KLM2G1DEHE-B101 - Samsung - Datasheet.Directory

- 1 -

KLMxGxxEHx

Rev. 0.0, Jan. 2010

SAMSUNG ELECTRONICS RESERVES THE RIGHT TO CHANGE PRODUCTS, INFORMATION AND

SPECIFICATIONS WITHOUT NOTICE.

Products and specifications discussed herein are for reference purposes only. All information discussed

herein is provided on an "AS IS" basis, without warranties of any kind.

This document and all information discussed herein remain the sole an d exclusive property of Samsung

Electronics. No license of any patent, copyright, mask work, trademark or any other intellectual property

right is granted by one party to the other party under this document, by implication, estoppel or other-

wise.

Samsung products are not intended for use in life support, critical care, medical, safety equipment, or

similar applications where product failure could result in loss o f life or perso nal or physical harm, or any

military or defense application, or any governmental procurement to which special terms or provisions

may apply.

For updates or additional information about Samsung products, contact your nearest Samsung office.

All brand names, trademarks and registered trademarks belong to their respective owners.

Draft

Samsung eMMC moviNAND Product family

eMMC Specification compatibility

datasheet

- 2 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

Revision History

Revision No. History Draft Date Remark Editor

0.0 1. Initial issue Jan, 11. 2010 Draft S.M.Lee

- 3 -
Table Of Contents
datasheet moviNAND
Rev. 0.0
KLMxGxxEHx
Draft
0 PRODUCT LIST..........................................................................................................................................................4
0 KEY FEATURES.........................................................................................................................................................4
0 PACKAGE CONFIGURATIONS.................................................................................................................................5
1 Pin Configuration.....................................................................................................................................................5
2 Package Dimensions...............................................................................................................................................7
3 Product Architecture................................................................................................................................................9
0 FEATURES OF moviNAND..................... .................................... ...............................................................................10
1 Vendor specific command.............. .................... ................... .................... ... ................... ........................................10
1.1 Boot operation mode................................................................ .........................................................................10
1.2 Boot partition................. ................................. ... .................................. ... ...........................................................10
1.3 Change boot partition size ............. ................... .................... ................... ... .................... ..................................11
1.4 Timing in Boot Mode................... ................................. ... ... ................. ... ...........................................................11
2 Smart Report...........................................................................................................................................................12
2.1 Smart Report Sequence....................................................................................................................................12
2.2 Smart Report Output Data (For Customer).......................................................................................................13
3 Reliable Write..........................................................................................................................................................14
4 Performance............................................................................................................................................................14
0 REGISTER VALUE.....................................................................................................................................................15
1 OCR Register..........................................................................................................................................................15
2 CID Register............................................................................................................................................................15
2.1 Product Name table (In CID Register) ..............................................................................................................15
3 CSD Register...........................................................................................................................................................16
3.1 Write Protect Group Size . .. ... ..................................... ..................................................... ..................................17
4 Extended CSD Register ..........................................................................................................................................18
4.1 Density Specification................ .................................... .....................................................................................19
0 POWER UP ................................................................................................................................................................20
0 AC PARAMETER........................................................................................................................................................21
1 Time out Parameter ..........................................................................................................................................21
2 Bus Timing Parameter..................................... ..................................................... ...................................................21
0 DC PARAMETER .......................................................................................................................................................23
1 Active Power Consumption during operation .....................................................................................................23
2 Standby Power  Consumption in auto power saving mode and standby state........................................................23
3 Sleep Power  Consumption in Sleep State..............................................................................................................23
4 Bus Operating Conditions..................................................................................................................................23
5 Bus Signal Line Load....................................... ................... .................... ... ................... ...........................................24
5.1 moviNAND Connection Guide...........................................................................................................................24
5.1.1 x8 support Host connection Guide..............................................................................................................24
5.1.2 x4 support Host connection Guide..............................................................................................................25

- 4 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

INTRODUCTION

The SAMSUNG moviNAND is an embedded MMC solution designed in a BGA package form. moviNAND operation is identical to a MMC card and there-

fore is a simple read and write to memory using MMC protocol v4.3 which is a industry standard.

moviNAND consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VDDF) whereas 1.8V or 3V dual supply volt-

age (VDD) is supported for the MMC controller. Maximum MMC interface frequency of 52MHz and maximum bus widths of 8 bit are supported.

