S71NS128PC0ZJETV0 [SPANSION]
Memory Circuit, 8MX16, CMOS, PBGA56, 8 X 9.20 MM, 1.20 MM HEIGHT, LEAD FREE, VFBGA-56;型号: | S71NS128PC0ZJETV0 |
厂家: | SPANSION |
描述: | Memory Circuit, 8MX16, CMOS, PBGA56, 8 X 9.20 MM, 1.20 MM HEIGHT, LEAD FREE, VFBGA-56 |
文件: | 总14页 (文件大小:506K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
S71NS-P Memory Subsystem Solutions
MirrorBit® 1.8 Volt-only Simultaneous Read/Write,
Burst Mode Multiplexed Flash Memory and Burst Mode
Multiplexed pSRAM
512 Mb / 256 Mb / 128 Mb (32M / 16M / 8M x 16-bit) Flash
128 Mb / 64 Mb / 32 Mb (8M / 4M / 2M x 16-bit) pSRAM
S71NS-P Memory Subsystem Solutions Cover Sheet
Data Sheet (Preliminary)
Notice to Readers: This document states the current technical specifications regarding the Spansion
product(s) described herein. Each product described herein may be designated as Advance Information,
Preliminary, or Full Production. See Notice On Data Sheet Designations for definitions.
Publication Number S71NS-P_00
Revision 09
Issue Date July 8, 2010
D a t a S h e e t ( P r e l i m i n a r y )
Notice On Data Sheet Designations
Spansion Inc. issues data sheets with Advance Information or Preliminary designations to advise readers of
product information or intended specifications throughout the product life cycle, including development,
qualification, initial production, and full production. In all cases, however, readers are encouraged to verify
that they have the latest information before finalizing their design. The following descriptions of Spansion data
sheet designations are presented here to highlight their presence and definitions.
Advance Information
The Advance Information designation indicates that Spansion Inc. is developing one or more specific
products, but has not committed any design to production. Information presented in a document with this
designation is likely to change, and in some cases, development on the product may discontinue. Spansion
Inc. therefore places the following conditions upon Advance Information content:
“This document contains information on one or more products under development at Spansion Inc.
The information is intended to help you evaluate this product. Do not design in this product without
contacting the factory. Spansion Inc. reserves the right to change or discontinue work on this proposed
product without notice.”
Preliminary
The Preliminary designation indicates that the product development has progressed such that a commitment
to production has taken place. This designation covers several aspects of the product life cycle, including
product qualification, initial production, and the subsequent phases in the manufacturing process that occur
before full production is achieved. Changes to the technical specifications presented in a Preliminary
document should be expected while keeping these aspects of production under consideration. Spansion
places the following conditions upon Preliminary content:
“This document states the current technical specifications regarding the Spansion product(s)
described herein. The Preliminary status of this document indicates that product qualification has been
completed, and that initial production has begun. Due to the phases of the manufacturing process that
require maintaining efficiency and quality, this document may be revised by subsequent versions or
modifications due to changes in technical specifications.”
Combination
Some data sheets contain a combination of products with different designations (Advance Information,
Preliminary, or Full Production). This type of document distinguishes these products and their designations
wherever necessary, typically on the first page, the ordering information page, and pages with the DC
Characteristics table and the AC Erase and Program table (in the table notes). The disclaimer on the first
page refers the reader to the notice on this page.
Full Production (No Designation on Document)
When a product has been in production for a period of time such that no changes or only nominal changes
are expected, the Preliminary designation is removed from the data sheet. Nominal changes may include
those affecting the number of ordering part numbers available, such as the addition or deletion of a speed
option, temperature range, package type, or VIO range. Changes may also include those needed to clarify a
description or to correct a typographical error or incorrect specification. Spansion Inc. applies the following
conditions to documents in this category:
“This document states the current technical specifications regarding the Spansion product(s)
described herein. Spansion Inc. deems the products to have been in sufficient production volume such
that subsequent versions of this document are not expected to change. However, typographical or
specification corrections, or modifications to the valid combinations offered may occur.”
