SANKEN SDIN2C2-2G

(JC64 Package)
Product Manual
Preliminary Version 1.1
Document No. 80-36-00592
February 2007
SanDisk Corporation
Corporate Headquarters • 601 McCarthy Boulevard • Milpitas, CA 95035
Phone (408) 801-1000 • Fax (408) 801-8657
www.sandisk.com
Revision 1.1
PRELIMINARY
SanDisk iNAND Product Manual
SanDisk® Corporation general policy does not recommend the use of its products in life support applications where in a failure
or malfunction of the product may directly threaten life or injury. Per SanDisk Terms and Conditions of Sale, the user of SanDisk
products in life support applications assumes all risk of such use and indemnifies SanDisk against all damages. See “Disclaimer
of Liability.”
This document is for information use only and is subject to change without prior notice. SanDisk Corporation assumes no
responsibility for any errors that may appear in this document, nor for incidental or consequential damages resulting from the
furnishing, performance or use of this material. No part of this document may be reproduced, transmitted, transcribed, stored in
a retrievable manner or translated into any language or computer language, in any form or by any means, electronic,
mechanical, magnetic, optical, chemical, manual or otherwise, without the prior written consent of an officer of SanDisk
Corporation.
All parts of the SanDisk documentation are protected by copyright law and all rights are reserved.
SanDisk and the SanDisk logo are registered trademarks of SanDisk Corporation. Product names mentioned herein are for
identification purposes only and may be trademarks and/or registered trademarks of their respective companies.
© 2007 SanDisk Corporation. All rights reserved.
SanDisk products are covered or licensed under one or more of the following U.S. Patent Nos. 5,070,032; 5,095,344; 5,168,465;
5,172,338; 5,198,380; 5,200,959; 5,268,318; 5,268,870; 5,272,669; 5,418,752; 5,602,987. Other U.S. and foreign patents
awarded and pending.
Lit. No. 80-36-00592 Rev. 1.1 (D2)
02/07
Printed in U.S.A.
Revision History
January 2007
Revision 1.0—Preliminary draft of initial release
February 2007
Revision 1.1—Added TOC; removed Section 2.6; corrected Fig. 2-2; revised capacitor specifications and
part numbers; eliminated warranty section.
© 2007 SanDisk Corporation
i
Revision 1.1
PRELIMINARY
SanDisk iNAND Product Manual
TABLE OF CONTENTS
1. Introduction...................................................................................................1-1
1.1 General Description ................................................................................1-1
1.2 Features...................................................................................................1-2
1.3 Document Scope.....................................................................................1-2
1.4 iNAND Standard ....................................................................................1-2
1.5 Functional Description............................................................................1-3
1.6 Technology Independence ......................................................................1-3
1.7 Defect and Error Management................................................................1-3
1.8 Wear Leveling.........................................................................................1-3
1.9 Automatic Sleep Mode ...........................................................................1-3
1.10 iNAND—SD Bus Mode ........................................................................1-4
1.11 SPI Mode ...............................................................................................1-5
2. Product Specifications...................................................................................2-1
2.1 Overview ................................................................................................2-1
2.2 Typical Card Power Requirements .........................................................2-1
2.3 Operating Conditions..............................................................................2-1
2.4 System Performance ...............................................................................2-2
2.5 System Reliability and Maintenance ......................................................2-2
2.6 Physical Specifications ...........................................................................2-3
3. iNAND Interface Description .......................................................................3-1
3.1 Pins and Registers...................................................................................3-1
3.2 Bus Topologies .......................................................................................3-3
3.3 Electrical Interface..................................................................................3-3
3.4 iNAND Registers....................................................................................3-3
3.5 Data Interchange Format and Card Sizes ...............................................3-8
4. iNAND Protocol Description ........................................................................4-1
4.1 General ...................................................................................................4-1
4.2 SD Bus Protocol .....................................................................................4-1
4.3 Functional Description............................................................................4-1
Appendix A Power Delivery and Capacitor Specifications .........................A-1
Appendix B Ordering Information .............................................................. B-1
Appendix C Disclaimer of Liability ............................................................ C-1
© 2007 SanDisk Corporation
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1
1.1
Chapter 1 – Introduction
SanDisk iNAND Product Manual
PRELIMINARY
Introduction
General Description
The SanDisk iNAND is a very small, flash storage device, designed specifically for storage
applications that put a premium on small form factor, low power and low cost. Flash is the
ideal storage medium for portable, battery-powered devices. It features low power
consumption and is non-volatile, requiring no power to maintain the stored data. It also has
a wide operating range for temperature, shock and vibration. It is compatible with the JC64
FBGA 169, 0.5mm ball pitch, package.
SanDisk iNAND is well-suited to meet the needs of small, low power, electronic devices.
With form factors measuring 12mm x 16mm x 1.2 mm and 12mm x 18mm x 1.2mm,
iNAND is expected to be used in a wide variety of portable devices like mobile phones,
pagers, and voice recorders.
To support this wide range of applications, iNAND is offered with an SD Interface. The SD
interface product is fully compatible with iNAND products, and provides a 4-bit data bus
for maximum performance. For compatibility with existing controllers, the iNAND offers,
in addition to these interfaces, an alternate communication-protocol based on the SPI
standard.