There are several advantages of using moviNAND. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC

host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads

to faster product development as well as faster times to market.

The embedded flash mangement software or FTL(Flash Transition Layer) of moviNAND manages Wear Leveling, Bad Block Management and ECC. The

FTL supports all features of the Samsung NAND flash platform and achieves optimal performance. The current moviNAND performance is neither limited

by the maximum interface frequency nor the maximum bus width but by the performance of NAND. Therefore the maximum performance of moviNAND

will saturate at a certain MMC interface frequency and bus width depending on the type and the number of NAND used in moviNAND.

1.0 PRODUCT LIST

2.0 KEY FEATURES

• MultiMediaCard System Specification Ver. 4.3 compatible (Boot operation is supported)

• Full backward compatibility with previous MultiMediaCard system ( 1bit data bus, multi-moviNAND systems)

• MMC I/F Clock frequency : 0~52MHz

MMC I/F Boot frequency : 0~26MHz

• Data bus width : 1bit(default), 4bit and 8 bit

• Temperature : -25’C to 85’C (Operation) , -40’C to 85’C (Storage)

• NAND technology changes invisible to the host

Capacities moviNAND Part ID NAND Flash Type Power System Package size Pin Configuration

1GB KLM1G1CEHC-B101 8Gb MLC x 1 - Interface power : VDD

(1.70V ~ 1.95V or 2.7V ~

3.6V)

- Memory power : VDDF

(2.7V ~ 3.6V)

11.5m x 13mm x 1.2mm 153FBGA2GB KLM2G1DEHE-B101 16Gb MLC x 1

8GB KLM8G4DEHE-B101 16Gb MLC x 4

16GB KLMAG8DEHE-A101 16Gb MLC x 8 12mm x 16mm x 1.4mm 169FBGA

- 5 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

3.0 PACKAGE CONFIGURATIONS

3.1 Pin Configuration

11.5mm x 13mm x 1.2mm(Max)

Figure 1. 153-FBGA

Pin NO Name Pin NO Name

C6 VDD H10 VSS

P3 VDD K8 VSS

P5 VDD E7 VSS

M4 VDD P6 VSS

N4 VDD G5 VSS

J10 VDDF N5 VSS

K9 VDDF C4 VSS

E6 VDDF P4 VSS

F5 VDDF N2 VSS

C2 VDDI A3 DAT0

M5 CMD A4 DAT1

M6 CLK A5 DAT2

B2 DAT3

B3 DAT4

B4 DAT5

B5 DAT6

B6 DAT7

Vss

VDDF

VDDFVss

Vss

DAT7

VDD

VDDF

CLK

Vss

DAT2

DAT6

VDDF

Vss

CMD

Vss

VDD

DAT1

DAT5

Vss

VDD

Vss

DAT4

VDD

DAT3

Vss

DAT0

VDDI

DNU

1 2 3 4 5 6 7 8 9 1011121314

DNU

DNU DNU

DNU

- 6 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

12mm x 16mm x 1.4mm(Max)

Figure 2. 169-FBGA

Pin NO Name Pin NO Name

K6 VDD AA5 VDD

T10 VDDF W4 VDD

K2 VDDI Y4 VDD

R10 Vss AA3 VDD

W5 CMD U9 VDDF

W6 CLK M6 VDDF

H3 DAT0 N5 VDDF

H4 DAT1 U8 Vss

H5 DAT2 M7 Vss

J2 DAT3 AA6 Vss

J3 DAT4 P5 Vss

J4 DAT5 Y5 Vss

J5 DAT6 K4 Vss

J6 DAT7 Y2 Vss

AA4 Vss

Vss

DDF

Vss

DAT7

DDF

MCLK

Vss

DAT2

DAT6

DDF

Vss

MCMD

Vss

DAT1

DAT5

Vss

DAT4

DAT3

Vss

DAT0

1234567891011121314

DDI

DNU DNU

DNUDNU

DNU DNUDNU

DNU

DNU DNU

DNU

DNUDNU

DNU DNU

DNUDNU

DNU DNU DNU

DNUDNU

DNU DNU

- 7 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

3.2 Package Dimensions

11.5mm x 13mm x 1.2mm(Max)

Figure 3. Package Dimension

Units : mm

TOP VIEW BOTTOM VIEW

#A1

11.50±0.10

13.00±0.10

1.10±0.10

13.00±0.10

0.22±0.05

0.08 MAX #A1 INDEX MARK

14 142765 389111312 10

0.50 x 13 = 6.50

11.50±0.10 A

(Datum A)