Questions regarding these document designations may be directed to your local sales office.
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S71NS-P Memory Subsystem Solutions
S71NS-P_00_09 July 8, 2010
S71NS-P Memory Subsystem Solutions
MirrorBit® 1.8 Volt-only Simultaneous Read/Write,
Burst Mode Multiplexed Flash Memory and Burst Mode
Multiplexed pSRAM
512 Mb / 256 Mb / 128 Mb (32M / 16M / 8M x 16-bit) Flash
128 Mb / 64 Mb / 32 Mb (8M / 4M / 2M x 16-bit) pSRAM
Data Sheet (Preliminary)
Features
Power supply voltage of 1.7 V to 1.95 V
MCP BGA Package
– 56 ball, 9.2 x 8.0 mm, 0.5 mm ball pitch
Burst Speed (Flash and pSRAM): 66 MHz, 83 MHz
Operating Temperature
– Wireless, –25°C to +85°C
General Description
The S71NS-P Series is a product line of stacked Multi-Chip Package (MCP) memory solutions and consists of the following
items:
One or more S29NS-P flash memory die
Multiplexed pSRAM
The products covered by this document are listed in the table below. For details about their specifications, please refer to their
individual data sheet for further details.
pSRAM
Density
128 Mb
256 Mb
512 Mb
32 Mb
S71NS128PB0
S71NS256PB0
-
64 Mb
S71NS128PC0
S71NS256PC0
-
128 Mb
-
Flash
-
S71NS512PD0
For detailed specifications, please refer to the individual data sheets:
Document
Publication Identification Number
S29NS-P
S29NS-P_00
muxpsram_10
32M Multiplexed pSRAM Type 3
64M Multiplexed pSRAM Type 3
128 Mb CellularRAM AD-MUX
muxpsram_01
SWM128D108M1R
Publication Number S71NS-P_00
Revision 09
Issue Date July 8, 2010
This document states the current technical specifications regarding the Spansion product(s) described herein. The Preliminary status of this document indicates that product qual-
ification has been completed, and that initial production has begun. Due to the phases of the manufacturing process that require maintaining efficiency and quality, this document
may be revised by subsequent versions or modifications due to changes in technical specifications.
D a t a S h e e t ( P r e l i m i n a r y )
1. Ordering Information
The order number is formed by a valid combinations of the following:
S71NS
256
P
C
0
ZJ
E
TV
0
Packing Type
0
2
3
= Tray
= 7-inch Tape and Reel
= 13-inch Tape and Reel
Model Number
See Valid Combinations table below
Package Modifier
E
= 9.2 x 8.0, 56-ball BGA
Package Type
ZJ = Very Thin Fine-Pitch Ball Grid Array (VFBGA)—-1.2 mm max height with
0.5 mm pitch; Lead (Pb)-free Package (LF35)
ZH = Very Thin Fine-Pitch Ball Grid Array (VFBGA) - 1.2 mm max height with
0.5 mm pitch; Low-Halogen, Lead (Pb)-free Package
Chip Contents
0
= No content (default)
pSRAM Density
D
C
B
= 128 Mb
= 64 Mb
= 32 Mb
Process Technology
= 90 nm MirrorBit Technology
P
Flash Density
512 = 512 Mb
256 = 256 Mb
128 = 128 Mb
Product Family
S71NS=Multi-Chip Product 1.8 Volt-only Simultaneous Read/Write Burst Mode
Multiplexed Flash Memory + pSRAM
1.1
Valid Combinations
Valid Combinations
Code Flash
Density (Mb)
Process
Technology
pSRAM Density
(Mb)
Package Type/
Material
Product Family
Model Number
Packing Type
128
256
512
TV, JR, TW, TS
(Note 4)
B0, C0
D0
ZJE, ZHE
ZHE
0, 2, 3
S71NS
P
(Note 1)
UR
Notes:
1. Packing Type 0 is standard. Specify other options as required.
2. BGA package marking omits leading “S” and packing type designator from ordering part number.
3. Valid Combinations list configurations planned to be supported in volume for this device. Consult your local sales office to availability of
specific valid combinations and to check on newly released combinations.
