains circuity to protect the inputs against damage due to high static voltages or

electric fields; however, precautions may be taken to avoid application of any voltage higher than
maximum rated voltages to this high-impedance circuit.

3. This device contains circuitry that will ensure the output devices are in High-Z at power up.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

OPERATING RANGE (IS61LPSXXXXX)

Range

Ambient Temperature

DDQ

Commercial

0°C to +70°C

3.3V + 5%

3.3V / 2.5V + 5%

Industrial

40°C to +85°C

3.3V + 5%

3.3V / 2.5V + 5%

OPERATING RANGE (IS61VPSXXXXX)

Range

Ambient Temperature

DDQ

Commercial

0°C to +70°C

2.5V + 5%

Industrial

40°C to +85°C

2.5V + 5%

DC ELECTRICAL CHARACTERISTICS

(Over Operating Range)

3.3V

2.5V

Symbol

Parameter

Test Conditions

Min.

Max.

Min.

Max.

Unit

Output HIGH Voltage

= 4.0 mA (3.3V)

2.4

2.0

= 1.0 mA (2.5V)

Output LOW Voltage

= 8.0 mA (3.3V)

0.4

= 1.0 mA (2.5V)

Input HIGH Voltage

2.0

+ 0.3

1.7

+ 0.3

Input LOW Voltage

-0.3

0.8

-0.3

0.7

Input Leakage Current

Vss

(1)

-5

µA

Output Leakage Current Vss

OUT

DDQ

-5

µA

= V

POWER SUPPLY CHARACTERISTICS

(1)

(Over Operating Range)

-250

-200

MAX

Symbol Parameter

Test Conditions

Temp. range x18

x36

x72

x18

x36

x72

Unit

AC Operating

Device Selected,

Com.

450

600

425

550

Supply Current

= V

, ZZ

Ind.

500

650

475

600

All Inputs

0.2V or

0.2V,

Cycle Time

min.

Standby Current

Device Deselected,

Com.

150

TTL Input

= Max.,

Ind.

150

All Inputs

, f = Max.

SBI

Standby Current

Device Deselected,

Com.

110

CMOS Input

= Max.,

Ind.

125

+ 0.2V or

0.2V

f = 0

Sleep Mode

ZZ>V

Com.

Ind.

Note:
1. MODE pin has an internal pullup and should be tied to V

or V

. It exhibits ±100µA maximum leakage current when tied to

+ 0.2V or

0.2V.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

READ/WRITE CYCLE SWITCHING CHARACTERISTICS

(Over Operating Range)

-250

-200

Symbol

Parameter

Min.

Max.

Min.

Max.

Unit

MAX

Clock Frequency

250

200

MHz

Cycle Time

4.0

Clock High Time

1.7

Clock Low Time

1.7

Clock Access Time

2.6

3.1

KQX

(2)

Clock High to Output Invalid

0.8

1.5

KQLZ

(2,3)

Clock High to Output Low-Z

0.8

KQHZ

(2,3)

Clock High to Output High-Z

2.6

3.0

OEQ

Output Enable to Output Valid

2.8

3.1

OELZ

(2,3)

Output Enable to Output Low-Z

OEHZ

(2,3)

Output Disable to Output High-Z

2.6

3.0

Address Setup Time

1.2

1.4

Read/Write Setup Time

1.2

1.4

CES

Chip Enable Setup Time

1.2

1.4

AVS

Address Advance Setup Time

1.2

1.4

Data Setup Time

1.2

1.4

Address Hold Time

0.3

0.4

Write Hold Time

0.3

0.4

CEH

Chip Enable Hold Time

0.3

0.4

AVH

Address Advance Hold Time

0.3

0.4

Data Hold Time

0.3

0.4

PDS

ZZ High to Power Down

cyc

PUS

ZZ Low to Power Down

cyc

Note:
1. Configuration signal MODE is static and must not change during normal operation.
2. Guaranteed but not 100% tested. This parameter is periodically sampled.
3. Tested with load in Figure 2.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

IEEE 1149.1 SERIAL BOUNDARY SCAN (JTAG)

The IS61LPS/VPSxxxxxx products have a serial boundary
scan Test Access Port (TAP) in the PBGA package only.
(The TQFP package not available.) This port operates in
accordance with IEEE Standard 1149.1-1900, but does not
include all functions required for full 1149.1 compliance.
These functions from the IEEE specification are excluded
because they place added delay in the critical speed path
of the SRAM. The TAP controller operates in a manner that
does not conflict with the performance of other devices
using 1149.1 fully compliant TAPs. The TAP operates using
JEDEC standard 2.5V I/O logic levels.