These interfaces allow for easy integration into any design, regardless of which type of
microprocessor is used. All device and interface configuration data (such as maximum
frequency and card identification) are stored on the device.
The SanDisk iNAND provides up to 8 GB of memory for use in mass storage applications.
In addition to the mass-storage-specific flash memory chip, iNAND includes an intelligent
controller, which manages interface protocols, data storage and retrieval, error correction
code (ECC) algorithms, defect handling and diagnostics, power management, wear
leveling, and clock control. Figure 1-1 is a block diagram of the SanDisk iNAND with SD
Interface.
Figure 1-1
SanDisk iNAND Block Diagram
SanDisk iNAND2
SD Bus/SPI Bus
Interface
© 2007 SanDisk Corporation
SanDisk
Single Chip
Controller
1-1
Data In/Out
Control
Flash
Memory
02/09/07
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Chapter 1 – Introduction
SanDisk iNAND Product Manual
Features
SanDisk iNAND product features include the following.
►Up to 8 GB of data storage
►SD-protocol compatible
►Supports SPI Mode
►Designed for portable and stationary applications that require high performance and reliable
data storage
►Voltage range 2.7 V to 3.6 V
►Variable clock rate 0-25 MHz (default), 0-50MHz (high-speed)
► Up to 25 MB/sec bus transfer rate (using 4 parallel data lines)
►Correction of memory-field errors
►Built-in write protection features (permanent and temporary)
►Application-specific commands
►Standard footprint across all capacities
1.3
Document Scope
This document describes the key features and specifications of the SanDisk iNAND as well
as the information required to interface it to a host system. Chapter 2 describes the physical
and mechanical properties of iNAND, Chapter 3 contains the pins and register overview,
and Chapter 4 gives a general overview of the SD protocol. Information about SPI Protocol
can be referenced in Section 7 of the SDA Physical Layer Specification, Version 2.00.
1.4
iNAND Standard
SanDisk iNAND devices are fully compatible with the SDA Physical Layer Specification,
Version 2.00. This specification is available from the SD Card Association (SDA).
SD Card Association
2400 Camino Ramon, Suite 375
San Ramon, CA 94583 USA
Telephone: +1 (925) 275-6615
Fax: +1 (925) 886-4870
E-mail: [email protected]
Web site: www.sdcard.org
© 2007 SanDisk Corporation
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1.5
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Chapter 1 – Introduction
SanDisk iNAND Product Manual
Functional Description
The SanDisk iNAND contains a high-level, intelligent subsystem as shown in Figure 1-1.
This intelligent (microprocessor) subsystem provides many capabilities not found in other
types of memory cards. These capabilities include:
•
•
•
•
1.6
Host independence from details of erasing and programming flash memory
Sophisticated system for managing defects (analogous to systems found in magnetic
disk drives)
Sophisticated system for error recovery including a powerful ECC
Power management for low power operation
Technology Independence
The 512-byte sector size of the SanDisk iNAND is the same as that in an IDE magnetic
disk drive. To write or read a sector (or multiple sectors), the host software simply issues a
read or write command to the card. The command contains the address and number of
sectors to write or read. The host software then waits for the command to complete.
The host software does not get involved in the details of how the flash memory is erased,
programmed or read. This is extremely important because flash devices are expected to get
increasingly complex in the future. Because iNAND use an intelligent on-board controller,
host system software will not need to be updated as new flash memory evolves. In other
words, systems that support iNAND technology today will be able to access future SanDisk
devices built with new flash technology without having to update or change host software.
1.7
Defect and Error Management
The SanDisk iNAND contains a sophisticated defect and error management system. This
system is analogous to the systems found in magnetic disk drives and in many cases offers
enhancements. If necessary, iNAND will rewrite data from a defective sector to a good
sector. This is completely transparent to the host and does not consume any user data space.
The soft error rate specification for iNAND is much better than the magnetic disk drive
specification. In the extremely rare case that a read error does occur, iNAND has
innovative algorithms to recover the data. These defect and error management systems,
coupled with the solid state construction, give SanDisk iNAND unparalleled reliability.
1.8
Wear Leveling
Wear-leveling is an intrinsic part of the erase pooling functionality of iNAND.
1.9
Automatic Sleep Mode
A unique feature of iNAND is automatic entrance and exit from sleep mode. Upon
completion of an operation, cards enter sleep mode to conserve power if no further
commands are received in less than 5 milliseconds (ms). The host does not have to take any
action for this to occur. However, in order to achieve the lowest sleep current, the host
needs to shut down its clock to the card. In most systems, cards are in sleep mode except
when accessed by the host, thus conserving power.
© 2007 SanDisk Corporation
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SanDisk iNAND Product Manual
PRELIMINARY
When the host is ready to access a card in sleep mode, any command issued to it will cause
it to exit sleep, and respond.
1.10
iNAND — SD Bus Mode
The following sections provide valuable information on SanDisk iNAND in SD Bus mode.
SanDisk iNAND devices are fully compliant with the SDA Physical Layer Specification,
Version 2.00. Card Specific Data (CSD) Register structures are compliant with CSD
Structure 1.0 and 2.0.
