PC28F640P30T85 [INTEL]
Intel StrataFlash Embedded Memory; 英特尔的StrataFlash嵌入式存储器型号: | PC28F640P30T85 |
厂家: | INTEL |
描述: | Intel StrataFlash Embedded Memory |
文件: | 总102页 (文件大小:1616K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
®
Intel StrataFlash Embedded Memory
(P30)
1-Gbit P30 Family
Datasheet
Product Features
■ High performance
■ Security
— One-Time Programmable Registers:
— 85/88 ns initial access
• 64 unique factory device identifier bits
• 64 user-programmable OTP bits
• Additional 2048 user-programmable OTP bits
— Selectable OTP Space in Main Array:
• 4x32KB parameter blocks + 3x128KB main
blocks (top or bottom configuration)
— Absolute write protection: VPP = VSS
— Power-transition erase/program lockout
— Individual zero-latency block locking
— Individual block lock-down
— 40 MHz with zero wait states, 20 ns clock-to-
data output synchronous-burst read mode
— 25 ns asynchronous-page read mode
— 4-, 8-, 16-, and continuous-word burst mode
— Buffered Enhanced Factory Programming
(BEFP) at 5 µs/byte (Typ)
— 1.8 V buffered programming at 7 µs/byte (Typ)
■ Architecture
— Multi-Level Cell Technology: Highest Density
at Lowest Cost
■ Software
— Asymmetrically-blocked architecture
— Four 32-KByte parameter blocks: top or
bottom configuration
— 20 µs (Typ) program suspend
— 20 µs (Typ) erase suspend
— Intel® Flash Data Integrator optimized
— Basic Command Set and Extended Command
Set compatible
— 128-KByte main blocks
■ Voltage and Power
— VCC (core) voltage: 1.7 V – 2.0 V
— VCCQ (I/O) voltage: 1.7 V – 3.6 V
— Standby current: 55 µA (Typ) for 256-Mbit
— 4-Word synchronous read current:
13 mA (Typ) at 40 MHz
— Common Flash Interface capable
■ Density and Packaging
— 64/128/256-Mbit densities in 56-Lead TSOP
package
— 64/128/256/512-Mbit densities in 64-Ball
Intel® Easy BGA package
— 64/128/256/512-Mbit and 1-Gbit densities in
Intel® QUAD+ SCSP
■ Quality and Reliability
— Operating temperature: –40 °C to +85 °C
• 1-Gbit in SCSP is –30 °C to +85 °C
— Minimum 100,000 erase cycles per block
— ETOX™ VIII process technology (130 nm)
— 16-bit wide data bus
The Intel StrataFlash® Embedded Memory (P30) product is the latest generation of Intel
StrataFlash® memory devices. Offered in 64-Mbit up through 1-Gbit densities, the P30 device
brings reliable, two-bit-per-cell storage technology to the embedded flash market segment.
Benefits include more density in less space, high-speed interface, lowest cost-per-bit NOR
device, and support for code and data storage. Features include high-performance synchronous-
burst read mode, fast asynchronous access times, low power, flexible security options, and three
industry standard package choices.
The P30 product family is manufactured using Intel® 130 nm ETOX™ VIII process technology.
Order Number: 306666, Revision: 001
April 2005
INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH INTEL PRODUCTS. NO LICENSE, EXPRESS OR IMPLIED, BY
ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IS GRANTED BY THIS DOCUMENT. EXCEPT AS PROVIDED IN
INTEL'S TERMS AND CONDITIONS OF SALE FOR SUCH PRODUCTS, INTEL ASSUMES NO LIABILITY WHATSOEVER, AND INTEL DISCLAIMS
ANY EXPRESS OR IMPLIED WARRANTY, RELATING TO SALE AND/OR USE OF INTEL PRODUCTS INCLUDING LIABILITY OR WARRANTIES
RELATING TO FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABILITY, OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER
INTELLECTUAL PROPERTY RIGHT. Intel products are not intended for use in medical, life saving, or life sustaining applications.
Intel may make changes to specifications and product descriptions at any time, without notice.
This document contains information on products in the design phase of development. The information here is subject to change without notice. Do not
finalize a design with this information.
StrataFlash® Embedded Memory (P30) Contact your local Intel sales office or your distributor to obtain the latest specifications and before placing
your product order.
Copies of documents which have an ordering number and are referenced in this document, or other Intel literature may be obtained by calling 1-800-
548-4725 or by visiting Intel's website at http://www.intel.com.
Copyright © 2005, Intel Corporation
* Other names and brands may be claimed as the property of others.
April 2005
2
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Contents
1.0 Introduction ...............................................................................................................................7
1.1
1.2
1.3
Nomenclature .......................................................................................................................7
Acronyms..............................................................................................................................7
Conventions..........................................................................................................................8
2.0 Functional Overview ..............................................................................................................9
3.0 Package Information............................................................................................................10
3.1
3.2
3.3
56-Lead TSOP Package.....................................................................................................10
64-Ball Easy BGA Package................................................................................................12
QUAD+ SCSP Packages....................................................................................................13
4.0 Ballout and Signal Descriptions......................................................................................17
4.1
4.2
4.3
4.4
Signal Ballout......................................................................................................................17
Signal Descriptions.............................................................................................................20
SCSP Configurations..........................................................................................................22
Memory Maps.....................................................................................................................24
5.0 Maximum Ratings and Operating Conditions ...........................................................29
5.1
5.2
Absolute Maximum Ratings................................................................................................29
Operating Conditions..........................................................................................................30
6.0 Electrical Specifications.....................................................................................................31
6.1
6.2
DC Current Characteristics.................................................................................................31
DC Voltage Characteristics.................................................................................................32
7.0 AC Characteristics................................................................................................................33
7.1
7.2
7.3
7.4
7.5
AC Test Conditions.............................................................................................................33
Capacitance........................................................................................................................34
AC Read Specifications ......................................................................................................35
AC Write Specifications ......................................................................................................41
Program and Erase Characteristics....................................................................................45
8.0 Power and Reset Specifications .....................................................................................46
8.1
8.2
8.3
Power Up and Down...........................................................................................................46
Reset Specifications ...........................................................................................................46
Power Supply Decoupling...................................................................................................47
9.0 Device Operations.................................................................................................................48
9.1
Bus Operations...................................................................................................................48
9.1.1 Reads ....................................................................................................................48
9.1.2 Writes.....................................................................................................................49
9.1.3 Output Disable .......................................................................................................49
9.1.4 Standby..................................................................................................................49
9.1.5 Reset .....................................................................................................................49
Device Commands .............................................................................................................50
Command Definitions .........................................................................................................51
9.2
9.3
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
3
1-Gbit P30 Family
10.0 Read Operations....................................................................................................................53
10.1 Asynchronous Page-Mode Read........................................................................................53
10.2 Synchronous Burst-Mode Read..........................................................................................53
10.3 Read Configuration Register ..............................................................................................54
10.3.1 Read Mode ............................................................................................................55
10.3.2 Latency Count........................................................................................................55
10.3.3 WAIT Polarity.........................................................................................................57
10.3.4 Data Hold...............................................................................................................58
10.3.5 WAIT Delay............................................................................................................59
10.3.6 Burst Sequence .....................................................................................................59
10.3.7 Clock Edge ............................................................................................................59
10.3.8 Burst Wrap.............................................................................................................59
10.3.9 Burst Length ..........................................................................................................60
11.0 Programming Operations ..................................................................................................61
11.1 Word Programming.............................................................................................................61
11.1.1 Factory Word Programming...................................................................................62
11.2 Buffered Programming........................................................................................................62
11.3 Buffered Enhanced Factory Programming .........................................................................63
11.3.1 BEFP Requirements and Considerations..............................................................64
11.3.2 BEFP Setup Phase................................................................................................64
11.3.3 BEFP Program/Verify Phase .................................................................................64
11.3.4 BEFP Exit Phase ...................................................................................................65
11.4 Program Suspend............................................................................................................... 65
11.5 Program Resume................................................................................................................ 66
11.6 Program Protection.............................................................................................................66
12.0 Erase Operations...................................................................................................................67
12.1 Block Erase.........................................................................................................................67
12.2 Erase Suspend ...................................................................................................................67
12.3 Erase Resume....................................................................................................................68
12.4 Erase Protection .................................................................................................................68
13.0 Security Modes.......................................................................................................................69
13.1 Block Locking......................................................................................................................69
13.1.1 Lock Block .............................................................................................................69
13.1.2 Unlock Block..........................................................................................................69
13.1.3 Lock-Down Block...................................................................................................69
13.1.4 Block Lock Status ..................................................................................................70
13.1.5 Block Locking During Suspend..............................................................................70
13.2 Selectable One-Time Programmable Blocks......................................................................71
13.3 Protection Registers ...........................................................................................................72
13.3.1 Reading the Protection Registers..........................................................................73
13.3.2 Programming the Protection Registers..................................................................73
13.3.3 Locking the Protection Registers...........................................................................74
14.0 Special Read States .............................................................................................................75
14.1 Read Status Register.......................................................................................................... 75
14.1.1 Clear Status Register.............................................................................................76
14.2 Read Device Identifier ........................................................................................................ 76
April 2005
4
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
14.3 CFI Query ...........................................................................................................................77
Appendix A Write State Machine..........................................................................................78
Appendix B Flowcharts............................................................................................................85
Appendix C Common Flash Interface ................................................................................93
Appendix D Additional Information...................................................................................100
Appendix E
Appendix F
Ordering Information for Discrete Products ........................................101
Ordering Information for SCSP Products..............................................102
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
5
1-Gbit P30 Family
Revision History
Revision Date
Revision
Description
April 2005
-001
Initial Release
April 2005
6
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
1.0
Introduction
This document provides information about the Intel StrataFlash® Embedded Memory (P30) device
and describes its features, operation, and specifications.
1.1
Nomenclature
1.8 V :
3.0 V :
9.0 V :
VCC (core) voltage range of 1.7 V – 2.0 V
VCCQ (I/O) voltage range of 1.7 V – 3.6 V
VPP voltage range of 8.5 V – 9.5 V
Block :
A group of bits, bytes,1-Gbit P30 Family or words within the
flash memory array that erase simultaneously when the Erase
command is issued to the device. The 1-Gbit P30 Family has
two block sizes: 32-KByte and 128-KByte.
Main block :
An array block that is usually used to store code and/or data.
Main blocks are larger than parameter blocks.
Parameter block :
An array block that is usually used to store frequently changing
data or small system parameters that traditionally would be
stored in EEPROM.
Top parameter device :
A device with its parameter blocks located at the highest
physical address of its memory map.
Bottom parameter device : A device with its parameter blocks located at the lowest
physical address of its memory map.
1.2
Acronyms
BEFP :
CUI :
MLC :
OTP :
PLR :
PR :
Buffer Enhanced Factory Programming
Command User Interface
Multi-Level Cell
One-Time Programmable
Protection Lock Register
Protection Register
RCR :
Read Configuration Register
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
7
1-Gbit P30 Family
RFU :
Reserved for Future Use
Status Register
SR :
WSM :
Write State Machine
1.3
Conventions
VCC :
Signal or voltage connection
Signal or voltage level
VCC
0x :
0b :
:
Hexadecimal number prefix
Binary number prefix
SR[4] :
Denotes an individual register bit.
A[15:0] :
Denotes a group of similarly named signals, such as address
or data bus.
A5 :
Denotes one element of a signal group membership, such as
an individual address bit.
Bit :
Binary unit
Byte :
Eight bits
Word :
Kbit :
Two bytes, or sixteen bits
1024 bits
KByte :
KWord :
Mbit :
1024 bytes
1024 words
1,048,576 bits
1,048,576 bytes
1,048,576 words
MByte :
MWord :
April 2005
8
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
2.0
Functional Overview
This section provides an overview of the features and capabilities of the 1-Gbit P30 Family device.
The P30 family provides density upgrades from 64-Mbit through 1-Gbit. This family of devices
provides high performance at low voltage on a 16-bit data bus. Individually erasable memory
blocks are sized for optimum code and data storage.
Upon initial power up or return from reset, the device defaults to asynchronous page-mode read.
Configuring the Read Configuration Register enables synchronous burst-mode reads. In
synchronous burst mode, output data is synchronized with a user-supplied clock signal. A WAIT
signal provides an easy CPU-to-flash memory synchronization.
In addition to the enhanced architecture and interface, the device incorporates technology that
enables fast factory program and erase operations. Designed for low-voltage systems, the 1-Gbit
P30 Family supports read operations with VCC at 1.8 V, and erase and program operations with
VPP at 1.8 V or 9.0 V. Buffered Enhanced Factory Programming (BEFP) provides the fastest flash
array programming performance with VPP at 9.0 V, which increases factory throughput. With VPP
at 1.8 V, VCC and VPP can be tied together for a simple, ultra low power design. In addition to
voltage flexibility, a dedicated VPP connection provides complete data protection when VPP
≤
VPPLK
.
A Command User Interface (CUI) is the interface between the system processor and all internal
operations of the device. An internal Write State Machine (WSM) automatically executes the
algorithms and timings necessary for block erase and program. A Status Register indicates erase or
program completion and any errors that may have occurred.
An industry-standard command sequence invokes program and erase automation. Each erase
operation erases one block. The Erase Suspend feature allows system software to pause an erase
cycle to read or program data in another block. Program Suspend allows system software to pause
programming to read other locations. Data is programmed in word increments (16 bits).
The 1-Gbit P30 Family’s protection register allows unique flash device identification that can be
used to increase system security. The individual Block Lock feature provides zero-latency block
locking and unlocking. In addition, the P30 device also has four pre-defined spaces in the main
array that can be configured as One-Time Programmable (OTP).
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
9
1-Gbit P30 Family
3.0
Package Information
3.1
56-Lead TSOP Package
Figure 1.
TSOP Mechanical Specifications
Z
A
2
See Note 2
See Notes 1 and 3
Pin 1
e
See Detail B
E
Y
D
1
A
1
D
Seating
Plane
See Detail A
A
Detail A
Detail B
C
0
b
L
Table 1.
TSOP Package Dimensions (Sheet 1 of 2)
Millimeters
Nom
Inches
Nom
Product Information
Sym
Min
Max
Min
Max
Package Height
Standoff
A
A1
A2
b
-
-
1.200
-
-
-
0.047
-
0.050
0.965
0.100
0.100
18.200
13.800
-
-
0.002
0.038
0.004
0.004
0.717
0.543
-
-
Package Body Thickness
Lead Width
0.995
0.150
0.150
18.400
14.000
0.500
1.025
0.200
0.200
18.600
14.200
-
0.039
0.006
0.006
0.724
0.551
0.0197
0.040
0.008
0.008
0.732
0.559
-
Lead Thickness
Package Body Length
Package Body Width
Lead Pitch
c
D1
E
e
April 2005
10
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Table 1.
TSOP Package Dimensions (Sheet 2 of 2)
Millimeters
Nom
Inches
Product Information
Sym
Min
Max
Min
Nom
Max
Terminal Dimension
Lead Tip Length
D
L
19.800
20.00
0.600
56
20.200
0.700
-
0.780
0.787
0.024
56
0.795
0.028
-
0.500
0.020
Lead Count
N
∅
Y
Z
-
0°
-
0°
Lead Tip Angle
3°
5°
3°
5°
Seating Plane Coplanarity
Lead to Package Offset
-
-
0.100
0.350
-
-
0.004
0.014
0.150
0.250
0.006
0.010
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
11
1-Gbit P30 Family
3.2
64-Ball Easy BGA Package
Figure 2.
Easy BGA Mechanical Specifications
Ball A1
Corner
Ball A1
Corner
D
S1
1
2
3
4
5
6
7
8
8
7
6
5
4
3
2
1
S2
A
B
C
D
E
A
B
C
D
E
F
b
e
E
F
G
G
H
H
Top View - Ball side down
A1
Bottom View - Ball Side Up
A2
A
Seating
Plane
Y
Note: Drawing not to scale
Table 2.
Easy BGA Package Dimensions
Millimeters
Nom
Inches
Symbol
Notes
Product Information
Min
Max
Min
Nom
Max
Package Height (64/128/256-Mbit)
Package Height (512-Mbit)
Ball Height (64/128/256-Mbit)
Ball Height (512-Mbit)
A
A
-
-
-
1.200
-
-
0.0472
-
1.300
-
-
0.0512
A1
A1
A2
A2
b
0.250
-
-
0.0098
-
-
0.240
-
-
-
0.0094
-
-
Package Body Thickness (64/128/256-Mbit)
Package Body Thickness (512-Mbit)
Ball (Lead) Width
-
0.780
0.910
0.430
10.000
13.000
1.000
64
-
0.0307
0.0358
0.0169
0.3937
0.5118
0.0394
64
-
-
0.330
9.900
12.900
-
-
-
-
0.530
10.100
13.100
-
0.0130
0.3898
0.5079
-
0.0209
0.3976
0.5157
-
Package Body Width
D
1
1
Package Body Length
E
Pitch
[e]
N
Ball (Lead) Count
-
-
-
-
Seating Plane Coplanarity
Corner to Ball A1 Distance Along D
Corner to Ball A1 Distance Along E
Y
-
-
0.100
1.600
3.100
-
-
0.0039
0.0630
0.1220
S1
S2
1.400
2.900
1.500
3.000
0.0551
0.1142
0.0591
0.1181
1
1
Note: Daisy Chain Evaluation Unit information is at Intel® Flash Memory Packaging Technology http://developer.intel.com/
design/flash/packtech.
April 2005
12
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
3.3
QUAD+ SCSP Packages
Figure 3.
64/128-Mbit, 88-ball (80 active) QUAD+ SCSP Specifications (8x10x1.2 mm)
A1 Index
Mark
S1
1
2
3
4
5
6
7
8
8
7
6
5
4
3
2
1
S2
A
B
C
D
E
F
A
B
C
D
E
F
D
e
G
G
H
J
H
J
K
K
L
L
M
M
b
E
Top View - Ball
Down
Bottom View - Ball Up
A
A2
A1
Y
Drawing not to scale.
Millimeters
Nom
-
Inches
Nom
-
Dimensions
Package Height
Ball Height
Package Body Thickness
Ball (Lead) Width
Package Body Width
Package Body Length
Pitch
Ball (Lead) Count
Seating Plane Coplanarity
Corner to Ball A1 Distance Along E
Corner to Ball A1 Distance Along D
Symbol
A
Min
-
0.200
-
0.325
9.900
7.900
-
Max
1.200
-
Min
-
Max
0.0472
-
1
A
A
-
0.0079
-
0.0128
0.3898
0.3110
-
-
2
0.860
0.375
10.000
8.000
0.800
88
-
0.0339
0.0148
0.3937
0.3150
0.0315
88
-
b
D
E
e
N
Y
0.425
10.100
8.100
-
0.0167
0.3976
0.3189
-
-
-
-
-
-
-
-
0.100
1.300
0.700
-
0.0039
0.0512
0.0276
1
S
2
S
1.100
0.500
1.200
0.600
0.0433
0.0197
0.0472
0.0236
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
13
1-Gbit P30 Family
Figure 4.
256-Mbit, 88-ball (80 active) QUAD+ SCSP Specifications (8x11x1.0 mm)
S1
A1 Index
Mark
1
2
3
4
5
6
7
8
8
7
6
5
4
3
2
1
S2
A
B
C
D
E
F
A
B
C
D
E
F
D
e
G
G
H
J
H
J
K
K
L
L
M
M
b
E
Bottom View - Ball Up
A
Top View - Ball Down
A2
A1
Y
Drawing not to scale.
Note: Dimensions A1, A2, and b are preliminary
Millimeters
Inches
Dimensions
Package Height
Ball Height
Package Body Thickness
Ball (Lead) Width
Package Body Length
Package Body Width
Pitch
Symbol
Min
Nom
-
-
0.740
0.350
11.00
8.00
0.80
88
Max
1.000
-
Min
-
Nom
-
-
0.0291
0.0138
0.4331
0.3150
0.0315
88
Max
0.0394
-
A
A1
A2
b
D
E
-
0.117
-
0.300
10.900
7.900
-
0.0046
-
0.0118
0.4291
0.3110
-
-
-
0.400
11.100
8.100
-
0.0157
0.4370
0.3189
-
e
N
Ball (Lead) Count
-
-
-
-
Seating Plane Coplanarity
Corner to Ball A1 Distance Along E
Corner to Ball A1 Distance Along D
Y
S1
S2
-
-
0.100
1.300
1.200
-
-
0.0039
0.0512
0.0472
1.100
1.000
1.200
1.100
0.0433
0.0394
0.0472
0.0433
April 2005
14
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 5.
512-Mbit, 88-ball (80 active) QUAD+ SCSP Specifications (8x11x1.2 mm)
S1
A1 Index
Mark
1
2
3
4
5
6
7
8
8
7
6
5
4
3
2
1
S2
A
B
C
D
E
F
A
B
C
D
E
F
D
e
G
G
H
J
H
J
K
K
L
L
M
M
b
E
Bottom View - Ball Up
A
Top View - Ball Down
A2
A1
Y
Drawing not to scale.
Millimeters
Nom
-
Inches
Nom
-
Dimensions
Package Height
Ball Height
Package Body Thickness
Ball (Lead) Width
Package Body Length
Package Body Width
Pitch
Symbol
Min
Max
1.200
-
Min
-
Max
0.0472
-
A
A1
A2
b
D
E
-
0.200
-
0.325
10.900
7.900
-
-
0.0079
-
0.0128
0.4291
0.3110
-
-
0.860
0.375
11.000
8.000
0.800
88
-
0.0339
0.0148
0.4331
0.3150
0.0315
88
-
0.425
11.100
8.100
-
0.0167
0.4370
0.3189
-
e
N
Ball (Lead) Count
-
-
-
-
Seating Plane Coplanarity
Corner to Ball A1 Distance Along E
Corner to Ball A1 Distance Along D
Y
S1
S2
-
-
0.100
1.300
1.200
-
-
0.0039
0.0512
0.0472
1.100
1.000
1.200
1.100
0.0433
0.0394
0.0472
0.0433
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
15
1-Gbit P30 Family
Figure 6.
1-Gbit, 88-ball (80 active) QUAD+ SCSP Specifications (11x11x1.4 mm)
S1
A1 Index
Mark
8
7
6
5
4
3
2
1
2
3
4
5
6
7
8
1
S2
A
B
C
D
E
F
A
B
C
D
E
F
D
e
G
G
H
H
J
J
K
K
L
L
M
M
b
E
Bottom View - Ball Up
A
Top View - Ball Down
A2
A1
Y
Drawing not to scale.
Millimeters
Nom
-
Inches
Nom
-
Dimensions
Package Height
Ball Height
Package Body Thickness
Ball (Lead) Width
Package Body Length
Package Body Width
Pitch
Ball (Lead) Count
Seating Plane Coplanarity
Corner to Ball A1 Distance Along E
Corner to Ball A1 Distance Along D
Symbol
Min
Max
1.400
-
Min
-
Max
0.0551
-
A
A1
A2
b
D
E
e
N
Y
S1
S2
-
0.200
-
0.325
10.900
10.900
-
-
0.0079
-
0.0128
0.4291
0.4291
-
-
1.070
0.375
11.000
11.000
0.800
88
-
0.0421
0.0148
0.4331
0.4331
0.0315
88
-
0.425
11.100
11.100
-
0.0167
0.4370
0.4370
-
-
-
-
-
-
-
-
0.100
2.800
1.200
-
0.0039
0.1102
0.0472
2.600
1.000
2.700
1.100
0.1024
0.0394
0.1063
0.0433
April 2005
16
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
4.0
Ballout and Signal Descriptions
4.1
Signal Ballout
Figure 7.
