IS61LPD51236-200B2I [ISSI]
Cache SRAM, 512KX36, 3.1ns, CMOS, PBGA119, 14 X 22 MM, 1 MM PITCH, PLASTIC, BGA-119;型号: | IS61LPD51236-200B2I |
厂家: | INTEGRATED SILICON SOLUTION, INC |
描述: | Cache SRAM, 512KX36, 3.1ns, CMOS, PBGA119, 14 X 22 MM, 1 MM PITCH, PLASTIC, BGA-119 静态存储器 |
文件: | 总29页 (文件大小:159K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
®
IS61VPD51236A IS61VPD102418A
IS61LPD51236A IS61LPD102418A
ISSI
512K x 36, 1024K x 18
18Mb SYNCHRONOUS PIPELINED,
DOUBLE CYCLE DESELECT STATIC RAM
ADVANCE INFORMATION
DECEMBER 2002
DESCRIPTION
FEATURES
The ISSI IS61LPD/VPD51236A and IS61LPD/
VPD102418A are high-speed, low-power synchronous
static RAMs designed to provide burstable, high-performance
memory for communication and networking applications.
TheIS61LPD/VPD51236Aisorganizedas524,288words
by 36 bits, and the IS61LPD/VPD102418A is organized as
1,048,576 words by 18 bits. Fabricated with ISSI's ad-
vanced CMOS technology, the device integrates a 2-bit
burst counter, high-speed SRAM core, and high-drive
capability outputs into a single monolithic circuit. All
synchronous inputs pass through registers controlled by
a positive-edge-triggered single clock input.
• 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
• Double cycle deselect
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.
• Snooze MODE for reduced-power standby
• JTAG Boundary Scan for PBGA package
• Power Supply
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 (GW) is available for writing all bytes at one time,
regardless of the byte write controls.
LPD: VDD 3.3V + 5%, VDDQ 3.3V/2.5V + 5%
VPD: VDD 2.5V + 5%, VDDQ 2.5V + 5%
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.
• JEDEC 100-Pin TQFP,
119-pin PBGA, and 165-pin PBGA package
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.
FAST ACCESS TIME
Symbol
tKQ
Parameter
250
2.6
4
200
3.1
5
Units
ns
Clock Access Time
Cycle Time
tKC
ns
Frequency
250
200
MHz
This document contains ADVANCE INFORMATION data. ISSI reserves the right to make changes to its products at any time without notice in order to improve design and supply the best
possible product. We assume no responsibility for any errors which may appear in this publication. © Copyright 2001, Integrated Silicon Solution, Inc.
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
1
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
BLOCK DIAGRAM
MODE
A0'
Q0
A0
CLK
CLK
BINARY
COUNTER
Q1
CE
A1'
ADV
A1
512Kx36;
1024Kx18
ADSC
ADSP
CLR
MEMORY ARRAY
19/20
17/18
19/20
D
Q
A
ADDRESS
REGISTER
CE
CLK
36,
or 18
36,
or 18
D
Q
GW
BWE
DQd
BYTE WRITE
REGISTERS
BWd
(x36)
CLK
D
Q
DQc
BYTE WRITE
REGISTERS
BWc
(x36)
CLK
D
Q
DQb
BYTE WRITE
REGISTERS
BWb
(x36/x18)
CLK
D
Q
DQa
BYTE WRITE
REGISTERS
BWa
(x36/x18)
CLK
CE
CE2
CE2
4
36,
or 18
INPUT
REGISTERS
OUTPUT
REGISTERS
D
Q
DQa - DQd
ENABLE
OE
REGISTER
CLK
CLK
CE
CLK
D
Q
ENABLE
DELAY
REGISTER
CLK
OE
2
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
165-PIN BGA
119-PIN BGA
119-Ball, 14x22 mm BGA
165-Ball, 13x15 mm BGA
1mm Ball Pitch, 7x17 Ball Array
1mm Ball Pitch, 11x15 Ball Array
BOTTOM VIEW
BOTTOM VIEW
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
3
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
119 BGA PACKAGE PIN CONFIGURATION-512K X 36 (TOP VIEW)
1
2
A
3
A
4
ADSP
ADSC
VDD
NC
5
6
A
7
A
B
C
D
E
F
VDDQ
NC
A
VDDQ
NC
A
A
A
A
NC
A
A
A
A
NC
DQc
DQc
VDDQ
DQc
DQc
VDDQ
DQd
DQd
VDDQ
DQd
DQd
NC
DQPc
DQc
DQc
DQc
DQc
VDD
DQd
DQd
DQd
DQd
DQPd
A
Vss
Vss
Vss
BWc
Vss
NC
Vss
Vss
Vss
BWb
Vss
NC
DQPb
DQb
DQb
DQb
DQb
VDD
DQa
DQa
DQa
DQa
DQPa
A
DQb
DQb
VDDQ
DQb
DQb
VDDQ
DQa
DQa
VDDQ
DQa
DQa
NC
CE
OE
G
H
J
ADV
GW
VDD
CLK
NC
K
L
Vss
BWd
Vss
Vss
Vss
MODE
A
Vss
BWa
Vss
Vss
Vss
NC
M
N
P
R
T
BWE
A1*
A0*
VDD
A
NC
NC
A
NC
ZZ
U
VDDQ
TMS
TDI
TCK
TDO
NC
VDDQ
Note: * A0 and A1 are the two least significant bits (LSB) of the address field and set the internal burst counter if burst is desired.