This section covers Negotiating Operating Conditions, Card Acquisition and Identification,
Card Status, Memory Array Partitioning, Read/Write Operations, Data Transfer Rate, Data
Protection in Flash Cards, Write Protection, Copy Bit, and CSD Register.
Additional practical card detection methods can be found in application notes pertaining to
the SDA Physical Layer Specification, Version 2.00.
Figure 1-2
Memory Array Partitioning
SanDisk iNAND2
WP Group 0
Sector 1
Block
0
Block
1
Block
2
Block
n
Sector 2
Sector 3
Sector n
WP Group 1
WP Group 2
© 2007 SanDisk Corporation
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SanDisk iNAND Product Manual
PRELIMINARY
Figure 1-3
Data Transfer Formats
Misalignment Error
Single Block Mode
Memory
Sectors
Memory
Sectors
Start Address
(Read)
Memory
Sectors
Memory
Sectors
Memory
Sectors
Start Address
(Write)
Memory
Sectors
Memory
Sectors
Start Address
(Read/Write)
Multiple Block Mode
Memory
Sectors
Memory
Sectors
Memory
Sectors
Memory
Sectors
Memory
Sectors
Write
Start Address
Table 1-1
Memory
Sectors
Read
Stop
Start
Stop
Mode Definitions
Mode
Single Block
Memory
Sectors
Description
In this mode the host reads or writes one data block in a pre-specified length. The
data block transmission is protected with 16-bit CRC that is generated by the
sending unit and checked by the receiving unit.
The block length for read operations is limited by the device sector size (512 bytes)
but can be as small as a single byte. Misalignment is not allowed. Every data block
must be contained in a single physical sector.
The block length for write operations must be identical to the sector size and the
start address aligned to a sector boundary.
Multiple Block
This mode is similar to the single block mode, except for the host can read/write
multiple data blocks (all have the same length) that are stored or retrieved from
contiguous memory addresses starting at the address specified in the command.
The operation is terminated with a stop transmission command.
Misalignment and block length restrictions apply to multiple blocks and are identical
to the single block read/write operations.
1.11
SPI Mode
The SPI Mode is a secondary communication protocol for iNAND devices. This mode is a
subset of the SD Protocol, designed to communicate with an SPI channel, commonly found
in Motorola and other vendors’ microcontrollers. Table 1-1 contains names and
descriptions of SPI Mode functions. More information about SPI Mode can be found in
Section 7 or the SDA Physical Layer Specification, Version 2.00.
© 2007 SanDisk Corporation
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2
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Chapter 2 – Product Specifications
SanDisk iNAND Product Manual
PRELIMINARY
Product Specifications
Overview
For details about the environmental, reliability and durability specifications, refer to
Section 8.1 of the SDA Physical Layer Specification, Version 2.00.
2.2
Typical Card Power Requirements
Table 2-1
iNAND Power Requirements (Ta=25°[email protected])
VDD (ripple: max, 60mV peak-to-peak) 2.7 V – 3.6 V
Value
Measurement
Average
250
uA
Max.
Default Speed
100
mA
Max.
High-Speed
200
mA
Max.
Default Speed
100
mA
Max.
High-Speed
200
mA
Max.
Sleep
Read
Write
Note: Current measurement numbers are average over 1 second.
2.3
2.3.1
Operating Conditions
Operating and Storage Temperature Specifications
Table 2-2
Temperature
2.3.2
Operating and Storage Temperatures
Operating
-25° C to 85° C
Non-Operating: After soldered onto PC Board
-40° C to 85° C
Non-Operating: In Tape/Reel
-10° C to 50° C
Moisture Sensitivity
The moisture sensitivity level for iNAND is MSL = 3.
© 2007 SanDisk Corporation
2-1
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Chapter 2 – Product Specifications
SanDisk iNAND Product Manual
System Performance
All performance values for iNAND in Table 2-3 were measured using the following
conditions:
•
•
Voltage range 2.7 V to 3.6 V
Temperature -25° C to 85° C
Table 2-3
System Performance
Timing
2.5
Maximum Value
Block Read Access Time
100 ms
Block Write Access Time
250 ms
CMD1 to Ready after Power-up
1000 ms
System Reliability and Maintenance
Table 2-4
Reliability and Maintenance Specifications
MTBF
>1,000,000 hours
Preventative Maintenance
None
Data Reliability
<1 non-recoverable error in 10 bits read
© 2007 SanDisk Corporation
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Chapter 2 – Product Specifications
SanDisk iNAND Product Manual
Physical Specifications
The SanDisk iNAND is a 169-pin, thin fine-pitched ball grid array (BGA). See Figure 2-1
(169-pin) for physical specifications and dimensions. See Figure 2-5 for a top view of the
pin definitions.