4. Model Numbers TW and TS indicate products intended for use with MediaTek chipsets. Model numbers TV and JR are not intended for
use with MediaTek chipsets.
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1.2
Product Selector Guide
Device OPN
Flash Density
pSRAM Density
MCP Speed (MHz)
pSRAM Supplier
Package
S71NS128PB0ZJETV
S71NS128PB0ZJETW
S71NS128PB0ZJEJR
S71NS128PB0ZJETS
S71NS128PC0ZHETV
S71NS128PC0ZJETV
S71NS128PC0ZHETW
S71NS128PC0ZJEJR
S71NS128PC0ZHETS
S71NS256PB0ZJETV
S71NS256PB0ZJETW
S71NS256PB0ZJEJR
S71NS256PB0ZJETS
S71NS256PC0ZHETV
S71NS256PC0ZHETW
S71NS256PC0ZJETV
S71NS256PC0ZJEJR
S71NS256PC0ZHETS
S71NS512PD0ZHEUR
66
32 Mb
83
66
128 Mb
64 Mb
32 Mb
83
66
83
9.2 x 8.0 mm,
56-ball MCP
Type 3
256 Mb
512 Mb
66
64 Mb
83
83
128 Mb
SWM128D108M1R
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2. Input/Output Descriptions
Table 2.1 identifies the input and output package connections provided on the device.
Table 2.1 Input/Output Descriptions
Symbol
Description
Flash
RAM
X
AMAX – A16
Address inputs
X
X
X
X
X
A/DQ15-A/DQ0 Multiplexed Address/Data
X
OE#
WE#
Output Enable input. Asynchronous relative to CLK for the Burst mode.
X
Write Enable input.
Ground
X
V
X
SS
Not Connected. No device internal signal is connected to the package connector nor is there
any future plan to use the connector for a signal. The connection may safely be used for
routing space for a signal on a Printed Circuit Board (PCB).
NC
X
X
Ready output; indicates the status of the Burst read.
Flash Memory RDY (using default “Active HIGH” configuration)
V
V
= data invalid
= data valid
OL
OH
Note: The default polarity for the pSRAM WAIT signal is opposite the default polarity of the
Flash RDY signal.
F-RDY/R-WAIT
X
X
pSRAM WAIT (using default “Active HIGH” configuration)
V
V
= data valid
OL
= data invalid
OH
To match polarities, change bit 10 of the pSRAM Bus Configuration Register to 0 (Active
LOW WAIT). Alternately, change bit 10 of the Flash Configuration Register to 0 (Active LOW
RDY)
Clock input. In burst mode, after the initial word is output, subsequent active edges of CLK
CLK
X
X
X
X
increment the internal address counter. Should be at V or V while in asynchronous mode
IL
IH
Address Valid input. Indicates to device that the valid address is present on the address
inputs.
AVD#
Low = for asynchronous mode, indicates valid address; for burst mode, causes starting
address to be latched.
High = device ignores address inputs
F-RST#
F-WP#
Hardware reset input. Low = device resets and returns to reading array data
X
X
Hardware write protect input. At V , disables program and erase functions in the four
IL
outermost sectors. Should be at V for all other conditions.
IH
Accelerated input. At V , accelerates programming; automatically places device in unlock
HH
F-ACC/F-VPP
bypass mode. At V , disables all program and erase functions. Should be at V for all other
X
IL
IH
conditions.
R-CE#
F-CE#
R-CRE
F-VCC
R-VCC
R-UB#
R-LB#
Chip-enable input for pSRAM.
X
X
Chip-enable input for Flash. Asynchronous relative to CLK for Burst Mode.