DISABLING THE JTAG FEATURE

The SRAM can operate without using the JTAG feature. To
disable the TAP controller, TCK must be tied LOW (Vss) to
prevent clocking of the device. TDI and TMS are internally
pulled up and may be disconnected. They may alternately
be connected to V

through a pull-up resistor. TDO should

be left disconnected. On power-up, the device will start in a
reset state which will not interfere with the device operation.

TEST ACCESS PORT (TAP) - TEST CLOCK

The test clock is only used with the TAP controller. All
inputs are captured on the rising edge of TCK and outputs
are driven from the falling edge of TCK.

TEST MODE SELECT (TMS)

The TMS input is used to send commands to the TAP
controller and is sampled on the rising edge of TCK. This
pin may be left disconnected if the TAP is not used. The
pin is internally pulled up, resulting in a logic HIGH level.

TEST DATA-IN (TDI)

The TDI pin is used to serially input information to the
registers and can be connected to the input of any
register. The register between TDI and TDO is chosen by
the instruction loaded into the TAP instruction register.
For information on instruction register loading, see the
TAP Controller State Diagram. TDI is internally pulled up
and can be disconnected if the TAP is unused in an
application. TDI is connected to the Most Significant Bit
(MSB) on any register.

31 30 29

. . .

2 1 0

. . . . .

2 1 0

Bypass Register

Instruction Register

Identification Register

Boundary Scan Register*

TAP CONTROLLER

Selection Circuitry

TDO

TDI

TCK

TMS

TAP CONTROLLER BLOCK DIAGRAM

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

TEST DATA OUT (TDO)

The TDO output pin is used to serially clock data-out from
the registers. The output is active depending on the current
state of the TAP state machine (see TAP Controller State
Diagram). The output changes on the falling edge of TCK
and TDO is connected to the Least Significant Bit (LSB) of
any register.

PERFORMING A TAP RESET

A Reset is performed by forcing TMS HIGH (V

) for five

rising edges of TCK. RESET may be performed while the
SRAM is operating and does not affect its operation. At
power-up, the TAP is internally reset to ensure that TDO
comes up in a high-Z state.

TAP REGISTERS

Registers are connected between the TDI and TDO pins and
allow data to be scanned into and out of the SRAM test
circuitry. Only one register can be selected at a time through
the instruction registers. Data is serially loaded into the TDI
pin on the rising edge of TCK and output on the TDO pin on
the falling edge of TCK.

Instruction Register

Three-bit instructions can be serially loaded into the instruc-
tion register. This register is loaded when it is placed
between the TDI and TDO pins. (See TAP Controller Block
Diagram) At power-up, the instruction register is loaded
with the IDCODE instruction. It is also loaded with the
IDCODE instruction if the controller is placed in a reset state
as previously described.

When the TAP controller is in the CaptureIR state, the two
least significant bits are loaded with a binary "01" pattern to
allow for fault isolation of the board level serial test path.

Bypass Register

To save time when serially shifting data through registers,
it is sometimes advantageous to skip certain states. The
bypass register is a single-bit register that can be placed
between TDI and TDO pins. This allows data to be shifted
through the SRAM with minimal delay. The bypass register

is set LOW (V

) when the BYPASS instruction is ex-

ecuted.

Boundary Scan Register

The boundary scan register is connected to all input and
output pins on the SRAM. Several no connect (NC) pins are
also included in the scan register to reserve pins for higher
density devices. The x36 configuration has a 75-bit-long
register and the x18 configuration also has a 75-bit-long
register. The boundary scan register is loaded with the
contents of the RAM Input and Output ring when the TAP
controller is in the Capture-DR state and then placed
between the TDI and TDO pins when the controller is moved
to the Shift-DR state. The EXTEST, SAMPLE/PRELOAD
and SAMPLE-Z instructions can be used to capture the
contents of the Input and Output ring.

The Boundary Scan Order tables show the order in which the
bits are connected. Each bit corresponds to one of the
bumps on the SRAM package. The MSB of the register is
connected to TDI, and the LSB is connected to TDO.

Identification (ID) Register

The ID register is loaded with a vendor-specific, 32-bit code
during the Capture-DR state when the IDCODE command is
loaded to the instruction register. The IDCODE is hardwired
into the SRAM and can be shifted out when the TAP
controller is in the Shift-DR state. The ID register has vendor
code and other information described in the Identification
Register Definitions table.