(Datum B) A

3.25

153-

∅

0.30±0.05

0.20

A B

∅

0.50

3.25

0.50

0.50 x 13 = 6.50

13.00±0.10

- 8 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

12mm x 16mm x 1.4mm(Max)

Figure 4. Package Dimension

0.08 MAX

1.30

0.10

TOP VIEW

12.00

0.10

16.00

0.10

#A1

16.00

0.10

#A1 INDEX MARK

BOTTOM VIEW

0.22

0.05

14 142765 389111312 10

0.50 x 13 =

6.50

12.00

0.10

(Datum A)

0.50

0.25

0.50 x 13 = 6.50

16.00

0.10

0.50

(Datum B)

169-

∅

0.30

0.05

0.20

A B

∅

1.75

0.25

0.75

2.75

3.25

5.25

6.25

6.75

- 9 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

3.3 Product Architecture

Figure 5. moviNAND Block Diagram

NAND Flash

Data In/Out

Control

moviNAND

MMC Bus

Interface

VDD VDDF

moviNAND

Controller

- 10 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

4.0 FEATURES OF moviNAND

This moviNAND follows MMC4.3 standards. KLMxGxxEHx moviNAND series are housed in 153 ball & 169 ball BGA package and JEDEC standard p ack -

age size.

4.1 Vendor specific command

CMD62 is a Vendor command which Samsung provides for customer to use moviNAND more usefully. One is for Boot partition setting and the other is

Smart report.

4.1.1 Boot operation mode

In boot operation mode, the master (MultiMediaCard host) can read boot data from the slave (MMC device) by keeping CMD line low after power-on, or

sending CMD0 with argument 0xFFFFFFF A (optional for slave), before issuing CMD1. The data can be read from either bootarea or user area depending

on register setting. Detail description is refer to MMC 4.3 standard

4.1.2 Boot partition

Samsung moviNAND provide boot partition feature which users can set the boot partition size

There are two partition regions. The minimum size of each boot partition is 0KB. Boot partition size is calculated as follows: [227:226]

Maximum boot partition size = 128K byte x BOOT_SIZE_MULT

BOOT_SIZE_MULT: the value in Extended CSD register bytes [227:226]

The boot partitions are separated from the user area as shown in below figure.

Figu re 4. Memory Partition

Slave has boot configuration in Extended CSD register byte [179]. The master can choose the configuration by setting the register using CMD6 (switch).

Slave also can be configured to boot from the user area by setting the BOOT_PARTITION_ ENABLE bits in the EXT_CSD register, byte [179] to 111b. If

host boot from the user area, it will take longer time than boot partition area.

CMD

INDEX Type Argument Resp Abbreviation Command Description

CMD62 ac [31:0] Argument R1b VENDOR_CMD Vendor command can provide two kinds of functions. One

is Smart Report, Second is Boot partition setting.

0x00000000 0x00000000

0x00000000

Maximum boot

partition size

Maximum boot

partition size

BOOT area

partition 1

BOOT area

partition 2

USER area

- 11 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

4.1.3 Change boot partition size

Initial boot partition size in moviNAND is set to zero. However, the boot partition size is allowed to be changed by user. Boot partition size changing

sequence is following the sequence Figure 4-2 below. Argument of the third CMD62 can be set boot partition size. It can be calculated by this equation.

Argument (Boot Size) =(Number of Super Block for boot partition) / 2

For example, if user wants 10 super blocks for boot partition, argument of third CMD62 should be 0x5.

Detail values of moviNAND are referred to below Table.

After setting the boot partition size, all of data in the moviNAND is removed. And the value of EXT_CSD [227:226] and SEC_COUNT is automatically

changing. So user should be careful changing boot partition size.

Figure 6. Boot Partition Size Changing Sequence

4.1.4 Timing in Boot Mode

SAMSUNG moviNAND needs Min.50ms time(tDELAY) to start boot mode right after power-up. This time(tDELAY) in cludes normal boot mode as well as

alternative boot mode.

If host does not wait the time(tDELAY) for boot mode , hosts may experience timeout because tBA would be out of spec.