Control Register Enable (pSRAM).
Flash 1.8 Volt-only single power supply.
pSRAM Power Supply.
X
X
X
X
X
Upper Byte Control (pSRAM).
Lower Byte Control (pSRAM)
Do Not Use. A device internal signal may be connected to the package connector. The
connection may be used by Spansion for test or other purposes and is not intended for
connection to any host system signal. Any DNU signal related function will be inactive when
DNU
RFU
the signal is at V . The signal has an internal pull-down resistor and may be left
IL
unconnected in the host system or may be tied to V . Do not use these connections for
SS
PCB signal routing channels. Do not connect any host system signal to these connections.
Reserved for Future Use. No device internal signal is currently connected to the package
connector but there is potential future use for the connector for a signal. It is recommended
to not use RFU connectors for PCB routing channels so that the PCB may take advantage of
future enhanced features in compatible footprint devices.
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3. MCP Block Diagram
Figure 3.1 MCP Block Diagram for S71NS128P and S71NS256P
F-RST#
RST#
ACC
F-ACC
F-WP#
F-CE#
OE#
WP#
CE#
RDY
F-RDY/R-WAIT
A/DQ15-A/DQ0
NS
OE#
WE#
AVD#
CLK
AD15-AD0
WE#
AVD#
CLK
Amax-A16
Amax-A16
OE#
WE#
AVD#
CLK
CE#
CRE
WAIT
pSRAM
R-CE#
R-CRE
R-UB#
R-LB#
AD15-AD0
UB#
LB#
Amax-A16
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Figure 3.2 MCP Block Diagram for S71NS512P
A23-A24
F-RS T#
F-V P P
ADQ15-ADQ0
CLK
F-RDY / R-W AIT
VCC
F-CE#
OE#
W E#
AV D#
NS-P
A22-A16
V CC
V CCQ
V S S
R-UB#
R-LB#
R-CE#
pSRAM
R-CRE
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D a t a S h e e t ( P r e l i m i n a r y )
4. Connection Diagrams/Physical Dimensions
This section contains the I/O designations and package specifications for the S71NS-P.
4.1
Special Handling Instructions for FBGA Packages
Special handling is required for Flash Memory products in FBGA packages.
Flash memory devices in FBGA packages may be damaged if exposed to ultrasonic cleaning methods. The
package and/or data integrity may be compromised if the package body is exposed to temperatures above
150°C for prolonged periods of time.
4.2
Connection Diagrams
Figure 4.1 56-ball Fine-Pitch Ball Grid Array (S71NS128P and S71NS256P)
(Top View, Balls Facing Down)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Legend
A
B
C
D
E
F
Flash/pSRAM Shared
NC
NC
Not Connected
Do Not Use
Flash Only
NC
RFU
A21
A16
R-LB# R-UB#
RFU
A17
NC
F-RDY/
R-WAIT
VSS
CLK
VCC
WE# F-ACC
A19
A22
VCCQ
A20
AVD#
A23 F-RST# F-WP#
A18
F-CE# VSSQ
pSRAM Only
VSS
A/DQ7 A/DQ6 A/DQ13 A/DQ12 A/DQ3 A/DQ2 A/DQ9 A/DQ8
OE#
G
A/DQ15 A/DQ14 VSSQ A/DQ5 A/DQ4 A/DQ11 A/DQ10 VCCQ A/DQ1 A/DQ0
H
J
NC
RFU
R-CE# R-CRE
RFU
NC
K
NC
NC
Note:
Addresses are shared between Flash and RAM depending on the density of the pSRAM.