PIN DESCRIPTIONS
Symbol
A
Pin Name
Symbol
OE
Pin Name
Address Inputs
Output Enable
PowerSleepMode
A0, A1
ADV
Synchronous Burst Address Inputs
ZZ
Synchronous Burst Address
Advance
MODE
TCK, TDO
TMS, TDI
NC
Burst Sequence Selection
JTAG Pins
ADSP
ADSC
GW
Address Status Processor
Address Status Controller
GlobalWriteEnable
No Connect
DQa-DQd
DQPa-Pd
VDD
Data Inputs/Outputs
DataInputs/Outputs
Power Supply
CLK
CE
SynchronousClock
Synchronous Chip Select
BWx (x=a-d) Synchronous Byte Write Controls
BWE Byte Write Enable
VDDQ
Output Power Supply
Vss
Ground
4
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
119 BGA PACKAGE PIN CONFIGURATION
1MX18 (TOP VIEW)
1
2
A
3
A
4
ADSP
ADSC
VDD
NC
5
A
6
A
7
VDDQ
NC
A
B
C
D
E
F
VDDQ
NC
A
A
A
A
NC
A
A
A
A
NC
DQb
NC
NC
DQb
NC
DQb
NC
VDD
DQb
NC
DQb
NC
DQPb
A
Vss
Vss
Vss
BWb
Vss
NC
Vss
Vss
Vss
Vss
Vss
NC
Vss
BWa
Vss
Vss
Vss
NC
A
DQPa
NC
DQa
NC
DQa
VDD
NC
DQa
NC
DQa
NC
A
NC
CE
DQa
VDDQ
DQa
NC
VDDQ
NC
OE
G
H
J
ADV
GW
VDD
CLK
NC
DQb
VDDQ
NC
VDDQ
DQa
NC
K
L
Vss
Vss
Vss
Vss
Vss
MODE
A
DQb
VDDQ
DQb
NC
M
N
P
R
T
BWE
A1*
VDDQ
NC
A0*
DQa
NC
NC
VDD
NC
NC
A
A
ZZ
U
VDDQ
TMS
TDI
TCK
TDO
NC
VDDQ
Note: * A0 and A1 are the two least significant bits (LSB) of the address field and set the internal burst counter if burst is desired.
PIN DESCRIPTIONS
Symbol
OE
Pin Name
Symbol
A
Pin Name
Address Inputs
OutputEnable
PowerSleepMode
A0, A1
ADV
Synchronous Burst Address Inputs
ZZ
Synchronous Burst Address
Advance
MODE
TCK, TDO
TMS, TDI
NC
Burst Sequence Selection
JTAG Pins
ADSP
ADSC
GW
Address Status Processor
Address Status Controller
GlobalWriteEnable
NoConnect
DQa-DQb
DQPa-Pb
VDD
DataInputs/Outputs
DataInputs/Outputs
PowerSupply
CLK
CE
SynchronousClock
Synchronous Chip Select
BWx (x=a,b) Synchronous Byte Write Controls
BWE Byte Write Enable
VDDQ
Output Power Supply
Vss
Ground
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
5
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
165 PBGA PACKAGE PIN CONFIGURATION
512K X 36 (TOP VIEW)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
NC
A
CE
BWc
BWd
Vss
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
Vss
A
BWb
BWa
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
NC
CE2
CLK
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
A
BWE
GW
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
TDO
TCK
ADSC
OE
ADV
ADSP
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
NC
A
NC
NC
NC
A
CE2
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
NC
A
DQPc
DQc
DQc
DQc
DQc
NC
NC
DQc
DQc
DQc
DQc
Vss
DQd
DQd
DQd
DQd
NC
NC
NC
Vss
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
Vss
A
NC
DQb
DQb
DQb
DQb
NC
DQa
DQa
DQa
DQa
NC
A
DQPb
DQb
DQb
DQb
DQb
ZZ
G
H
J
DQd
DQd
DQd
DQd
DQPd
NC
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
A
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
A
DQa
DQa
DQa
DQa
DQPa
A
K
L
M
N
P
R
TDI
TMS
A1*
A0*
MODE
A
A
A
A
A
A
Note: * A0 and A1 are the two least significant bits (LSB) of the address field and set the internal burst counter if burst is desired.
PIN DESCRIPTIONS
Symbol
A
Pin Name
Symbol
Pin Name
Address Inputs
BWE
Byte Write Enable
A0, A1
ADV
Synchronous Burst Address Inputs
OE
OutputEnable
Synchronous Burst Address
Advance
ZZ
PowerSleepMode
Burst Sequence Selection
JTAG Pins
MODE
ADSP
ADSC
GW
Address Status Processor
Address Status Controller
GlobalWriteEnable
TCK, TDO
TMS, TDI
NC
NoConnect
CLK
CE
SynchronousClock
DQa-DQb
DQPa-Pb
VDD
DataInputs/Outputs
DataInputs/Outputs
PowerSupply
Synchronous Chip Select
Synchronous Chip Select
Synchronous Chip Select
CE2
CE2
VDDQ
Output Power Supply
BWx (x=a,b,c,d) Synchronous Byte Write
Vss
Ground
Controls
6
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
165 PBGA PACKAGE PIN CONFIGURATION
1M X 18 (TOP VIEW)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
NC
A
CE
BWb
NC
Vss
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
Vss
A
NC
BWa
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
NC
TDI
TMS
CE2
CLK
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
A
BWE
GW
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
Vss
TDO
TCK
ADSC
OE
Vss
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
Vss
A
ADV
ADSP
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
NC
A
A
NC
A
CE2
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
NC
A
NC
DQPa
DQa
DQa
DQa
DQa
ZZ
NC
NC
DQb
DQb
DQb
DQb
Vss
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
DQa
DQa
DQa
DQa
NC
A
NC
NC
NC
G
H
J
NC
NC
DQb
DQb
DQb
DQb
DQPb
NC
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
A
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
A
NC
NC
NC
NC
NC
A
K
L
M
N
P
R
A1*
A0*
MODE
A
A
A
A
A
A
Note: * A0 and A1 are the two least significant bits (LSB) of the address field and set the internal burst counter if burst is desired.