iNAND Specifications
Figure 2-2
iNAND Specifications (Top View)
(A, B)
Figure 2-1
© 2007 SanDisk Corporation
2-3
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PRELIMINARY
Figure 2-3
iNAND Specifications (Detail A)
Figure 2-4
iNAND Specifications (Detail B)
© 2007 SanDisk Corporation
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SanDisk iNAND Product Manual
02/09/07
Revision 1.1
Chapter 2 – Product Specifications
SanDisk iNAND Product Manual
PRELIMINARY
Table 2-5
iNAND Package Specifications
Dimension in millimeters
Symbol
Minimum
Nominal
Maximum
Minimum
Nominal
Maximum
A
---
---
1.20
---
---
0.047
A1
0.16
0.21
0.26
0.006
0.008
0.010
A2
0.785
0.835
0.885
0.031
0.033
0.035
c
0.17
0.21
0.25
0.007
0.008
0.010
D
1
2
Dimension in inches
11.90
12.00
12.10
0.469
0.472
0.476
E (A)
1
15.90
16.00
16.10
0.626
0.630
0.634
E (B)
2
17.90
18.00
18.10
.7047
.7087
.7126
D1
---
1.50
---
---
0.059
---
D2
---
3.50
---
---
0.138
---
D3
---
5.50
---
---
0.217
---
D4
---
6.50
---
---
0.256
---
E1
---
6.50
---
---
0.256
---
E2
---
10.50
---
---
0.413
---
E3
---
12.50
---
---
0.492
---
E4
---
13.50
---
---
0.531
---
e
---
.50
---
---
0.020
---
b
0.25
0.30
0.35
0.010
0.012
0.014
aaa
0.10
0.004
bbb
0.10
0.004
ddd
0.08
0.003
eee
0.15
0.006
fff
0.05
0.002
MD/ME
14/14
14/14
These measurements are for the 16 x 12mm package.
These measurements are for the 18 x 12mm package.
© 2007 SanDisk Corporation
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SanDisk iNAND Product Manual
PRELIMINARY
Figure 2-5
1
iNAND Ball Array (Top View)
2
3
4
5
6
7
8
9
10
11
12 13
14
A
B
C
D
E
F
G
H
J
K
L
M
N
P
© 2007 SanDisk Corporation
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Chapter 3 – iNAND Interface Description
SanDisk iNAND Product Manual
PRELIMINARY
iNAND Interface Description
Pins and Registers
Table 3-1 contains the SanDisk iNAND functional pin assignment
Table 3-1
iNAND Pin Assignment
Pin No.
Name
Pin No.
Name
Pin No.
Name
Pin No.
Name
A1
DNU
D2
NC
J2
NC
N5
VSS
A2
DNU
D3
NC
J3
NC
N6
NC
A3
DAT0
D4
NC
J5
NC
N7
NC
A4
DAT1
D12
DNU
J10
VDD_F
N8
NC
A5
DAT2
D13
DNU
J12
DNU
N9
NC
A6
NC
D14
DNU
J13
DNU
N10
NC
A7
NC
E1
NC
J14
DNU
N11
NC
A8
NC
E2
NC
K1
NC
N12
NC
A9
NC
E3
NC
K2
NC
N13
NC
A10
NC
E5
NC
K3
NC
N14
DNU
A11
NC
E6
VDD_F
K5
NC
P1
DNU
A12
NC
E7
VSS
K6
NC
P2
DNU
A13
DNU
E8
NC
K7
NC
P3
VDD_H
A14
DNU
E9
NC
K8
VSS
P4
VSS
B1
DNU
E10
NC
K9
VDD_F
P5
VDD_H
B2
DAT3
E12
DNU
K10
NC
P6
VSS
B3
NC
E13
DNU
K12
DNU
P7
NC
B4
NC
E14
DNU
K13
DNU
P8
NC
B5
NC
F1
NC
K14
DNU
P9
NC
B6
NC
F2
NC
L1
NC
P10
NC
B7
NC
F3
NC
L2
NC
P11
NC
B8
NC
F5
VDD_F
L3
NC
P12
NC
B9
NC
F10
NC
L12
DNU
P13
DNU
B10
NC
F12
DNU
L13
DNU
P14
DNU
B11
NC
F13
DNU
L14
DNU
© 2007 SanDisk Corporation
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SanDisk iNAND Product Manual
PRELIMINARY
Pin No.
Name
Pin No.
Name
Pin No.
Name
B12
NC
F14
DNU
M1
NC
B13
NC
G1
NC
M2
NC
B14
DNU
G2
NC
M3
NC
C1
NC
G3
NC
M4
VDD_H
C2
FCAP
G5
VSS
M5
CMD
C3
NC
G10
NC
M6
CLK
C4
VSS
G12
DNU
M7
NC
C5
NC
G13
DNU
M8
NC
C6
VDD_H
G14
DNU
M9
NC
C7
NC
H1
NC
M10
NC
C8
NC
H2
NC
M11
NC
C9
NC
H3
NC
M12
DNU
C10
NC
H5
NC
M13
DNU
C11
NC
H10
VSS
M14
DNU
C12
DNU
H12
DNU
N1
DNU
C13
DNU
H13
DNU
N2
VSS
C14
DNU
H14
DNU
N3
NC
D1
NC
J1
NC
N4
VDD_H
Pin No.
Name
SanDisk iNAND contains a set of information registers. Register descriptions and SDA
references are provided in Section 5.0 of the SDA Physical Layer Specification, Version
2.00.
Table 3-2
iNAND Register Overview
Register Abbreviation
Width (in bits)
CID
128
Card Identification Number
RCA
16
Relative Card Address
CSD
128
Card Specific Data
SCR
64
SD Configuration
OCR
32
Operation Conditions
SSR
512
SD Status
CSR
32
Card status; information about the card status.