MCP
Flash-Only Addresses
A22-A21
Shared Addresses
A20-A16
Shared ADQ Pins
S71NS128PB0
S71NS128PC0
S71NS256PB0
S71NS256PC0
A22
A21-A16
A/DQ15-A/DQ0
A23-A21
A20-A16
A23-A22
A21-A16
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D a t a S h e e t ( P r e l i m i n a r y )
Figure 4.2 56-ball Fine-Pitch Ball Grid Array for S71NS512P
(Top View, Balls Facing Down)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
A
B
C
D
E
F
NC
NC
Legend
Do Not Use
NC
DNU
A21
A16
R-LB# R-UB#
A24
A17
NC
Reserved for Future Use
F-RDY/
R-WAIT
VSS
CLK
VCC
WE#
F-VPP
A19
A22
Not Connected
VCCQ
A20
AVD#
A23 F-RST# RFU
A18
F-CE#
VSS
OE#
Flash Only
VSS
A/DQ7 A/DQ6 A/DQ13 A/DQ12 A/DQ3 A/DQ2 A/DQ9 A/DQ8
G
A/DQ15 A/DQ14 VSS
A/DQ5 A/DQ4 A/DQ11 A/DQ10 VCCQ A/DQ1 A/DQ0
RAM Only
H
J
NC
DNU
R-CE# R-CRE
DNU
NC
Flash/RAM Shared Only
K
NC
NC
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D a t a S h e e t ( P r e l i m i n a r y )
4.3
Physical Dimensions
Figure 4.3 NLB056—56-ball VFBGA 9.2 x 8.0 mm
D1
A
D
eD
0.10
(2X)
C
14
13
12
11
10
9
SE
7
8
7
6
5
4
3
E
B
E1
eE
2
1
K
J H G F E D C B A
INDEX MARK
9
PIN A1
CORNER
PIN A1
CORNER
7
SD
0.10
(2X)
C
TOP VIEW
BOTTOM VIEW
0.20
C
A2
A
A1
0.08
C
C
SIDE VIEW
6
56X
b
0.15
0.08
M
M
C
C
A
B
NOTES:
1. DIMENSIONING AND TOLERANCING METHODS PER
ASME Y14.5M-1994.
PACKAGE
JEDEC
NLB 056
N/A
2. ALL DIMENSIONS ARE IN MILLIMETERS.
D x E
9.20 mm x 8.00 mm
PACKAGE
3. BALL POSITION DESIGNATION PER JEP95, SECTION 4.3,
SPP-010.
SYMBOL
MIN
NOM
---
MAX
NOTE
4.
e REPRESENTS THE SOLDER BALL GRID PITCH.
A
A1
---
1.20
---
PROFILE
5. SYMBOL "MD" IS THE BALL MATRIX SIZE IN THE "D"
DIRECTION.
0.20
0.85
---
BALL HEIGHT
SYMBOL "ME" IS THE BALL MATRIX SIZE IN THE
"E" DIRECTION.
A2
---
0.97
BODY THICKNESS
BODY SIZE
D
9.20 BSC.
8.00 BSC.
4.50 BSC.
6.50 BSC.
10
n IS THE NUMBER OF POPULTED SOLDER BALL POSITIONS
FOR MATRIX SIZE MD X ME.
E
BODY SIZE
D1
E1
MATRIX FOOTPRINT
MATRIX FOOTPRINT
6
7
DIMENSION "b" IS MEASURED AT THE MAXIMUM BALL
DIAMETER IN A PLANE PARALLEL TO DATUM C.
SD AND SE ARE MEASURED WITH RESPECT TO DATUMS A
AND B AND DEFINE THE POSITION OF THE CENTER SOLDER
BALL IN THE OUTER ROW.
MD
ME
n
MATRIX SIZE D DIRECTION
MATRIX SIZE E DIRECTION
BALL COUNT
14
56
WHEN THERE IS AN ODD NUMBER OF SOLDER BALLS IN THE
OUTER ROW SD OR SE = 0.000.
Øb
eE
0.25
0.30
0.35
BALL DIAMETER
WHEN THERE IS AN EVEN NUMBER OF SOLDER BALLS IN THE
OUTER ROW, SD OR SE = e/2
0.50 BSC.
0.50 BSC
BALL PITCH
eD
SD / SE
BALL PITCH
8. "+" INDICATES THE THEORETICAL CENTER OF DEPOPULATED
BALLS.