PIN DESCRIPTIONS
Symbol
A
Pin Name
Symbol
Pin Name
Address Inputs
BWE
Byte Write Enable
A0, A1
ADV
Synchronous Burst Address Inputs
OE
OutputEnable
Synchronous Burst Address
Advance
ZZ
PowerSleepMode
MODE
Burst Sequence Selection
JTAG Pins
ADSP
ADSC
GW
Address Status Processor
Address Status Controller
GlobalWriteEnable
TCK, TDO
TMS, TDI
NC
NoConnect
CLK
SynchronousClock
DQa-DQb
DQPa-Pb
VDD
Data Inputs/Outputs
Data Inputs/Outputs
PowerSupply
CE
Synchronous Chip Select
Synchronous Chip Select
Synchronous Chip Select
CE2
CE2
VDDQ
Output Power Supply
BWx (x=a,b)
Synchronous Byte Write
Controls
Vss
Ground
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
7
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
PIN CONFIGURATION
100-PIN TQFP
99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81
100
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
DQPb
DQb
DQb
VDDQ
VSS
DQb
DQb
DQb
DQb
VSS
VDDQ
DQb
DQb
VSS
NC
DQPc
DQc
DQc
VDDQ
VSS
DQc
DQc
DQc
DQc
VSS
VDDQ
DQc
DQc
NC
VDD
NC
VDD
ZZ
VSS
DQd
DQd
VDDQ
VSS
DQd
DQd
DQd
DQd
VSS
VDDQ
DQd
DQd
DQPd
DQa
DQa
VDDQ
VSS
DQa
DQa
DQa
DQa
VSS
VDDQ
DQa
DQa
DQPa
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
512K x 36
PIN DESCRIPTIONS
A0, A1
Synchronous Address Inputs. These
pins must tied to the two LSBs of the
address bus.
DQa-DQd
DQPa-DQPd
GW
Synchronous Data Input/Output
Parity Data Input/Output
SynchronousGlobalWriteEnable
Burst Sequence Mode Selection
OutputEnable
A
Synchronous Address Inputs
Synchronous Controller Address Status
Synchronous Processor Address Status
Synchronous Burst Address Advance
Synchronous Byte Write Enable
Synchronous Byte Write Enable
Synchronous Chip Enable
MODE
OE
ADSC
ADSP
ADV
VDD
3.3V/2.5V Power Supply
VDDQ
Isolated Output Buffer Supply:
3.3V/2.5V
BWa-BWd
BWE
Vss
ZZ
Ground
CE, CE2
CE2
Snooze Enable
Synchronous Chip Enable
CLK
Synchronous Clock
8
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
PIN CONFIGURATION
100-PIN TQFP
99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81
100
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
A
NC
NC
VDDQ
VSS
NC
DQPa
DQa
DQa
VSS
VDDQ
DQa
DQa
VSS
NC
NC
NC
NC
VDDQ
VSS
NC
NC
DQb
DQb
VSS
VDDQ
DQb
DQb
NC
VDD
NC
VDD
ZZ
VSS
DQb
DQb
VDDQ
VSS
DQb
DQb
DQPb
NC
VSS
VDDQ
NC
NC
NC
DQa
DQa
VDDQ
VSS
DQa
DQa
NC
NC
VSS
VDDQ
NC
NC
NC
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
1024K x 18
PIN DESCRIPTIONS
A0, A1
Synchronous Address Inputs. These
pins must tied to the two LSBs of the
address bus.
DQPa-DQPb Parity Data I/O; DQPa is parity for
DQa1-8; DQPb is parity for DQb1-8
GW
Synchronous Global Write Enable
Burst Sequence Mode Selection
OutputEnable
A
Synchronous Address Inputs
MODE
OE
ADSC
ADSP
ADV
SynchronousControllerAddressStatus
SynchronousProcessorAddressStatus
SynchronousBurstAddressAdvance
Synchronous Byte Write Enable
Synchronous Byte Write Enable
VDD
3.3V/2.5V Power Supply
VDDQ
Isolated Output Buffer Supply:
3.3V/2.5V
BWa-BWb
BWE
Vss
ZZ
Ground
CE, CE2, CE2 Synchronous Chip Enable
Snooze Enable
CLK
Synchronous Clock
DQa-DQb
SynchronousDataInput/Output
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
9
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
TRUTH TABLE(1-8) (3CE option)
OPERATION
ADDRESS
None
CE
H
L
CE2
X
X
H
X
H
X
L
CE2
X
L
ZZ
L
L
L
L
L
H
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
ADSP ADSC ADV WRITE
OE
X
X
X
X
X
X
L
CLK
L-H
L-H
L-H
L-H
L-H
X
DQ
High-Z
High-Z
High-Z
High-Z
High-Z
High-Z
Q
DeselectCycle,Power-Down
DeselectCycle,Power-Down
DeselectCycle,Power-Down
DeselectCycle,Power-Down
DeselectCycle,Power-Down
Snooze Mode,Power-Down
Read Cycle, Begin Burst
Read Cycle, Begin Burst
Write Cycle, Begin Burst
Read Cycle, Begin Burst
Read Cycle, Begin Burst
Read Cycle, Continue Burst
Read Cycle, Continue Burst
Read Cycle, Continue Burst
Read Cycle, Continue Burst
Write Cycle, Continue Burst
Write Cycle, Continue Burst
Read Cycle, Suspend Burst
Read Cycle, Suspend Burst
Read Cycle, Suspend Burst
Read Cycle, Suspend Burst
X
L
L
X
X
L
X
X
X
X
X
X
X
X
X
X
X
L
X
X
X
X
X
X
X
X
L
None
None
L
X
L
L
None
L
H
H
X
L
None
L
X
X
H
H
H
H
H
X
X
X
X
X
X
X
X
X
X
X
X
L
None
X
L
X
X
X
L
External
External
External
External
External
Next
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L
L
L
H
X
L
High-Z
D
L
L
H
H
H
H
H
X
X
H
X
H
H
X
X
H
X
L
L
L
H
H
H
H
H
H
L
Q
L
L
L
H
L
High-Z
Q
X
X
H
H
X
H
X
X
H
H
X
H
X
X
X
X
X
X
X
X
X
X
X
X
H
H
H
H
H
H
H
H
H
H
H
H
Next
L
H
L
High-Z
Q
Next
L
Next
L
H
X
X
L
High-Z
D
Next
L
Next
L
L
D
Current
Current
Current
Current
Current
Current
H
H
H
H
H
H
H
H
H
H
L
Q
H
L
High-Z
Q
H
X
X
High-Z
D
Write Cycle, Suspend Burst
Write Cycle, Suspend Burst
NOTE:
L
D
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, BWb, BWc or BWd) and BWE are LOW or GW is LOW.