Figure 7. Multi MediaCard state diagram & timing (boot mode)

Density Super Block Size MAX Boot Partition Size Max argument value

1GB 1MB 256MB 128

2GB 1MB 256MB 128

8GB 4MB 1024MB 128

16GB 4MB 1024MB 128

Command 62 (ARG: 0x00CBAEA7)

Command 62 (ARG: Boot Size)

Wait Busy Clear

Command 62 (ARG: 0xEFAC62EC)

S 512bytes E

+CRC S 512bytes E

+CRC

S 010 E

CMD1 RESP CMD2 RESP CMD3 RESP

Boot terminated

Min 8 clocks + 48 clocks = 56 clocks required from

CMD signal high to next MMC command.

CLK

DAT[0]

50ms

Max

1 sec Max

CMD

VDD

VDDF

tDELAY

50ms

Min

tBA

tBD

- 12 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

Figure 8. MultiMediaCard state diagram & timing (alternative boot mode)

NOTE :

1) CMD0 with argument 0xFFFFFFFA

4.2 Smart Report

Samsung provide Report feature for the Host to notice the device state by Meta data. Samsung call this Smart Report. So Customer can acquire prime

factor for understanding at the beginning analysis of error. Below table is the information about Smart Report.

4.2.1 Smart Report Sequence

Mode Contents

Customer Report

1. Detect Error Mode

2. Detect Super Block Size

3. Detect Super Page Size

4. Detect Optimal Write Size

5. Detect Number Of Banks

6.The number of Initial Bad Block, Per Bank

7.the number of Run Time Bad Block, Per Bank

8.Number of remain block in Reserved Block

9.Max, Min, Avg Erase Count

10.Open count

11.Log message of the location that User Data ECC Error

12.Check result of Meta Data integrity

Functions Command Description

Entering Smart Report Mode CMD62h(0xEFAC62EC)

→CMD62h(0xCCEE) After entering Smart Report Mode, the report-related Values are able to be

checked on Read Command.

Confirming Smart Report CMD17h(0x0) It is possible to confirm Smart Report after reading Sector 1 at Address 0.

Removing Smart Report Mode CMD62h(0xEFAC62EC)

→CMD62h(0xDECCEE) Smart Report Mode is removed by this command.

S 512bytes E

+CRC S 512bytes E

+CRC

S 010 E

CMD1 RESP CMD2 RESP CMD3

Min 74

clocks

required

after power

is stable to

start boot

command

CLK

DAT[0]

50ms

Max

tBD

CMD

CMD0

CMD0/Reset RESP

tBA

tDELAY

50ms

Min

VDD

VDDF

Max. 1 sec

- 13 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

4.2.2 Smart Report Output Data (For Customer)

NOTE:

Example for 2GB

* Super Block Size : 1,048,576 (1MB )

* Super Page Size : 8,192 (8KB)

* Optimal Write Size : 16,384 (16KB)

* Number Of Bank : 1

Data Slice Field Width Remark

[3:0] Error Mode 4 bytes

Normal : 0xD2D2D2D2,

OpenFatalError : 0x37373737,

RuntimeFatalError : 0x5C5C5C5C,

MetaBrokenError : 0xE1E1E1E1

* In case of open error, other fields are not valid.

[7:4] Super Block Size 4 bytes Total Size(in byte) of simultaneously erasable physical blocks

(e.g., Number of Channel * N-way Interleaving * physical block size)

[11:8] Super Page Size 4 bytes Total Size(in byte) of simultaneously programmable physical pages

(e.g., Number of Channel * physical page size)

[15:12] Optimal Write Size 4 bytes Write size(in byte) at which the device performs best

(e.g., Super Page Size * N-way Interleaving)

[19:16] Number Of Banks 4 bytes Number of banks connecting to each NAND flash. Bad blocks are man-

aged by each banks.

[23:20] Bank0 Init Bad Block 4 bytes Number of initial defective physical blocks in Bank0

[27:24] Bank0 Runtime Bad Block 4 bytes Number of runtime defective physical blocks in Bank0

[31:28] Bank0 remain reserved Block 4 bytes Number of remain reserved physical blocks in Bank0

[35:32] Bank1 Init Bad Block 4 bytes Number of initial defective physical blocks in Bank1

[39:36] Bank1 Runtime Bad Block 4 bytes Number of runtime defective physical blocks in Bank1

[43:40] Bank1 remain reserved Block 4 bytes Number of remain reserved physical blocks in Bank1

[47:44] Bank2 Init Bad Block 4 bytes Number of initial defective physical blocks in Bank2