0.25 BSC.
SOLDER BALL PLACEMENT
A2 ~ A13,B1 ~ B14
DEPOPULATED SOLDER BALLS
9
A1 CORNER TO BE IDENTIFIED BY CHAMFER, LASER OR INK
MARK, METALLIZED MARK INDENTATION OR OTHER MEANS.
C1,C2,C5,C6,C9,C10,C13,C14
D1,D2,D13,D14,E1,E2,E13,E14,F1,F2,F13,F14
G1,G2,G13,G14,H1,H2,H5,H6,H9,H10,H13,H14
J1 ~ J14, K2 ~ K13
10. OUTLINE AND DIMENSIONS PER CUSTOMER REQUIREMENT.
3507\ 16-038.22 \ 7.14.5
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D a t a S h e e t ( P r e l i m i n a r y )
Figure 4.4 NSB056—56-ball VFBGA 9.2 x 8.0 mm
PACKAGE
JEDEC
NSB
N/A
056
NOTES:
1. DIMENSIONING AND TOLERANCING METHODS PER ASME
Y14.5M-1994.
NOTE
9.20 mm x 8.00 mm
PACKAGE
D X E
2. ALL DIMENSIONS ARE IN MILLIMETERS.
3. BALL POSITION DESIGNATION PER JEP95, SECTION 4.3, SPP-010
SYMBOL
MIN
NOM
---
MAX
A
A1
---
0.20
0.85
1.20
---
PROFILE
4.
e REPRESENTS THE SOLDER BALL GRID PITCH.
---
BALL HEIGHT
5. SYMBOL "MD" IS THE BALL MATRIX SIZE IN THE "D" DIRECTION.
SYMBOL "ME" IS THE BALL MATRIX SIZE IN THE "E" DIRECTION.
A2
---
0.97
BODY THICKNESS
BODY SIZE
D
9.20 BSC.
8.00 BSC.
4.50 BSC.
6.50 BSC
n IS THE NUMBER OF POPULATED SOLDER BALL POSITIONS
FOR MATRIX SIZE MD X ME.
E
BODY SIZE
6
7
DIMENSION "b" IS MEASURED AT THE MAXIMUM BALL DIAMETER
IN A PLANE PARALLEL TO DATUM C.
D1
E1
MATRIX FOOTPRINT
MATRIX FOOTPRINT
MATRIX SIZE D DIRECTION
MATRIX SIZE E DIRECTION
BALL COUNT
SD AND SE ARE MEASURED WITH RESPECT TO DATUMS A AND
B AND DEFINE THE POSITION OF THE CENTER SOLDER BALL IN
THE OUTER ROW.
MD
ME
n
10
14
WHEN THERE IS AN ODD NUMBER OF SOLDER BALLS IN THE
OUTER ROW SD OR SE = 0.000.
56
0.25
Ø b
eE
0.30
0.35
BALL DIAMETER
WHEN THERE IS AN EVEN NUMBER OF SOLDER BALLS IN THE
OUTER ROW, SD OR SE = e/2
0.50 BSC.
0.50 BSC.
0.25 BSC.
BALL PITCH
8. “+” INDICATES THE THEORETICAL CENTER OF DEPOPULATED
BALLS.
eD
SE SD
BALL PITCH
SOLDER BALL PLACEMENT
DEPOPULATED SOLDER BALLS
9
A1 CORNER TO BE IDENTIFIED BY CHAMFER, LASER OR INK
MARK, METALLIZED MARK INDENTATION OR OTHER MEANS.