WRITE = H for all BWx, BWE, GW HIGH.
3. 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. DQPa and DQPb are only available on the x18 and x36 versions. DQPc and
DQPd are only available on the x36 version.
4. All inputs except OE 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, OE must be HIGH before the input data setup time and held HIGH during the
inputdataholdtime.
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 GW LOW for the subsequent L-H edge of CLK. See WRITE timing diagram for clarification.
10
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
TRUTH TABLE(1-8) (1CE option)
NEXT CYCLE
ADDRESS CE
ADSP ADSC
ADV
X
X
X
X
X
X
L
WRITE
X
OE
DQ
High-Z
Q
Deselected
None
External
External
External
External
External
Next
H
L
X
L
L
X
X
L
X
L
Read, Begin Burst
Read, Begin Burst
Write, Begin Burst
Read, Begin Burst
Read, Begin Burst
Read,ContinueBurst
Read,ContinueBurst
Read,ContinueBurst
Read,ContinueBurst
Write, Continue Burst
Write, Continue Burst
Read, Suspend Burst
Read, Suspend Burst
Read, Suspend Burst
Read, Suspend Burst
Write, Suspend Burst
X
L
L
X
H
X
L
High-Z
D
L
H
H
H
H
H
X
X
H
X
H
H
X
X
H
X
L
L
L
H
H
H
H
H
H
L
Q
L
L
H
L
High-Z
Q
X
X
H
H
X
H
X
X
H
H
X
H
H
H
H
H
H
H
H
H
H
H
H
H
Next
L
H
L
High-Z
Q
Next
L
Next
L
H
X
X
L
High-Z
D
Next
L
Next
L
L
D
Current
Current
Current
Current
Current
Current
H
H
H
H
H
H
H
H
H
H
L
Q
H
L
High-Z
Q
H
X
X
High-Z
D
Write, Suspend Burst
L
D
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, BWb, BWc or BWd) and BWE are LOW or GW is LOW.
WRITE = H for all BWx, BWE, GW HIGH.
3. 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. DQPa and DQPb are only available on the x18 and x36 versions. DQPc and
DQPd are only available on the x36 version.
4. All inputs except OE 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, OE must be HIGH before the input data setup time and held HIGH during the
inputdataholdtime.
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 GW LOW for the subsequent L-H edge of CLK. See WRITE timing diagram for clarification.
PARTIAL TRUTH TABLE
Function
GW
BWE
BWa
BWb
BWc
BWd
Read
H
H
H
H
L
H
L
L
L
X
X
H
L
X
H
H
L
X
H
H
L
X
H
H
L
Read
Write Byte 1
Write All Bytes
Write All Bytes
L
X
X
X
X
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
11
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
INTERLEAVED BURST ADDRESS TABLE (MODE = VDD or No Connect)
ISSI
External Address
A1 A0
1st Burst Address
A1 A0
2nd Burst Address
A1 A0
3rd Burst Address
A1 A0
00
01
10
11
01
00
11
10
10
11
00
01
11
10
01
00
LINEAR BURST ADDRESS TABLE (MODE = VSS)
0,0
A1', A0' = 1,1
0,1
1,0
ABSOLUTE MAXIMUM RATINGS(1)
Symbol Parameter
Value
Unit
°C
W
TSTG
PD
Storage Temperature
Power Dissipation
–55 to +150
1.6
IOUT
Output Current (per I/O)
100
mA
V
VIN, VOUT Voltage Relative to Vss for I/O Pins
–0.5 to VDDQ + 0.5
–0.5 to VDD + 0.5
VIN
Voltage Relative to Vss for
V
for Address and Control Inputs
VDD
Voltage on VDD Supply Relative to Vss
–0.5 to 4.6
V
Notes:
1. Stress greater than those listed under ABSOLUTE MAXIMUM RATINGS may cause perma-
nentdamagetothedevice. Thisisastressratingonlyandfunctionaloperationofthedeviceat
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
periodsmayaffectreliability.
2. Thisdevicecontainscircuitytoprotecttheinputsagainstdamageduetohighstaticvoltagesor
electricfields;however,precautionsmaybetakentoavoidapplicationofanyvoltagehigherthan
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.