[51:48] Bank2 Runtime Bad Block 4 bytes Number of runtime defective physical blocks in Bank2

[55:52] Bank2 remain reserved Block 4 bytes Number of remain reserved physical blocks in Bank2

[59:56] Bank3 Init Bad Block 4 bytes Number of initial defective physical blocks in Bank3

[63:60] Bank3 Runtime Bad Block 4 bytes Number of runtime defective physical blocks in Bank3

[67:64] Bank3 Reserved Block 4 bytes Number of reserved physical blocks in Bank3

[71:68] Max. Erase Count 4 bytes Maximum erase count from among all physical blocks

[75:72] Min. Erase Count 4 bytes Minimum erase count from among all physical blocks

[79:76] Avg. Erase Count 4 bytes Average erase count of all physical blocks

[83:80] Number of ECC Uncorrectable Error 4 bytes Number of ECC Uncorrectable Error

[143:84] ECC Uncorrectable Error Location 2 bytes * 30 Physical Block Address of ECC Uncorrectable Error

[203:144] ECC Uncorrectable Error Location 2 bytes * 30 Physical Page Offset of ECC Uncorrectable Error

[219:204] Reserved

[223:220] Read Reclaim Cnt 4 bytes Number of Read Reclaim Count

[511:224] Reserved

- 14 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

4.3 Reliable Write

MMC 4.3 supports reliable write sequence. Espicially Samsung moviNAND supports Max 255 sectors write by Reliable Write.

Detail description is in MMC4.3 Standard

4.4 Performance (TBD)

* Test/Estimation Condition : Bus width x8, 52MHz, 4MB dat a transfer, w/o file system overhead

CMD Argument

CMD23 Bit[31] : reliable Write Request

Bit[30:16] : set to 0

Bit[15:0] : number of blocks

Density Sequential Write(MB/s) Sequential Read(MB/s)

1GB 6 15

2GB 6 15

8GB 15 20

16GB 15 20

- 15 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

5.0 REGISTER VALUE

5.1 OCR Register

The 32-bit operation conditions register stores the V DD voltage profile of the moviNAND. In addition, this register includes a status information bit . This

status bit is set if the moviNAND power up procedure has been finished. The OCR register shall be implemented by all moviNANDs.

NOTE :

1) This bit is set to LOW if the moviNAND has not finished the power up routine

2) The voltage for internal flash memory(VDDF) should be 2.7-3.6v regardless of OCR Register value.

5.2 CID Register

NOTE :

1),4),5) description are same as MMC4.3 standard

2) PRV is composed of the revision count of controller and the revision count of F/W patch

3) A 32 bits unsigned binary integer. (Random Number)

5.2.1 Product Name table (In CID Register)

OCR bit VDD voltage window2Register Value

[6:0] Reserved 00 00000b

[7] 1.70 - 1.95 1b

[14:8] 2.0-2.6 000 0000b

[23:15] 2.7-3.6 1 1111 1111b

[28:24] Reserved 0 0000b

[30:29] Access Mode 00b (byte mode)

10b (sector mode) -[ *Higher than 2GB only]

[31] moviNAND power up status bit (busy)1

Name Field Width CID-slice CID Value

Manufacturer ID MID 8 [127:120] 0x15

Reserved 6 [119:114] ---

Card/BGA CBX 2 [113:112] 01

OEM/Application ID OID 8 [111:104] ---1

Product name PNM 48 [103:56] See Product name table

Product revision PRV 8 [55:48] ---2

Product serial number PSN 32 [47:16] ---3

Manufacturing date MDT 8 [15:8] ---4

CRC7 checksum CRC 7 [7:1] ---5

not used, always ’1’ - 1 [0:0] ---

Part Number Density Product Name in CID Register (PNM)

KLM1G1CEHC-B101 1GB 0x4D3147314343

KLM2G1DEHE-B101 2GB 0x4D3247314445

KLM8G4DEHE-B101 8GB 0x4D3847344445

KLMAG8DEHE-A101 16GB 0x4D4147384445

- 16 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

5.3 CSD Register

The Card-Specific Data register provides information on how to access the moviNAND contents. The CSD defines the data format, error correction type,

maximum data access time, data transfer speed, whether the DSR register can be used etc. The programmable part of the register (entries marked by W

or E, see below) can be changed by CMD27.