56-Lead TSOP Pinout (64/128/256-Mbit)
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
WAIT
A17
1
2
3
4
5
6
7
8
A16
A15
DQ15
DQ7
DQ14
DQ6
DQ13
DQ5
DQ12
DQ4
ADV#
CLK
A14
A13
A12
A11
A10
A9
A23
A22
A21
VSS
VCC
WE#
WP#
A20
A19
A18
A8
A7
A6
A5
A4
A3
A2
A24
RFU
VSS
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
Intel StrataFlash®
Embedded Memory(P30)
RST#
VPP
56-Lead TSOP Pinout
14 mm x 20 mm
DQ11
DQ3
DQ10
DQ2
VCCQ
DQ9
DQ1
DQ8
DQ0
VCC
OE#
VSS
Top View
CE#
A1
Notes:
1.
2.
3.
A1 is the least significant address bit.
A23 is valid for 128-Mbit densities and above; otherwise, it is a no connect (NC).
A24 is valid for 256-Mbit densities and above; otherwise, it is a no connect (NC).
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
17
1-Gbit P30 Family
Figure 8.
64-Ball Easy BGA Ballout (64/128/256/512-Mbit)
5
8
8
5
1
2
3
4
6
7
7
6
4
3
2
1
A
B
C
D
A
A1
A6
A8
VPP A13 VCC A18 A22
A22 A18 VCC A13 VPP A8
RFU A19 A25 A14 CE# A9
A21 A20 WP# A15 A12 A10
A17 A16 VCCQ VCCQ RST# A11
A6
VSS
A7
A1
A2
A3
A4
B
C
A2 VSS
A9 CE# A14 A25 A19 RFU
A10 A12 A15 WP# A20 A21
A11 RST# VCCQ VCCQ A16 A17
A3
A4
A7
A5
D
E
A5
E
F
DQ8 DQ1 DQ9 DQ3 DQ4 CLK DQ15 RFU
RFU DQ0 DQ10 DQ11 DQ12 ADV# WAIT OE#
A23 RFU DQ2 VCCQ DQ5 DQ6 DQ14 WE#
RFU DQ15 CLK DQ4 DQ3 DQ9 DQ1 DQ8
OE# WAIT ADV# DQ12 DQ11 DQ10 DQ0 RFU
WE# DQ14 DQ6 DQ5 VCCQ DQ2 RFU A23
F
G
H
G
H
RFU VSS VCC VSS DQ13 VSS DQ7 A24
A24 DQ7 VSS DQ13 VSS VCC VSS RFU
Easy BGA
Easy BGA
Top View- Ball side down
Bottom View- Ball side up
Notes:
1.
2.
3.
4.
A1 is the least significant address bit.
A23 is valid for 128-Mbit densities and above; otherwise, it is a no connect (NC).
A24 is valid for 256-Mbit densities and above; otherwise, it is a no connect (NC).
A25 is valid for 512-Mbit densities; otherwise, it is a no connect (NC).
April 2005
18
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 9.
88-Ball (80-Active Ball) QUAD+ SCSP Ballout
Pin 1
1
DU
A4
A5
A3
A2
A1
A0
RFU
2
3
4
5
6
7
8
A
B
C
D
E
F
A
B
C
D
E
F
DU
Depop
A19
Depop
VSS
Depop
VCC
RFU
Depop
VCC
CLK
RFU
A20
DU
DU
A11
A18
RFU
A17
A7
A21
A22
A9
A23
VSS
A12
A24
VPP
RFU
A13
RFU
RFU
DQ2
DQ1
WP#
RST#
DQ10
DQ3
ADV#
WE#
DQ5
A10
A14
WAIT
DQ7
A15
A6
A8
A16
G
H
G
H
DQ8
DQ0
DQ13
DQ14
F2-CE#
F2-OE#
DQ12
J
K
L
J
K
L
RFU
F1-CE#
VSS
DU
F1-OE#
RFU
VSS
DU
DQ9
RFU
VCCQ
Depop
3
DQ11
RFU
VCC
Depop
4
DQ4
RFU
VSS
Depop
5
DQ6
VCC
VSS
Depop
6
DQ15
VCCQ
VSS
DU
VCCQ
RFU
VSS
DU
M
M
1
2
7
8
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
19
1-Gbit P30 Family
4.2
Signal Descriptions
This section has signal descriptions for the various P30 packages.
Table 3.
TSOP and Easy BGA Signal Descriptions (Sheet 1 of 2)
Symbol
Type
Name and Function
ADDRESS INPUTS: Device address inputs. 64-Mbit: A[22:1]; 128-Mbit: A[23:1]; 256-Mbit: A[24:1];
512-Mbit: A[25:1].
A[MAX:1]
DQ[15:0]
Input
See Table 5 on page 22 and Figure 10 on page 23 for 512-Mbit addressing.
DATA INPUT/OUTPUTS: Inputs data and commands during write cycles; outputs data during
memory, Status Register, Protection Register, and Read Configuration Register reads. Data balls
float when the CE# or OE# are deasserted. Data is internally latched during writes.
Input/
Output
ADDRESS VALID: Active low input. During synchronous read operations, addresses are latched on
the rising edge of ADV#, or on the next valid CLK edge with ADV# low, whichever occurs first.
ADV#
Input
In asynchronous mode, the address is latched when ADV# going high or continuously flows through
if ADV# is held low.
WARNING: Designs not using ADV# must tie it to VSS to allow addresses to flow through.
FLASH CHIP ENABLE: Active low input. CE# low selects the associated flash memory die. When
asserted, flash internal control logic, input buffers, decoders, and sense amplifiers are active. When
deasserted, the associated flash die is deselected, power is reduced to standby levels, data and
WAIT outputs are placed in high-Z state.
CE#
CLK
Input
Input
WARNING: All chip enables must be high when device is not in use.
CLOCK: Synchronizes the device with the system’s bus frequency in synchronous-read mode.
During synchronous read operations, addresses are latched on the rising edge of ADV#, or on the
next valid CLK edge with ADV# low, whichever occurs first.
WARNING: Designs not using CLK for synchronous read mode must tie it to VCCQ or VSS.
OUTPUT ENABLE: Active low input. OE# low enables the device’s output data buffers during read
cycles. OE# high places the data outputs and WAIT in High-Z.
OE#
Input
Input
RESET: Active low input. RST# resets internal automation and inhibits write operations. This
provides data protection during power transitions. RST# high enables normal operation. Exit from
reset places the device in asynchronous read array mode.
RST#
WAIT: Indicates data valid in synchronous array or non-array burst reads. Read Configuration
Register bit 10 (RCR[10], WT) determines its polarity when asserted. WAIT’s active output is V or
OL
V
when CE# and OE# are V . WAIT is high-Z if CE# or OE# is V .
OH
IL IH
WAIT
Output
•
•
In synchronous array or non-array read modes, WAIT indicates invalid data when asserted and
valid data when deasserted.
In asynchronous page mode, and all write modes, WAIT is deasserted.
WRITE ENABLE: Active low input. WE# controls writes to the device. Address and data are latched
on the rising edge of WE#.
WE#
WP#
Input
Input
WRITE PROTECT: Active low input. WP# low enables the lock-down mechanism. Blocks in lock-
down cannot be unlocked with the Unlock command. WP# high overrides the lock-down function
enabling blocks to be erased or programmed using software commands.
Erase and Program Power: A valid voltage on this pin allows erasing or programming. Memory
contents cannot be altered when V ≤ V
. Block erase and program at invalid V voltages
PP
PPLK
PP
should not be attempted.
Set V = V for in-system program and erase operations. To accommodate resistor or diode drops
PP
CC
Power/
Input
VPP
VCC
from the system supply, the V level of V can be as low as V
min. V must remain above V
IH
PP
PPL PP PPL
min to perform in-system flash modification. VPP may be 0 V during read operations.
V
can be applied to main blocks for 1000 cycles maximum and to parameter blocks for 2500
PPH
cycles. VPP can be connected to 9 V for a cumulative total not to exceed 80 hours. Extended use of
this pin at 9 V may reduce block cycling capability.
Device Core Power Supply: Core (logic) source voltage. Writes to the flash array are inhibited when
Power
V
≤ V
. Operations at invalid V voltages should not be attempted.
CC
LKO CC
April 2005
20
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Table 3.
TSOP and Easy BGA Signal Descriptions (Sheet 2 of 2)
Symbol
Type
Name and Function
VCCQ
VSS
Power Output Power Supply: Output-driver source voltage.
Power Ground: Connect to system ground. Do not float any VSS connection.
Reserved for Future Use: Reserved by Intel for future device functionality and enhancement. These
should be treated in the same way as a Do Not Use (DU) signal.
RFU
—
DU
NC
—
—
Do Not Use: Do not connect to any other signal, or power supply; must be left floating.
No Connect: No internal connection; can be driven or floated.
Table 4.
QUAD+ SCSP Signal Descriptions (Sheet 1 of 2)
Symbol
Type
Name and Function
ADDRESS INPUTS: Device address inputs. 64-Mbit: A[21:0]; 128-Mbit: A[22:0]; 256-Mbit: A[23:0];
512-Mbit: A[24:0].
A[MAX:0]
DQ[15:0]
Input
See Table 6 on page 22, Figure 11 on page 23, and Figure 12 on page 23 for 512-Mbit and 1-Gbit
addressing.
DATA INPUT/OUTPUTS: Inputs data and commands during write cycles; outputs data during
memory, Status Register, Protection Register, and Read Configuration Register reads. Data balls
float when the CE# or OE# are deasserted. Data is internally latched during writes.
Input/
Output
ADDRESS VALID: Active low input. During synchronous read operations, addresses are latched on
the rising edge of ADV#, or on the next valid CLK edge with ADV# low, whichever occurs first.
ADV#
Input
In asynchronous mode, the address is latched when ADV# going high or continuously flows through
if ADV# is held low.
WARNING: Designs not using ADV# must tie it to VSS to allow addresses to flow through.
FLASH CHIP ENABLE: Active low input. CE# low selects the associated flash memory die. When
asserted, flash internal control logic, input buffers, decoders, and sense amplifiers are active. When
deasserted, the associated flash die is deselected, power is reduced to standby levels, data and
WAIT outputs are placed in high-Z state.
F1-CE#
F2-CE#
Input
Input
See Table 6 on page 22 for CE# assignment definitions.
WARNING: All chip enables must be high when device is not in use.
CLOCK: Synchronizes the device with the system’s bus frequency in synchronous-read mode.
During synchronous read operations, addresses are latched on the rising edge of ADV#, or on the
next valid CLK edge with ADV# low, whichever occurs first.
CLK
WARNING: Designs not using CLK for synchronous read mode must tie it to VCCQ or VSS.
OUTPUT ENABLE: Active low input. OE# low enables the device’s output data buffers during read
cycles. OE# high places the data outputs and WAIT in High-Z.
F1-OE#
F2-OE#
Input
Input
F1-OE# and F2-OE# should be tied together for all densities.
RESET: Active low input. RST# resets internal automation and inhibits write operations. This
provides data protection during power transitions. RST# high enables normal operation. Exit from
reset places the device in asynchronous read array mode.
RST#
WAIT: Indicates data valid in synchronous array or non-array burst reads. Read Configuration
Register bit 10 (RCR[10], WT) determines its polarity when asserted. WAIT’s active output is V or
OL
V
when CE# and OE# are V . WAIT is high-Z if CE# or OE# is V .
OH
IL IH
WAIT
WE#
Output
Input
•
In synchronous array or non-array read modes, WAIT indicates invalid data when asserted and
valid data when deasserted.
•
In asynchronous page mode, and all write modes, WAIT is deasserted.
WRITE ENABLE: Active low input. WE# controls writes to the device. Address and data are latched
on the rising edge of WE#.
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
21
1-Gbit P30 Family
Table 4.
QUAD+ SCSP Signal Descriptions (Sheet 2 of 2)
Symbol
Type
Name and Function
WRITE PROTECT: Active low input. WP# low enables the lock-down mechanism. Blocks in lock-
down cannot be unlocked with the Unlock command. WP# high overrides the lock-down function
enabling blocks to be erased or programmed using software commands.
WP#
Input
Erase and Program Power: A valid voltage on this pin allows erasing or programming. Memory
contents cannot be altered when V ≤ V
. Block erase and program at invalid V voltages
PP
PPLK
PP
should not be attempted.
Set V = V for in-system program and erase operations. To accommodate resistor or diode drops
PP
CC
Power/
lnput
VPP
VCC
from the system supply, the V level of V can be as low as V
min. V must remain above V
IH
PP
PPL PP PPL
min to perform in-system flash modification. VPP may be 0 V during read operations.
V
can be applied to main blocks for 1000 cycles maximum and to parameter blocks for 2500
PPH
cycles. VPP can be connected to 9 V for a cumulative total not to exceed 80 hours. Extended use of
this pin at 9 V may reduce block cycling capability.
Device Core Power Supply: Core (logic) source voltage. Writes to the flash array are inhibited when
Power
V
≤ V
. Operations at invalid V voltages should not be attempted.
CC
LKO CC
VCCQ
VSS
Power Output Power Supply: Output-driver source voltage.
Power Ground: Connect to system ground. Do not float any VSS connection.
Reserved for Future Use: Reserved by Intel for future device functionality and enhancement. These
should be treated in the same way as a Do Not Use (DU) signal.
RFU
—
DU
NC
—
—
Do Not Use: Do not connect to any other signal, or power supply; must be left floating.
No Connect: No internal connection; can be driven or floated.
4.3
SCSP Configurations
Table 5.
Stacked Easy BGA Chip Select Logic
Selected Flash
Selected Flash
Die #2
Stack Combination
Die #1
1-die
2-die
F1-CE#
-
F1-CE# + A25 (V )
F1-CE# + A25 (V )
IH
IL
Table 6.
QUAD+ SCSP Chip Select Logic
Stack
Combination
Selected Flash
Die #1
Selected Flash
Die #2
Selected Flash
Die #3
Selected Flash
Die #4
1-die
2-die
4-die
F1-CE#
-
-
-
-
-
F1-CE# + A24 (V ) F1-CE# + A24 (V
)
)
IL
IH
F1-CE# + A24 (V ) F1-CE# + A24 (V
F2-CE# + A24 (V ) F2-CE# + A24 (V )
IL IH
IL
IH
April 2005
22
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 10.
512-Mbit Easy BGA Device Block Diagram
Easy BGA 2-Die (512-Mbit) Device Configuration
F1-CE#
Flash Die #1
(256-Mbit)
RST#
VCC
VPP
WP#
OE#
WE#
VCCQ
VSS
CLK
ADV#
Flash Die #2
(256-Mbit)
DQ[15:0]
WAIT
A[MAX:1]
Figure 11.
512-Mbit QUAD+ SCSP Device Block Diagram
QUAD+ 2-Die (512-Mbit) Device Configuration
F1-CE#
Flash Die #1
WP#
OE#
WE#
RST#
VCC
VPP
(256-Mbit)
CLK
ADV#
VCCQ
VSS
Flash Die #2
(256-Mbit)
A[MAX:0]
DQ[15:0]
WAIT
Figure 12.
1-Gbit QUAD+ SCSP Device Block Diagram
QUAD+ 4-Die (1-Gbit) Device Configuration
F1-CE#
F2-CE#
Flash Die #1
(256-Mbit)
Flash Die #3
(256-Mbit)
WP#
OE#
WE#
RST#
VCC
VPP
CLK
ADV#
VCCQ
VSS
Flash Die #2
(256-Mbit)
Flash Die #4
(256-Mbit)
A[MAX:0]
DQ[15:0]
WAIT
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
23
1-Gbit P30 Family
4.4
Memory Maps
Table 7 through Table 10 show the P30 memory maps. See Section 11.0, “Programming
Operations” on page 61 for Programming Region information.
Table 7.
Discrete Top Parameter Memory Maps (all packages)
Programming Size
Programming Size
Blk
256-Mbit
Blk
128-Mbit
Blk
64-Mbit
Region #
(KB)
Region #
(KB)
32
258 FFC000 - FFFFFF 130 7FC000 - 7FFFFF
32
66
3FC000 - 3FFFFF
32
255 FF0000 - FF3FFF
127
7F0000 - FF3FFF
32
63
62
3F0000 - 3F3FFF
3E0000 - 3EFFFF
15
7
128
254 FE0000 - FEFFFF 126 7E0000 - 7EFFFF
128
128
128
240
F00000 - F0FFFF
120
780000 - 78FFFF
770000 - 77FFFF
128
128
56
55
380000 - 38FFFF
370000 - 37FFFF
239 EF0000 - EFFFFF 119
14
13
12
11
10
9
6
5
4
3
2
1
0
128
128
224 E00000 - E0FFFF 112
223 DF0000 - DFFFFF 111
700000 - 70FFFF
6F0000 - 6FFFFF
128
128
48
47
300000 - 30FFFF
2F0000 - 2FFFFF
128
128
208 D00000 - D0FFFF 104
207 CF0000 - CFFFFF 103
680000 - 68FFFF
670000 - 67FFFF
128
128
40
39
280000 - 28FFFF
270000 - 27FFFF
128
128
192 C00000 - C0FFFF
191 BF0000 - BFFFFF
96
95
600000 - 60FFFF
5F0000 - 5FFFFF
128
128
32
31
200000 - 20FFFF
1F0000 - 1FFFFF
128
128
176 B00000 - B0FFFF
175 AF0000 - AFFFFF
88
87
580000 - 58FFFF
570000 - 57FFFF
128
128
24
23
180000 - 18FFFF
170000 - 17FFFF
128
128
160
159
A0000 - A0FFFF
9F0000 - 9FFFFF
80
79
500000 - 50FFFF
4F0000 - 4FFFFF
128
128
16
15
100000 - 10FFFF
0F0000 - 0FFFFF
128
128
144
143
900000 - 90FFFF
8F0000 - 8FFFFF
72
71
480000 - 48FFFF
470000 - 47FFFF
128
128
8
7
080000 - 08FFFF
070000 - 07FFFF
8
128
128
128
127
800000 - 80FFFF
7F0000 - 7FFFFF
64
63
400000 - 40FFFF
3F0000 - 3FFFFF
128
0
000000 - 00FFFF
7
128
112
700000 - 70FFFF
56
380000 - 38FFFF
April 2005
24
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Table 7.
Discrete Top Parameter Memory Maps (all packages)
Programming Size
Programming Size
Blk
256-Mbit
Blk
128-Mbit
Blk
64-Mbit
Region #
(KB)
Region #
(KB)
128
111
6F0000 - 6FFFFF
55
370000 - 37FFFF
6
128
128
96
95
600000 - 60FFFF
5F0000 - 5FFFFF
48
47
300000 - 30FFFF
2F0000 - 2FFFFF
5
4
3
2
1
0
128
128
80
79
500000 - 50FFFF
4F0000 - 4FFFFF
39
38
280000 - 28FFFF
270000 - 27FFFF
128
128
64
63
400000 - 40FFFF
3F0000 - 3FFFFF
32
31
200000 - 20FFFF
1F0000 - 1FFFFF
128
128
48
47
300000 - 30FFFF
2F0000 - 2FFFFF
24
23
180000 - 18FFFF
170000 - 17FFFF
128
128
32
31
200000 - 20FFFF
1F0000 - 1FFFFF
16
15
100000 - 10FFFF
0F0000 - 0FFFFF
128
128
16
15
100000 - 10FFFF
0F0000 - 0FFFFF
8
7
080000 - 08FFFF
070000 - 07FFFF
128
0
000000 - 00FFFF
0
000000 - 00FFFF
Table 8.
Discrete Bottom Parameter Memory Maps (all packages)
Programming Size
Programming Size
Blk
256-Mbit
Blk
128-Mbit
Blk
64-Mbit
Region
(KB)
Region
(KB)
128
258 FF0000 - FFFFFF
130
7F0000 - 7FFFFF
128
62
3F0000 - 3FFFFF
15
7
128
128
243
F00000 - F0FFFF
123
780000 - 78FFFF
770000 - 77FFFF
128
128
56
55
380000 - 38FFFF
370000 - 37FFFF
242 EF0000 - EFFFFF 122
14
13
6
5
128
128
227 E00000 - E0FFFF
115
700000 - 70FFFF
6F0000 - 6FFFFF
128
128
48
47
300000 - 30FFFF
2F0000 - 2FFFFF
226 DF0000 - DFFFFF 114
128
211 D00000 - D0FFFF 107
680000 - 68FFFF
128
40
280000 - 28FFFF
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
25
1-Gbit P30 Family
Table 8.
Discrete Bottom Parameter Memory Maps (all packages)
Programming Size
Programming Size
Blk
256-Mbit
Blk
128-Mbit
Blk
64-Mbit
Region
(KB)
Region
(KB)
128
210 CF0000 - CFFFFF 106
670000 - 67FFFF
128
39
270000 - 27FFFF
12
4
128
128
195 C00000 - C0FFFF
194 BF0000 - BFFFFF
99
98
600000 - 60FFFF
5F0000 - 5FFFFF
128
128
32
31
200000 - 20FFFF
1F0000 - 1FFFFF
11
10
9
3
2
1
128
128
179 B00000 - B0FFFF
178 AF0000 - AFFFFF
91
90
580000 - 58FFFF
570000 - 57FFFF
128
128
24
23
180000 - 18FFFF
170000 - 17FFFF
128
128
163
162
A0000 - A0FFFF
9F0000 - 9FFFFF
83
82
500000 - 50FFFF
4F0000 - 4FFFFF
128
128
16
15
100000 - 10FFFF
0F0000 - 0FFFFF
128
128
147
146
900000 - 90FFFF
8F0000 - 8FFFFF
75
74
480000 - 48FFFF
470000 - 47FFFF
128
128
8
080000 - 08FFFF
070000 - 07FFFF
10
8
128
128
131
130
800000 - 80FFFF
7F0000 - 7FFFFF
67
66
400000 - 40FFFF
3F0000 - 3FFFFF
128
32
4
3
010000 - 01FFFF
00C000 - 00FFFF
0
7
128
128
115
114
700000 - 70FFFF
6F0000 - 6FFFFF
59
58
380000 - 38FFFF
370000 - 37FFFF
32
0
000000 - 003FFF
6
128
128
99
98
600000 - 60FFFF
5F0000 - 5FFFFF
51
50
300000 - 30FFFF
2F0000 - 2FFFFF
5
4
3
2
1
128
128
83
82
500000 - 50FFFF
4F0000 - 4FFFFF
43
42
280000 - 28FFFF
270000 - 27FFFF
128
128
67
66
400000 - 40FFFF
3F0000 - 3FFFFF
35
34
200000 - 20FFFF
1F0000 - 1FFFFF
128
128
51
50
300000 - 30FFFF
2F0000 - 2FFFFF
27
26
180000 - 18FFFF
170000 - 17FFFF
128
128
35
34
200000 - 20FFFF
1F0000 - 1FFFFF
19
18
100000 - 10FFFF
0F0000 - 0FFFFF
128
19
100000 - 10FFFF
11
080000 - 08FFFF
April 2005
26
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Table 8.
Discrete Bottom Parameter Memory Maps (all packages)
Programming Size
Programming Size
Region (KB)
Blk
256-Mbit
Blk
128-Mbit
Blk
64-Mbit
Region
(KB)
128
18
0F0000 - 0FFFFF
10
070000 - 07FFFF
128
32
4
3
010000 - 01FFFF
00C000 - 00FFFF
4
3
010000 - 01FFFF
00C000 - 00FFFF
0
32
0
000000 - 03FFFF
0
000000 - 00FFFF
Table 9.
512-Mbit Memory Map (Easy BGA and QUAD+ SCSP)
512-Mbit Flash (2x256-Mbit w/ 1CE)
Flash Die #
Die Stack Config.