12
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
OPERATING RANGE (IS61LPDXXXXX)
ISSI
Range
Ambient Temperature
VDD
VDDQ
Commercial
0°C to +70°C
3.3V + 5%
3.3 / 2.5V + 5%
Industrial
–40°C to +85°C
3.3V + 5%
3.3 / 2.5V + 5%
OPERATING RANGE (IS61VPDXXXXX)
Range
Ambient Temperature
VDD
VDDQ
Commercial
0°C to +70°C
2.5V + 5%
2.5V + 5%
Industrial
–40°C to +85°C
2.5V + 5%
2.5V + 5%
DC ELECTRICAL CHARACTERISTICS (Over Operating Range)
3.3V
2.5V
Max.
Symbol Parameter
Test Conditions
Min.
Max.
Min.
Unit
VOH
Output HIGH Voltage
IOH = –4.0 mA (3.3V)
IOH = –1.0 mA (2.5V)
2.4
—
2.0
—
V
VOL
Output LOW Voltage
IOL = 8.0 mA (3.3V)
IOL = 1.0 mA (2.5V)
—
0.4
—
0.4
V
VIH
VIL
ILI
Input HIGH Voltage
Input LOW Voltage
Input Leakage Current
2.0
-0.3
-5
VDD + 0.3
1.7 VDD + 0.3
V
V
0.8
5
-0.3
-5
0.7
5
(1)
Vss ≤VIN ≤VDD
µA
µA
ILO
Output Leakage Current Vss ≤VOUT ≤ VDDQ,
OE = VIH
-5
5
-5
5
POWER SUPPLY CHARACTERISTICS(1) (Over Operating Range)
-250
-200
MAX
x36
MAX
x36
Symbol Parameter
Test Conditions
Temp.range
x18
x18
Unit
ICC
ISB
ISBI
AC Operating
Supply Current
Device Selected,
OE = VIH, ZZ ≤VIL,
All Inputs ≤0.2V or ≥ VDD – 0.2V,
Cycle Time ≥ tKC min.
Com.
IND.
500
550
500
550
500
550
500
550
mA
mA
mA
Standby Current
TTL Input
Device Deselected,
VDD = Max.,
All Inputs ≤VIL or ≥ VIH,
ZZ ≤VIL, f = Max.
COM.
Ind.
150
—
150
—
150
150
150
150
Standby Current
CMOS Input
Device Deselected,
VDD = Max.,
Com.
Ind.
100
—
100
—
100
115
100
115
VIN
≤
VSS + 0.2V or ≥VDD – 0.2V
f = 0
ZZ>VIH
ISB2
Sleep Mode
Ind.
Com.
60
—
60
—
60
75
60
75
mA
Note:
1. MODE pin has an internal pullup and should be tied to VDD or VSS. It exhibits ±100µA maximum leakage current when tied to ≤
VSS + 0.2V or ≥ VDD – 0.2V.
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
13
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
CAPACITANCE(1,2)
ISSI
Symbol
CIN
Parameter
Conditions
VIN = 0V
Max.
Unit
pF
Input Capacitance
Input/Output Capacitance
6
8
COUT
VOUT = 0V
pF
Notes:
1. Tested initially and after any design or process changes that may affect these parameters.
2. Test conditions: TA = 25°C, f = 1 MHz, VDD = 3.3V.
3.3V I/O AC TEST CONDITIONS
Parameter
Unit
0V to 3.0V
1.5 ns
Input Pulse Level
Input Rise and Fall Times
Input and Output Timing
and Reference Level
1.5V
Output Load
See Figures 1 and 2
AC TEST LOADS
317 Ω
3.3V
Z
O
= 50Ω
OUTPUT
Output
50Ω
351 Ω
5 pF
Including
jig and
1.5V
scope
Figure 1
Figure 2
14
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
2.5V I/O AC TEST CONDITIONS
ISSI
Parameter
Unit
0V to 2.5V
1.5 ns
Input Pulse Level
Input Rise and Fall Times
Input and Output Timing
and Reference Level
1.25V
Output Load
See Figures 3 and 4
2.5 I/O OUTPUT LOAD EQUIVALENT
317 Ω
2.5V
Z
O
= 50Ω
OUTPUT
Output
50Ω
351 Ω
5 pF
Including
jig and
1.25V
scope
Figure 3
Figure 4
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
15
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
READ/WRITE CYCLE SWITCHING CHARACTERISTICS (Over Operating Range)
-250
-200
Min.
Symbol
fMAX
tKC
Parameter
Min.
Max.
250
Max.
200
—
Unit
MHz
ns
ClockFrequency
—
—
5
Cycle Time
4.0
1.7
1.7
—
—
—
—
2.6
—
—
2.6
2.6
—
2.6
—
—
—
—
—
—
—
—
—
—
2
tKH
Clock High Time
2
—
ns
tKL
Clock Low Time
2
—
ns
tKQ
Clock Access Time
—
3.1
—
ns
(2)
tKQX
Clock High to Output Invalid
Clock High to Output Low-Z
Clock High to Output High-Z
Output Enable to Output Valid
Output Enable to Output Low-Z
Output Disable to Output High-Z
Address Setup Time
Read/Write Setup Time
Chip Enable Setup Time
Address Advance Setup Time
Data Setup Time
0.8
0.8
—
1.5
1
ns
(2,3)
tKQLZ
tKQHZ
tOEQ
—
ns
(2,3)
—
3.0
3.1
—
ns
—
—
ns
(2,3)
tOELZ
0
0
ns
(2,3)
tOEHZ
tAS
—
—
3.0
—
ns
1.2
1.2
1.2
1.2
1.2
0.3
0.3
0.3
0.3
0.3
—
1.4
1.4
1.4
1.4
1.4
0.4
0.4
0.4
0.4
0.4
—
ns
tWS
—
ns
tCES
tAVS
tDS
—
ns
—
ns
—
ns
tAH
Address Hold Time
—
ns
tWH
Write Hold Time
—
ns
tCEH
tAVH
tDH
Chip Enable Hold Time
Address Advance Hold Time
Data Hold Time
—
ns
—
ns
—
ns
tPDS
tPUS
Note:
ZZ High to Power Down
ZZ Low to Power Down
2
cyc
cyc
—
2
—
2
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.