The type of the entries in the table below is coded as follows:

Name Field Width Cell

Type CSD-slice CSD Value

1GB 2GB 8GB 16GB

CSD structure CSD_STRUCTURE 2 R [127:126] 0x2

System specification version SPEC_VERS 4 R [125:122] 0x4

Reserved - 2 R [121:120] -

Data read access-time 1 TAAC 8 R [119:112] 0x0F

Data read access-time 2

in CLK cycles (NSAC*100) NSAC 8 R [111:104] 0x00

Max. bus clock frequency TRAN_SPEED 8 R [103:96] 0x32

Card command classes CCC 12 R [95:84] 0xF5

Max. read data block length READ_BL_LEN 4 R [83:80] 0x9 0xA 0x9 0x9

Partial blocks for read allowed READ_BL_PARTIAL 1 R [79:79] 0x0

Write block misalignment WRITE_BLK_MISALIGN 1 R [78:78] 0x0

Read block misalignment READ_BLK_MISALIGN 1 R [77:77] 0x0

DSR implemented DSR_IMP 1 R [76:76] 0x0

Reserved - 2 R [75:74] -

Card size C_SIZE 12 R [73:62] 0xEE7 0xEE7 0xFFF 0xFFF

Min. read current @ VDD min VDD_R_CURR_MIN 3 R [61:59] 0x7

Max. read current @ VDD max VDD_R_CURR_MAX 3 R [58:56] 0x7

Min. write current @ VDD min VDD_W_CURR_MIN 3 R [55:53] 0x7

Max. write current @ VDD max VDD_W_CURR_MAX 3 R [52:50] 0x7

Card size multiplier C_SIZE_MULT 3 R [49:47] 0x7

Erase group size ERASE_GRP_SIZE 5 R [46:42] 0x3 0x3 0xF 0xF

Erase group size multiplier ERASE_GRP_MULT 5 R [41:37] 0x1F

Write protect group size WP_GRP_SIZE 5 R [36:32] 0 x1F

Write protect group enable WP_GRP_ENABLE 1 R [31:31] 0x1

Manufacturer default ECC DEFAULT_ECC 2 R [30:29] 0x0

Write speed factor R2W_FACTOR 3 R [28:26] 0x5

Max. write data block length WRITE_BL_LEN 4 R [25:22] 0x9

Partial blocks for write allowed WRITE_BL_PARTIAL 1 R [21:21] 0x0

Reserved - 4 R [20:17] -

Content protection application CONTENT_PROT_APP 1 R [16:16] 0x0

File format group FILE_FORMAT_GRP 1 R/W [15:15] 0x0

Copy flag (OTP) COPY 1 R/W [14:14] 0x1

Permanent write protection PERM_WRITE_PROTECT 1 R/W [13:13] 0x0

Temporary write protection TMP_WRITE_PROTECT 1 R/W/E [12:12] 0x0

File format FILE_FORMAT 2 R/W [11:10] 0x0

ECC code ECC 2 R/W/E [9:8] 0x0

CRC CRC 7 R/W/E [7:1] -

Not used, always ’1’ - 1 - [0:0] -

- 17 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

5.3.1 Write Protect Group Size

The unit of write protect in moviNAND is defined as multiples of Erase group size. For each density of moviNAND, detail information is described below.

Value Register Field Calculation Unit Size

1GB 2GB 8GB 16GB 1GB 2GB 8GB 16GB

Block

Length

CSD

WRITE_BL_LEN - 512B

Erase

Group ERASE_GRP_SIZE

ERASE_GRP_MULT

(ERASE_GRP_SIZE+1) x

(ERASE_GRP_MUL T +1) x BL_LEN

(512B) 64KB 256KB

Write Pro-

tect Group WP_GRP_SIZE Erase Group(Erasable Unit Size) X

(WP_GRP_SIZE + 1) 2048KB 8192KB

- 18 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

5.4 Extended CSD Register

The Extended CSD register de fines the moviNAND properties and selected modes. It is 512 bytes long.

The most significant 320 bytes are the Properties segment, which defines the moviNAND capabilities and cannot be modified by the host. The lower 192

bytes are the Modes segment, which defines the configuration the moviNAND is working in. These modes can be changed by the host by means o f the

SWITCH command.