A2- A13,B1-B14,C1,
C2,C5,C6,C9,C10,C13,
C14,
10. OUTLINE AND DIMENSIONS PER CUSTOMER REQUIREMENT.
D1,D2,D13,D14,E1,E2,
E13,E14,F1,F2,F13,F14,G1
,G2,G13,G14,H1,H2,
H5,H6,H9,H10,H13,H14,
J1-J14, K2-K13
NSB056 \ 16.038.22 \ 9.25.7
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D a t a S h e e t ( P r e l i m i n a r y )
5. Revision History
Section
Description
Revision 01 (October 12, 2006)
Initial release
Revision 02 (December 8, 2006)
Global
Added S71NS128PC0
Revision 03 (September 10, 2007)
Global
Added product details including ordering information for S71NS256PB0
Added mechanical drawing for the NSB056 package
Revision 04 (September 26, 2007)
Physical Dimension
Revision 05 (December 13, 2007)
Added product information for 83 MHz MCPs, including ordering part numbers and valid
combinations
Global
Revision 06 (May 2, 2008)
General Description
Changed 32 M Multiplexed pSRAM Type 3 Publication Identification Number to muxpsram_10
Added Low-Halogen package option
Removed height and ball pitch information from Package Modifier description
Removed Character Position Descriptions table
Updated Valid Combinations table
Ordering Information
Added Product Selector Guide table
Revision 07 (March 30, 2010)
Ordering Information
Added model numbers TW and TS to indicate products intended for MediaTek chipsets.
Corrected package type combinations for 128+32 and 256+32 TW and TS model OPNs.
Revision 08 (May 27, 2010)
Product Selector Guide
Revision 09 (July 8, 2010)
Added S71NS512PD0ZHEUR and its block and pinout diagrams.
Removed 112-ball Lookahead diagram.
Global
Refreshed NC, DNU, RFU descriptions.
July 8, 2010 S71NS-P_00_09
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13
D a t a S h e e t ( P r e l i m i n a r y )
Colophon
The products described in this document are designed, developed and manufactured as contemplated for general use, including without
limitation, ordinary industrial use, general office use, personal use, and household use, but are not designed, developed and manufactured as
contemplated (1) for any use that includes fatal risks or dangers that, unless extremely high safety is secured, could have a serious effect to the
public, and could lead directly to death, personal injury, severe physical damage or other loss (i.e., nuclear reaction control in nuclear facility,
aircraft flight control, air traffic control, mass transport control, medical life support system, missile launch control in weapon system), or (2) for
any use where chance of failure is intolerable (i.e., submersible repeater and artificial satellite). Please note that Spansion will not be liable to
you and/or any third party for any claims or damages arising in connection with above-mentioned uses of the products. Any semiconductor
devices have an inherent chance of failure. You must protect against injury, damage or loss from such failures by incorporating safety design
measures into your facility and equipment such as redundancy, fire protection, and prevention of over-current levels and other abnormal
operating conditions. If any products described in this document represent goods or technologies subject to certain restrictions on export under
the Foreign Exchange and Foreign Trade Law of Japan, the US Export Administration Regulations or the applicable laws of any other country,
the prior authorization by the respective government entity will be required for export of those products.
Trademarks and Notice
The contents of this document are subject to change without notice. This document may contain information on a Spansion product under
development by Spansion. Spansion reserves the right to change or discontinue work on any product without notice. The information in this
document is provided as is without warranty or guarantee of any kind as to its accuracy, completeness, operability, fitness for particular purpose,
merchantability, non-infringement of third-party rights, or any other warranty, express, implied, or statutory. Spansion assumes no liability for any
damages of any kind arising out of the use of the information in this document.
Copyright © 2006-2010 Spansion Inc. All rights reserved. Spansion®, the Spansion logo, MirrorBit®, MirrorBit® Eclipse™, ORNAND™, EcoRAM™
and combinations thereof, are trademarks and registered trademarks of Spansion LLC in the United States and other countries. Other names
used are for informational purposes only and may be trademarks of their respective owners.
14
S71NS-P Memory Subsystem Solutions
S71NS-P_00_09 July 8, 2010
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