© 2007 SanDisk Corporation
3-2
Register Name
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Revision 1.1
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Chapter 3 – iNAND Interface Description
SanDisk iNAND Product Manual
Bus Topologies
SanDisk iNAND products support two communication protocols: SD and SPI. For more
details, refer to Section 3.5 of the SDA Physical Layer Specification, Version 2.00. Section
6 of the specification contains a bus circuitry diagram for reference.
3.2.1
SD Bus
For more details, refer to Section 3.5.1 of the SDA Physical Layer Specification, Version
2.00.
3.2.2
SPI Bus
For more details, refer to Section 3.5.2 of the SDA Physical Layer Specification, Version
2.00.
3.3
Electrical Interface
The power scheme of SanDisk iNAND is handled locally in each card and in the bus
master. Refer to Section 6.4 of the SDA Physical Layer Specification, Version 2.00.
3.3.1
Power Up
Refer to Section 6.4.1 of the SDA Physical Layer Specification, Version 2.00.
3.3.2
Bus Operating Conditions
SPI Mode bus operating conditions are identical to SD Bus Mode operating conditions. For
details, see Section 6.6 of the SDA Physical Layer Specification, Version 2.00.
3.3.3
Bus Timing (Default)
See Section 6.7 of the SDA Physical Layer Specification, Version 2.00.
3.3.4
Bus Timing (High-Speed Mode)
See Section 6.8 of the SDA Physical Layer Specification, Version 2.00.
3.4
iNAND Registers
There is a set of eight registers within the iNAND interface. For specific information about
each register, refer to Section 5 of the SDA Physical Layer Specification, Version 2.00.
3.4.1
Operating Conditions Register
The Operation Conditions Register (OCR) stores the VDD voltage profile for iNAND.
Refer to Section 5.1 of the SDA Physical Layer Specification, Version 2.00.
3.4.2
Card Identification Register
The Card Identification (CID) Register is 16 bytes long and contains the unique card
identification number. It is programmed during manufacturing and cannot be changed by
iNAND hosts. See Table 3-4.
© 2007 SanDisk Corporation
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Table 3-4
Name
Chapter 3 – iNAND Interface Description
SanDisk iNAND Product Manual
CID Register Definitions
Type
Width
CID Value
Comments
Manufacturer ID
(MID)
Binary
8
0x03
Manufacturer IDs are controlled and
assigned by the SD-3C, LLC
OEM/Application ID
(OID)
ASCII
16
SD ASCII Code
0x53, 0x44
Identifies the card OEM and/or the card
contents. The OID is controlled and
assigned by the SD-3C, LLC
Product Name
(PNM)
ASCII
40
ST08G
Five ASCII characters long
ST04G
ST02G
ST01G
ST512
Product Revision
(PRV)
BCD
8
Product
Revision xx
See Section 5.2 in the SDA Physical
Layer Specification, Version 2.00
Binary
32
Product Serial
Number
32-bit unsigned integer
---
4
---
---
Manufacture Date
Code (MDT)
BCD
12
Manufacture
date (for ex.
April 2001=
0x014)
Manufacturing date—yym (offset from
2000)
CRC7 checksum
(CRC)
Binary
7
CRC7*
Calculated
Not used, always
---
1
---
---
Serial Number
(PSN)
Reserved
Note: SD-3C, LLC is a limited liability company established by Matsushita Electric Industrial Co. Ltd.,
SanDisk Corporation and Toshiba Corporation.
*The CRC checksum is computed by using the following formula: CRC Calculation: G(x)
= x7+x3+1
M(x)=(MID-MSB)*x119+…+(CIN-LSB)*x0
CRC[6…0]=Remainder[(M(x)*x7)/G(x)]
© 2007 SanDisk Corporation
3-4
02/09/07
Revision 1.1
3.4.3
Chapter 3 – iNAND Interface Description
SanDisk iNAND Product Manual
PRELIMINARY
Card Specific Data Register
The Card Specific Data (CSD) Register configuration information is required to access
iNAND data. The CSD defines the data format, error correction type, maximum data
access time, etc. The field structures of the CSD Register vary depending on the physical
specifications and card capacity. The CSD_STRUCTURE field in the CSD Register
indicates which structure version is used. Table 3-5 shows the version number as it relates
to the CSD structure. Refer to Section 5.3.1 of the SDA Physical Layer Specification,
Version 2.00 for more information.
Table 3-5
CSD Register Structures
CSD_STRUCTURE
CSD Structure Version
Valid for SD Memory Card Physical
Specification Version / Card Capacity
0
CSD Version 1.0
Version 1.01 to 1.10
Version 2.00 / Standard Capacity
1
CSD Version 2.0
Version 2.00 / High Capacity
2-3
Reserved
---
Table 3-6 provides an overview of the CSD Register. More field-specific information can
be found in Section 5.3.2, Table 5-4 of the SDA Physical Layer Specification, Version 2.00.