Size (KB)
Blk
Address Range
32
258
FFC000 - FFFFFF
32
255
254
FF0000 - FF3FFF
FE0000 - FEFFFF
Flash Die #2
(Top Parameter)
2
128
128
128
0
000000 - 00FFFF
FF0000 - FFFFFF
258
128
32
4
3
010000 - 01FFFF
00C000 - 00FFFF
Flash Die #1 (Bottom
Parameter)
1
32
0
000000 - 003FFF
Note: Refer to 256-Mbit Memory Map (Table 7 and Table 8) for Programming Region Information.
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
27
1-Gbit P30 Family
Table 10.
1-Gbit Memory Map (QUAD+ SCSP only)
1-Gbit Flash (4x256-Mbit w/ 2CE)
Flash Die #
Die Stack Config.
Size (KB)
Blk
Address Range
32
258
FFC000 - FFFFFF
32
255
254
FF0000 - FF3FFF
FE0000 - FEFFFF
Flash Die #4
(Top Parameter)
4
128
128
128
0
000000 - 00FFFF
FF0000 - FFFFFF
258
128
32
5
3
020000 - 02FFFF
00C000 - 00FFFF
Flash Die #3
(Bottom Parameter)
3
2
1
32
32
0
000000 - 003FFF
FFC000 - FFFFFF
258
32
255
254
FF0000 - FF3FFF
FE0000 - FEFFFF
Flash Die #2
(Top Parameter)
128
128
128
0
000000 - 00FFFF
FF0000 - FFFFFF
258
128
32
4
3
010000 - 01FFFF
00C000 - 00FFFF
Flash Die #1
(Bottom Parameter)
32
0
000000 - 003FFF
Note: Refer to 256-Mbit Memory Map (Table 7 and Table 8) for Programming Region Information.
April 2005
28
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
5.0
Maximum Ratings and Operating Conditions
5.1
Absolute Maximum Ratings
Warning:
Stressing the device beyond the “Absolute Maximum Ratings” may cause permanent damage.
These are stress ratings only.
Parameter
Maximum Rating
–40 °C to +85 °C
Notes
Temperature under bias
Storage temperature
1
–65 °C to +125 °C
–0.5 V to +4.1 V
–0.2 V to +10 V
–0.2 V to +2.5 V
–0.2 V to +4.1 V
100 mA
Voltage on any signal (except VCC, VPP)
VPP voltage
2
2,3,4
2
VCC voltage
VCCQ voltage
2
Output short circuit current
5
Notes:
1.
2.
Temperature for 1-Gbit SCSP is –30 °C to +85 °C.
Voltages shown are specified with respect to V . Minimum DC voltage is –0.5 V on input/output
SS
signals and –0.2 V on V , V
, and V . During transitions, this level may undershoot to –2.0 V for
CC
CCQ
PP
periods < 20 ns. Maximum DC voltage on V is V + 0.5 V, which, during transitions, may
CC
CC
overshoot to V + 2.0 V for periods < 20 ns. Maximum DC voltage on input/output signals and V
CC
CCQ
is V
+ 0.5 V, which, during transitions, may overshoot to V
+ 2.0 V for periods < 20 ns.
CCQ
CCQ
3.
4.
Maximum DC voltage on V may overshoot to +11.5 V for periods < 20 ns.
PP
Program/erase voltage is typically 1.7 V – 2.0 V. 9.0 V can be applied for 80 hours maximum total, to
any blocks for 1000 cycles maximum. 9.0 V program/erase voltage may reduce block cycling
capability.
5.
Output shorted for no more than one second. No more than one output shorted at a time.
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
29
1-Gbit P30 Family
5.2
Operating Conditions
Note:
Operation beyond the “Operating Conditions” is not recommended and extended exposure beyond
the “Operating Conditions” may affect device reliability.
Table 11. Operating Conditions
Symbol
Parameter
Min
Max
Units
Notes
T
Operating Temperature
VCC Supply Voltage
–40
+85
2.0
3.6
3.6
3.6
9.5
80
°C
1,2
C
V
1.7
CC
CMOS inputs
TTL inputs
1.7
V
I/O Supply Voltage
CCQ
2.4
V
V
V
Voltage Supply (Logic Level)
PP
0.9
PPL
PPH
PPH
V
Factory word programming V
Maximum VPP Hours
Main and Parameter Blocks
Main Blocks
8.5
PP
t
V
V
V
V
= V
= V
= V
= V
-
Hours
PP
PP
PP
PP
PPH
3
100,000
-
CC
Block
Erase
Cycles
-
-
1000
2500
Cycles
PPH
PPH
Parameter Blocks
NOTES:
1.
2.
3.
T = Case Temperature
Temperature for 1-Gbit SCSP is –30 °C to +85 °C.
In typical operation, the VPP program voltage is V
hours.
C
. VPP can be connected to 8.5 V – 9.5 V for 80
PPL
April 2005
30
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
6.0
Electrical Specifications
6.1
DC Current Characteristics
Table 12. DC Current Characteristics (Sheet 1 of 2)
CMOS
TTL Inputs
Inputs
(V
=
CCQ
(V
=
CCQ
2.4 V - 3.6 V)
Sym
Parameter
Unit
Test Conditions
Notes
1.7 V - 3.6 V)
Typ
Max
Typ
Max
V
V
V
= V Max
CC
CC
I
Input Load Current
-
±1
-
±2
µA
µA
= V
Max
LI
CCQ
CCQ
= V
or V
SS
IN
CCQ
1
Output
V
V
V
= V Max
CC CC
I
Leakage DQ[15:0], WAIT
Current
-
±1
-
±10
= V
Max
LO
CCQ
CCQ
= V
or V
SS
IN
CCQ
64-Mbit
20
30
35
75
20
30
35
75
V
V
= V Max
CC
CC
128-Mbit
256-Mbit
512-Mbit
1-Gbit
= V
Max
CCQ
CCQ
I
,
V
Standby,
CE# = V
RST# = V
RST# = V (for I
WP# = V
CCS
CC
CCQ
55
115
230
460
55
200
400
800
µA
1,2
(for I
)
I
Power Down
CCQ
CCS
CCD
)
110
220
110
220
SS
CCD
IH
Asynchronous Single-
Word f = 5 MHz (1 CLK)
1-Word
Read
14
9
16
10
14
9
16
10
mA
mA
Page-Mode Read
Average f = 13 MHz (5 CLK)
4-Word
Read
V
= V Max
CC
CC
CE# = V
V
Read
Current
IL
CC
I
1
13
15
17
19
n/a
n/a
n/a
n/a
36
n/a
n/a
n/a
n/a
51
mA BL = 4W
mA BL = 8W
CCR
OE# = V
IH
Inputs: V or V
Synchronous Burst
f = 40 MHz
IL
IH
17
21
mA BL = 16W
mA BL = Cont.
21
26
36
51
V
V
= V
, pgm/ers in progress 1,3,4,7
, pgm/ers in progress 1,3,5,7
I
V
V
Program Current,
Erase Current
PP
PP
PPL
PPH
CCW,
CC
mA
µA
I
26
33
26
33
= V
CCE
CC
64-Mbit
128-Mbit
256-Mbit
512-Mbit
1-Gbit
20
35
20
35
V
Program
30
75
30
75
CC
I
Suspend Current,
V Erase
CC
Suspend Current
CE# = V
progress
; suspend in
CCWS,
CCQ
55
115
230
460
55
200
400
800
1,3,6
I
CCES
110
220
110
220
I
V
V
V
Standby Current,
PPS,
PP
PP
PP
I
Program Suspend Current,
Erase Suspend Current
0.2
2
5
0.2
2
5
µA
µA
V
V
= V
, suspend in progress
1,3
1,3
PPWS,
PP
PP
PPL
I
PPES
I
V
Read
15
15
≤ V
PPR
PP
CC
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
31
1-Gbit P30 Family
Table 12. DC Current Characteristics (Sheet 2 of 2)
CMOS
TTL Inputs
Inputs
(V
=
CCQ
(V
=
CCQ
2.4 V - 3.6 V)
Sym
Parameter
Unit
Test Conditions
Notes
1.7 V - 3.6 V)
Typ
Max
Typ
Max
0.05
8
0.10
22
0.05
8
0.10
22
V
V
V
V
= V
= V
= V
= V
program in progress
PP
PP
PP
PP
PPL,
PPH,
PPL,
PPH,
I
V
V
Program Current
Erase Current
mA
mA
PPW
PP
program in progress
erase in progress
erase in progress
0.05
8
0.10
22
0.05
8
0.10
22
I
PPE
PP
Notes:
1.
2.
3.
4.
5.
6.
7.
All currents are RMS unless noted. Typical values at typical V , T = +25 °C.
CC C
I
is the average current measured over any 5 ms time interval 5 µs after CE# is deasserted.
CCS
Sampled, not 100% tested.
V
V
read + program current is the sum of V read and V program currents.
CC
CC
CC CC
read + erase current is the sum of V read and V erase currents.
CC
CC
I
I
is specified with the device deselected. If device is read while in erase suspend, current is I
plus I
.
CCR
CCES
CCES
, I
measured over typical or max times specified in Section 7.5, “Program and Erase Characteristics” on
CCW CCE
page 45.
6.2
DC Voltage Characteristics
Table 13. DC Voltage Characteristics
CMOS Inputs
TTL Inputs (1)
(V
= 1.7 V - 3.6 V)
(V
= 2.4 V - 3.6 V)
CCQ
Min
0
CCQ
Sym
Parameter
Unit
Test Condition
Notes
Max
Min
Max
V
Input Low Voltage
Input High Voltage
0.4
0
0.6
V
V
IL
2
V
V
– 0.4
– 0.1
V
2.0
V
CCQ
IH
CCQ
CCQ
V
V
I
= V Min
CC
CC
V
Output Low Voltage
Output High Voltage
-
0.1
-
-
0.1
-
V
V
= V
Min
OL
CCQ
CCQ
= 100 µA
OL
V
V
= V Min
CC
CC
V
V
V
– 0.1
= V
Min
OH
CCQ
CCQ
CCQ
CCQ
I
= –100 µA
OH
V
V
V
V
Lock-Out Voltage
Lock Voltage
-
0.4
-
0.4
V
V
V
3
PPLK
PP
V
1.0
0.9
-
-
1.0
0.9
-
-
LKO
CC
V
Lock Voltage
LKOQ
CCQ
NOTES:
1.
2.
3.
Synchronous read mode is not supported with TTL inputs.
V
V
can undershoot to –0.4 V and V can overshoot to V
+ 0.4 V for durations of 20 ns or less.
IL
IH
CCQ
≤ V
inhibits erase and program operations. Do not use V
and V
outside their valid ranges.
PPH
PP
PPLK
PPL
April 2005
32
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
7.0
AC Characteristics
7.1
AC Test Conditions
Figure 13.
AC Input/Output Reference Waveform
VCCQ
Input VCCQ/2
Test Points
VCCQ/2 Output
Note: AC test inputs are driven at V
for Logic "1" and 0.0 V for Logic "0." Input/output timing begins/ends
CCQ
at V
/2. Input rise and fall times (10% to 90%) < 5 ns. Worst case speed occurs at V = V Min.
CCQ
CC CC
Figure 14.
Transient Equivalent Testing Load Circuit
Device
Under Test
Out
CL
NOTES:
1.
2.
3.
See the following table for component values.
Test configuration component value for worst case speed conditions.
C includes jig capacitance
L
.
Table 14.
Test configuration component value for worst case speed conditions
Test Configuration
Min Standard Test
C (pF)
L
V
30
CCQ
Figure 15.
Clock Input AC Waveform
R201
VIH
CLK [C]
VIL
R202
R203
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
33
1-Gbit P30 Family
7.2
Capacitance
Table 15.
Capacitance
Symbol
Parameter
Signals
Min
Typ
Max
Unit
Condition
Note
Address, Data,
CE#, WE#, OE#,
RST#, CLK,
Typ temp = 25 °C,
Max temp = 85 °C,
C
Input Capacitance
Output Capacitance
2
2
6
4
7
5
pF
pF
IN
1,2,3
V
= V
= (0 V - 1.95 V),
CC
CCQ
ADV#, WP#
Discrete silicon die
C
Data, WAIT
OUT
NOTES:
1.
Capacitance values are for a single die; for 2-die and 4-die stacks multiple the above values by the number of die in the
stack.
2.
3.
Sampled, not 100% tested.
Silicon die capacitance only, add 1 pF for discrete packages.
April 2005
34
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
7.3
AC Read Specifications
Table 16.
AC Read Specifications for 64/128-Mbit Densities (Sheet 1 of 2)
Num
Symbol
Parameter
Min
Max
Unit
Notes
Asynchronous Specifications
R1
R2
tAVAV
tAVQV
tELQV
Read cycle time
85
-
-
85
85
25
150
-
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Address to output valid
CE# low to output valid
OE# low to output valid
RST# high to output valid
CE# low to output in low-Z
OE# low to output in low-Z
CE# high to output in high-Z
OE# high to output in high-Z
R3
-
R4
-
1,2
1
tGLQV
tPHQV
tELQX
tGLQX
tEHQZ
tGHQZ
tOH
R5
-
R6
0
0
-
1,3
1,2,3
R7
-
R8
24
24
-
R9
-
1,3
R10
R11
R12
R13
R15
R16
R17
Output hold from first occurring address, CE#, or OE# change
CE# pulse width high
0
20
-
tEHEL
tELTV
tEHTZ
tGLTV
tGLTX
tGHTZ
-
1
CE# low to WAIT valid
17
20
17
-
CE# high to WAIT high-Z
-
1,3
1
OE# low to WAIT valid
-
OE# low to WAIT in low-Z
0
-
1,3
OE# high to WAIT in high-Z
20
Latching Specifications
R101
R102
R103
R104
R105
R106
R108
R111
tAVVH
tELVH
tVLQV
tVLVH
tVHVL
tVHAX
tAPA
Address setup to ADV# high
CE# low to ADV# high
ADV# low to output valid
ADV# pulse width low
10
10
-
-
-
ns
ns
ns
ns
ns
ns
ns
ns
85
-
1
10
10
9
ADV# pulse width high
Address hold from ADV# high
Page address access
-
-
1,4
1
-
25
-
tphvh
RST# high to ADV# high
30
Clock Specifications
R200
R201
R202
R203
fCLK
tCLK
CLK frequency
CLK period
-
25
5
40
-
MHz
ns
1,3,6
tCH/CL
CLK high/low time
CLK fall/rise time
-
ns
tFCLK/RCLK
-
3
ns
Synchronous Specifications
R301
R302
R303
R304
tAVCH/L
tVLCH/L
Address setup to CLK
ADV# low setup to CLK
CE# low setup to CLK
CLK to output valid
9
9
9
-
-
-
ns
ns
ns
ns
1
tELCH/L
-
t
CHQV / tCLQV
20
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
35
1-Gbit P30 Family
Table 16.
AC Read Specifications for 64/128-Mbit Densities (Sheet 2 of 2)
Num
Symbol
Parameter
Min
Max
Unit
Notes
R305
R306
tCHQX
tCHAX
tCHTV
tCHVL
tCHTX
Output hold from CLK
Address hold from CLK
CLK to WAIT valid
3
10
-
-
-
ns
ns
ns
ns
ns
1,5
1,4,5
1,5
1
R307
20
-
R311
CLK Valid to ADV# Setup
WAIT Hold from CLK
3
R312
3
-
1,5
NOTES:
1.
See Figure 13, “AC Input/Output Reference Waveform” on page 33 for timing measurements and max allowable input
slew rate.
2.
3.
4.
5.
6.
OE# may be delayed by up to t
Sampled, not 100% tested.
Address hold in synchronous burst mode is t
Applies only to subsequent synchronous reads.
See your local Intel representative for designs requiring higher than 40 MHz synchronous operation.
– t
after CE#’s falling edge without impact to t
.
ELQV
GLQV
ELQV
or t
, whichever timing specification is satisfied first.
CHAX
VHAX
Table 17.
AC Read Specifications for 256/512-Mbit and 1-Gbit Densities (Sheet 1 of 2)
Num
Symbol
Parameter
Speed
Min
Max
Unit
Notes
Asynchronous Specifications
Vcc = 1.8 V – 2.0 V
Vcc = 1.7 V – 2.0 V
Vcc = 1.8 V – 2.0 V
Vcc = 1.7 V – 2.0 V
Vcc = 1.8 V – 2.0 V
Vcc = 1.7 V – 2.0 V
85
88
-
-
-
R1
R2
R3
tAVAV
tAVQV
tELQV
Read cycle time
ns
ns
ns
85
88
85
88
25
150
-
Address to output valid
CE# low to output valid
-
-
-
R4
R5
OE# low to output valid
-
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
1,2
1
tGLQV
tPHQV
tELQX
tGLQX
tEHQZ
tGHQZ
tOH
RST# high to output valid
CE# low to output in low-Z
OE# low to output in low-Z
CE# high to output in high-Z
OE# high to output in high-Z
-
R6
0
0
-
1,3
1,2,3
R7
-
R8
24
24
-
R9
-
1,3
R10
R11
R12
R13
R15
R16
R17
Output hold from first occurring address, CE#, or OE# change
CE# pulse width high
0
20
-
tEHEL
tELTV
tEHTZ
tGLTV
tGLTX
tGHTZ
-
1
CE# low to WAIT valid
17
20
17
-
CE# high to WAIT high-Z
-
1,3
1
OE# low to WAIT valid
-
OE# low to WAIT in low-Z
0
-
1,3
OE# high to WAIT in high-Z
20
Latching Specifications
April 2005
36
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Table 17.
AC Read Specifications for 256/512-Mbit and 1-Gbit Densities (Sheet 2 of 2)
Num
Symbol
Parameter
Speed
Min
Max
Unit
Notes
R101
R102
tAVVH
tELVH
Address setup to ADV# high
CE# low to ADV# high
10
10
-
-
-
ns
ns
Vcc = 1.8 V – 2.0 V
Vcc = 1.7 V – 2.0 V
85
88
-
R103
tVLQV
ADV# low to output valid
ns
1
-
R104
R105
R106
R108
R111
tVLVH
tVHVL
tVHAX
tAPA
ADV# pulse width low
10
10
9
ns
ns
ns
ns
ns
ADV# pulse width high
Address hold from ADV# high
Page address access
-
-
1,4
1
-
25
-
tphvh
RST# high to ADV# high
30
Clock Specifications
R200
R201
R202
R203
fCLK
tCLK
CLK frequency
CLK period
-
25
5
40
-
MHz
ns
1,3,6
tCH/CL
CLK high/low time
CLK fall/rise time
-
ns
tFCLK/RCLK
-
3
ns
Synchronous Specifications
R301
R302
R303
R304
R305
R306
R307
R311
R312
tAVCH/L
tVLCH/L
tELCH/L
CHQV / tCLQV
tCHQX
Address setup to CLK
ADV# low setup to CLK
CE# low setup to CLK
CLK to output valid
9
9
9
-
-
-
ns
ns
ns
ns
ns
ns
ns
ns
ns
1
-
t
20
-
Output hold from CLK
Address hold from CLK
CLK to WAIT valid
3
10
-
1,5
1,4,5
1,5
1
tCHAX
-
tCHTV
20
-
tCHVL
CLK Valid to ADV# Setup
WAIT Hold from CLK
3
3
tCHTX
-
1,5
NOTES:
1.
See Figure 13, “AC Input/Output Reference Waveform” on page 33 for timing measurements and max allowable input
slew rate.
2.
3.
4.
5.
6.
OE# may be delayed by up to t
Sampled, not 100% tested.
Address hold in synchronous burst mode is t
Applies only to subsequent synchronous reads.
See your local Intel representative for designs requiring higher than 40 MHz synchronous operation.
– t
after CE#’s falling edge without impact to t
.
ELQV
GLQV
ELQV
or t
, whichever timing specification is satisfied first.
VHAX
CHAX
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
37
1-Gbit P30 Family
Figure 16.
Asynchronous Single-Word Read (ADV# Low)
R1
R2
R3
Address [A]
ADV#
R8
CE# [E}
OE# [G]
WAIT [T]
R4
R9
R15
R17
R7
R6
Data [D/Q]
RST# [P]
R5
Note: WAIT shown deasserted during asynchronous read mode (RCR[10]=0, Wait asserted low).
Figure 17.
Asynchronous Single-Word Read (ADV# Latch)
R1
R2
Address [A]
A[1:0][A]
R101
R105
R106
ADV#
CE# [E}
OE# [G]
WAIT [T]
R3
R8
R4
R9
R15
R17
R7
R6
R10
Data [D/Q]
Note: WAIT shown deasserted during asynchronous read mode (RCR[10]=0, Wait asserted low).
April 2005
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Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 18.
Asynchronous Page-Mode Read Timing
R1
R2
A[Max:2] [A]
A[1:0]
R101
R105
R106
ADV#
CE# [E]
R3
R8
R4
R10
OE# [G]
R15
R17
WAIT [T]
DATA [D/Q]
R7
R9
R108
Note: WAIT shown deasserted during asynchronous read mode (RCR[10]=0, Wait asserted low).
Figure 19.
Synchronous Single-Word Array or Non-array Read Timing
R301
R306
CLK [C]
R2
Address [A]
ADV# [V]
R101
R104
R106
R105
R303
R102
R3
R8
CE# [E]
OE# [G]
WAIT [T]
R7
R9
R15
R307
R304
R17
R312
R4
R305
Data [D/Q]
1.
2.
WAIT is driven per OE# assertion during synchronous array or non-array read, and can be configured to
assert either during or one data cycle before valid data.
This diagram illustrates the case in which an n-word burst is initiated to the flash memory array and it is
terminated by CE# deassertion after the first word in the burst.
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
39
1-Gbit P30 Family
Figure 20.
Continuous Burst Read, showing an Output Delay Timing
R301
R302
R306
R304
R304
R304
CLK [C]
Address [A]
ADV# [V]
R2
R101
R105
R106
R303
R102
R3
CE# [E]
OE# [G]
R15
R307
R304
R312
WAIT [T]
R4
R7
R305
R305
R305
R305
Data [D/Q]
Notes:
1.
WAIT is driven per OE# assertion during synchronous array or non-array read, and can be configured to
assert either during or one data cycle before valid data.
2.
At the end of Word Line; the delay incurred when a burst access crosses a 16-word boundary and the
starting address is not 4-word boundary aligned.
April 2005
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Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 21.
Synchronous Burst-Mode Four-Word Read Timing
R302
R301
R306
CLK [C]
Address [A]
ADV# [V]
R2
R101
A
R105
R102
R106
R303
R3
R8
R9
CE# [E]
OE# [G]
WAIT [T]
R15
R17
R307
R4
R304
R305
Q0
R7
R304
R10
Q3
Data [D/Q]
Q1
Q2
Note: WAIT is driven per OE# assertion during synchronous array or non-array read. WAIT asserted during
initial latency and deasserted during valid data (RCR[10] = 0, Wait asserted low).
7.4
AC Write Specifications
Table 18.
AC Write Specifications (Sheet 1 of 2)
Num
Symbol
tPHWL
Parameter
Min
Max
Units
Notes
W1
W2
W3
W4
W5
W6
W7
W8
W9
RST# high recovery to WE# low
CE# setup to WE# low
150
0
-
-
-
-
-
-
-
-
-
-
-
-
-
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
1,2,3
1,2,3
1,2,4
tELWL
tWLWH
tDVWH
tAVWH
tWHEH
tWHDX
tWHAX
tWHWL
WE# write pulse width low
Data setup to WE# high
Address setup to WE# high
CE# hold from WE# high
Data hold from WE# high
Address hold from WE# high
WE# pulse width high
50
50
50
0
1,2
0
0
20
200
0
1,2,5
W10 tVPWH
W11 tQVVL
W12 tQVBL
W13 tBHWH
V
V
setup to WE# high
PP
PP
1,2,3,7
hold from Status read
WP# hold from Status read
WP# setup to WE# high
0
1,2,3,7
200
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
41
1-Gbit P30 Family
Table 18.