16
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
READ/WRITE CYCLE TIMING
ISSI
t
KC
CLK
ADSP
ADSC
t
KH
tKL
ADSP is blocked by CE inactive
ADSC initiate read
t
SS
tSH
t
SS
tSH
t
AVH
t
AVS
Suspend Burst
ADV
t
AS
tAH
Address
RD1
RD2
RD3
t
t
WS
WS
t
t
WH
GW
BWE
BWx
WH
t
CES
tCEH
CE Masks ADSP
CE
CE2
CE2
t
t
CES
CES
t
t
CEH
CEH
Unselected with CE2
CE2 and CE2 only sampled with ADSP or ADSC
t
OEHZ
t
OEQ
OE
t
KQX
t
OEQX
t
OELZ
High-Z
High-Z
DATAOUT
2a
2b
2c
2d
3a
1a
t
KQLZ
t
KQHZ
t
KQ
DATAIN
Pipelined Read
Burst Read
Single Read
Unselected
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
17
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
WRITE CYCLE TIMING
ISSI
t
KC
CLK
ADSP
ADSC
t
KH
tKL
ADSP is blocked by CE inactive
ADSC initiate Write
t
SS
tSH
t
AVH
t
AVS
ADV must be inactive for ADSP Write
ADV
t
AS
tAH
Address
WR1
WR2
WR3
t
t
WS
WS
t
t
WH
WH
GW
BWE
BWx
t
WS
t
WH
t
WS
tWH
WR1
WR2
CE Masks ADSP
WR3
t
CES
tCEH
CE
CE2
CE2
t
t
CES
CES
t
CEH
CEH
Unselected with CE2
CE2 and CE2 only sampled with ADSP or ADSC
t
OE
DATAOUT
DATAIN
High-Z
t
DS
tDH
BW4-BW1 only are applied to first cycle of WR2
2a 2b 2c 2d
High-Z
3a
1a
Burst Write
Unselected
Single Write
Write
18
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
SNOOZE MODE ELECTRICAL CHARACTERISTICS
ISSI
Symbol
ISB2
Parameter
Conditions
Min.
—
—
2
Max.
60
2
Unit
mA
CurrentduringSNOOZEMODE
ZZ active to input ignored
ZZ inactive to input sampled
ZZ active to SNOOZE current
ZZ inactive to exit SNOOZE current
ZZ ≥ Vih
tPDS
cycle
cycle
cycle
ns
tPUS
—
2
tZZI
—
0
tRZZI
—
SNOOZE MODE TIMING
CLK
t
PDS
t
ZZ setup cycle
ZZ recovPeUryS cycle
ZZ
t
ZZI
Isupply
I
SB2
t
RZZI
All Inputs
Deselect or Read Only
Deselect or Read Only
(except ZZ)
Normal
operation
cycle
Outputs
(Q)
High-Z
Don't Care
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
19
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
IEEE 1149.1 SERIAL BOUNDARY SCAN (JTAG)
TEST ACCESS PORT (TAP) - TEST CLOCK
The IS61LPD/VPD51236A and IS61LPD/VPD102418A
have a serial boundary scan Test Access Port (TAP) in
the PBGA package only. (The TQFP package not avail-
able.) This port operates in accordance with IEEE Stan-
dard 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 stan-
dard 2.5V I/O logic levels.
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.
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 VDD 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.
TAP CONTROLLER BLOCK DIAGRAM
0
Bypass Register
2
1
0
Instruction Register
TDI
Selection Circuitry
Selection Circuitry
TDO
31 30 29 . . .
2
2
1
1
0
0
Identification Register
x
. . . . .
Boundary Scan Register*
TCK
TMS
TAP CONTROLLER
20
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
TEST DATA OUT (TDO)
ISSI
is set LOW (Vss) when the BYPASS instruction is ex-
e c u t e d .
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.
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.
PERFORMING A TAP RESET
A Reset is performed by forcing TMS HIGH (VDD) 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
andallowdatatobescannedintoandoutoftheSRAMtest
circuitry. Only one register can be selected at a time
through the instruction registers. Data is serially loaded
intotheTDIpinontherisingedgeofTCKandoutputonthe
TDO pin on the falling edge of TCK.
TheBoundaryScanOrdertablesshowtheorderinwhichthe
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.
Instruction Register
Scan Register Sizes
Three-bit instructions can be serially loaded into the
instruction register. This register is loaded when it is
placed between the TDI andTDO 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.
RegisterName
Instruction
Bypass
BitSize(x18)
BitSize(x36)
3
1
3
1
ID
32
75
32
75
BoundaryScan
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.
Identification (ID) Register
The ID register is loaded with a vendor-specific, 32-bit
code during the Capture-DR state when the IDCODE
commandisloadedtotheinstructionregister.TheIDCODE
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.
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
IDENTIFICATION REGISTER DEFINITIONS
Instruction Field
Description
512K x 36
xxxx
1M x 18
xxxx
Revision Number (31:28)
Device Depth (27:23)
Device Width (22:18)
ISSI Device ID (17:12)
ISSI JEDEC ID (11:1)
ID Register Presence (0)
Reserved for version number.
Defines depth of SRAM. 512K or 1M
Defines with of the SRAM. x36 or x18
Reserved for future use.