Scan Register Sizes

Register

Bit Size

Name

(x18)

(x36)

(x72)

Instruction

Bypass

Boundary Scan

TBD

IDENTIFICATION REGISTER DEFINITIONS

Instruction Field

Description

256K x 72

512K x 36

1M x 18

Revision Number (31:28)

Reserved for version number.

xxxx

Device Depth (27:23)

Defines depth of SRAM. 512K, 1M or 256K

00110

00111

01000

Device Width (22:18)

Defines width of the SRAM. x72, x36 or x18

00101

00100

00011

ISSI Device ID (17:12)

Reserved for future use.

xxxx

xxxxx

ISSI JEDEC ID (11:1)

Allows unique identification of SRAM vendor.

0011010101

00011010101

ID Register Presence (0)

Indicate the presence of an ID register.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

TAP INSTRUCTION SET

Eight instructions are possible with the three-bit instruction
register and all combinations are listed in the Instruction Code
table. Three instructions are listed as RESERVED and should
not be used and the other five instructions are described
below. The TAP controller used in this SRAM is not fully
compliant with the 1149.1 convention because some man-
datory instructions are not fully implemented. The TAP
controller cannot be used to load address, data or control
signals and cannot preload the Input or Output buffers. The
SRAM does not implement the 1149.1 commands EXTEST or
INTEST or the PRELOAD portion of SAMPLE/PRELOAD; instead
it performs a capture of the Inputs and Output ring when these
instructions are executed. Instructions are loaded into the
TAP controller during the Shift-IR state when the instruction
register is placed between TDI and TDO. During this state,
instructions are shifted from the instruction register through
the TDI and TDO pins. To execute an instruction once it is
shifted in, the TAP controller must be moved into the
Update-IR state.

EXTEST

EXTEST is a mandatory 1149.1 instruction which is to be
executed whenever the instruction register is loaded with all
0s. Because EXTEST is not implemented in the TAP
controller, this device is not 1149.1 standard compliant. The
TAP controller recognizes an all-0 instruction. When an
EXTEST instruction is loaded into the instruction register,
the SRAM responds as if a SAMPLE/PRELOAD instruction
has been loaded. There is a difference between the instruc-
tions, unlike the SAMPLE/PRELOAD instruction, EXTEST
places the SRAM outputs in a High-Z state.

IDCODE

The IDCODE instruction causes a vendor-specific, 32-bit
code to be loaded into the instruction register. It also places
the instruction register between the TDI and TDO pins and
allows the IDCODE to be shifted out of the device when the
TAP controller enters the Shift-DR state. The IDCODE
instruction is loaded into the instruction register upon power-
up or whenever the TAP controller is given a test logic reset
state.

SAMPLE-Z

The SAMPLE-Z instruction causes the boundary scan
register to be connected between the TDI and TDO pins
when the TAP controller is in a Shift-DR state. It also places
all SRAM outputs into a High-Z state.

SAMPLE/PRELOAD

SAMPLE/PRELOAD is a 1149.1 mandatory instruction.
The PRELOAD portion of this instruction is not imple-
mented, so the TAP controller is not fully 1149.1 compliant.
When the SAMPLE/PRELOAD instruction is loaded to the
instruction register and the TAP controller is in the Capture-
DR state, a snapshot of data on the inputs and output pins
is captured in the boundary scan register.

It is important to realize that the TAP controller clock
operates at a frequency up to 10 MHz, while the SRAM
clock runs more than an order of magnitude faster. Because
of the clock frequency differences, it is possible that during
the Capture-DR state, an input or output will under-go a
transition. The TAP may attempt a signal capture while in
transition (metastable state). The device will not be harmed,
but there is no guarantee of the value that will be captured
or repeatable results.

To guarantee that the boundary scan register will capture
the correct signal value, the SRAM signal must be stabi-
lized long enough to meet the TAP controller's capture set-
up plus hold times (t

and t

). To insure that the SRAM

clock input is captured correctly, designs need a way to stop
(or slow) the clock during a SAMPLE/PRELOAD instruc-
tion. If this is not an issue, it is possible to capture all other
signals and simply ignore the value of the CLK captured in
the boundary scan register.

Once the data is captured, it is possible to shift out the data
by putting the TAP into the Shift-DR state. This places the
boundary scan register between the TDI and TDO pins.

Note that since the PRELOAD part of the command is not
implemented, putting the TAP into the Update to the Update-DR
state while performing a SAMPLE/PRELOAD instruction will
have the same effect as the Pause-DR command.