Name Field Size

(Bytes) Cell

Type CSD-slice CSD Value

1GB 2GB 8GB 16GB

Properties Segment

Reserved17 [511:505] -

Supported Command Sets S_CMD_SET 1 R [504] 0x1

Reserved1275 TBD [503:229] -

Boot information BOOT_INFO 1 R [228] 0x1

Reserved1275 TBD [227] -

Boot partition size BOOT_SIZE_MULTI21R [226] 0x0

Access size ACC_SIZE 1 R [225] 0x 6

High-capacity erase unit size HC_ERASE_GRP_SIZE 1 R [224] 0x0

High-capacity erase timeout ERASE_TIMEOUT_MULT 1 R [223] 0x0

Reliable write sector count REL_WR_SEC_C 1 R [222] 0xFF

High-capacity write protect group size HC_WP_GRP_SIZE 1 R [221] 0x0

Sleep current (VCC) S_C_VCC 1 R [220] 0x8

Sleep current (VCCQ) S_C_VCCQ 1 R [219] 0x0A

Reserved11TBD [218] -

Sleep/awake timeout S_A_TIMEOUT 1 R [217] 0x13

Reserved11TBD [216] -

Sector Count SEC_COUNT 4 R [215:212] 0x0 0x0 0x00E

E8000 0x01DD

0000

Reserved11 [211] -

Minimum Write Performance for 8bit

@52MHz MIN_PERF_W_8_52 1 R [210] 0x0

Minimum Read Performance for 8bit

@52MHz MIN_PERF_R_8_52 1 R [209] 0x14

Minimum Write Performance for 8bit

@26MHz /4bit @52MHz MIN_PERF_W_8_26_4_52 1 R [208] 0x0

Minimum Read Performance for 8bit

@26MHz /4bit @52MHz MIN_PERF_R_8_26_4_52 1 R [207] 0x14

Minimum Write Performance for 4bit

@26MHz MIN_PERF_W_4_26 1 R [206] 0x0

Minimum Read Performance for 4bit

@26MHz MIN_PERF_R_4_26 1 R [205] 0x0

Reserved11 [204] -

Power Class for 26MHz @ 3.6V PWR_CL_26_360 1 R [203] 0x2

Power Class for 52MHz @ 3.6V PWR_CL_52_360 1 R [202] 0x2

Power Class for 26MHz @ 1.95V PWR_CL_26_195 1 R [201] 0x6

Power Class for 52MHz @ 1.95V PWR_CL_52_195 1 R [200] 0x6

Reserved13 [199:197] -

Card Type CARD_TYPE 1 R [196] 0x3

Reserved11 [195] -

CSD Structure Version CSD_STRUCTURE 1 R [194] 0x2

Reserved11 [193] -

Extended CSD Revision EXT_CSD_REV 1 R [192] 0x3

- 19 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

NOTE :

1) Reserved bits should be read as "0."

2) BOOT_SIZE_MULTI is extended one more byte for Boot partition size.

5.4.1 Density Specification

Modes Segment

Command Set CMD_SET 1 R/W [191] 0x0

Reserved11 [190] -

Command Set Revision CMD_SET_REV 1 RO [189] 0x0

Reserved11 [188] -

Power Class POWER_CLASS 1 R/W [187] 0x0

Reserved11 [186] -

High Speed Interface Timing HS_TIMING 1 R/W [185] 0x0

Reserved11 [184] -

Bus Width Mode BUS_WIDTH 1 WO [183] 0x1

Reserved11 [182] -

Erased Memory Content ERASED_MEM_CONT 1 RO [181] 0x0

Reserved11 [180] -

Boot configuration BOOT_CONFIG 1 R/W [179] 0x0

Reserved11 [178] -

Boot bus width1 BOOT_BUS_WIDTH 1 R/W [177] 0x0

Reserved11 [176] -

High-density erase group definition ERASE_GROUP_DEF 1 R/W [175] 0x0

Reserved1175 [174:0] -

Parameter 1GB 2GB 8GB 16GB

User area density more than

1,000,000,000Byte more than

2,000,000,000Byte more than

8,000,000,000Byte more than

16,000,000,000Byte

C_SIZE in CSD 0xEE7 0xEE7 0xFFF 0xFFF

SEC_COUNT in Extended CSD 0x00 0x00 0x00EE8000 0x01DD0000

- 20 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

6.0 POWER UP

An moviNAND bus power-up is handled locally in each device and in the bus master . Figure 6 shows the power-up sequence and is followed by specific

instructions regarding the power-up sequence.