00111
01000
00100
00011
xxxxx
xxxxx
Allows unique identification of SRAM vendor.
Indicate the presence of an ID register.
00011010101
1
00011010101
1
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
21
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
TAP INSTRUCTION SET
SAMPLE/PRELOAD
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 mandatory 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 com-
mands 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.
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 compli-
ant. 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
stabilized long enough to meet the TAP controller’s
capture set-up plus hold times (tCS and tCH). To insure that
the SRAM clock input is captured correctly, designs need
a way to stop (or slow) the clock during a SAMPLE/
PRELOAD instruction. If this is not an issue, it is possible
to capture all other signals and simply ignore the value of
the CLK and CLK captured in the boundary scan register.
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 instructions, unlike the SAMPLE/PRELOAD instruction,
EXTEST places the SRAM outputs in a High-Z state.
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,puttingtheTAPintotheUpdatetotheUpdate-DR
state while performing a SAMPLE/PRELOAD instruction
will have the same effect as the Pause-DR command.
IDCODE
BYPASS
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.
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 connected together on a board.
RESERVED
These instructions are not implemented but are reserved
for future use. Do not use these instructions.
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.
22
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
INSTRUCTION CODES
ISSI
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
010
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.
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
100
RESERVED
Do Not Use: This instruction is reserved for future use.
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
110
111
RESERVED
RESERVED
BYPASS
Do Not Use: This instruction is reserved for future use.
Do Not Use: This instruction is reserved for future use.
Places the bypass register between TDI and TDO. This operation does not
affect SRAM operation.
TAP CONTROLLER STATE DIAGRAM
Test Logic Reset
1
0
1
1
1
Run Test/Idle
Select DR
0
Select IR
0
0
1
1
Capture DR
0
Capture IR
0
Shift DR
1
Shift IR
1
0
0
1
1
Exit1 DR
0
Exit1 IR
0
Pause DR
1
Pause IR
1
0
0
Exit2 DR
1
Exit2 IR
1
0
1
0
1
Update DR
0
Update IR
0
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
23
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
TAP Electrical Characteristics Over the Operating Range(1,2)
Symbol
VOH1
VOH2
VOL1
VOL2
VIH
Parameter
Test Conditions
IOH = –2.0 mA
IOH = –100 µA
IOL = 2.0 mA
Min.
1.7
2.1
—
Max.
—
Units
V
Output HIGH Voltage
OutputHIGHVoltage
OutputLOWVoltage
OutputLOWVoltage
Input HIGH Voltage
Input LOW Voltage
InputLoadCurrent
—
V
0.7
V
IOL = 100 µA
—
0.2
V
1.7
–0.3
–5
VDD +0.3
0.7
V
VIL
V
IX
Vss ≤V I ≤VDDQ
5
mA
Notes:
1. All Voltage referenced to Ground.
2. Overshoot: VIH (AC) ≤VDD +1.5V for t ≤tTCYC/2,
Undershoot:VIL (AC) ≤0.5V for t ≤tTCYC/2,
Power-up: VIH < 2.6V and VDD < 2.4V and VDDQ < 1.4V for t < 200 ms.
TAP AC ELECTRICAL CHARACTERISTICS(1,2) (OVER OPERATING RANGE)
Symbol Parameter
Min.
100
—
Max.
—
Unit
ns
tTCYC
fTF
TCK Clock cycle time
TCK Clock frequency
10
—
MHz
ns
tTH
TCK Clock HIGH
40
40
10
10
10
10
10
10
—
tTL
TCK Clock LOW
—
ns
tTMSS
tTDIS
tCS
TMS setup to TCK Clock Rise
TDI setup to TCK Clock Rise
Capture setup to TCK Rise
TMS hold after TCK Clock Rise
TDI Hold after Clock Rise
Capture hold after Clock Rise
TCK LOW to TDO valid
TCK LOW to TDO invalid
—
ns
—
ns
—
ns
tTMSH
tTDIH
tCH
—
ns
—
ns
—
ns
tTDOV
tTDOX
20
—
ns
0
ns
Notes:
1. Both tCS and tCH refer to the set-up and hold time latching data requirements from the boundary scan register.
2. Test conditions are specified using the load in TAP AC test conditions. tR/tF = 1 ns.
24
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
TAP AC TEST CONDITIONS (2.5/3.3V)
TAPOutputLoadEquivalent
Input pulse levels
0 to 2.5V/0 to 3.0V
Input rise and fall times
Input timing reference levels
Output reference levels
1ns
1.25V/1.5V
1.25V/1.5V
1.25V/1.5V
50Ω
1.25V
Test load termination supply voltage
TDO
20 pF
GND
Z0 = 50Ω
TAP TIMING
1
2
3
4
5
6
t
THTH
t
TLTH
TCK
TMS
t
THTL
t
t
MVTH
DVTH
t
THMX
t
THDX
TDI
t
TLOV
TDO
t
TLOX
DON'T CARE
UNDEFINED
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
25
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
165-PIN BGA BOUNDARY SCAN ORDER (512K X 36)
ISSI
Bump Signal
Signal Bump
Bit #
ID
Name
Name
ID
Bit #
1
1R
6N
MODE
A
CLK
NC
6B
11B
1A
6A
5B
5A
4A
4B
3B
3A
2A
2B
1B
1C
1D
1E
1F
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
2
3
11P
8P
A
NC
4
A
CE2
BWa
BWb
BWc
BWd
CE2
CE
5
8R
A
6
9R
A
7
9P
A
8
10P
10R
11R
11H
11N
11M
11L
11K
11J
10M
10L
10K
10J
11G
11F
11E
11D
10G
10F
10E
10D
11C
11A
10A
10B
9A
A
9
A
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
A
ZZ
A
DQa
DQa
DQa
DQa
DQa
DQa
DQa
DQa
DQa
DQb
DQb
DQb
DQb
DQb
DQb
DQb
DQb
DQb
NC
A
NC
DQc
DQc
DQc
DQc
DQc
DQc
DQc
DQc
DQc
DQd
DQd
DQd
DQd
DQd
DQd
DQd
DQd
DQd
A
1G
2D
2E
2F
2G
1J
1K
1L
1M
2J
2K
2L
2M
1N
3P
3R
4R
4P
6P
6R
A
A
ADV
ADSP
ADSC
OE
A
9B
A
8A
A
8B
A1
7A
BWE
GW
A0
7B
26
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
165-PIN BGA BOUNDARY SCAN ORDER (1024K X 18)
ISSI
Bump Signal
Signal Bump
Bit #
ID
Name
Name
ID
Bit #
1
1R
6N
MODE
A
CLK
NC
NC
CE2
BWa
NC
BWb
NC
CE2
CE
6B
11B
1A
6A
5B
5A
4A
4B
3B
3A
2A
2B
1B
1C
1D
1E
1F
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
2
3
11P
8P
A
4
A
5
8R
A
6
9R
A
7
9P
A
8
10P
10R
11R
11H
11N
11M
11L
11K
11J
10M
10L
10K
10J
11G
11F
11E
11D
11C
10F
10E
10D
10G
11A
10A
10B
9A
A
9
A
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
A
ZZ
A
NC
NC
NC
NC
NC
DQa
DQa
DQa
DQa
DQa
DQa
DQa
DQa
DQa
NC
NC
NC
NC
A
A
NC
NC
NC
NC
NC
NC
DQb
DQb
DQb
DQb
DQb
DQb
DQb
DQb
DQb
NC
NC
NC
NC
A
1G
2D
2E
2F
2G
1J
1K
1L
1M
1N
2K
2L
2M
2J
A
A
3P
3R
4R
4P
6P
6R
ADV
ADSP
ADSC
OE
BWE
GW
A
9B
A
8A
A
8B
A1
7A
A0
7B
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
27
12/17/02
®
IS61VPD51236A, IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
ORDERING INFORMATION (3.3V core/2.5V-3.3V I/O)
Commercial Range: 0°C to +70°C
Configuration
512Kx36
Frequency
OrderPartNumber
Package
250
IS61LPD51236-250TQ
IS61LPD51236-250B2
100 TQFP
119 PBGA
IS61LPD51236-250B3
165 PBGA
200
IS61LPD51236-200TQ
IS61LPD51236-200B2
IS61LPD51236-200B3
100 TQFP
119 PBGA
165 PBGA
1Mx18
250
200
IS61LPD102418-250TQ
IS61LPD102418-250B2
100 TQFP
119 PBGA
IS61LPD102418-250B3
165 PBGA
IS61LPD102418-200TQ
IS61LPD102418-200B2
IS61LPD102418-200B3
100 TQFP
119 PBGA
165 PBGA
Industrial Range: -40°C to +85°C
Configuration
512Kx36
Frequency
OrderPartNumber
Package
250
IS61LPD51236-250TQI
IS61LPD51236-250B2I
100 TQFP
119 PBGA
IS61LPD51236-250B3I
165 PBGA
200
IS61LPD151236-200TQI
IS61LPD51236-200B2I
100 TQFP
119 PBGA
IS61LPD51236-200B3I
165 PBGA
1Mx18
250
200
IS61LPD102418-250TQI
IS61LPD102418-250B2I
100 TQFP
119 PBGA
IS61LPD102418-250B3I
165 PBGA
IS61LPD102418-200TQI
IS61LPD102418-200B2I
100 TQFP
119 PBGA
IS61LPD102418-200B3I
165 PBGA
28
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
12/17/02
®
IS61VPD51236A,IS61VPD102418A,IS61LPD51236A,IS61LPD102418A
ISSI
ORDERING INFORMATION (2.5V core/2.5V I/O)
Commercial Range: 0°C to +70°C
Configuration
512Kx36
Frequency
OrderPartNumber
Package
250
IS61VPD51236-250TQ
IS61VPD51236-250B2
100 TQFP
119 PBGA
IS61VPD51236-250B3
165 PBGA
200
IS61VPD51236-200TQ
IS61VPD51236-200B2
100 TQFP
119 PBGA
IS61VPD51236-200B3
165 PBGA
1Mx18
250
200
IS61VPD102418-250TQ
IS61VPD102418-250B2
100 TQFP
119 PBGA
IS61VPD102418-250B3
165 PBGA
IS61VPD102418-200TQ
IS61VPD102418-200B2
100 TQFP
119 PBGA
IS61VPD102418-200B3
165 PBGA
Industrial Range: -40°C to +85°C
Configuration
512Kx36
Frequency
Order Part Number
Package
250
IS61VPD51236-250TQI
IS61VPD51236-250B2I
100 TQFP
119 PBGA
IS61VPD51236-250B3I
165 PBGA
200
IS61VPD51236-200TQI
IS61VPD51236-200B2I
100 TQFP
119 PBGA
IS61VPD51236-200B3I
165 PBGA
1Mx18
250
200
IS61VPD102418-250TQI
IS61VPD102418-250B2I
100 TQFP
119 PBGA
IS61VPD102418-250B3I
165 PBGA
IS61VPD102418-200TQI
IS61VPD102418-200B2I
100 TQFP
119 PBGA
IS61VPD102418-200B3I
165 PBGA
Integrated Silicon Solution, Inc. — 1-800-379-4774
ADVANCEINFORMATION Rev. 00A
29
12/17/02
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