Table 3-6
CSD Register (CSD Version 1.0)
Field
CSD Value
Description
CSD_ STRUCTURE
1.0
CSD structure
---
---
Reserved
TAAC
1.5 msec
Data read access time-1
NSAC
0
Data read access time-2 in CLK cycles
(NSAC*100)
TRANS_ SPEED
Default 25MHz
Max. data transfer rate
High-speed 50MHz
CCC
All (inc. WP,
lock/unlock)
Card command classes
READ_BL_ LEN
2G
Up to 1G
Max. read data block length
READ_BL_ PARTIAL
Yes
Partial blocks for read allowed
WRITE_BLK_ MISALIGN
No
Write block misalignment
READ_BLK_ MISALIGN
No
Read block misalignment
DSR_IMP
No
DSR implemented
---
---
Reserved
C_SIZE
2 GB
1 GB
512 MB
Device size
VDD_R_ CURR_MIN
According to card
performance
Max. read current @VDD min.
VDD_R_ CURR_MAX
According to card
Max. read current @VDD max.
© 2007 SanDisk Corporation
3-5
02/09/07
Revision 1.1
Chapter 3 – iNAND Interface Description
SanDisk iNAND Product Manual
PRELIMINARY
Field
CSD Value
Description
performance
VDD_W_ CURR_MIN
According to card
performance
Max. write current @VDD min.
VDD_W_ CURR_MAX
According to card
performance
Max. write current @VDD max.
C_SIZE_ MULT
2G=2048
1G=1024
512=512
Device size multiplier
ERASE_BLK_EN
Yes
Erase single block enable
SECTOR_ SIZE
32 blocks
Erase sector size
WP_GRP_ SIZE
128 sectors
Write protect group size
WP_GRP_ ENABLE
Yes
Write protect group enable
Reserved
---
Reserved for MMC compatibility
R2W_ FACTOR
x16
Write speed factor
WRITE_BL_ LEN
2G
Up to 1G
Max. write data block length
WRITE_BL PARTIAL
No
Partial blocks for write allowed
---
---
Reserved
FILE_ FORMAT_ GRP
0
File format group
COPY
Has been copied
Copy flag (OTP)
PERM_ WRITE_
PROTECT
Not protected
Permanent write protection
TMP_WRITE_PROTECT
Not protected
Temporary write protection
FILE_ FORMAT
HD w/partition
File format
Reserved
---
Reserved
CRC
CRC7
CRC
---
---
Not used, always “1”
© 2007 SanDisk Corporation
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Revision 1.1
Chapter 3 – iNAND Interface Description
SanDisk iNAND Product Manual
PRELIMINARY
Refer to Section 5.3.3, Table 5-16 of the SDA Physical Layer Specification, Version 2.00
for more detailed information.
Table 3-7
CSD Register (CSD Version 2.0)
Field
CSD Value
Description
CSD_ STRUCTURE
2.0
CSD structure
---
---
Reserved
TAAC
1.5 ms
Data read access time-1
NSAC
0
Data read access time-2 in CLK cycles
(NSAC*100)
TRANS_ SPEED
Default 25MHz
Max. data transfer rate
High-speed 50MHz
CCC
010110110101b
Card command classes
READ_BL_ LEN
---
Max. read data block length
READ_BL_ PARTIAL
Yes
Partial blocks for read allowed
WRITE_BLK_ MISALIGN
No
Write block misalignment
READ_BLK_ MISALIGN
No
Read block misalignment
DSR_IMP
No
DSR implemented
---
0
Reserved
C_SIZE
8 GB
Device size
4 GB
---
0
Reserved
ERASE_BLK_EN
1
Erase single block enable
SECTOR_ SIZE
32 blocks
Erase sector size
WP_GRP_ SIZE
128 sectors
Write protect group size
WP_GRP_ ENABLE
Yes
Write protect group enable
Reserved
---
Reserved for MMC compatibility
R2W_ FACTOR
x16
Write speed factor
WRITE_BL_ LEN
---
Max. write data block length
WRITE_BL PARTIAL
No
Partial blocks for write allowed
---
---
Reserved
FILE_ FORMAT_ GRP
0
File format group
COPY
Has been copied
Copy flag (OTP)
PERM_ WRITE_
PROTECT
Not protected
Permanent write protection
TMP_WRITE_PROTECT
No protected
Temporary write protection
FILE_ FORMAT
HD w/partition
File format
Reserved
---
Reserved
© 2007 SanDisk Corporation
3-7
02/09/07
Revision 1.1
Field
3.4.4
Chapter 3 – iNAND Interface Description
SanDisk iNAND Product Manual
PRELIMINARY
CSD Value
Description
CRC
CRC7
CRC
---
---
Not used, always “1”
Card Status Register
The Card Status Register (CSR) transmits the card’s status information (which may be
stored in a local status register) to the host. The CSR is defined in Section 4.10.1 in the
SDA Physical Layer Specification, Version 2.00.
3.4.5
SD Status Register
The SD Status Register (SSR) contains status bits that are related to iNAND proprietary
features and may be used for future applications. The SD Status structure is described in
Section 4.10.2 in the SDA Physical Layer Specification, Version 2.00.
3.4.6
Relative Card Address Register
The 16-bit Relative Card Address (RCA) Register carries the card address published by
the card during the card identification. Refer to Section 5.4 in the SDA Physical Layer
Specification, Version 2.00 for more information.
3.4.7
SD Card Configuration Register
The SD Card Configuration Register (SCR) is in addition to the CSD Register. The SCR
provides information about special features in SanDisk iNAND. For more information,
refer to Section 5.6 in the SDA Physical Layer Specification, Version 2.00.