BYPASS

When the BYPASS instruction is loaded in the instruction
register and the TAP is placed in a Shift-DR state, the
bypass register is placed between the TDI and TDO pins.
The advantage of the BYPASS instruction is that it shortens
the boundary scan path when multiple devices are con-
nected together on a board.

RESERVED

These instructions are not implemented but are reserved for
future use. Do not use these instructions.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

INSTRUCTION CODES

Code

Instruction

Description

000

EXTEST

Captures the Input/Output ring contents. Places the boundary scan register between
the TDI and TDO. Forces all SRAM outputs to High-Z state. This
instruction is not 1149.1 compliant.

001

IDCODE

Loads the ID register with the vendor ID code and places the register between TDI
and TDO. This operation does not affect SRAM operation.

010

SAMPLE-Z

Captures the Input/Output contents. Places the boundary scan register between TDI
and TDO. Forces all SRAM output drivers to a High-Z state.

011

RESERVED

Do Not Use: This instruction is reserved for future use.

100

SAMPLE/PRELOAD

Captures the Input/Output ring contents. Places the boundary scan register between
TDI and TDO. Does not affect the SRAM operation. This instruction does not
implement 1149.1 preload function and is therefore not 1149.1 compliant.

101

RESERVED

Do Not Use: This instruction is reserved for future use.

110

RESERVED

Do Not Use: This instruction is reserved for future use.

111

BYPASS

Places the bypass register between TDI and TDO. This operation does not
affect SRAM operation.

Select DR

Capture DR

Shift DR

Exit1 DR

Pause DR

Exit2 DR

Update DR

Select IR

Capture IR

Shift IR

Exit1 IR

Pause IR

Exit2 IR

Update IR

Test Logic Reset

Run Test/Idle

TAP CONTROLLER STATE DIAGRAM

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

TAP Electrical Characteristics Over the Operating Range

(1,2)

Symbol

Parameter

Test Conditions

Min.

Max.

Units

OH1

Output HIGH Voltage

= 2.0 mA

1.7

OH2

Output HIGH Voltage

= 100 µA

2.1

OL1

Output LOW Voltage

= 2.0 mA

0.7

OL2

Output LOW Voltage

= 100 µA

0.2

Input HIGH Voltage

1.7

+0.3

Input LOW Voltage

0.3

0.7

Input Leakage Current

V I

DDQ

µA

Notes:

1. All Voltage referenced to Ground.
2. Overshoot: V

(AC)

+1.5V for t

TCYC

/2,

Undershoot: V

(AC)

0.5V for t

TCYC

/2,

Power-up: V

< 2.6V and V

< 2.4V and V

DDQ

< 1.4V for t < 200 ms.

TAP AC ELECTRICAL CHARACTERISTICS

(1,2)

(OVER OPERATING RANGE)

Symbol Parameter

Min.

Max.

Unit

TCYC

TCK Clock cycle time

100

TCK Clock frequency

MHz

TCK Clock HIGH

TCK Clock LOW

TMSS

TMS setup to TCK Clock Rise

TDIS

TDI setup to TCK Clock Rise

Capture setup to TCK Rise

TMSH

TMS hold after TCK Clock Rise

TDIH

TDI Hold after Clock Rise

Capture hold after Clock Rise

TDOV

TCK LOW to TDO valid

TDOX

TCK LOW to TDO invalid

Notes:

1. Both t

and t

refer to the set-up and hold time requirements of latching data from the boundary scan register.

2. Test conditions are specified using the load in TAP AC test conditions. t

= 1 ns.