AC Write Specifications (Sheet 2 of 2)
Num
Symbol
Parameter
WE# high to OE# low
WE# high to read valid
Min
Max
Units
Notes
W14 tWHGL
W16 tWHQV
0
-
ns
1,2,9
1,2,3,6,1
0
t
+ 35
-
ns
AVQV
Write to Asynchronous Read Specifications
W18 tWHAV WE# high to Address valid
Write to Synchronous Read Specifications
0
-
ns
1,2,3,6,8
W19 tWHCH/L
W20 tWHVH
WE# high to Clock valid
WE# high to ADV# high
19
19
-
-
ns
ns
1,2,3,6,1
0
Write Specifications with Clock Active
W21 tVHWL
W22 tCHWL
Notes:
ADV# high to WE# low
Clock high to WE# low
-
-
20
20
ns
ns
1,2,3,11
1.
2.
3.
4.
Write timing characteristics during erase suspend are the same as write-only operations.
A write operation can be terminated with either CE# or WE#.
Sampled, not 100% tested.
Write pulse width low (t
or t
) is defined from CE# or WE# low (whichever occurs last) to
WLWH
ELEH
CE# or WE# high (whichever occurs first). Hence, t
= t
= t
= t
.
ELWH
WLWH
ELEH
WLEH
5.
Write pulse width high (t
or t
) is defined from CE# or WE# high (whichever occurs first) to
WHWL
EHEL
CE# or WE# low (whichever occurs last). Hence, t
= t
= t
= t
).
EHWL
WHWL
EHEL
WHEL
6.
7.
8.
tWHVH or tWHCH/L must be met when transitioning from a write cycle to a synchronous burst read.
V
and WP# should be at a valid level until erase or program success is determined.
PP
This specification is only applicable when transitioning from a write cycle to an asynchronous read.
See spec W19 and W20 for synchronous read.
9.
When doing a Read Status operation following any command that alters the Status Register, W14 is
20 ns.
10.
11.
Add 10 ns if the write operations results in a RCR or block lock status change, for the subsequent
read operation to reflect this change.
These specs are required only when the device is in a synchronous mode and clock is active during
address setup phase.
Figure 22.
Write-to-Write Timing
W5
W8
W5
W8
Address [A]
CE# [E}
W2
W6
W2
W6
W3
W9
W3
WE# [W]
OE# [G]
W4
W7
W4
W7
Data [D/Q]
RST# [P]
W1
April 2005
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Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 23.
Asynchronous Read-to-Write Timing
R1
R2
W5
W8
Address [A]
CE# [E}
R3
R8
R9
R4
OE# [G]
WE# [W]
WAIT [T]
W2
W3
W6
R15
R17
R10
R7
R6
W7
W4
Data [D/Q]
RST# [P]
Q
D
R5
Note: WAIT deasserted during asynchronous read and during write. WAIT High-Z during write per OE#
deasserted.
Figure 24.
Write-to-Asynchronous Read Timing
W5
W8
R1
Address [A]
ADV# [V]
W2
W6
R10
CE# [E}
WE# [W]
OE# [G]
WAIT [T]
W3
W18
W14
R15
R17
R4
R2
R3
R8
W4
W7
R9
Data [D/Q]
RST# [P]
D
Q
W1
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
43
1-Gbit P30 Family
Figure 25.
Synchronous Read-to-Write Timing
Latency Count
R301
R302
R306
CLK [C]
Address [A]
ADV# [V]
R2
W5
R101
W18
R105
R102
R106
R104
R303
R11
R13
R3
W6
CE# [E]
OE# [G]
R4
R8
W21
W22
W21
W22
W2
W8
W15
W3
W9
WE#
R16
R307
R304
R312
WAIT [T]
R7
R305
W7
Q
D
D
Data [D/Q]
Note: WAIT shown deasserted and High-Z per OE# deassertion during write operation (RCR[10]=0, Wait asserted low). Clock is
ignored during write operation.
Figure 26.
Write-to-Synchronous Read Timing
R302
R301
R2
CLK
W5
W8
R306
R106
Address [A]
R104
R303
ADV#
W6
W2
R11
CE# [E}
W18
W19
W20
W3
WE# [W]
OE# [G]
WAIT [T]
R4
R15
R3
R307
W7
R304
R305
R304
W4
D
Q
Q
Data [D/Q]
RST# [P]
W1
Note: WAIT shown deasserted and High-Z per OE# deassertion during write operation (RCR[10]=0, Wait asserted low).
April 2005
44
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
7.5
Program and Erase Characteristics
V
V
PPH
PPL
Num
Symbol
Parameter
Units Notes
Min Typ Max Min Typ Max
Conventional Word Programming
Single word
-
-
90
30
200
60
-
-
85
30
190
60
Program
Time
W200
t
µs
µs
1
1
PROG/W
Single cell
Buffered Programming
W200
W251
t
t
Single word
-
-
90
200
-
-
85
190
Program
Time
PROG/W
32-word buffer
440 880
340 680
BUFF
Buffered Enhanced Factory Programming
W451
t
t
Single word
n/a
n/a
n/a
n/a
n/a
n/a
-
10
-
-
-
1,2
1
BEFP/W
Program
µs
BEFP/
W452
BEFP Setup
5
Setup
Erasing and Suspending
W500
W501
W600
W601
t
t
t
t
32-KByte Parameter
128-KByte Main
Program suspend
Erase suspend
-
-
-
-
0.4
1.2
20
2.5
4.0
25
-
-
-
-
0.4
1.0
20
2.5
4.0
25
ERS/PB
ERS/MB
SUSP/P
SUSP/E
Erase Time
s
1
Suspend
Latency
µs
20
25
20
25
Notes:
1.
Typical values measured at T = +25 °C and nominal voltages. Performance numbers are valid for all
C
speed versions. Excludes system overhead. Sampled, but not 100% tested.
Averaged over entire device.
2.
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
45
1-Gbit P30 Family
8.0
Power and Reset Specifications
8.1
Power Up and Down
Power supply sequencing is not required if VCC, VCCQ, and VPP are connected together; If
VCCQ and/or VPP are not connected to the VCC supply, then VCC should attain VCCMIN before
applying VCCQ and VPP. Device inputs should not be driven before supply voltage equals VCCMIN
.
Power supply transitions should only occur when RST# is low. This protects the device from
accidental programming or erasure during power transitions.
8.2
Reset Specifications
Asserting RST# during a system reset is important with automated program/erase devices because
systems typically expect to read from flash memory when coming out of reset. If a CPU reset
occurs without a flash memory reset, proper CPU initialization may not occur. This is because the
flash memory may be providing status information, instead of array data as expected. Connect
RST# to the same active low reset signal used for CPU initialization.
Also, because the device is disabled when RST# is asserted, it ignores its control inputs during
power-up/down. Invalid bus conditions are masked, providing a level of memory protection.
Num Symbol
Parameter
RST# pulse width low
Min
Max
Unit
Notes
P1
P2
P3
t
t
t
100
-
ns
1,2,3,4
1,3,4,7
1,3,4,7
1,4,5,6
PLPH
RST# low to device reset during erase
RST# low to device reset during program
-
-
25
25
-
PLRH
µs
V
Power valid to RST# de-assertion (high)
60
VCCPH
CC
Notes:
1.
2.
3.
4.
5.
6.
These specifications are valid for all device versions (packages and speeds).
The device may reset if t is < t MIN, but this is not guaranteed.
Not applicable if RST# is tied to Vcc.
Sampled, but not 100% tested.
PLPH
PLPH
If RST# is tied to the V supply, device will not be ready until t
after V ≥ V
.
CC
VCCPH
CC
CCMIN
If RST# is tied to any supply/signal with V
voltage levels, the RST# input voltage must not exceed
CCQ
V
until V ≥ V
.
CC
CC
CCMIN
7.
Reset completes within t
if RST# is asserted while no erase or program operation is executing.
PLPH
April 2005
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Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 27.
Reset Operation Waveforms
P1
P2
P2
P3
R5
VIH
VIL
(
A) Reset during
read mode
RST# [P]
RST# [P]
RST# [P]
VCC
Abort
Complete
R5
(B) Reset during
VIH
VIL
program or block erase
P1
≤ P2
Abort
Complete
R5
(C) Reset during
VIH
VIL
program or block erase
P1
≥ P2
VCC
0V
(D) VCC Power-up to
RST# high
8.3
Power Supply Decoupling
Flash memory devices require careful power supply de-coupling. Three basic power supply current
considerations are: 1) standby current levels; 2) active current levels; and 3) transient peaks
produced when CE# and OE# are asserted and deasserted.
When the device is accessed, many internal conditions change. Circuits within the device enable
charge-pumps, and internal logic states change at high speed. All of these internal activities
produce transient signals. Transient current magnitudes depend on the device outputs’ capacitive
and inductive loading. Two-line control and correct de-coupling capacitor selection suppress
transient voltage peaks.
Because Intel® Multi-Level Cell (MLC) flash memory devices draw their power from VCC, VPP,
and VCCQ, each power connection should have a 0.1 µF ceramic capacitor to ground. High-
frequency, inherently low-inductance capacitors should be placed as close as possible to package
leads.
Additionally, for every eight devices used in the system, a 4.7 µF electrolytic capacitor should be
placed between power and ground close to the devices. The bulk capacitor is meant to overcome
voltage droop caused by PCB trace inductance.
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
47
1-Gbit P30 Family
9.0
Device Operations
This section provides an overview of device operations. The system CPU provides control of all in-
system read, write, and erase operations of the device via the system bus. The on-chip Write State
Machine (WSM) manages all block-erase and word-program algorithms.
Device commands are written to the Command User Interface (CUI) to control all flash memory
device operations. The CUI does not occupy an addressable memory location; it is the mechanism
through which the flash device is controlled.
9.1
Bus Operations
CE# low and RST# high enable device read operations. The device internally decodes upper
address inputs to determine the accessed block. ADV# low opens the internal address latches. OE#
low activates the outputs and gates selected data onto the I/O bus.
In asynchronous mode, the address is latched when ADV# goes high or continuously flows through
if ADV# is held low. In synchronous mode, the address is latched by the first of either the rising
ADV# edge or the next valid CLK edge with ADV# low (WE# and RST# must be VIH; CE# must
be VIL).
Bus cycles to/from the P30 device conform to standard microprocessor bus operations. Table 19
summarizes the bus operations and the logic levels that must be applied to the device control signal
inputs.
Table 19.
Bus Operations Summary
Bus Operation
RST#
CLK
ADV#
CE#
OE#
WE#
WAIT
DQ[15:0] Notes
Asynchronous
Synchronous
V
V
V
V
V
X
L
L
L
L
L
L
H
H
L
Deasserted
Driven
Output
Output
IH
IH
IH
IH
IH
Read
Write
Running
X
X
X
X
L
L
H
H
X
X
High-Z
Input
1
2
Output Disable
Standby
X
X
X
L
H
X
X
High-Z
High-Z
High-Z
High-Z
H
X
High-Z
2
Reset
V
High-Z
2,3
IL
Notes:
1.
2.
3.
Refer to the Table 20, “Command Bus Cycles” on page 50 for valid DQ[15:0] during a write operation.
X = Don’t Care (H or L).
RST# must be at V ± 0.2 V to meet the maximum specified power-down current.
SS
9.1.1
Reads
To perform a read operation, RST# and WE# must be deasserted while CE# and OE# are asserted.
CE# is the device-select control. When asserted, it enables the flash memory device. OE# is the
data-output control. When asserted, the addressed flash memory data is driven onto the I/O bus.
See Section 10.0, “Read Operations” on page 53 for details on the available read modes, and see
Section 14.0, “Special Read States” on page 75 for details regarding the available read states.
April 2005
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Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
9.1.2
Writes
To perform a write operation, both CE# and WE# are asserted while RST# and OE# are deasserted.
During a write operation, address and data are latched on the rising edge of WE# or CE#,
whichever occurs first. Table 20, “Command Bus Cycles” on page 50 shows the bus cycle
sequence for each of the supported device commands, while Table 21, “Command Codes and
Definitions” on page 51 describes each command. See Section 7.0, “AC Characteristics” on
page 33 for signal-timing details.
Note:
Write operations with invalid VCC and/or VPP voltages can produce spurious results and should not
be attempted.
9.1.3
Output Disable
When OE# is deasserted, device outputs DQ[15:0] are disabled and placed in a high-impedance
(High-Z) state, WAIT is also placed in High-Z.
9.1.4
Standby
When CE# is deasserted the device is deselected and placed in standby, substantially reducing
power consumption. In standby, the data outputs are placed in High-Z, independent of the level
placed on OE#. Standby current, ICCS, is the average current measured over any 5 ms time interval,
5 µs after CE# is deasserted. During standby, average current is measured over the same time
interval 5 µs after CE# is deasserted.
When the device is deselected (while CE# is deasserted) during a program or erase operation, it
continues to consume active power until the program or erase operation is completed.
9.1.5
Reset
As with any automated device, it is important to assert RST# when the system is reset. When the
system comes out of reset, the system processor attempts to read from the flash memory if it is the
system boot device. If a CPU reset occurs with no flash memory reset, improper CPU initialization
may occur because the flash memory may be providing status information rather than array data.
Flash memory devices from Intel allow proper CPU initialization following a system reset through
the use of the RST# input. RST# should be controlled by the same low-true reset signal that resets
the system CPU.
After initial power-up or reset, the device defaults to asynchronous Read Array, and the Status
Register is set to 0x80. Asserting RST# de-energizes all internal circuits, and places the output
drivers in High-Z. When RST# is asserted, the device shuts down the operation in progress, a
process which takes a minimum amount of time to complete. When RST# has been deasserted, the
device is reset to asynchronous Read Array state.
Note:
If RST# is asserted during a program or erase operation, the operation is terminated and the
memory contents at the aborted location (for a program) or block (for an erase) are no longer valid,
because the data may have been only partially written or erased.
When returning from a reset (RST# deasserted), a minimum wait is required before the initial read
access outputs valid data. Also, a minimum delay is required after a reset before a write cycle can
be initiated. After this wake-up interval passes, normal operation is restored. See Section 7.0, “AC
Characteristics” on page 33 for details about signal-timing.
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
49
1-Gbit P30 Family
9.2
Device Commands
Device operations are initiated by writing specific device commands to the Command User
Interface (CUI). See Table 20, “Command Bus Cycles” on page 50. Several commands are used to
modify array data including Word Program and Block Erase commands. Writing either command
to the CUI initiates a sequence of internally-timed functions that culminate in the completion of the
requested task. However, the operation can be aborted by either asserting RST# or by issuing an
appropriate suspend command.
Table 20.
Command Bus Cycles (Sheet 1 of 2)
First Bus Cycle
Second Bus Cycle
Bus
Mode
Command
Cycles
Oper
Addr(1)
Data(2)
Oper
Addr(1)
Data(2)
Read Array
1
≥ 2
≥ 2
2
Write
Write
Write
Write
Write
DBA
DBA
DBA
DBA
DBA
0xFF
0x90
0x98
0x70
0x50
-
-
DBA + IA
DBA + QA
DBA
-
ID
Read Device Identifier
CFI Query
Read
Read
Read
-
Read
QD
SRD
-
Read Status Register
Clear Status Register
1
-
0x40/
0x10
Word Program
2
Write
Write
Write
WA
WA
WA
Write
Write
Write
WA
WA
WA
WD
N - 1
0xD0
Program
Buffered Program(3)
> 2
> 2
0xE8
0x80
Buffered Enhanced Factory
Program (BEFP)(4)
Erase
Block Erase
2
Write
BA
0x20
Write
BA
0xD0
Program/Erase Suspend
Program/Erase Resume
Lock Block
1
1
2
2
2
Write
Write
Write
Write
Write
DBA
DBA
BA
0xB0
0xD0
0x60
0x60
0x60
-
-
-
Suspend
-
-
-
Write
Write
Write
BA
BA
BA
0x01
0xD0
0x2F
Block
Locking/
Unlocking
Unlock Block
BA
Lock-down Block
BA
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Datasheet
1-Gbit P30 Family
Table 20.
Command Bus Cycles (Sheet 2 of 2)
First Bus Cycle
Second Bus Cycle
Bus
Command
Mode
Cycles
Oper
Addr(1)
Data(2)
Oper
Addr(1)
Data(2)
Program Protection Register
Program Lock Register
2
2
Write
Write
PRA
LRA
0xC0
0xC0
Write
Write
PRA
LRA
PD
Protection
LRD
Program Read Configuration
Register
Configuration
2
Write
RCD
0x60
Write
RCD
0x03
Notes:
1.
First command cycle address should be the same as the operation’s target address.
DBA = Device Base Address (NOTE: needed for 2 or more die stacks)
IA = Identification code address offset.
QA = CFI Query address offset.
WA = Word address of memory location to be written.
BA = Address within the block.
PRA = Protection Register address.
LRA = Lock Register address.
RCD = Read Configuration Register data on A[15:0].
ID = Identifier data.
2.
QD = Query data on DQ[15:0].
SRD = Status Register data.
WD = Word data.
N = Word count of data to be loaded into the write buffer.
PD = Protection Register data.
LRD = Lock Register data.
3.
4.
The second cycle of the Buffered Program Command is the word count of the data to be loaded into the write buffer. This
is followed by up to 32 words of data.Then the confirm command (0xD0) is issued, triggering the array programming
operation.
The confirm command (0xD0) is followed by the buffer data.
9.3
Command Definitions
Valid device command codes and descriptions are shown in Table 21.
Table 21.
Command Codes and Definitions (Sheet 1 of 2)
Mode
Code
Device Mode
Description
0xFF Read Array
Places the device in Read Array mode. Array data is output on DQ[15:0].
Places the device in Read Status Register mode. The device enters this mode
0x70 Read Status Register after a program or erase command is issued. Status Register data is output on
DQ[7:0].
Read Device ID
0x90 or Configuration
Register
Places device in Read Device Identifier mode. Subsequent reads output
manufacturer/device codes, Configuration Register data, Block Lock status, or
Protection Register data on DQ[15:0].
Read
Places the device in Read Query mode. Subsequent reads output Common
Flash Interface information on DQ[7:0].
0x98 Read Query
The WSM can only set Status Register error bits. The Clear Status Register
command is used to clear the SR error bits.
0x50 Clear Status Register
First cycle of a 2-cycle programming command; prepares the CUI for a write
operation. On the next write cycle, the address and data are latched and the
WSM executes the programming algorithm at the addressed location. During
program operations, the device responds only to Read Status Register and
Program Suspend commands. CE# or OE# must be toggled to update the
Status Register in asynchronous read. CE# or ADV# must be toggled to update
the Status Register Data for synchronous Non-array reads. The Read Array
command must be issued to read array data after programming has finished.
Write
0x40 Word Program Setup
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1-Gbit P30 Family
Table 21.
Command Codes and Definitions (Sheet 2 of 2)
Mode
Code
Device Mode
Description
Alternate Word
Program Setup
0x10
Equivalent to the Word Program Setup command, 0x40.
This command loads a variable number of words up to the buffer size of 32
words onto the program buffer.
0xE8 Buffered Program
The confirm command is Issued after the data streaming for writing into the
buffer is done. This instructs the WSM to perform the Buffered Program
algorithm, writing the data from the buffer to the flash memory array.
Buffered Program
Confirm
0xD0
Write
First cycle of a 2-cycle command; initiates Buffered Enhanced Factory
Program mode (BEFP). The CUI then waits for the BEFP Confirm command,
0xD0, that initiates the BEFP algorithm. All other commands are ignored when
BEFP mode begins.
0x80 BEFP Setup
If the previous command was BEFP Setup (0x80), the CUI latches the address
and data, and prepares the device for BEFP mode.
0xD0 BEFP Confirm
First cycle of a 2-cycle command; prepares the CUI for a block-erase
operation. The WSM performs the erase algorithm on the block addressed by
the Erase Confirm command. If the next command is not the Erase Confirm
(0xD0) command, the CUI sets Status Register bits SR[4] and SR[5], and
places the device in read status register mode.
0x20 Block Erase Setup
0xD0 Block Erase Confirm
Erase
If the first command was Block Erase Setup (0x20), the CUI latches the
address and data, and the WSM erases the addressed block. During block-
erase operations, the device responds only to Read Status Register and Erase
Suspend commands. CE# or OE# must be toggled to update the Status
Register in asynchronous read. CE# or ADV# must be toggled to update the
Status Register Data for synchronous Non-array reads
This command issued to any device address initiates a suspend of the
currently-executing program or block erase operation. The Status Register
indicates successful suspend operation by setting either SR[2] (program
suspended) or SR[6] (erase suspended), along with SR[7] (ready). The Write
State Machine remains in the suspend mode regardless of control signal states
(except for RST# asserted).
Program or Erase
Suspend
0xB0
Suspend
This command issued to any device address resumes the suspended program
or block-erase operation.
0xD0 Suspend Resume
0x60 Lock Block Setup
First cycle of a 2-cycle command; prepares the CUI for block lock configuration
changes. If the next command is not Block Lock (0x01), Block Unlock (0xD0),
or Block Lock-Down (0x2F), the CUI sets Status Register bits SR[4] and SR[5],
indicating a command sequence error.
If the previous command was Block Lock Setup (0x60), the addressed block is
locked.
0x01 Lock Block
Block Locking/
Unlocking
If the previous command was Block Lock Setup (0x60), the addressed block is
unlocked. If the addressed block is in a lock-down state, the operation has no
effect.
0xD0 Unlock Block
0x2F Lock-Down Block
If the previous command was Block Lock Setup (0x60), the addressed block is
locked down.
First cycle of a 2-cycle command; prepares the device for a Protection Register
or Lock Register program operation. The second cycle latches the register
address and data, and starts the programming algorithm
Program Protection
0xC0
Protection
Register Setup
First cycle of a 2-cycle command; prepares the CUI for device read
Read Configuration configuration. If the Set Read Configuration Register command (0x03) is not
0x60
0x03
Register Setup
the next command, the CUI sets Status Register bits SR[4] and SR[5],
indicating a command sequence error.
Configuration
If the previous command was Read Configuration Register Setup (0x60), the
Read Configuration CUI latches the address and writes A[15:0] to the Read Configuration Register.
Register
Following a Configure Read Configuration Register command, subsequent
read operations access array data.
April 2005
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Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
10.0
Read Operations
The device supports two read modes: asynchronous page mode and synchronous burst mode.
Asynchronous page mode is the default read mode after device power-up or a reset. The Read
Configuration Register must be configured to enable synchronous burst reads of the flash memory
array (see Section 10.3, “Read Configuration Register” on page 54).
The device can be in any of four read states: Read Array, Read Identifier, Read Status or Read
Query. Upon power-up, or after a reset, the device defaults to Read Array. To change the read state,
the appropriate read command must be written to the device (see Section 9.2, “Device Commands”
on page 50). See Section 14.0, “Special Read States” on page 75 for details regarding Read Status,
Read ID, and CFI Query modes.
The following sections describe read-mode operations in detail.
10.1
Asynchronous Page-Mode Read
Following a device power-up or reset, asynchronous page mode is the default read mode and the
device is set to Read Array. However, to perform array reads after any other device operation (e.g.
write operation), the Read Array command must be issued in order to read from the flash memory
array.
Note:
Asynchronous page-mode reads can only be performed when Read Configuration Register bit
RCR[15] is set (see Section 10.3, “Read Configuration Register” on page 54).