3.4.8
SD Card Registers in SPI Mode
All registers are accessible in SPI Mode. Their format is identical to the format in the SD
Bus Mode, however a few fields are irrelevant in SPI Mode. In SPI Mode, the Card Status
Register has a different, shorter, format as well. Refer to Section 7.4 in the SDA Physical
Layer Specification, Version 2.00. for more details.
3.5
Data Interchange Format and Card Sizes
In general, a file system provides structure for iNAND data. The SD Card File System
Specification, published by the SD Association, describes the file format system
implemented in the SanDisk iNAND.
© 2007 SanDisk Corporation
3-8
02/09/07
Revision 1.1
Chapter 3 – iNAND Interface Description
SanDisk iNAND Product Manual
PRELIMINARY
Table 3-8
User Area DOS Image Parameters
Capacity*
Total
LBAs
Number of
Partition
System Area
Sectors
Total Partition
Sectors
User Data
Sectors
User Data
Bytes
8 GB
16,055,296
8192
16,047,104
16,038,912
3,073,376,256
4 GB
8,026,112
8192
8,017,920
8,009,728
4,100,980,736
2 GB
4,013,056
523
4,011,595
4,011,072
2,053,668,864
1 GB
2,006,528
523
2,005,675
2,005,152
1,026,637,824
512 MB
1,003,264
279
1,002,727
1,002,448
513,253,376
*1 megabyte (MB) = 1 million bytes; 1 gigabyte (GB) = 1 billion bytes. Some of the listed capacity is used
for formatting and other functions, and thus is not available for data storage.
© 2007 SanDisk Corporation
3-9
02/09/07
Revision 1.1
4
4.1
PRELIMINARY
Chapter 4 – iNAND Protocol Description
SanDisk iNAND Product Manual
iNAND Protocol Description
General Description
iNAND protocol information is contained in this chapter; information includes bus
protocol, card identification, and a functional description.
4.2
SD Bus Protocol
Communication over the SD bus is based on command and data-bit streams initiated by a
start bit and terminated by a stop bit. See Section 3.6.1 of the SDA Physical Layer
Specification, Version 2.00 for details.
4.3
Functional Description
The host controls all communication between itself and iNAND. To demonstrate how this
communication works, this section provides a general overview of the card identification
and data transfer modes; commands; card dependencies; various card operation modes and
restrictions for controlling the clock signal. All iNAND commands, together with
corresponding responses, state transitions, error conditions, and timings are also provided.
For detailed information, refer to Section 4 of the SDA Physical Layer Specification,
Version 2.00.
4.3.1
Card Identification Mode
In Card Identification Mode the host resets all cards, validates operation voltage range,
identifies and requests cards to publish a relative card address. For more information see
Section 4.2 in the SDA Physical Layer Specification, Version 2.00.
4.3.2
Data Transfer Mode
In Data Transfer Mode, the host may operate iNAND in the fPP frequency range. This
section contains information about data read and write, erase, write protect management,
card lock/unlock operations, application-specific commands, the switch function command,
high-speed mode, the command system, the Send Interface Condition command (CMD8).
CMD8 is part of identification mode and command functional differences in high capacity
iNAND. For more detailed information, refer to Section 4.3 of the SDA Physical Layer
Specification, Version 2.00.
4.3.3
Clock Control
The host can use the bus clock signal in iNAND to switch them to energy saving mode or
to control data flow on the bus. See Section 4.4 of the SDA Physical Layer Specification,
Version 2.00.
© 2007 SanDisk Corporation
4-1
02/09/07
Revision 1.1
4.3.4
PRELIMINARY
Chapter 4 – iNAND Protocol Description
SanDisk iNAND Product Manual
Cyclic Redundancy Codes
The Cyclic Redundancy Check (CRC) protects against transmission errors that may occur
on the iNAND bus. Detailed information and examples for CRC7 and CRC16 are provided
in Section 4.5 of the SDA Physical Layer Specification, Version 2.00.
4.3.5
Error Conditions
See Section 4.6 of the SDA Physical Layer Specification, Version 2.00.
4.3.6
Commands
See Section 4.7 of the SDA Physical Layer Specification, Version 2.00 for detailed
information about iNAND commands.
4.3.7
Card State Transition
The state transition is dependent on the received command. The transition is defined in
Section 4.8 of the SDA Physical Layer Specification, Version 2.00 along with responses
sent on the command line.
4.3.8
Timing Diagrams and Values
See Section 4.12 of the SDA Physical Layer Specification, Version 2.00.
4.3.9
Speed Class Specification
The speed class specification classifies card performance by speed class number and offers
the method to calculate performance. For more information, refer to Section 4.13 of the
SDA Physical Layer Specification, Version 2.00.
4.3.10
Erase Timeout Calculation
See Section 4.14 of the SDA Physical Layer Specification, Version 2.00.
© 2007 SanDisk Corporation
4-2
02/09/07
Revision 1.1
PRELIMINARY
Appendix A
A.1
Appendix A –Power Delivery/Capacitor Specifications
SanDisk iNAND Product Manual
Power Delivery and Capacitor Specifications
SanDisk iNAND Power Domains
SanDisk iNAND has three power domains assigned to VDD_H, VDD_F, and FCAP as
shown in Table 1.