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

165 PBGA BOUNDARY SCAN ORDER (x 36)

Signal Bump

Signal

Bump

Signal

Bump

Signal

Bump

Bit #

Name

Bit #

Name

Bit #

Name

Bit #

Name

MODE

DQb

11G

DQd

DQb

11F

DQd

11P

DQb

11E

DQd

DQb

11D

DQd

DQb

10G

DQd

DQb

10F

DQd

DQb

10E

CE2

DQd

10P

DQb

10D

DQd

10R

DQb

11C

DQd

11R

11A

11H

10A

DQa

11N

10B

DQc

DQa

11M

ADV

DQc

DQa

11L

ADSP

DQc

DQa

11K

ADSC

DQc

DQa

11J

DQc

DQa

10M

BWE

DQc

DQa

10L

DQc

DQa

10K

CLK

DQc

DQa

10J

11B

DQc

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

165 PBGA BOUNDARY SCAN ORDER (x 18)

Signal Bump

Signal

Bump

Signal

Bump

Signal

Bump

Bit #

Name

Bit #

Name

Bit #

Name

Bit #

Name

MODE

DQa

11G

DQb

DQa

11F

DQb

11P

DQa

11E

DQb

DQa

11D

DQb

DQa

11C

DQb

10F

10E

CE2

10P

10D

10R

10G

11R

11A

11H

10A

11N

10B

11M

ADV

11L

ADSP

11K

ADSC

11J

DQa

10M

BWE

DQb

DQa

10L

DQb

DQa

10K

CLK

DQb

DQa

10J

11B

DQb

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D

02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

ORDERING INFORMATION (3.3V core/2.5V-3.3V I/O)

Commercial Range: 0°C to +70°C

Configuration

Frequency

Order Part Number

Package

512Kx36

250

IS61LPS51236A-250TQ

100 TQFP

IS61LPS51236A-250B2

119 PBGA

IS61LPS51236A-250B3

165 PBGA

200

IS61LPS51236A-200TQ

100 TQFP

IS61LPS51236A-200B2

119 PBGA

IS61LPS51236A-200B3

165 PBGA

1Mx18

250

IS61LPS102418A-250TQ

100 TQFP

IS61LPS102418A-250B2

119 PBGA

IS61LPS102418A-250B3

165 PBGA

200

IS61LPS102418A-200TQ

100 TQFP

IS61LPS102418A-200B2

119 PBGA

IS61LPS102418A-200B3

165 PBGA

256Kx72

250

IS61LPS25672A-250B1

209 PBGA

Industrial Range: -40°C to +85°C

Configuration

Frequency

Order Part Number

Package

512Kx36

250

IS61LPS51236A-250TQI

100 TQFP

IS61LPS51236A-250B2I

119 PBGA

IS61LPS51236A-250B3I

165 PBGA

200

IS61LPS51236A-200TQI

100 TQFP

IS61LPS51236A-200TQLI

100 TQFP, Lead-free

IS61LPS51236A-200B2I

119 PBGA

IS61LPS51236A-200B3I

165 PBGA

IS61LPS51236A-200B3LI

165 PBGA, Lead-free

1Mx18

250

IS61LPS102418A-250TQI

100 TQFP

IS61LPS102418A-250B2I

119 PBGA

IS61LPS102418A-250B3I

165 PBGA

200

IS61LPS102418A-200TQI

100 TQFP

IS61LPS102418A-200B2I

119 PBGA

IS61LPS102418A-200B3I

165 PBGA

256Kx72

250

IS61LPS25672A-250B1I

209 PBGA

Integrated Silicon Solution, Inc. -- 1-800-379-4774

Rev. D
02/11/05

IS61VPS25672A, IS61LPS25672A
IS61VPS51236A, IS61LPS51236A, IS61VPS102418A, IS61LPS102418A

ISSI

ORDERING INFORMATION (2.5V core/2.5V I/O)