To perform an asynchronous page-mode read, an address is driven onto the Address bus, and CE#
and ADV# are asserted. WE# and RST# must already have been deasserted. WAIT is deasserted
during asynchronous page mode. ADV# can be driven high to latch the address, or it must be held
low throughout the read cycle. CLK is not used for asynchronous page-mode reads, and is ignored.
If only asynchronous reads are to be performed, CLK should be tied to a valid VIH level, WAIT
signal can be floated and ADV# must be tied to ground. Array data is driven onto DQ[15:0] after
an initial access time tAVQ V delay. (see Section 7.0, “AC Characteristics” on page 33).
In asynchronous page mode, four data words are “sensed” simultaneously from the flash memory
array and loaded into an internal page buffer. The buffer word corresponding to the initial address
on the Address bus is driven onto DQ[15:0] after the initial access delay. The lowest two address
bits determine which word of the 4-word page is output from the data buffer at any given time.
10.2
Synchronous Burst-Mode Read
To perform a synchronous burst- read, an initial address is driven onto the Address bus, and CE#
and ADV# are asserted. WE# and RST# must already have been deasserted. ADV# is asserted, and
then deasserted to latch the address. Alternately, ADV# can remain asserted throughout the burst
access, in which case the address is latched on the next valid CLK edge while ADV# is asserted.
During synchronous array and non-array read modes, the first word is output from the data buffer
on the next valid CLK edge after the initial access latency delay (see Section 10.3.2, “Latency
Count” on page 55). Subsequent data is output on valid CLK edges following a minimum delay.
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1-Gbit P30 Family
However, for a synchronous non-array read, the same word of data will be output on successive
clock edges until the burst length requirements are satisfied. Refer to the following waveforms for
more detailed information:
• Figure 19, “Synchronous Single-Word Array or Non-array Read Timing” on page 39
• Figure 20, “Continuous Burst Read, showing an Output Delay Timing” on page 40
• Figure 21, “Synchronous Burst-Mode Four-Word Read Timing” on page 41
10.3
Read Configuration Register
The Read Configuration Register (RCR) is used to select the read mode (synchronous or
asynchronous), and it defines the synchronous burst characteristics of the device. To modify RCR
settings, use the Configure Read Configuration Register command (see Section 9.2, “Device
Commands” on page 50).
RCR contents can be examined using the Read Device Identifier command, and then reading from
offset 0x05 (see Section 14.2, “Read Device Identifier” on page 76).
The RCR is shown in Table 22. The following sections describe each RCR bit.
Table 22.
Read Configuration Register Description (Sheet 1 of 2)
Read Configuration Register (RCR)
Data WAIT
Hold Delay
Burst
Wrap
Read
Mode
WAIT
Burst
Seq
CLK
RES
Latency Count
LC[2:0]
RES RES
Burst Length
Polarity
Edge
RM
15
R
WP
10
DH
9
WD
8
BS
7
CE
6
R
5
R
4
BW
3
BL[2:0]
1
14
13
12
11
2
0
Bit
15
Name
Description
Read Mode (RM)
Reserved (R)
0 = Synchronous burst-mode read
1 = Asynchronous page-mode read (default)
Reserved bits should be cleared (0)
14
13:11 Latency Count (LC[2:0])
010 =Code 2
011 =Code 3
100 =Code 4
101 =Code 5
110 =Code 6
111 =Code 7 (default)
(Other bit settings are reserved)
10
9
Wait Polarity (WP)
Data Hold (DH)
0 =WAIT signal is active low
1 =WAIT signal is active high (default)
0 =Data held for a 1-clock data cycle
1 =Data held for a 2-clock data cycle (default)
8
Wait Delay (WD)
Burst Sequence (BS)
Clock Edge (CE)
Reserved (R)
0 =WAIT deasserted with valid data
1 =WAIT deasserted one data cycle before valid data (default)
7
0 =Reserved
1 =Linear (default)
6
0 = Falling edge
1 = Rising edge (default)
5:4
Reserved bits should be cleared (0)
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Datasheet
1-Gbit P30 Family
Table 22.
Read Configuration Register Description (Sheet 2 of 2)
3
Burst Wrap (BW)
0 =Wrap; Burst accesses wrap within burst length set by BL[2:0]
1 =No Wrap; Burst accesses do not wrap within burst length (default)
2:0
Burst Length (BL[2:0])
001 =4-word burst
010 =8-word burst
011 =16-word burst
111 =Continuous-word burst (default)
(Other bit settings are reserved)
Note: Latency Code 2, Data Hold for a 2-clock data cycle (DH = 1) WAIT must be deasserted with valid data (WD =
0). Latency Code 2, Data Hold for a 2-cock data cycle (DH=1) WAIT deasserted one data cycle before valid
data (WD = 1) combination is not supported.
10.3.1
10.3.2
Read Mode
The Read Mode (RM) bit selects synchronous burst-mode or asynchronous page-mode operation
for the device. When the RM bit is set, asynchronous page mode is selected (default). When RM is
cleared, synchronous burst mode is selected.
Latency Count
The Latency Count bits, LC[2:0], tell the device how many clock cycles must elapse from the
rising edge of ADV# (or from the first valid clock edge after ADV# is asserted) until the first data
word is to be driven onto DQ[15:0]. The input clock frequency is used to determine this value.
Figure 28 shows the data output latency for the different settings of LC[2:0].
Synchronous burst with a Latency Count setting of Code 4 will result in zero WAIT state; however,
a Latency Count setting of Code 5 will cause 1 WAIT state (Code 6 will cause 2 WAIT states, and
Code 7 will cause 3 WAIT states) after every four words, regardless of whether a 16-word
boundary is crossed. If RCR[9] (Data Hold) bit is set (data hold of two clocks) this WAIT condition
will not occur because enough clocks elapse during each burst cycle to eliminate subsequent WAIT
states.
Refer to Table 23, “LC and Frequency Support” on page 56 for Latency Code Settings.
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April 2005
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1-Gbit P30 Family
Figure 28.
CLK [C]
First-Access Latency Count
Valid
Address
Address [A]
ADV# [V]
Code 0 (Reserved)
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
DQ15-0 [D/Q]
DQ15-0 [D/Q]
DQ15-0 [D/Q]
DQ15-0 [D/Q]
DQ15-0 [D/Q]
DQ15-0 [D/Q]
DQ15-0 [D/Q]
DQ15-0 [D/Q]
Code 1
(Reserved
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Code 2
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Code 3
Code 4
Code 5
Code 6
Code 7
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Valid
Output
Table 23.
LC and Frequency Support
Latency Count Settings
Frequency Support (MHz)
2
3
≤ 27
≤ 40
See Figure 29, “Example Latency Count Setting using Code 3.
April 2005
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Datasheet
1-Gbit P30 Family
Figure 29.
Example Latency Count Setting using Code 3
tData
0
1
2
3
4
CLK
CE#
ADV#
Address
A[MAX:0]
D[15:0]
Code 3
High-Z
Data
R103
10.3.3
WAIT Polarity
The WAIT Polarity bit (WP), RCR[10] determines the asserted level (VOH or VOL) of WAIT.
When WP is set, WAIT is asserted high (default). When WP is cleared, WAIT is asserted low.
WAIT changes state on valid clock edges during active bus cycles (CE# asserted, OE# asserted,
RST# deasserted).
10.3.3.1
WAIT Signal Function
The WAIT signal indicates data valid when the device is operating in synchronous mode
(RCR[15]=0). The WAIT signal is only “deasserted” when data is valid on the bus.
When the device is operating in synchronous non-array read mode, such as read status, read ID, or
read query. The WAIT signal is also “deasserted” when data is valid on the bus.
WAIT behavior during synchronous non-array reads at the end of word line works correctly only
on the first data access.
When the device is operating in asynchronous page mode, asynchronous single word read mode,
and all write operations, WAIT is set to a deasserted state as determined by RCR[10]. See Figure
17, “Asynchronous Single-Word Read (ADV# Latch)” on page 38, and Figure 18, “Asynchronous
Page-Mode Read Timing” on page 39.
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April 2005
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1-Gbit P30 Family
Table 24.
WAIT Functionality Table
Condition
WAIT
Notes
CE# = ‘1’, OE# = ‘X’ or CE# = ‘0’, OE# = ‘1’
CE# =’0’, OE# = ‘0’
High-Z
Active
1
1
Synchronous Array Reads
Synchronous Non-Array Reads
All Asynchronous Reads
All Writes
Active
1
Active
1
Deasserted
High-Z
1
1,2
Notes:
1.
2.
Active: WAIT is asserted until data becomes valid, then deasserts
When OE# = VIH during writes, WAIT = High-Z
10.3.4
Data Hold
For burst read operations, the Data Hold (DH) bit determines whether the data output remains valid
on DQ[15:0] for one or two clock cycles. This period of time is called the “data cycle”. When DH
is set, output data is held for two clocks (default). When DH is cleared, output data is held for one
clock (see Figure 30). The processor’s data setup time and the flash memory’s clock-to-data output
delay should be considered when determining whether to hold output data for one or two clocks. A
method for determining the Data Hold configuration is shown below:
To set the device at one clock data hold for subsequent reads, the following condition must be
satisfied:
tCHQV (ns) + tDATA (ns) ≤ One CLK Period (ns)
tDATA = Data set up to Clock (defined by CPU)
For example, with a clock frequency of 40 MHz, the clock period is 25 ns. Assuming
tCHQV = 20 ns and tDATA = 4 ns. Applying these values to the formula above:
20 ns + 4 ns ≤ 25 ns
The equation is satisfied and data will be available at every clock period with data hold setting at
one clock. If tCHQV (ns) + tDATA (ns) > One CLK Period (ns), data hold setting of 2 clock periods
must be used.
Figure 30.
Data Hold Timing
CLK [C]
1 CLK
Data Hold
Valid
Output
Valid
Output
Valid
Output
D[15:0] [Q]
D[15:0] [Q]
2 CLK
Data Hold
Valid
Output
Valid
Output
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Datasheet
1-Gbit P30 Family
10.3.5
WAIT Delay
The WAIT Delay (WD) bit controls the WAIT assertion-delay behavior during synchronous burst
reads. WAIT can be asserted either during or one data cycle before valid data is output on
DQ[15:0]. When WD is set, WAIT is deasserted one data cycle before valid data (default). When
WD is cleared, WAIT is deasserted during valid data.
10.3.6
Burst Sequence
The Burst Sequence (BS) bit selects linear-burst sequence (default). Only linear-burst sequence is
supported. Table 25 shows the synchronous burst sequence for all burst lengths, as well as the
effect of the Burst Wrap (BW) setting.
Table 25.
Burst Sequence Word Ordering
Burst Addressing Sequence (DEC)
Start
Burst Wrap
(RCR[3])
Addr.
4-Word Burst
(BL[2:0] = 0b001)
8-Word Burst
16-Word Burst
(BL[2:0] = 0b011)
Continuous Burst
(BL[2:0] = 0b111)
(DEC)
(BL[2:0] = 0b010)
0
1
2
3
4
5
6
7
0
0
0
0
0
0
0
0
0-1-2-3
1-2-3-0
2-3-0-1
3-0-1-2
0-1-2-3-4-5-6-7
1-2-3-4-5-6-7-0
2-3-4-5-6-7-0-1
3-4-5-6-7-0-1-2
4-5-6-7-0-1-2-3
5-6-7-0-1-2-3-4
6-7-0-1-2-3-4-5
7-0-1-2-3-4-5-6
0-1-2-3-4…14-15
0-1-2-3-4-5-6-…
1-2-3-4-5…15-0
1-2-3-4-5-6-7-…
2-3-4-5-6-7-8-…
3-4-5-6-7-8-9-…
4-5-6-7-8-9-10…
5-6-7-8-9-10-11…
2-3-4-5-6…15-0-1
3-4-5-6-7…15-0-1-2
4-5-6-7-8…15-0-1-2-3
5-6-7-8-9…15-0-1-2-3-4
6-7-8-9-10…15-0-1-2-3-4-5 6-7-8-9-10-11-12-…
7-8-9-10…15-0-1-2-3-4-5-6 7-8-9-10-11-12-13…
14
15
0
0
14-15-0-1-2…12-13
15-0-1-2-3…13-14
14-15-16-17-18-19-20-…
15-16-17-18-19-20-21-…
0
1
2
3
4
5
6
7
1
1
1
1
1
1
1
1
0-1-2-3
1-2-3-4
2-3-4-5
3-4-5-6
0-1-2-3-4-5-6-7
0-1-2-3-4…14-15
1-2-3-4-5…15-16
2-3-4-5-6…16-17
3-4-5-6-7…17-18
4-5-6-7-8…18-19
5-6-7-8-9…19-20
6-7-8-9-10…20-21
0-1-2-3-4-5-6-…
1-2-3-4-5-6-7-…
2-3-4-5-6-7-8-…
3-4-5-6-7-8-9-…
4-5-6-7-8-9-10…
5-6-7-8-9-10-11…
6-7-8-9-10-11-12-…
7-8-9-10-11-12-13…
1-2-3-4-5-6-7-8
2-3-4-5-6-7-8-9
3-4-5-6-7-8-9-10
4-5-6-7-8-9-10-11
5-6-7-8-9-10-11-12
6-7-8-9-10-11-12-13
7-8-9-10-11-12-13-14 7-8-9-10-11…21-22
14
15
1
1
14-15-16-17-18…28-29
15-16-17-18-19…29-30
14-15-16-17-18-19-20-…
15-16-17-18-19-20-21-…
10.3.7
10.3.8
Clock Edge
The Clock Edge (CE) bit selects either a rising (default) or falling clock edge for CLK. This clock
edge is used at the start of a burst cycle, to output synchronous data, and to assert/deassert WAIT.
Burst Wrap
The Burst Wrap (BW) bit determines whether 4-word, 8-word, or 16-word burst length accesses
wrap within the selected word-length boundaries or cross word-length boundaries. When BW is
set, burst wrapping does not occur (default). When BW is cleared, burst wrapping occurs.
When performing synchronous burst reads with BW set (no wrap), an output delay may occur
when the burst sequence crosses its first device-row (16-word) boundary. If the burst sequence’s
start address is 4-word aligned, then no delay occurs. If the start address is at the end of a 4-word
Datasheet
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April 2005
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boundary, the worst case output delay is one clock cycle less than the first access Latency Count.
This delay can take place only once, and doesn’t occur if the burst sequence does not cross a
device-row boundary. WAIT informs the system of this delay when it occurs.
10.3.9
Burst Length
The Burst Length bit (BL[2:0]) selects the linear burst length for all synchronous burst reads of the
flash memory array. The burst lengths are 4-word, 8-word, 16-word, and continuous word.
Continuous-burst accesses are linear only, and do not wrap within any word length boundaries (see
Table 25, “Burst Sequence Word Ordering” on page 59). When a burst cycle begins, the device
outputs synchronous burst data until it reaches the end of the “burstable” address space.
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Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
11.0
Programming Operations
The device supports three programming methods: Word Programming (40h/10h), Buffered
Programming (E8h, D0h), and Buffered Enhanced Factory Programming (80h, D0h). See Section
9.0, “Device Operations” on page 48 for details on the various programming commands issued to
the device. The following sections describe device programming in detail.
Successful programming requires the addressed block to be unlocked. If the block is locked down,
WP# must be deasserted and the block must be unlocked before attempting to program the block.
Attempting to program a locked block causes a program error (SR[4] and SR[1] set) and
termination of the operation. See Section 13.0, “Security Modes” on page 69 for details on locking
and unlocking blocks.
The Intel StrataFlash® Embedded Memory (P30) is segmented into multiple Programming
Regions. Programming Regions are made up of 8 or 16 blocks depending on the density. The 64-
and 128-Mbit devices have 8 blocks per Programming Region, while the 256-Mbit has 16 blocks in
each Programming Region (see Table 26). See Section 4.4, “Memory Maps” on page 24 for
address ranges of each Programming Region per density.
Table 26.
Programming Regions per Device
Number of blocks per
Programming Region
Number of Programming
Regions per Device
Device Density
64-Mbit
128-Mbit
256-Mbit
512-Mbit
1-Gbit
8 blocks
8 blocks
8
16
16
32
64
16 blocks
16 blocks
16 blocks
Execute in Place (XIP) is defined as the ability to execute code directly from the flash memory.
XIP applications must partition the memory such that code and data are in separate programming
regions (see Table 26, “Programming Regions per Device” on page 61). Each Programming
Region should contain only code or data, and not both. The following terms define the difference
between code and data. System designs must use these definitions when partitioning their code and
data for the P30 device.
Code :
Data :
Execution code ran out of the flash device on a continuous basis in the system.
Information periodically programmed into the flash device and read back (e.g.
execution code shadowed and executed in RAM, pictures, log files, etc.).
11.1
Word Programming
Word programming operations are initiated by writing the Word Program Setup command to the
device (see Section 9.0, “Device Operations” on page 48). This is followed by a second write to the
device with the address and data to be programmed. The device outputs Status Register data when
read. See Figure 40, “Word Program Flowchart” on page 85. VPP must be above VPPLK, and within
the specified VPPL min/max values (nominally 1.8 V).
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During programming, the Write State Machine (WSM) executes a sequence of internally-timed
events that program the desired data bits at the addressed location, and verifies that the bits are
sufficiently programmed. Programming the flash memory array changes “ones” to “zeros”.
Memory array bits that are zeros can be changed to ones only by erasing the block (see Section
12.0, “Erase Operations” on page 67).
The Status Register can be examined for programming progress and errors by reading at any
address. The device remains in the Read Status Register state until another command is written to
the device.
Status Register bit SR[7] indicates the programming status while the sequence executes.
Commands that can be issued to the device during programming are Program Suspend, Read Status
Register, Read Device Identifier, CFI Query, and Read Array (this returns unknown data).
When programming has finished, Status Register bit SR[4] (when set) indicates a programming
failure. If SR[3] is set, the WSM could not perform the word programming operation because VPP
was outside of its acceptable limits. If SR[1] is set, the word programming operation attempted to
program a locked block, causing the operation to abort.
Before issuing a new command, the Status Register contents should be examined and then cleared
using the Clear Status Register command. Any valid command can follow, when word
programming has completed.
11.1.1
Factory Word Programming
Factory word programming is similar to word programming in that it uses the same commands and
programming algorithms. However, factory word programming enhances the programming
performance with VPP = VPPH. This can enable faster programming times during OEM
manufacturing processes. Factory word programming is not intended for extended use. See Section
5.2, “Operating Conditions” on page 30 for limitations when VPP = VPPH
.
Note:
When VPP = VPPL, the device draws programming current from the VCC supply. If VPP is driven
by a logic signal, VPPL must remain above VPPL MIN to program the device. When VPP = VPPH
the device draws programming current from the VPP supply. Figure 31, “Example VPP Supply
Connections” on page 66 shows examples of device power supply configurations.
,
11.2
Buffered Programming
The device features a 32-word buffer to enable optimum programming performance. For Buffered
Programming, data is first written to an on-chip write buffer. Then the buffer data is programmed
into the flash memory array in buffer-size increments. This can improve system programming
performance significantly over non-buffered programming.
When the Buffered Programming Setup command is issued (see Section 9.2, “Device Commands”
on page 50), Status Register information is updated and reflects the availability of the buffer. SR[7]
indicates buffer availability: if set, the buffer is available; if cleared, the buffer is not available. To
retry, issue the Buffered Programming Setup command again, and re-check SR[7]. When SR[7] is
set, the buffer is ready for loading. (see Figure 42, “Buffer Program Flowchart” on page 87).
On the next write, a word count is written to the device at the buffer address. This tells the device
how many data words will be written to the buffer, up to the maximum size of the buffer.
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On the next write, a device start address is given along with the first data to be written to the flash
memory array. Subsequent writes provide additional device addresses and data. All data addresses
must lie within the start address plus the word count. Optimum programming performance and
lower power usage are obtained by aligning the starting address at the beginning of a 32-word
boundary (A[4:0] = 0x00). Crossing a 32-word boundary during programming will double the total
programming time.
After the last data is written to the buffer, the Buffered Programming Confirm command must be
issued to the original block address. The WSM begins to program buffer contents to the flash
memory array. If a command other than the Buffered Programming Confirm command is written to
the device, a command sequence error occurs and Status Register bits SR[7,5,4] are set. If an error
occurs while writing to the array, the device stops programming, and Status Register bits SR[7,4]
are set, indicating a programming failure.
When Buffered Programming has completed, additional buffer writes can be initiated by issuing
another Buffered Programming Setup command and repeating the buffered program sequence.
Buffered programming may be performed with VPP = VPPL or VPPH (see Section 5.2, “Operating
Conditions” on page 30 for limitations when operating the device with VPP = VPPH).
If an attempt is made to program past an erase-block boundary using the Buffered Program
command, the device aborts the operation. This generates a command sequence error, and Status
Register bits SR[5,4] are set.
If Buffered programming is attempted while VPP is below VPPLK, Status Register bits SR[4,3] are
set. If any errors are detected that have set Status Register bits, the Status Register should be
cleared using the Clear Status Register command.
11.3
Buffered Enhanced Factory Programming
Buffered Enhanced Factory Programing (BEFP) speeds up Multi-Level Cell (MLC) flash
programming. The enhanced programming algorithm used in BEFP eliminates traditional
programming elements that drive up overhead in device programmer systems.
BEFP consists of three phases: Setup, Program/Verify, and Exit (see Figure 43, “BEFP Flowchart”
on page 88). It uses a write buffer to spread MLC program performance across 32 data words.
Verification occurs in the same phase as programming to accurately program the flash memory cell
to the correct bit state.
A single two-cycle command sequence programs the entire block of data. This enhancement
eliminates three write cycles per buffer: two commands and the word count for each set of 32 data
words. Host programmer bus cycles fill the device’s write buffer followed by a status check. SR[0]
indicates when data from the buffer has been programmed into sequential flash memory array
locations.
Following the buffer-to-flash array programming sequence, the Write State Machine (WSM)
increments internal addressing to automatically select the next 32-word array boundary. This
aspect of BEFP saves host programming equipment the address-bus setup overhead.
With adequate continuity testing, programming equipment can rely on the WSM’s internal
verification to ensure that the device has programmed properly. This eliminates the external post-
program verification and its associated overhead.
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11.3.1
BEFP Requirements and Considerations
BEFP requirements:
• Case temperature: TC = 25 °C ± 5 °C
• VCC within specified operating range
• VPP driven to VPPH
• Target block unlocked before issuing the BEFP Setup and Confirm commands
• The first-word address (WA0) for the block to be programmed must be held constant from the
setup phase through all data streaming into the target block, until transition to the exit phase is
desired
• WA0 must align with the start of an array buffer boundary1
BEFP considerations:
• For optimum performance, cycling must be limited below 100 erase cycles per block2
• BEFP programs one block at a time; all buffer data must fall within a single block3
• BEFP cannot be suspended
• Programming to the flash memory array can occur only when the buffer is full4
NOTES:
1.
2.
3.
4.
Word buffer boundaries in the array are determined by A[4:0] (0x00 through 0x1F). The alignment start
point is A[4:0] = 0x00.
Some degradation in performance may occur if this limit is exceeded, but the internal algorithm
continues to work properly.
If the internal address counter increments beyond the block's maximum address, addressing wraps
around to the beginning of the block.
If the number of words is less than 32, remaining locations must be filled with 0xFFFF.
11.3.2
BEFP Setup Phase
After receiving the BEFP Setup and Confirm command sequence, Status Register bit SR[7]
(Ready) is cleared, indicating that the WSM is busy with BEFP algorithm startup. A delay before
checking SR[7] is required to allow the WSM enough time to perform all of its setups and checks
(Block-Lock status, VPP level, etc.). If an error is detected, SR[4] is set and BEFP operation
terminates. If the block was found to be locked, SR[1] is also set. SR[3] is set if the error occurred
due to an incorrect VPP level.