Table 1. Power Domains
Pin
Power Domain
VDD_H
Host Interface
Comments
Supported voltage ranges:
High Voltage Region: 3.3V (nominal)
Low Voltage Region: 1.8V (nominal)
VDD_F
Memory
Supported voltage range:
High Voltage Region: 3.3V (nominal)
FCAP
A.2
A.2.1
Internal
FCAP is the internal regulator connection to an
external decoupling capacitor.
Capacitor Connection Guidelines
FCAP Connections
The FCAP (C2) ball must only be connected to an external capacitor that is connected to
VSS. This signal may not be left floating. The capacitor’s specifications and its placement
instructions are detailed below.
The capacitor is part of an internal voltage regulator that provides power to the controller.
Caution: Failure to follow the guidelines below or connecting the FCAP ball to any
external signal or power supply may cause the device to malfunction.
The trace requirements from the FCAP (C2) ball to the capacitor are as follows:
•
•
Resistance: <2 ohm
Inductance: <5 nH
The capacitor requirements are as follows:
•
•
•
Capacitance: >=2.2 uF
Voltage Rating: >=6.3 V
Dielectric: X7R or X5R
© 2007 SanDisk Corporation
A-1
02/09/07
Revision 1.1
A.2.2
Appendix A –Power Delivery/Capacitor Specifications
SanDisk iNAND Product Manual
PRELIMINARY
VDD_H and VDD_F Connections
The iNAND has two power domains labeled: VDD_H and VDD_F. Currently both power
domains can be connected to the same 3.3V (nom) power supply. However, in order to
provide maximum flexibility and support low power operation in future iNAND devices,
the PCB should be designed as follows:
•
•
All VDD_F balls should be connected to a 3.3V supply
All VDD_H balls should have the option of being connected either to a 3.3V or 1.8V
supply
SanDisk recommends providing separate bypass capacitors for each power domain as
shown in Figure 1.
Note: Signal routing in the diagram is for illustration purposes only and the final routing
depends on your PCB layout. Also, for clarity, the diagram does not show the VSS
connection. All balls marked VSS should be connected to a ground (GND) plane.
Figure 1. Recommended Power Domain Connections
14
13
12
11
J10
VDD_
F
10
K9
VDD_
F
9
8
Top
View
7
C6
VDD_
H
6
E6
VDD_
F
P5
VDD_
H
F5
VDD_F
5
M4
VDD
_H
4
N4
VDD_
H
P3
VDD_H
3
C2
FCAP
2
1
A
Trace Requirements (C_5):
Resistance < 2 ohm
Inductance < 5nH
Capacitor C_5:
Capacitance >= 2.2uF
Voltage >= 6.3V
Dielectric: X7R or X5R
© 2007 SanDisk Corporation
B
C
D
E
F
G
H
J
K
L
M
N
P
VDD_H
power
supply
VDD_F = 3.3V (nom)
C_5
C_3
VSS
C_4
VSS VSS
Close to
Ball F5
A-2
C_1
C_1=C_3>=2.2uF
C_2=C_4<=100nF
C_2
VSS VSS
Close to
Ball P3
02/09/07
Revision 1.1
Appendix B
B.1
Appendix B –Ordering Information
SanDisk iNAND Product Manual
PRELIMINARY
Ordering Information
iNAND (JC64 Package)
To order SanDisk products directly from SanDisk, call (408) 801-1000.
Part Number
Block Size
1
12 mm x 16 mm x 1.2 mm Package
SDIN2C1-512M
512 MB
SDIN2C2-1G
1 GB
SDIN2C2-2G
2 GB
12 mm x 18 mm x 1.2 mm Package
SDIN2B2-2G
2 GB
SDIN2B2-4G
4 GB
SDIN2B2-8G
8 GB
Note: If parts will be shipped by tape/reel, add “T” to the
end of the part number. For example, SDIN2B2-8G would
become SDIN2B2-8G-T.
1
1 megabyte (MB) = 1 million bytes; 1 gigabyte (GB) = 1 billion bytes. Some of the listed capacity is used for
formatting and other functions, and thus is not available for data storage.
© 2007 SanDisk Corporation
B-1
02/09/07
Revision 1.1
PRELIMINARY
Appendix C
C.1
Appendix C –Disclaimer of Liability
SanDisk iNAND Product Manual
Disclaimer of Liability
SanDisk Corporation Policy
SanDisk Corporation general policy does not recommend the use of its products in life
support applications wherein a failure or malfunction of the product may directly threaten
life or injury. Accordingly, in any use of products in life support systems or other
applications where failure could cause damage, injury or loss of life, the products should
only be incorporated in systems designed with appropriate redundancy, fault tolerant or
back-up features.
SanDisk shall not be liable for any loss, injury or damage caused by use of the Products in
any of the following applications:
−
Special applications such as military related equipment, nuclear reactor control, and
aerospace
−
Control devices for automotive vehicles, train, ship and traffic equipment
−
Safety system for disaster prevention and crime prevention
−
Medical-related equipment including medical measurement device
© 2007 SanDisk Corporation
C-1
02/09/07