Commercial Range: 0°C to +70°C

Configuration

Frequency

Order Part Number

Package

512Kx36

250

IS61VPS51236A-250TQ

100 TQFP

IS61VPS51236A-250B2

119 PBGA

IS61VPS51236A-250B3

165 PBGA

200

IS61VPS51236A-200TQ

100 TQFP

IS61VPS51236A-200B2

119 PBGA

IS61VPS51236A-200B3

165 PBGA

1Mx18

250

IS61VPS102418A-250TQ

100 TQFP

IS61VPS102418A-250B2

119 PBGA

IS61VPS102418A-250B3

165 PBGA

200

IS61VPS102418A-200TQ

100 TQFP

IS61VPS102418A-200B2

119 PBGA

IS61VPS102418A-200B3

165 PBGA

256Kx72

250

IS61VPS25672A-250B1

209 PBGA

Industrial Range: -40°C to +85°C

Configuration

Frequency

Order Part Number

Package

512Kx36

250

IS61VPS51236A-250TQI

100 TQFP

IS61VPS51236A-250B2I

119 PBGA

IS61VPS51236A-250B3I

165 PBGA

200

IS61VPS51236A-200TQI

100 TQFP

IS61VPS51236A-200B2I

119 PBGA

IS61VPS51236A-200B3I

165 PBGA

1Mx18

250

IS61VPS102418A-250TQI

100 TQFP

IS61VPS102418A-250B2I

119 PBGA

IS61VPS102418A-250B3I

165 PBGA

200

IS61VPS102418A-200TQI

100 TQFP

IS61VPS102418A-200B2I

119 PBGA

IS61VPS102418A-200B3I

165 PBGA

256Kx72

250

IS61VPS25672A-250B1I

209 PBGA

PACKAGING INFORMATION

ISSI

Integrated Silicon Solution, Inc. -- www.issi.com --

1-800-379-4774

Rev. B
02/12/03

Copyright © 2003 Integrated Silicon Solution, Inc. All rights reserved. ISSI reserves the right to make changes to this specification and its products at any time
without notice. ISSI assumes no liability arising out of the application or use of any information, products or services described herein. Customers are advised to
obtain the latest version of this device specification before relying on any published information and before placing orders for products.

Plastic Ball Grid Array
Package Code: B (119-pin)

Notes:

1. Controlling dimension: millimeters, unless otherwise specified.
2. BSC = Basic lead spacing between centers.
3. Dimensions D1 and E do not include mold flash protrusion and
should be measured from the bottom of the package.
4. Formed leads shall be planar with respect to one another within

0.004 inches at the seating plane.

MILLIMETERS

INCHES

Sym.

Min.

Max.

Min.

Max.

N0.
Leads

119

2.41

0.095

0.50

0.70

0.020

0.028

0.80

1.00

0.032

0.039

1.30

1.70

0.051

0.067

0.56 BSC

0.022 BSC

0.60

0.90

0.024

0.035

21.80

22.20

0.858

0.874

20.32 BSC

0.800 BSC

19.40

19.60

0.764

0.772

13.80

14.20

0.543

0.559

7.62 BSC

0.300 BSC

11.90

12.10

0.469

0.476

1.27 BSC

0.050 BSC

SEATING PLANE

b (119X)

PACKAGING INFORMATION

ISSI

Integrated Silicon Solution, Inc. -- www.issi.com --

1-800-379-4774

Rev. A
06/11/03

11 10 9 8 7 6 5 4 3 2 1

A1 CORNER

BOTTOM VIEW

D D1

1 2 3 4 5 6 7 8 9 10 11

A1 CORNER

TOP VIEW

b (165X)

Ball Grid Array
Package Code: B (165-pin)

Notes:
1. Controlling dimensions are in millimeters.

BGA - 13mm x 15mm

MILLIMETERS

INCHES

Sym.

Min.

Nom.

Max.

Min.

Nom.

Max.

N0.
Leads

165

1.20

0.047

0.25

0.33

0.40

0.010

0.013

0.016

0.79

0.031

14.90

15.00

15.10

0.587

0.591

0.594

13.90

14.00

14.10

0.547

0.551

0.555

12.90

13.00

13.10

0.508

0.512

0.516

9.90

10.00

10.10

0.390

0.394

0.398

1.00

0.039

0.40

0.45

0.50

0.016

0.018

0.020

Integrated Silicon Solution, Inc. -- 1-800-379-4774

PACKAGING INFORMATION

ISSI

PK13197LQ Rev. D 05/08/03

TQFP (Thin Quad Flat Pack Package)
Package Code: TQ

Thin Quad Flat Pack (TQ)

Millimeters

Inches

Millimeters

Inches

Symbol

Min

Max

Min

Max

Min

Max

Min

Max

Ref. Std.

No. Leads (N)

100

128

1.60

0.063

1.60

0.063

0.05

0.15

0.002

0.006

0.05

0.15

0.002

0.006

1.35

1.45

0.053

0.057

1.35

1.45

0.053

0.057

0.22

0.38

0.009

0.015

0.17

0.27

0.007

0.011

21.90

22.10

0.862

0.870

21.80

22.20

0.858

0.874

19.90

20.10

0.783

0.791

19.90

20.10

0.783

0.791

15.90

16.10

0.626

0.634

15.80

16.20

0.622

0.638

13.90

14.10

0.547

0.555

13.90

14.10

0.547

0.555

0.65 BSC

0.026 BSC

0.50 BSC

0.020 BSC

0.45

0.75

0.018

0.030

0.45

0.75

0.018

0.030

1.00 REF.

0.039 REF.

1.00 REF.

0.039 REF.

Notes:
1. All dimensioning and

tolerancing conforms to
ANSI Y14.5M-1982.

2. Dimensions D1 and E1 do

not include mold protrusions.
Allowable protrusion is 0.25
mm per side. D1 and E1 do
include mold mismatch and
are determined at datum
plane -H-.

3. Controlling dimension:

millimeters.

SEATING
PLANE

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