Note:
Reading from the device after the BEFP Setup and Confirm command sequence outputs Status
Register data. Do not issue the Read Status Register command; it will be interpreted as data to be
loaded into the buffer.
11.3.3
BEFP Program/Verify Phase
After the BEFP Setup Phase has completed, the host programming system must check SR[7,0] to
determine the availability of the write buffer for data streaming. SR[7] cleared indicates the device
is busy and the BEFP program/verify phase is activated. SR[0] indicates the write buffer is
available.
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Two basic sequences repeat in this phase: loading of the write buffer, followed by buffer data
programming to the array. For BEFP, the count value for buffer loading is always the maximum
buffer size of 32 words. During the buffer-loading sequence, data is stored to sequential buffer
locations starting at address 0x00. Programming of the buffer contents to the flash memory array
starts as soon as the buffer is full. If the number of words is less than 32, the remaining buffer
locations must be filled with 0xFFFF.
Caution:
The buffer must be completely filled for programming to occur. Supplying an address outside of the
current block's range during a buffer-fill sequence causes the algorithm to exit immediately. Any
data previously loaded into the buffer during the fill cycle is not programmed into the array.
The starting address for data entry must be buffer size aligned, if not the BEFP algorithm will be
aborted and the program fails and (SR[4]) flag will be set.
Data words from the write buffer are directed to sequential memory locations in the flash memory
array; programming continues from where the previous buffer sequence ended. The host
programming system must poll SR[0] to determine when the buffer program sequence completes.
SR[0] cleared indicates that all buffer data has been transferred to the flash array; SR[0] set
indicates that the buffer is not available yet for the next fill cycle. The host system may check full
status for errors at any time, but it is only necessary on a block basis after BEFP exit. After the
buffer fill cycle, no write cycles should be issued to the device until SR[0] = 0 and the device is
ready for the next buffer fill.
Note:
Any spurious writes are ignored after a buffer fill operation and when internal program is
proceeding.
The host programming system continues the BEFP algorithm by providing the next group of data
words to be written to the buffer. Alternatively, it can terminate this phase by changing the block
address to one outside of the current block’s range.
The Program/Verify phase concludes when the programmer writes to a different block address;
data supplied must be 0xFFFF. Upon Program/Verify phase completion, the device enters the
BEFP Exit phase.
11.3.4
BEFP Exit Phase
When SR[7] is set, the device has returned to normal operating conditions. A full status check
should be performed at this time to ensure the entire block programmed successfully. When exiting
the BEFP algorithm with a block address change, the read mode will not change. After BEFP exit,
any valid command can be issued to the device.
11.4
Program Suspend
Issuing the Program Suspend command while programming suspends the programming operation.
This allows data to be accessed from the device other than the one being programmed. The
Program Suspend command can be issued to any device address. A program operation can be
suspended to perform reads only. Additionally, a program operation that is running during an erase
suspend can be suspended to perform a read operation (see Figure 41, “Program Suspend/Resume
Flowchart” on page 86).
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When a programming operation is executing, issuing the Program Suspend command requests the
WSM to suspend the programming algorithm at predetermined points. The device continues to
output Status Register data after the Program Suspend command is issued. Programming is
suspended when Status Register bits SR[7,2] are set. Suspend latency is specified in Section 7.5,
“Program and Erase Characteristics” on page 45.
To read data from the device, the Read Array command must be issued. Read Array, Read Status
Register, Read Device Identifier, CFI Query, and Program Resume are valid commands during a
program suspend.
During a program suspend, deasserting CE# places the device in standby, reducing active current.
VPP must remain at its programming level, and WP# must remain unchanged while in program
suspend. If RST# is asserted, the device is reset.
11.5
Program Resume
The Resume command instructs the device to continue programming, and automatically clears
Status Register bits SR[7,2]. This command can be written to any address. If error bits are set, the
Status Register should be cleared before issuing the next instruction. RST# must remain deasserted
(see Figure 41, “Program Suspend/Resume Flowchart” on page 86).
11.6
Program Protection
When VPP = VIL, absolute hardware write protection is provided for all device blocks. If VPP is at
or below VPPLK, programming operations halt and SR[3] is set indicating a VPP-level error. Block
lock registers are not affected by the voltage level on VPP; they may still be programmed and read,
even if VPP is less than VPPLK
.
Figure 31.
Example VPP Supply Connections
VCC
VCC
VPP
VCC
VPP
VCC
VPP
PROT #
≤ 10K Ω
• Low-voltage Programming only
• Logic Control of Device Protection
• Factory Programming with VPP = VPPH
• Complete write/Erase Protection when VPP ≤ VPPLK
VCC
VCC
VCC
VCC
VPP
VPP=VPPH
VPP
• Low Voltage Programming Only
• Full Device Protection Unavailable
• Low Voltage and Factory Programming
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12.0
Erase Operations
Flash erasing is performed on a block basis. An entire block is erased each time an erase command
sequence is issued, and only one block is erased at a time. When a block is erased, all bits within
that block read as logical ones. The following sections describe block erase operations in detail.
12.1
Block Erase
Block erase operations are initiated by writing the Block Erase Setup command to the address of
the block to be erased (see Section 9.2, “Device Commands” on page 50). Next, the Block Erase
Confirm command is written to the address of the block to be erased. If the device is placed in
standby (CE# deasserted) during an erase operation, the device completes the erase operation
before entering standby.VPP must be above VPPLK and the block must be unlocked (see Figure 44,
“Block Erase Flowchart” on page 89).
During a block erase, the Write State Machine (WSM) executes a sequence of internally-timed
events that conditions, erases, and verifies all bits within the block. Erasing the flash memory array
changes “zeros” to “ones”. Memory array bits that are ones can be changed to zeros only by
programming the block (see Section 11.0, “Programming Operations” on page 61).
The Status Register can be examined for block erase progress and errors by reading any address.
The device remains in the Read Status Register state until another command is written. SR[0]
indicates whether the addressed block is erasing. Status Register bit SR[7] is set upon erase
completion.
Status Register bit SR[7] indicates block erase status while the sequence executes. When the erase
operation has finished, Status Register bit SR[5] indicates an erase failure if set. SR[3] set would
indicate that the WSM could not perform the erase operation because VPP was outside of its
acceptable limits. SR[1] set indicates that the erase operation attempted to erase a locked block,
causing the operation to abort.
Before issuing a new command, the Status Register contents should be examined and then cleared
using the Clear Status Register command. Any valid command can follow once the block erase
operation has completed.
12.2
Erase Suspend
Issuing the Erase Suspend command while erasing suspends the block erase operation. This allows
data to be accessed from memory locations other than the one being erased. The Erase Suspend
command can be issued to any device address. A block erase operation can be suspended to
perform a word or buffer program operation, or a read operation within any block except the block
that is erase suspended (see Figure 41, “Program Suspend/Resume Flowchart” on page 86).
When a block erase operation is executing, issuing the Erase Suspend command requests the WSM
to suspend the erase algorithm at predetermined points. The device continues to output Status
Register data after the Erase Suspend command is issued. Block erase is suspended when Status
Register bits SR[7,6] are set. Suspend latency is specified in Section 7.5, “Program and Erase
Characteristics” on page 45.
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To read data from the device (other than an erase-suspended block), the Read Array command must
be issued. During Erase Suspend, a Program command can be issued to any block other than the
erase-suspended block. Block erase cannot resume until program operations initiated during erase
suspend complete. Read Array, Read Status Register, Read Device Identifier, CFI Query, and Erase
Resume are valid commands during Erase Suspend. Additionally, Clear Status Register, Program,
Program Suspend, Block Lock, Block Unlock, and Block Lock-Down are valid commands during
Erase Suspend.
During an erase suspend, deasserting CE# places the device in standby, reducing active current.
VPP must remain at a valid level, and WP# must remain unchanged while in erase suspend. If
RST# is asserted, the device is reset.
12.3
12.4
Erase Resume
The Erase Resume command instructs the device to continue erasing, and automatically clears
status register bits SR[7,6]. This command can be written to any address. If status register error bits
are set, the Status Register should be cleared before issuing the next instruction. RST# must remain
deasserted (see Figure 41, “Program Suspend/Resume Flowchart” on page 86).
Erase Protection
When VPP = VIL, absolute hardware erase protection is provided for all device blocks. If VPP is
below VPPLK, erase operations halt and SR[3] is set indicating a VPP-level error.
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13.0
Security Modes
The device features security modes used to protect the information stored in the flash memory
array. The following sections describe each security mode in detail.
13.1
Block Locking
Individual instant block locking is used to protect user code and/or data within the flash memory
array. All blocks power up in a locked state to protect array data from being altered during power
transitions. Any block can be locked or unlocked with no latency. Locked blocks cannot be
programmed or erased; they can only be read.
Software-controlled security is implemented using the Block Lock and Block Unlock commands.
Hardware-controlled security can be implemented using the Block Lock-Down command along
with asserting WP#. Also, VPP data security can be used to inhibit program and erase operations
(see Section 11.6, “Program Protection” on page 66 and Section 12.4, “Erase Protection” on
page 68).
The P30 device also offers four pre-defined areas in the main array that can be configured as One-
Time Programmable (OTP) for the highest level of security. These include the four 32 KB
parameter blocks together as one and the three adjacent 128 KB main blocks. This is available for
top or bottom parameter devices.
13.1.1
Lock Block
To lock a block, issue the Lock Block Setup command. The next command must be the Lock Block
command issued to the desired block’s address (see Section 9.2, “Device Commands” on page 50
and Figure 46, “Block Lock Operations Flowchart” on page 91). If the Set Read Configuration
Register command is issued after the Block Lock Setup command, the device configures the RCR
instead.
Block lock and unlock operations are not affected by the voltage level on VPP. The block lock bits
may be modified and/or read even if VPP is at or below VPPLK
.
13.1.2
13.1.3
Unlock Block
The Unlock Block command is used to unlock blocks (see Section 9.2, “Device Commands” on
page 50). Unlocked blocks can be read, programmed, and erased. Unlocked blocks return to a
locked state when the device is reset or powered down. If a block is in a lock-down state, WP#
must be deasserted before it can be unlocked (see Figure 32, “Block Locking State Diagram” on
page 70).
Lock-Down Block
A locked or unlocked block can be locked-down by writing the Lock-Down Block command
sequence (see Section 9.2, “Device Commands” on page 50). Blocks in a lock-down state cannot
be programmed or erased; they can only be read. However, unlike locked blocks, their locked state
cannot be changed by software commands alone. A locked-down block can only be unlocked by
issuing the Unlock Block command with WP# deasserted. To return an unlocked block to locked-
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down state, a Lock-Down command must be issued prior to changing WP# to VIL. Locked-down
blocks revert to the locked state upon reset or power up the device (see Figure 32, “Block Locking
State Diagram” on page 70).
13.1.4
Block Lock Status
The Read Device Identifier command is used to determine a block’s lock status (see Section 14.2,
“Read Device Identifier” on page 76). Data bits DQ[1:0] display the addressed block’s lock status;
DQ0 is the addressed block’s lock bit, while DQ1 is the addressed block’s lock-down bit.
Figure 32.
Block Locking State Diagram
Locked-
Down4,5
Hardware
Locked5
[011]
Locked
Power-Up/Reset
[011]
[X01]
WP# Hardware Control
Software
Locked
Unlocked
Unlocked
[111]
[110]
[X00]
Software Block Lock (0x60/0x01) or Software Block Unlock (0x60/0xD0)
Software Block Lock-Down (0x60/0x2F)
WP# hardware control
Notes:
1. [a,b,c] represents [WP#, DQ1, DQ0]. X = Don’t Care.
2. DQ1 indicates Block Lock-Down status. DQ1 = ‘0’, Lock-Down has not been issued
to this block. DQ1 = ‘1’, Lock-Down has been issued to this block.
3. DQ0 indicates block lock status. DQ0 = ‘0’, block is unlocked. DQ0 = ‘1’, block is
locked.
4. Locked-down = Hardware + Software locked.
5. [011] states should be tracked by system software to determine difference between
Hardware Locked and Locked-Down states.
13.1.5
Block Locking During Suspend
Block lock and unlock changes can be performed during an erase suspend. To change block
locking during an erase operation, first issue the Erase Suspend command. Monitor the Status
Register until SR[7] and SR[6] are set, indicating the device is suspended and ready to accept
another command.
Next, write the desired lock command sequence to a block, which changes the lock state of that
block. After completing block lock or unlock operations, resume the erase operation using the
Erase Resume command.
Note:
A Lock Block Setup command followed by any command other than Lock Block, Unlock Block,
or Lock-Down Block produces a command sequence error and set Status Register bits SR[4] and
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SR[5]. If a command sequence error occurs during an erase suspend, SR[4] and SR[5] remains set,
even after the erase operation is resumed. Unless the Status Register is cleared using the Clear
Status Register command before resuming the erase operation, possible erase errors may be
masked by the command sequence error.
If a block is locked or locked-down during an erase suspend of the same block, the lock status bits
change immediately. However, the erase operation completes when it is resumed. Block lock
operations cannot occur during a program suspend. See Appendix A, “Write State Machine” on
page 78, which shows valid commands during an erase suspend.
13.2
Selectable One-Time Programmable Blocks
Any of four pre-defined areas from the main array (the four 32 KB parameter blocks together as
one and the three adjacent 128 KB main blocks) can be configured as One-Time Programmable
(OTP) so further program and erase operations are not allowed. This option is available for top or
bottom parameter devices.
Table 27.
Selectable OTP Block Mapping
Density
Top Parameter Configuration
Bottom Parameter Configuration
blocks 258:255 (parameters)
block 254 (main)
blocks 3:0 (parameters)
block 4 (main)
256-Mbit
block 253 (main)
block 5 (main)
block 252 (main)
block 6 (main)
blocks 130:127 (parameters)
block 126 (main)
blocks 3:0 (parameters)
block 4 (main)
128-Mbit
block 125 (main)
block 5 (main)
block 124 (main)
block 6 (main)
blocks 66:63 (parameters)
block 62 (main)
blocks 3:0 (parameters)
block 4 (main)
64-Mbit
block 61 (main)
block 5 (main)
block 60 (main)
block 6 (main)
Note: The 512-Mbit and 1-Gbit devices will have multiple Selectable OTP Areas depending on
the number of 256-Mbit dies in the stack and the placement of the parameter blocks.
Please see your local Intel representative for details about the Selectable OTP implementation.
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13.3
Protection Registers
The device contains 17 Protection Registers (PRs) that can be used to implement system security
measures and/or device identification. Each Protection Register can be individually locked.
The first 128-bit Protection Register is comprised of two 64-bit (8-word) segments. The lower 64-
bit segment is pre-programmed at the Intel factory with a unique 64-bit number. The other 64-bit
segment, as well as the other sixteen 128-bit Protection Registers, are blank. Users can program
these registers as needed. When programmed, users can then lock the Protection Register(s) to
prevent additional bit programming (see Figure 33, “Protection Register Map” on page 73).
The user-programmable Protection Registers contain one-time programmable (OTP) bits; when
programmed, register bits cannot be erased. Each Protection Register can be accessed multiple
times to program individual bits, as long as the register remains unlocked.
Each Protection Register has an associated Lock Register bit. When a Lock Register bit is
programmed, the associated Protection Register can only be read; it can no longer be programmed.
Additionally, because the Lock Register bits themselves are OTP, when programmed, Lock
Register bits cannot be erased. Therefore, when a Protection Register is locked, it cannot be
unlocked.
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Datasheet
1-Gbit P30 Family
.
Figure 33.
Protection Register Map
0x109
128-bit Protection Register 16
(User-Programmable)
0x102
0x91
128-bit Protection Register 1
(User-Programmable)
0x8A
Lock Register 1
15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
0x89
0x88
64-bit Segment
(User-Programmable)
0x85
0x84
128-Bit Protection Register 0
64-bit Segment
(Factory-Programmed)
0x81
0x80
Lock Register 0
15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
13.3.1
Reading the Protection Registers
The Protection Registers can be read from any address. To read the Protection Register, first issue
the Read Device Identifier command at any address to place the device in the Read Device
Identifier state (see Section 9.2, “Device Commands” on page 50). Next, perform a read operation
using the address offset corresponding to the register to be read. Table 29, “Device Identifier
Information” on page 77 shows the address offsets of the Protection Registers and Lock Registers.
Register data is read 16 bits at a time.
13.3.2
Programming the Protection Registers
To program any of the Protection Registers, first issue the Program Protection Register command
at the parameter’s base address plus the offset to the desired Protection Register (see Section 9.2,
“Device Commands” on page 50). Next, write the desired Protection Register data to the same
Protection Register address (see Figure 33, “Protection Register Map” on page 73).
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Order Number: 306666, Revision: 001
April 2005
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1-Gbit P30 Family
The device programs the 64-bit and 128-bit user-programmable Protection Register data 16 bits at
a time (see Figure 47, “Protection Register Programming Flowchart” on page 92). Issuing the
Program Protection Register command outside of the Protection Register’s address space causes a
program error (SR[4] set). Attempting to program a locked Protection Register causes a program
error (SR[4] set) and a lock error (SR[1] set).
13.3.3
Locking the Protection Registers
Each Protection Register can be locked by programming its respective lock bit in the Lock
Register. To lock a Protection Register, program the corresponding bit in the Lock Register by
issuing the Program Lock Register command, followed by the desired Lock Register data (see
Section 9.2, “Device Commands” on page 50). The physical addresses of the Lock Registers are
0x80 for register 0 and 0x89 for register 1. These addresses are used when programming the lock
registers (see Table 29, “Device Identifier Information” on page 77).
Bit 0 of Lock Register 0 is already programmed at the factory, locking the lower, pre-programmed
64-bit region of the first 128-bit Protection Register containing the unique identification number of
the device. Bit 1 of Lock Register 0 can be programmed by the user to lock the user-programmable,
64-bit region of the first 128-bit Protection Register. When programming Bit 1 of Lock Register 0,
all other bits need to be left as ‘1’ such that the data programmed is 0xFFFD.
Lock Register 1 controls the locking of the upper sixteen 128-bit Protection Registers. Each of the
16 bits of Lock Register 1 correspond to each of the upper sixteen 128-bit Protection Registers.
Programming a bit in Lock Register 1 locks the corresponding 128-bit Protection Register.
Caution:
After being locked, the Protection Registers cannot be unlocked.
April 2005
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Datasheet
1-Gbit P30 Family
14.0
Special Read States
The following sections describe non-array read states. Non-array reads can be performed in
asynchronous read or synchronous burst mode. A non-array read operation occurs as asynchronous
single-word mode. When non-array reads are performed in asynchronous page mode only the first
data is valid and all subsequent data are undefined. When a non-array read operation occurs as
synchronous burst mode, the same word of data requested will be output on successive clock edges
until the burst length requirements are satisfied.
Refer to the following waveforms for more detailed information:
• Figure 16, “Asynchronous Single-Word Read (ADV# Low)” on page 38
• Figure 17, “Asynchronous Single-Word Read (ADV# Latch)” on page 38
• Figure 19, “Synchronous Single-Word Array or Non-array Read Timing” on page 39
14.1
Read Status Register
To read the Status Register, issue the Read Status Register command at any address. Status Register
information is available to which the Read Status Register, Word Program, or Block Erase
command was issued. Status Register data is automatically made available following a Word
Program, Block Erase, or Block Lock command sequence. Reads from the device after any of these
command sequences outputs the device’s status until another valid command is written (e.g. Read
Array command).
The Status Register is read using single asynchronous-mode or synchronous burst mode reads.
Status Register data is output on DQ[7:0], while 0x00 is output on DQ[15:8]. In asynchronous
mode the falling edge of OE#, or CE# (whichever occurs first) updates and latches the Status
Register contents. However, reading the Status Register in synchronous burst mode, CE# or ADV#
must be toggled to update status data.
The Device Write Status bit (SR[7]) provides overall status of the device. Status register bits
SR[6:1] present status and error information about the program, erase, suspend, VPP, and block-
locked operations.
Table 28.
Status Register Description (Sheet 1 of 2)
Default Value = 0x80
Status Register (SR)
Erase
Device
Write Status
Status
Program
Suspend
Status
Block-
BEFP
Erase
Status
Program
Status
Suspend
VPP Status
Locked
Status
Status
DWS
7
ESS
6
ES
5
PS
4
VPPS
3
PSS
2
BLS
1
BWS
0
Bit
Name
Description
Device Write Status
(DWS)
0 = Device is busy; program or erase cycle in progress; SR[0] valid.
1 = Device is ready; SR[6:1] are valid.
7
6
Erase Suspend Status
(ESS)
0 = Erase suspend not in effect.
1 = Erase suspend in effect.
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1-Gbit P30 Family
Table 28.
Status Register Description (Sheet 2 of 2)
Status Register (SR)
Default Value = 0x80
0 = Erase successful.
1 = Erase fail or program sequence error when set with SR[4,7].
5
4
3
2
1
Erase Status (ES)
Program Status (PS)
PP Status (VPPS)
0 = Program successful.
1 = Program fail or program sequence error when set with SR[5,7]
0 = VPP within acceptable limits during program or erase operation.
1 = VPP < VPPLK during program or erase operation.
V
Program Suspend Status 0 = Program suspend not in effect.
(PSS)
1 = Program suspend in effect.
Block-Locked Status
(BLS)
0 = Block not locked during program or erase.
1 = Block locked during program or erase; operation aborted.
DWS BWS
0
0
1
1
0
1
0
1
= WSM is busy and buffer is available for loading.
= WSM is busy and buffer is not available for loading.
= WSM is not busy and buffer is available for loading.
= Reserved for Future Use (RFU).
0
BEFP Status (BWS)
Note:
Always clear the Status Register prior to resuming erase operations. It avoids Status Register
ambiguity when issuing commands during Erase Suspend. If a command sequence error occurs
during an erase-suspend state, the Status Register contains the command sequence error status
(SR[7,5,4] set). When the erase operation resumes and finishes, possible errors during the erase
operation cannot be detected via the Status Register because it contains the previous error status.
14.1.1
Clear Status Register
The Clear Status Register command clears the status register. It functions independent of VPP. The
Write State Machine (WSM) sets and clears SR[7,6,2], but it sets bits SR[5:3,1] without clearing
them. The Status Register should be cleared before starting a command sequence to avoid any
ambiguity. A device reset also clears the Status Register.
14.2
Read Device Identifier
The Read Device Identifier command instructs the device to output manufacturer code, device
identifier code, block-lock status, protection register data, or configuration register data (see
Section 9.2, “Device Commands” on page 50 for details on issuing the Read Device Identifier
command). Table 29, “Device Identifier Information” on page 77 and Table 30, “Device ID codes”
on page 77 show the address offsets and data values for this device.
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Datasheet
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Table 29.
Device Identifier Information
Item
Address(1)
Data
Manufacturer Code
0x00
0x01
0089h
Device ID Code
ID (see Table 30)
Block Lock Configuration:
• Block Is Unlocked
Lock Bit:
DQ0 = 0b0
DQ0 = 0b1
• Block Is Locked
BBA + 0x02
• Block Is not Locked-Down
• Block Is Locked-Down
Configuration Register
DQ1 = 0b0
DQ1 = 0b1
0x05
0x80
Configuration Register Data
PR-LK0
Lock Register 0
64-bit Factory-Programmed Protection Register
64-bit User-Programmable Protection Register
Lock Register 1
0x81–0x84
0x85–0x88
0x89
Factory Protection Register Data
User Protection Register Data
Protection Register Data
PR-LK1
128-bit User-Programmable Protection Registers
Notes:
0x8A–0x109
1.
BBA = Block Base Address.
Table 30.
Device ID codes
Device Identifier Codes
ID Code Type
Device Density
–T
–B
(Top Parameter) (Bottom Parameter)
64-Mbit
128-Mbit
256-Mbit
8817
8818
8919
881A
881B
891C
Device Code
14.3
CFI Query
The CFI Query command instructs the device to output Common Flash Interface (CFI) data when
read. See Section 9.2, “Device Commands” on page 50 for details on issuing the CFI Query
command. Appendix C, “Common Flash Interface” on page 93 shows CFI information and address
offsets within the CFI database.
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April 2005
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1-Gbit P30 Family
Appendix A Write State Machine
Figure 34 through Figure 39 show the command state transitions (Next State Table) based on
incoming commands. Only one partition can be actively programming or erasing at a time. Each
partition stays in its last read state (Read Array, Read Device ID, CFI Query or Read Status Register)
until a new command changes it. The next WSM state does not depend on the partition’s output state.
Figure 34.
Write State Machine—Next State Table (Sheet 1 of 6)
Chip
Command Input to Chip and resulting
Next State
BE Confirm,
Buffered
Enhanced
P/E
Resume,
ULB,
Clear
Status
Register (5)
Lock, Unlock,
Lock-down,
CR setup (4)
Buffered
Program
(BP)
BP / Prg /
Erase
Suspend
Read
Word
Program (3,4)
Erase
Setup (3,4)
Read
Status
Read
ID/Query
(2)
Current Chip
State (7)
Factory Pgm
Array
Setup (3, 4)
Confirm (8)
(FFH)
(10H/40H)
(E8H)
(20H)
(80H)
(D0H)
(B0H)
(70H)
(50H)
(90H, 98H)
(60H)
Program
Setup
Erase
Setup
Lock/CR
Setup
Ready
Ready
Ready
BP Setup
BEFP Setup
Ready
(Unlock
Block)
Lock/CR Setup
Ready (Lock Error)
Ready (Lock Error)
Setup
OTP
Busy
OTP Busy
Word Program Busy
Word
Setup
Program Busy
Word Program Busy
Busy
Word
Program
Program
Suspend
Word
Program
Busy
Word Program Suspend
Word Program Suspend
Suspend
BP Load 1
BP Load 2
Setup
BP Load 1
BP Confirm if Data load into Program Buffer is complete; Else BP Load 2
BP Load 2
BP
BP
Confirm
Ready (Error)
Ready (Error)
BP Busy
BP Busy
BP Busy
BP Suspend
Ready (Error)
Erase Busy
BP Busy
BP Suspend
BP
Suspend
BP Suspend
Ready (Error)
BP Busy
Setup
Erase Busy
Erase
Suspend
Erase Busy
Busy
Erase
Word
Program
Setup in
Erase
Lock/CR
Setup in
Erase
BP Setup in
Erase
Suspend
Erase
Suspend
Erase Suspend
Erase Suspend
Suspend
Erase Busy
Suspend
Suspend
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Figure 35.
Write State Machine—Next State Table (Sheet 2 of 6)
Command Input to Chip and resulting Chip Next State
BE Confirm,
P/E
Resume,
ULB,
Confirm (8)
Buffered
Enhanced
Factory Pgm
Setup (3, 4)
Clear
Status
Register (5)
Lock, Unlock,
Lock-down,
CR setup (4)
Buffered
Program
(BP)
BP / Prg /
Erase
Suspend
Read
Word
Program (3,4)
Erase
Setup (3,4)
Read
Status
Read
ID/Query
(2)
Current Chip
State (7)
Array
(FFH)
(10H/40H)
(E8H)
(20H)
(80H)
(D0H)
(B0H)
(70H)
(50H)
(90H, 98H)
(60H)
Word Program Busy in Erase Suspend
Setup
Word
Program
Word Program Busy in Erase Suspend
Word Program Suspend in Erase Suspend
Word Program Busy in Erase Suspend Busy
Word Program Suspend in Erase Suspend
Busy
Word
Program in
Erase
Suspend in
Erase
Suspend
Word
Program
Busy in
Erase
Suspend
Suspend
Suspend
BP Load 1
BP Load 2
Setup
BP Load 1
BP Confirm if Data load into Program Buffer is complete; Else BP Load 2
BP Load 2
BP Busy in
Erase
Suspend
BP in Erase
Suspend
BP
Confirm
Erase Suspend (Error)
Ready (Error in Erase Suspend)
BP Suspend
in Erase
BP Busy in Erase Suspend
BP Busy in Erase Suspend
BP Busy
Suspend
BP Busy in
Erase
Suspend
BP
Suspend
BP Suspend in Erase Suspend
BP Suspend in Erase Suspend
Erase
Suspend
(Unlock
Block)
Lock/CR Setup in Erase
Suspend
Erase Suspend (Lock Error)
Ready (Error)
Erase Suspend (Lock Error [Botch])
Ready (Error)
BEFP
Loading
Data (X=32)
Buffered
Enhanced
Factory
Program
Mode
Setup
BEFP
Busy
BEFP Program and Verify Busy (if Block Address given matches address given on BEFP Setup command). Commands treated as data. (7)
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April 2005
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1-Gbit P30 Family
Figure 36.
Write State Machine—Next State Table (Sheet 3 of 6)
Chip
Command Input to Chip and resulting
Next State
Lock
Block
Confirm (8) Confirm
Lock-Down
OTP
Setup (4)
Write RCR
Block Address
Illegal Cmds or
BEFP Data (1)
Block
WSM
Operation
Completes
(8)
9
Current Chip
State (7)
Confirm
(?WA0)
(8)
(C0H)
(01H)
(2FH)
(03H)
(XXXXH)
(all other codes)
OTP
Setup
Ready
Ready
Ready
(Lock
Error)
Ready
(Lock
Block)
Ready
(Lock Down
Blk)
Ready
(Set CR)
N/A
Ready (Lock Error)
Lock/CR Setup
Setup
OTP Busy
OTP
Busy
Ready
N/A
Word Program Busy
Word Program Busy
Setup
Ready
Busy
Word
Program
Word Program Suspend
BP Load 1
Suspend
Setup
BP Load 2
Ready (BP Load 2 BP Load 2
BP Load 1
BP Confirm if
Data load into
Program Buffer is
complete; ELSE
BP Load 2
N/A
BP Confirm if Data load into Program Buffer is
complete; ELSE BP load 2
Ready
BP Load 2
BP
Ready (Error)
(Proceed if
unlocked or lock
error)
BP
Confirm
Ready (Error)
Ready (Error)
BP Busy
BP Busy
BP Suspend
Ready (Error)
Erase Busy
Ready
N/A
BP
Suspend
Setup
Busy
Ready
Erase
Suspend
Erase Suspend
N/A
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Datasheet
1-Gbit P30 Family
Figure 37.
Write State Machine—Next State Table (Sheet 4 of 6)
Command Input to Chip and resulting Chip Next State
Lock
Block
Confirm (8) Confirm
Lock-Down
OTP
Setup (4)
Write RCR
Block Address
Illegal Cmds or
BEFP Data (1)
Block
WSM
Operation
Completes
(8)
9
Current Chip
State (7)
Confirm
(?WA0)
(8)
(C0H)
(01H)
(2FH)
(03H)
(XXXXH)
(all other codes)
Setup
Word Program Busy in Erase Suspend
NA
Word Program Busy in Erase Suspend Busy
Busy
Erase Suspend
Word
Program in
Erase
Suspend
Word Program Suspend in Erase Suspend
BP Load 1
Suspend
N/A
Setup
BP Load 2
Ready (BP Load 2 BP Load 2
BP Load 1
BP Confirm if
Data load into
Program Buffer is
complete; Else
BP Load 2
BP Confirm if Data load into Program Buffer is
complete; Else BP Load 2
N/A
Ready
BP Load 2
BP in Erase
Suspend
BP
Ready (Error)
(Proceed if
unlocked or lock
error)
Ready (Error in Erase Suspend)
Ready (Error)
Confirm
BP Busy in Erase Suspend
Erase Suspend
BP Busy
BP
Suspend
BP Suspend in Erase Suspend
Erase
Suspend Suspend
(Lock
Error)
Erase
Erase
Erase
Suspend
Lock/CR Setup in Erase
Suspend
Erase Suspend (Lock Error)
Suspend
(Set CR)
N/A
(Lock
Block)
(Lock Down
Block)
Ready (BEFP
Ready (Error)
Loading Data)
Ready (Error)
Buffered
Enhanced
Factory
Program
Mode
Setup
BEFP Program and Verify Busy (if Block Address
given matches address given on BEFP Setup
command). Commands treated as data. (7)
BEFP
Busy
Ready
Ready
BEFP Busy
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1-Gbit P30 Family
Figure 38.
Write State Machine—Next State Table (Sheet 5 of 6)
Output Next State Table
Output
Command Input to Chip and resulting
Mux Next State
BE Confirm,
P/E
Resume,
Buffered
Enhanced
Factory Pgm
Setup (3, 4)
Clear
Status
Register (5)
Lock, Unlock,
Lock-down,
Word
Program
Setup (3,4)
Program/
Erase
Suspend
Read
Erase
Read
Status
Read
ID/Query
BP Setup
(E8H)
(2)
Array
Setup (3,4)
CR setup (4)
ULB Confirm
Current chip state
(8)
(FFH)
(10H/40H)
(20H)
(30H)
(D0H)
(B0H)
(70H)
(50H)
(90H, 98H)
(60H)
BEFP Setup,
BEFP Pgm & Verify
Busy,
Erase Setup,
OTP Setup,
BP: Setup, Load 1,
Load 2, Confirm,
Word Pgm Setup,
Word Pgm Setup in
Erase Susp,
Status Read
BP Setup, Load1,
Load 2, Confirm in
Erase Suspend
Lock/CR Setup,
Lock/CR Setup in
Erase Susp
Status Read
Status
Read
OTP Busy
Ready,
Erase Suspend,
BP Suspend
BP Busy,
Word Program
Busy,
Erase Busy,
BP Busy
Output mux
does not
change.
Read Array
Status Read
Output does not change.
Status Read
Status Read
ID Read
BP Busy in Erase
Suspend
Word Pgm
Suspend,
Word Pgm Busy in
Erase Suspend,
Pgm Suspend In
Erase Suspend
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Datasheet
1-Gbit P30 Family
Figure 39.
Write State Machine—Next State Table (Sheet 6 of 6)
Output Next State Table
Command Input to Chip and resulting Output Mux Next State
Lock
Block
Confirm (8) Confirm
Lock-Down
OTP
Setup (4)
Write CR
Illegal Cmds or
BEFP Data (1)
Block Address
(?WA0)
Block
WSM
(8)
Confirm
(8)
Operation
Completes
Current chip state
(C0H)
(01H)
(2FH)
(03H)
(FFFFH)
(all other codes)
BEFP Setup,
BEFP Pgm & Verify
Busy,
Erase Setup,
OTP Setup,
BP: Setup, Load 1,
Load 2, Confirm,
Word Pgm Setup,
Word Pgm Setup in
Erase Susp,
Status Read
BP Setup, Load1,
Load 2, Confirm in
Erase Suspend
Lock/CR Setup,
Lock/CR Setup in
Erase Susp
Array
Read
Status Read
Status Read
Output does
not change.
OTP Busy
Ready,
Erase Suspend,
BP Suspend
BP Busy,
Word Program
Busy,
Erase Busy,
BP Busy
Status
Read
Output does not
change.
Output does not change.
Array Read
BP Busy in Erase
Suspend
Word Pgm
Suspend,
Word Pgm Busy in
Erase Suspend,
Pgm Suspend In
Erase Suspend
Notes:
1.
2.
3.
4.
"Illegal commands" include commands outside of the allowed command set (allowed commands: 40H [pgm], 20H [erase],
etc.)
If a "Read Array" is attempted from a busy partition, the result will be invalid data. The ID and Query data are located at
different locations in the address map.
1st and 2nd cycles of "2 cycles write commands" must be given to the same partition address, or unexpected results will
occur.
To protect memory contents against erroneous command sequences, there are specific instances in a multi-cycle
command sequence in which the second cycle will be ignored. For example, when the device is program suspended and
an erase setup command (0x20) is given followed by a confirm/resume command (0xD0), the second command will be
ignored because it is unclear whether the user intends to erase the block or resume the program operation.
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5.
The Clear Status command only clears the error bits in the status register if the device is not in the following modes: WSM
running (Pgm Busy, Erase Busy, Pgm Busy In Erase Suspend, OTP Busy, BEFP modes).
BEFP writes are only allowed when the status register bit #0 = 0, or else the data is ignored.
The "current state" is that of the "chip" and not of the "partition"; Each partition "remembers" which output (Array, ID/CFI or
Status) it was last pointed to on the last instruction to the "chip", but the next state of the chip does not depend on where
the partition's output mux is presently pointing to.
6.
7.
8.
9.
Confirm commands (Lock Block, Unlock Block, Lock-Down Block, Configuration Register) perform the operation and then
move to the Ready State.
WA0 refers to the block address latched during the first write cycle of the current operation.
April 2005
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1-Gbit P30 Family
Appendix B Flowcharts
Figure 40.
Word Program Flowchart
WORD PROGRAM PROCEDURE
Bus
Start
Command
Operation
Comments
Program Data = 0x40
Setup Addr = Location to program
Write
Write 0x40,
(Setup)
Word Address
Data = Data to program
Addr = Location to program
Write
Read
Data
Write Data,
(Confirm)
Word Address
None
Status register data
Program
Suspend
Loop
Read Status
Register
Check SR[7]
1 = WSM Ready
0 = WSM Busy
Idle
None
No
Suspend?
Yes
0
SR[7] =
1
Repeat for subsequent Word Program operations.
Full Status Register check can be done after each program, or
after a sequence of program operations.
Full Status
Check
(if desired)
Write 0xFF after the last operation to set to the Read Array
state.
Program
Complete
FULL STATUS CHECK PROCEDURE
Read Status
Register
Bus
Command
Operation
Comments
Check SR[3]:
1 = VPP Error
Idle
Idle
None
1
1
1
VPP Range
Error
SR[3] =
0
Check SR[4]:
1 = Data Program Error
None
Program
Error
Check SR[1]:
1 = Block locked; operation aborted
SR[4] =
0
Idle
None
If an error is detected, clear the Status Register before
continuing operations - only the Clear Staus Register
command clears the Status Register error bits.
Device
Protect Error
SR[1] =
0
Program
Successful
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April 2005
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1-Gbit P30 Family
Figure 41.
Program Suspend/Resume Flowchart
PROGRAM SUSPEND / RESUME PROCEDURE
Start
Bus
Program Suspend
Write B0h
Command
Operation
Comments
Any Address
Program Data = B0h
Write
Suspend Addr = Block to suspend (BA)
Read Status
Write 70h
Same Partition
Read
Data = 70h
Write
Read
Status Addr = Same partition
Read Status
Register
Status register data
Addr = Suspended block (BA)
Check SR.7
Standby
Standby
1 = WSM ready
0 = WSM busy
0
0
SR.7 =
1
Check SR.2
1 = Program suspended
0 = Program completed
Program
Completed
SR.2 =
Data = FFh
Addr = Any address within the
suspended partition
1
Read
Array
Write
Read
Write
Read Array
Write FFh
Susp Partition
Read array data from block other than
the one being programmed
Read Array
Data
Program Data = D0h
Resume Addr = Suspended block (BA)
If the suspended partition was placed in Read Array mode:
Done
No
Reading
Return partition to Status mode:
Read
Write
Data = 70h
Yes
Status
Addr = Same partition
Program Resume
Read Array
Write FFh
Write D0h
Any Address
Pgm'd Partition
Program
Resumed
Read Array
Data
Read Status
Write 70h
Same Partition
PGM_SUS.WMF
April 2005
86
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 42.
Buffer Program Flowchart
Buffer Programming Procedure
Start
Bus
Operation
Command
Comments
Device
Supports Buffer
Writes?
Use Single Word
Programming
Buffer Prog. Data = 0xE8
Write
Setup
Addr = Word Address
No
SR[7] = Valid
Addr = Word Address
Read
Idle
None
Yes
Set Timeout or
Loop Counter
Check SR[7]:
1 = Write Buffer available
0 = No Write Buffer available
None
None
Get Next
Target Address
Data = N-1 = Word Count
N = 0 corresponds to count = 1
Addr = Word Address
Write
(Notes 1, 2)
Issue Buffer Prog. Cmd.
0xE8,
Write
(Notes 3, 4)
Data = Write Buffer Data
Addr = Start Word Address
None
None
Word Address
Write
(Note 3)
Data = Write Buffer Data
Addr = Word Address
Read Status Register
at Word Address
Write
Buffer Prog. Data = 0xD0
(Notes 5, 6)
Conf.
Addr = Original Word Address
No
Status register Data
Addr = Note 7
Read
Idle
None
Timeout
or Count
Expired?
Write Buffer
0 = No
Available?
SR[7] =
Yes
Check SR[7]:
1 = WSM Ready
0 = WSM Busy
None
1 = Yes
Write Word Count,
Word Address
1. Word count value on D[7:0] is loaded into the word count
register. Count ranges for this device are N = 0x00 to 0x1F.
2. The device outputs the Status Register when read.
3. Write Buffer contents will be programmed at the issued word
address.
4. Align the start address on a Write Buffer boundary for
maximum programming performance (i.e., A[4:0] of the Start
Word Address = 0x00).
5. The Buffered Programming Confirm command must be
issued to an address in the same block, for example, the
original Start Word Address, or the last address used during the
loop that loaded the buffer data.
Buffer Program Data,
Start Word Address
X = X + 1
Write Buffer Data,
Word Address
X = 0
No
No
6. The Status Register indicates an improper command
sequence if the Buffer Program command is aborted; use the
Clear Status Register command to clear error bits.
7. The Status Register can be read from any address within
the programming partition.
Abort Buffer
Program?
X = N?
Yes
Yes
Write to another
Block Address
Write Confirm 0xD0
and Word Address
(Note 5)
Full status check can be done after all erase and write
sequences complete. Write 0xFF after the last operation to
place the partition in the Read Array state.
Issue Read
Status Register
Command
Buffer Program Aborted
Read Status Register
(Note 7)
Suspend
Program
Loop
No
0=No
Yes
Suspend
Program?
Is BP finished?
SR[7] =
1=Yes
Full Status
Check if Desired
Program Complete
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
87
1-Gbit P30 Family
Figure 43.
BEFP Flowchart
BUFFERED ENHANCED FACTORY PROGRAMMING (BEFP) PROCEDURE
Setup Phase
Program & Verify Phase
Exit Phase
Read
Status Reg.
Read
Status Reg.
Start
VPP applied
Block Unlocked
No (SR[7]=0)
BEFP
Exited?
No (SR[0]=1)
Data Stream
Ready?
Yes (SR[0]=0)
Yes (SR[7]=1)
Write 80h @
1st Word Address
Initialize Count:
X = 0
Full Status Check
Procedure
Write D0h @
1st Word Address
Write Data @ 1st
Word Address
Program
Complete
BEFP Setup delay
Increment Count:
X = X+1
Read
Status Reg.
N
Check
X = 32?
Yes (SR[7]=0)
Y
BEFP Setup
Done?
Read
No (SR[7]=1)
Status Reg.
No (SR[0]=1)
Check VPP, Lock
errors (SR[3,1])
Program
Done?
Yes (SR[0]=0)
Exit
N
Last
Data?
Y
Write 0xFFFF,
Address Not within
Current Block
BEFP Setup
BEFP Program & Verify
BEFP Exit
Operation Comments
Bus
State
Bus
State
Bus
State
Operation
Comments
Operation
Comments
Unlock
Block
Status
Register
Data = Status Register Data
Address = 1st Word Addr.
Status
Register
Data = Status Register Data
Address = 1st Word Addr.
Read
Write
VPPH applied to VPP
Read
Write
(Note 1)
BEFP
Setup
Data = 0x80 @ 1st Word
Address
Data = 0x80 @ 1st Word
Address1
Check SR[0]:
0 = Ready for Data
1 = Not Ready for Data
Check
Exit
Status
Check SR[7]:
0 = Exit Not Completed
1 = Exit Completed
Data Stream
Ready?
Standby
Standby
Standby
BEFP
Confirm
Write
Read
Initialize
Count
Repeat for subsequent blocks ;
X = 0
Status
Register
Data = Status Register Data
Address = 1st Word Addr.
After BEFP exit, a full Status Register check can
determine if any program error occurred;
Write
(note 2)
Load
Buffer
Data = Data to Program
Address = 1st Word Addr.
BEFP
Setup
Done?
Check SR[7]:
0 = BEFP Ready
1 = BEFP Not Ready
Standby
Increment
Count
See full Status Register check procedure in the
Word Program flowchart.
Standby
Standby
Read
X = X+1
X = 32?
Yes = Read SR[0]
No = Load Next Data Word
Error
If SR[7] is set, check:
SR[3] set = VPP Error
SR[1] set = Locked Block
Buffer
Full?
Write 0xFF to enter Read Array state.
Standby Condition
Check
Status
Register
Data = Status Reg. Data
Address = 1st Word Addr.
Check SR[0]:
0 = Program Done
1 = Program in Progress
Program
Done?
Standby
Last
Data?
No = Fill buffer again
Yes = Exit
Standby
Write
Exit Prog & Data = 0xFFFF @ address
Verify Phase not in current block
NOTES:
1. First-word address to be programmed within the target block must be aligned on a write -buffer boundary.
2. Write-buffer contents are programmed sequentially to the flash array starting at the first word address (WSM internally increments addressing).
April 2005
88
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 44.
Block Erase Flowchart
BLOCK ERASE PROCEDURE
Bus
Start
Command
Operation
Comments
Block
Erase
Setup
Data = 0x20
Addr = Block to be erased (BA)
Write
Write
Read
Write 0x20,
(Block Erase)
Block Address
Erase Data = 0xD0
Confirm Addr = Block to be erased (BA)
Write 0xD0,
(Erase Confirm)
Block Address
None
None
Status Register data.
Suspend
Erase
Loop
Read Status
Register
Check SR[7]:
1 = WSM ready
0 = WSM busy
Idle
No
Suspend
Erase
0
Yes
SR[7] =
1
Repeat for subsequent block erasures.
Full Status register check can be done after each block erase
or after a sequence of block erasures.
Full Erase
Status Check
(if desired)
Write 0xFF after the last operation to enter read array mode.
Block Erase
Complete
FULL ERASE STATUS CHECK PROCEDURE
Read Status
Register
Bus
Command
Operation
Comments
Check SR[3]:
1 = VPP Range Error
Idle
Idle
None
None
1
VPP Range
Error
SR[3] =
0
Check SR[4,5]:
Both 1 = Command Sequence Error
1,1
1
Command
Sequence Error
Check SR[5]:
1 = Block Erase Error
SR[4,5] =
0
Idle
Idle
None
None
Check SR[1]:
1 = Attempted erase of locked block;
erase aborted.
Block Erase
Error
SR[5] =
0
Only the Clear Status Register command clears SR[1, 3, 4, 5].
If an error is detected, clear the Status register before
attempting an erase retry or other error recovery.
1
Block Locked
Error
SR[1] =
0
Block Erase
Successful
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
89
1-Gbit P30 Family
Figure 45.
Erase Suspend/Resume Flowchart
ERASE SUSPEND / RESUME PROCEDURE
Start
Bus
Command
Operation
Comments
Write 0x70,
Same Partition
Read
Status
Data = 0x70
Addr = Any partition address
(Read Status)
Write
Write
Read
Data = 0xB0
Addr = Same partition address as
above
Erase
Suspend
Write 0xB0,
Any Address
(Erase Suspend)
Status Register data.
Addr = Same partition
None
None
Read Status
Register
Check SR[7]:
1 = WSM ready
0 = WSM busy
Idle
0
SR[7] =
1
Check SR[6]:
1 = Erase suspended
Idle
None
0 = Erase completed
0
Erase
Completed
SR[6] =
1
Data = 0xFF or 0x40
Addr = Any address within the
suspended partition
Read Array
or Program
Write
Read or
Write
Read array or program data from/to
block other than the one being erased
Read
Program
Read or
Program?
None
Read Array
Data
Program
Loop
Program Data = 0xD0
Resume Addr = Any address
No
Write
Done
If the suspended partition was placed in
Read Array mode or a Program Loop:
Read
Status
Return partition to Status mode:
Data = 0x70
Write 0xD0,
Any Address
Write
(Erase Resume)
Register Addr = Same partition
Erase
Resumed
Write 0xFF,
Erased Partition
(Read Array)
Write 0x70,
Same Partition
Read Array
Data
(Read Status)
April 2005
90
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Figure 46.
Block Lock Operations Flowchart
LOCKING OPERATIONS PROCEDURE
Start
Bus
Command
Comments
Operation
Write 0x60,
Block Address
Lock
Setup
Data = 0x60
Addr = Block to lock/unlock/lock-down
(Lock Setup)
Write
Lock,
Unlock, or
Lock-Down
Data = 0x01 (Block Lock)
0xD0 (Block Unlock)
Write either
0x01/0xD0/0x2F,
Block Address
(Lock Confirm)
(Read Device ID)
Write
Write
0x2F (Lock-Down Block)
Confirm Addr = Block to lock/unlock/lock-down
Read Data = 0x90
(Optional) Device ID Addr = Block address + offset 2
Write 0x90
Read
(Optional)
Block Lock Block Lock status data
Status Addr = Block address + offset 2
Read Block
Lock Status
Idle
None
Confirm locking change on D[1,0].
Locking
No
Change?
Yes
Read
Array
Data = 0xFF
Addr = Block address
Write
Write 0xFF
Partition Address
(Read Array)
Lock Change
Complete
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
91
1-Gbit P30 Family
Figure 47.
Protection Register Programming Flowchart
PROTECTION REGISTER PROGRAMMING PROCEDURE
Bus
Operation
Start
Command
Comments
Program Data = 0xC0
PR Setup Addr = First Location to Program
Write
Write 0xC0,
PR Address
(Program Setup)
(Confirm Data)
Protection Data = Data to Program
Program Addr = Location to Program
Write
Read
Write PR
Address & Data
None
None
Status Register Data.
Read Status
Register
Check SR[7]:
1 = WSM Ready
0 = WSM Busy
Idle
Program Protection Register operation addresses must be
within the Protection Register address space. Addresses
outside this space will return an error.
0
SR[7] =
1
Repeat for subsequent programming operations.
Full Status
Check
(if desired)
Full Status Register check can be done after each program, or
after a sequence of program operations.
Write 0xFF after the last operation to set Read Array state.
Program
Complete
FULL STATUS CHECK PROCEDURE
Read Status
Register Data
Bus
Operation
Command
Comments
Check SR[3]:
1 =VPP Range Error
Idle
Idle
Idle
None
1
1
1
SR[3] =
0
VPP Range Error
Check SR[4]:
1 =Programming Error
None
None
Check SR[1]:
1 =Block locked; operation aborted
SR[4] =
0
Program Error
Only the Clear Staus Register command clears SR[1, 3, 4].
If an error is detected, clear the Status register before
attempting a program retry or other error recovery.
Register Locked;
Program Aborted
SR[1] =
0
Program
Successful
April 2005
92
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Appendix C Common Flash Interface
The Common Flash Interface (CFI) is part of an overall specification for multiple command-set
and control-interface descriptions. This appendix describes the database structure containing the
data returned by a read operation after issuing the CFI Query command (see Section 9.2, “Device
Commands” on page 50). System software can parse this database structure to obtain information
about the flash device, such as block size, density, bus width, and electrical specifications. The
system software will then know which command set(s) to use to properly perform flash writes,
block erases, reads and otherwise control the flash device.
C.1
Query Structure Output
The Query database allows system software to obtain information for controlling the flash device.
This section describes the device’s CFI-compliant interface that allows access to Query data.
Query data are presented on the lowest-order data outputs (DQ7-0) only. The numerical offset value
is the address relative to the maximum bus width supported by the device. On this family of
devices, the Query table device starting address is a 10h, which is a word address for x16 devices.
For a word-wide (x16) device, the first two Query-structure bytes, ASCII “Q” and “R,” appear on
the low byte at word addresses 10h and 11h. This CFI-compliant device outputs 00h data on upper
bytes. The device outputs ASCII “Q” in the low byte (DQ7-0) and 00h in the high byte (DQ15-8).
At Query addresses containing two or more bytes of information, the least significant data byte is
presented at the lower address, and the most significant data byte is presented at the higher address.
In all of the following tables, addresses and data are represented in hexadecimal notation, so the
“h” suffix has been dropped. In addition, since the upper byte of word-wide devices is always
“00h,” the leading “00” has been dropped from the table notation and only the lower byte value is
shown. Any x16 device outputs can be assumed to have 00h on the upper byte in this mode.
Table 31.
Summary of Query Structure Output as a Function of Device and Mode
Hex
Offset
Hex
Code
ASCII
Value
Device
00010:
00011:
00012:
51
52
59
“Q”
“R”
“Y”
Device Addresses
Table 32.
Example of Query Structure Output of x16- Devices
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
93
1-Gbit P30 Family
Word Addressing:
Hex Code
D15–D0
0051
0052
0059
P_IDLO
P_IDHI
PLO
Byte Addressing:
Offset
AX–A0
Value
Offset
AX–A0
Hex Code
D7–D0
51
52
59
P_IDLO
P_IDLO
P_IDHI
...
Value
00010h
00011h
00012h
00013h
00014h
00015h
00016h
00017h
00018h
...
"Q"
"R"
"Y"
00010h
00011h
00012h
00013h
00014h
00015h
00016h
00017h
00018h
...
"Q"
"R"
"Y"
PrVendor
ID #
PrVendor
TblAdr
AltVendor
ID #
PrVendor
ID #
ID #
PHI
...
A_IDLO
A_IDHI
...
...
C.2
Query Structure Overview
The Query command causes the flash component to display the Common Flash Interface (CFI)
Query structure or “database.” The structure sub-sections and address locations are summarized
below.
Table 33.
Query Structure
Description(1)
Reserved for vendor-specific information
Command set ID and vendor data offset
Device timing & voltage information
Flash device layout
Offset
00001-Fh Reserved
00010h
0001Bh System interface information
00027h
P(3)
Sub-Section Name
CFI query identification string
Device geometry definition
Primary Intel-specific Extended Query Table
Vendor-defined additional information specific
Notes:
1.
2.
3.
Refer to the Query Structure Output section and offset 28h for the detailed definition of offset address as
a function of device bus width and mode.
BA = Block Address beginning location (i.e., 08000h is block 1’s beginning location when the block size
is 16-KWord).
Offset 15 defines “P” which points to the Primary Intel-specific Extended Query Table.
April 2005
94
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
C.3
CFI Query Identification String
The Identification String provides verification that the component supports the Common Flash
Interface specification. It also indicates the specification version and supported vendor-specified
command set(s).
Table 34.
CFI Identification
Hex
Offset Length
Description
Query-unique ASCII string “QRY“
Code
--51
--52
--59
--01
--00
--0A
--01
--00
--00
--00
--00
Add.
10:
11:
12:
13:
14:
15:
16:
17:
18:
19:
1A:
Value
"Q"
"R"
3
10h
"Y"
2
2
2
2
Primary vendor command set and control interface ID code.
16-bit ID code for vendor-specified algorithms
Extended Query Table primary algorithm address
13h
15h
17h
19h
Alternate vendor command set and control interface ID code.
0000h means no second vendor-specified algorithm exists
Secondary algorithm Extended Query Table address.
0000h means none exists
Table 35.
System Interface Information
Hex
Offset
Length
Description
Add. Code Value
1Bh
1
V
CC logic supply minimum program/erase voltage
bits 0–3 BCD 100 mV
bits 4–7 BCD volts
1B:
1C:
1D:
1E:
--17
--20
--85
--95
1.7V
2.0V
8.5V
9.5V
1Ch
1Dh
1Eh
1
1
1
VCC logic supply maximum program/erase voltage
bits 0–3 BCD 100 mV
bits 4–7 BCD volts
PP [programming] supply minimum program/erase voltage
V
bits 0–3 BCD 100 mV
bits 4–7 HEX volts
VPP [programming] supply maximum program/erase voltage
bits 0–3 BCD 100 mV
bits 4–7 HEX volts
“n” such that typical single word program time-out = 2n µ-sec
“n” such that typical max. buffer write time-out = 2n µ-sec
“n” such that typical block erase time-out = 2n m-sec
“n” such that typical full chip erase time-out = 2n m-sec
“n” such that maximum word program time-out = 2n times typical
“n” such that maximum buffer write time-out = 2n times typical
“n” such that maximum block erase time-out = 2n times typical
“n” such that maximum chip erase time-out = 2n times typical
1Fh
20h
21h
22h
23h
24h
25h
26h
1
1
1
1
1
1
1
1
1F:
20:
21:
22:
23:
24:
25:
26:
--08 256µs
--09 512µs
--0A
--00
1s
NA
--01 512µs
--01 1024µs
--02
--00
4s
NA
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
95
1-Gbit P30 Family
C.4
Device Geometry Definition
Table 36.
Device Geometry Definition
Offset
27h
Length
Description
Code
See table below
“n” such that device size = 2n in number of bytes
Flash device interface code assignment:
1
27:
28:
"n" such that n+1 specifies the bit field that represents the flash
device width capabilities as described in the table:
7
6
5
4
3
2
1
0
28h
2
—
—
—
—
x64
x32
x16
9
x8
8
--01
x16
64
15
14
13
12
11
10
—
—
—
—
—
—
—
—
29:
2A:
2B:
2C:
--00
--06
--00
“n” such that maximum number of bytes in write buffer = 2n
2
1
2Ah
2Ch
Number of erase block regions (x) within device:
1. x = 0 means no erase blocking; the device erases in bulk
2. x specifies the number of device regions with one or
more contiguous same-size erase blocks.
See table below
3. Symmetrically blocked partitions have one blocking region
Erase Block Region 1 Information
bits 0–15 = y, y+1 = number of identical-size erase blocks
bits 16–31 = z, region erase block(s) size are z x 256 bytes
4
4
4
2Dh
31h
35h
2D:
2E:
2F:
30:
31:
32:
33:
34:
35:
36:
37:
38:
See table below
See table below
See table below
Erase Block Region 2 Information
bits 0–15 = y, y+1 = number of identical-size erase blocks
bits 16–31 = z, region erase block(s) size are z x 256 bytes
Reserved for future erase block region information
Address
64-Mbit
128-Mbit
256-Mbit
–B
–T
–B
–T
–B
–T
27:
28:
29:
2A:
2B:
2C:
2D:
2E:
2F:
30:
31:
32:
33:
34:
35:
36:
37:
38:
--17
--01
--00
--06
--00
--02
--03
--00
--80
--00
--3E
--00
--00
--02
--00
--00
--00
--00
--17
--01
--00
--06
--00
--02
--3E
--00
--00
--02
--03
--00
--80
--00
--00
--00
--00
--00
--18
--01
--00
--06
--00
--02
--03
--00
--80
--00
--7E
--00
--00
--02
--00
--00
--00
--00
--18
--01
--00
--06
--00
--02
--7E
--00
--00
--02
--03
--00
--80
--00
--00
--00
--00
--00
--19
--01
--00
--06
--00
--02
--03
--00
--80
--00
--FE
--00
--00
--02
--00
--00
--00
--00
--19
--01
--00
--06
--00
--02
--FE
--00
--00
--02
--03
--00
--80
--00
--00
--00
--00
--00
April 2005
96
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
C.5
Intel-Specific Extended Query Table
Table 37.
Primary Vendor-Specific Extended Query
Offset(1) Length
P = 10Ah
Description
(Optional flash features and commands)
Hex
Add. Code Value
(P+0)h
(P+1)h
(P+2)h
(P+3)h
(P+4)h
(P+5)h
(P+6)h
(P+7)h
(P+8)h
3
Primary extended query table
10A --50
10B: --52
10C: --49
10D: --31
10E: --34
10F: --E6
110: --01
111: --00
112: --00
bit 0 = 0
"P"
"R"
"I"
"1"
"4"
Unique ASCII string “PRI“
1
1
4
Major version number, ASCII
Minor version number, ASCII
Optional feature and command support (1=yes, 0=no)
bits 10–31 are reserved; undefined bits are “0.” If bit 31 is
“1” then another 31 bit field of Optional features follows at
the end of the bit–30 field.
bit 0 Chip erase supported
bit 1 Suspend erase supported
bit 2 Suspend program supported
bit 3 Legacy lock/unlock supported
No
Yes
Yes
No
bit 1 = 1
bit 2 = 1
bit 3 = 0
bit 4 Queued erase supported
bit 4 = 0
No
bit 5 Instant individual block locking supported
bit 6 Protection bits supported
bit 5 = 1
bit 6 = 1
Yes
Yes
Yes
Yes
No
bit 7 Pagemode read supported
bit 8 Synchronous read supported
bit 9 Simultaneous operations supported
bit 10 Extended Flash Array Blocks supported
bit 30 CFI Link(s) to follow
bit 7 = 1
bit 8 = 1
bit 9 = 0
bit 10 = 0
No
bit 30 = 0
No
bit 31 Another "Optional Features" field to follow
Supported functions after suspend: read Array, Status, Query
Other supported operations are:
bit 31 = 0
113: --01
No
(P+9)h
1
2
bits 1–7 reserved; undefined bits are “0”
bit 0 Program supported after erase suspend
Block status register mask
bits 2–15 are Reserved; undefined bits are “0”
bit 0 Block Lock-Bit Status register active
bit 1 Block Lock-Dow n Bit Status active
bit 4 EFA Block Lock-Bit Status register active
bit 5 EFA Block Lock-Dow n Bit Status active
VCC logic supply highest performance program/erase voltage
bits 0–3 BCD value in 100 mV
bit 0 = 1
114: --03
115: --00
bit 0 = 1
bit 1 = 1
bit 4 = 0
Yes
(P+A)h
(P+B)h
Yes
Yes
No
bit 5 = 0
No
(P+C)h
(P+D)h
1
1
116: --18 1.8V
bits 4–7 BCD value in volts
VPP optimum program/erase supply voltage
bits 0–3 BCD value in 100 mV
117: --90 9.0V
bits 4–7 HEX value in volts
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
97
1-Gbit P30 Family
Table 38.
Protection Register Information
Offset(1)
Hex
Length
Description
P = 10Ah
(Optional flash features and commands)
Add. Code Value
(P+E)h
1
4
Number of Protection register fields in JEDEC ID space.
“00h,” indicates that 256 protection fields are available
Protection Field 1: Protection Description
This field describes user-available One Time Programmable
(OTP) Protection register bytes. Some are pre-programmed
with device-unique serial numbers. Others are user
programmable. Bits 0–15 point to the Protection register Lock
byte, the section’s first byte. The following bytes are factory
pre-programmed and user-programmable.
118: --02
2
(P+F)h
(P+10)h
(P+11)h
(P+12)h
119: --80
11A: --00
11B: --03 8 byte
11C: --03 8 byte
80h
00h
bits 0–7 = Lock/bytes Jedec-plane physical low address
bits 8–15 = Lock/bytes Jedec-plane physical high address
bits 16–23 = “n” such that 2n = factory pre-programmed bytes
bits 24–31 = “n” such that 2n = user programmable bytes
(P+13)h
(P+14)h
(P+15)h
(P+16)h
(P+17)h
(P+18)h
(P+19)h
(P+1A)h
(P+1B)h
(P+1C)h
10
Protection Field 2: Protection Description
Bits 0–31 point to the Protection register physical Lock-word
address in the Jedec-plane.
11D: --89
11E: --00
11F: --00
120: --00
89h
00h
00h
00h
0
0
0
16
0
16
Following bytes are factory or user-programmable.
∴
bits 32–39 = “n” n = factory pgm'd groups (low byte)
--00
--00
--00
121:
122:
123:
∴
bits 40–47 = “n” n = factory pgm'd groups (high byte)
bits 48–55 = “n” \ 2n = factory programmable bytes/group
∴
bits 56–63 = “n” n = user pgm'd groups (low byte)
124: --10
--00
125:
126:
∴
bits 64–71 = “n” n = user pgm'd groups (high byte)
n
∴
bits 72–79 = “n” 2 = user programmable bytes/group
--04
Table 39.
Burst Read Information
Offset(1)
Hex
Length
Description
P = 10Ah
(Optional flash features and commands)
Add. Code Value
(P+1D)h
1
Page Mode Read capability
127: --03 8 byte
bits 0–7 = “n” such that 2n HEX value represents the number of
read-page bytes. See offset 28h for device word width to
determine page-mode data output width. 00h indicates no
read page buffer.
Number of synchronous mode read configuration fields that
follow. 00h indicates no burst capability.
Synchronous mode read capability configuration 1
Bits 3–7 = Reserved
(P+1E)h
(P+1F)h
1
1
128: --04
129: --01
4
4
bits 0–2 “n” such that 2n+1 HEX value represents the
maximum number of continuous synchronous reads when
the device is configured for its maximum word width. A value
of 07h indicates that the device is capable of continuous
linear bursts that will output data until the internal burst
counter reaches the end of the device’s burstable address
space. This field’s 3-bit value can be written directly to the
Read Configuration Register bits 0–2 if the device is
configured for its maximum word width. See offset 28h for
word width to determine the burst data output width.
Synchronous mode read capability configuration 2
Synchronous mode read capability configuration 3
Synchronous mode read capability configuration 4
(P+20)h
(P+21)h
(P+22)h
1
1
1
12A: --02
12B: --03
12C: --07
8
16
Cont
April 2005
98
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Table 40.
Partition and Erase-block Region Information
Offset(1)
P= 10Ah
Bottom Top
Description
(Optional flash features and commands)
Hex
Add. Code Value
(P+23)h (P+23)h Number of device hardw are-partition regions w ithin the device. 12D: --00
x = 0: a single hardw are partition device (no fields follow ).
0
x specifies the number of device partition regions containing
one or more contiguous erase block regions.
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
99
1-Gbit P30 Family
Appendix D Additional Information
Order/Document
Number
Document/Tool
Intel StrataFlash® Memory (J3) Datasheet
290667
290737
290701
290702
252802
298161
253418
296514
297833
298136
300783
Intel StrataFlash® Synchronous Memory (K3/K18) Datasheet
Intel® Wireless Flash Memory (W18) Datasheet
Intel® Wireless Flash Memory (W30) Datasheet
Intel® Flash Memory Design for a Stacked Chip Scale Package (SCSP)
Intel® Flash Memory Chip Scale Package User’s Guide
Intel® Wireless Communications and Computing Package User's Guide
Intel® Small Outline Package Guide
Intel® Flash Data Integrator (FDI) User’s Guide
Intel® Persistent Storage Manager User Guide
Using Intel® Flash Memory: Asynchronous Page Mode and Synchronous Burst Mode
Migration Guide for Intel StrataFlash® Memory (J3) to Intel StrataFlash® Embedded
Memory (P30) Application Note 812
306667
306668
306669
Migration Guide for Spansion* S29GLxxxN to Intel StrataFlash® Embedded Memory
(P30) Application Note 813
Migration Guide for Intel StrataFlash® Synchronous Memory (K3/K18) to Intel
StrataFlash® Embedded Memory (P30) Application Note 825
Notes:
1.
Please call the Intel Literature Center at (800) 548-4725 to request Intel documentation. International
customers should contact their local Intel or distribution sales office.
Visit Intel’s World Wide Web home page at http://www.intel.com for technical documentation and
tools.
2.
3.
®
For the most current information on Intel Flash Memory, visit our website at
http://developer.intel.com/design/flash.
April 2005
100
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
1-Gbit P30 Family
Appendix E Ordering Information for Discrete Products
Figure 48.
Decoder for Discrete Intel StrataFlash® Embedded Memory (P30)
T E 2 8 F 6 4 0 P 3 0 B 8 5
Access Speed
Package Designator
85 ns
TE = 56-Lead TSOP, leaded
JS = 56-Lead TSOP, lead-free
RC = 64-Ball Easy BGA, leaded
PC = 64-Ball Easy BGA, lead-free
Parameter Location
B = Bottom Parameter
T = Top Parameter
Product Line Designator
28F = Intel® Flash Memory
Product Family
P30 = Intel StrataFlash® Embedded Memory
VCC = 1.7 – 2.0 V
VCCQ = 1.7 – 3.6 V
Device Density
640 = 64-Mbit
128 = 128-Mbit
256 = 256-Mbit
Table 41.
Valid Combinations for Discrete Products
64-Mbit
128-Mbit
256-Mbit
TE28F640P30B85
TE28F640P30T85
JS28F640P30B85
JS28F640P30T85
RC28F640P30B85
RC28F640P30T85
PC28F640P30B85
PC28F640P30T85
TE28F128P30B85
TE28F128P30T85
JS28F128P30B85
JS28F128P30T85
RC28F128P30B85
RC28F128P30T85
PC28F128P30B85
PC28F128P30T85
TE28F256P30B85
TE28F256P30T85
JS28F256P30B85
JS28F256P30T85
RC28F256P30B85
RC28F256P30T85
PC28F256P30B85
PC28F256P30T85
Datasheet
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
April 2005
101
1-Gbit P30 Family
Appendix F Ordering Information for SCSP Products
Figure 49.
Decoder for SCSP Intel StrataFlash® Embedded Memory (P30)
R D 4 8 F 4 0 0 0 P 0 Z B Q 0
Package Designator
Device Details
RD = Intel® SCSP, leaded
0 = Original version of the product
(refer to the latest version of the
datasheet for details)
PF = Intel® SCSP, lead-free
RC = 64-Ball Easy BGA, leaded
PC = 64-Ball Easy BGA, lead-free
Group Designator
48F = Flash Memory only
Ballout Designator
Q = QUAD ballout
0 = Discrete ballout
Flash Density
0 = No die
2 = 64-Mbit
3 = 128-Mbit
4 = 256-Mbit
Parameter, Mux Configuration
B = Bottom Parameter, Non Mux
T = Top Parameter, Non Mux
Product Family
P = Intel StrataFlash® Embedded Memory
0 = No die
I/O Voltage, CE# Configuration
Z = 3.0 V, Individual Chip Enable(s)
V = 3.0 V, Virtual Chip Enable(s)
Table 42.
Valid Combinations for Stacked Products
64-Mbit
128-Mbit
256-Mbit
512-Mbit
1-Gbit
RD48F2000P0ZBQ0
RD48F2000P0ZTQ0
PF48F2000P0ZBQ0
PF48F2000P0ZTQ0
RD48F3000P0ZBQ0
RD48F3000P0ZTQ0
PF48F3000P0ZBQ0
PF48F3000P0ZTQ0
RD48F4000P0ZBQ0
RD48F4000P0ZTQ0
PF48F4000P0ZBQ0
PF48F4000P0ZTQ0
RD48F4400P0VBQ0
RD48F4400P0VTQ0
PF48F4400P0VBQ0
PF48F4400P0VTQ0
RC48F4400P0VB00
RC48F4400P0VT00
PC48F4400P0VB00
PC48F4400P0VT00
RD48F4444PPVBQ0
RD48F4444PPVTQ0
PF48F4444PPVBQ0
PF48F4444PPVTQ0
April 2005
102
Intel StrataFlash® Embedded Memory (P30)
Order Number: 306666, Revision: 001
Datasheet
相关型号:
PC28F640P33BF60D
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