Figure 9. moviNAND Power up Sequence

VDDF (MAX)

VDDF (MIN)

VDD (MAX)

VDD (MIN)

VDD

Power-up time(tPUP)

Supply ramp-up time

first CMD1 to card ready(tINIT)

Initialization de lay :

The longest of : 1ms, 74 clock cycles,

the supply ramp-up time,

or the boot operation period.

Optional reperitions of CMD1

until the card responds

with busy bit set.

CMD

Initialization sequence

Memory field

working

voltage range

Supply voltage

Control logic

working

voltage range

15ms

- 21 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

7.0 AC PARAMETER

7.1 Time out Parameter

NOTE:

1) Wake-up time when VDDF power supply is off during the sleep state.

2) Wake-up time when VDDF power supply is on during the sleep state.

7.2 Bus Timing Parameter

CLK 50% of VDD

Clock

Input

ISU

THL

TLH

ODLY

Output

OSU

CLK 50% of VDD

Figure 10. Timing Diagram - Data Input/Output Referenced to Clock

Parameter Symbol Max Unit

Initialization Time Out tINIT 1s

Power-up time tPUP 15 ms

Write Time Out - 600 ms

Erase Time Out - 1 s

Read Time Out - 100 ms

Wake up time -450001us

-2502us

Time to enter sleep - 10 us

- 22 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

Default (under 26MHz)

NOTE :

1)The card must always start with the backward-compatible interface timing mode can be switched to high-speed interface timing by the host sending the SWITCH command

(CMD6) with the argument for high-speed interface select.

2) CLK timing is measured at 50% of VDD.

3) For compatibility with cards that suport the v4.2 standard or earlier, host should not use>20MHz before switching to high-speed interface timing.

4) Frequency is periodically sampled and not 100% tested.

5) CLK rise and fall times are measured by min(VIH) and max(VIL).

High-Speed Mode

NOTE :

1) CLK timing is measured at 50% of VDD.

2) A MultiMediaCard shall support the full f requency range from 10-26MHz, or 10-52MHz

3) Frequency is periodically sampled and not 100% tested.

4) Card can operate as high-speed card interface timing at 26MHz clock frequency.

5) CLK rise and fall times are measured by min(VIH) an d max( VIL) .6) Inputs CMD, DAT rise and fall times are mea sured by min(VIH) an d max(VIL) , and out puts CMD, DAT rise

and fall times are measu r ed by min(VOH) and max(VOL).

Parameter Symbol Min Max Unit Remark1

Clock CLK(All values are referred to min(VIH) and max(VIL)2

Clock frequency Data Transfer Mode3 fPP 0426 MHz CL <= 30 pF

Tolerance: +100KHz

Clock frequency Identification Mode fOD 04400 kHz Tolerance: +20KHz

Clock low time tWL 10 ns CL <= 30 pF

Clock high time tWH 10

Clock rise time5tTLH 10 ns CL <= 30 pF

Clock fall time tTHL 10 ns CL <= 30 pF

Inputs CMD, DAT (referenced to CLK)

Input set-up time tISU 3nsC

L <= 30 pF

Input hold time tIH 3nsC

L <= 30 pF

Outputs CMD, DAT (referenced to CLK)

Output hold time tOH 8.3 ns CL <= 30 pF

Output set-up time tOSU 11.7 ns CL <= 30 pF

Parameter Symbol Min Max Unit Remark

Clock CLK(All values are referred to min(VIH) and max(VIL)1

Clock frequency Data Transfer Mode2fPP 03524MHz CL <= 30 pF

Clock frequency Identification Mode fOD 03400 kHz CL <= 30 pF

Clock low time tWL 6.5 ns CL <= 30 pF

Clock High time tWH 6.5 ns CL <= 30 pF

Clock rise time5tTLH 3ns C

L <= 30 pF

Clock fall time tTHL 3ns C

L <= 30 pF

Inputs CMD, DAT (referenced to CLK)

Input set-up time tISU 3nsC

L <= 30 pF

Input hold time tIH 3nsC

L <= 30 pF

Outputs CMD, DAT (referenced to CLK)

Output Delay time during Data Transfer Mode tODLY 13.7 ns CL <= 30 pF

Output hold time tOH 2.5 CL <= 30 pF

Signal rise time6tRISE 3ns C

L <= 30 pF

Signal fall time tFALL 3ns C

L <= 30 pF

- 23 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

8.0 DC PARAMETER

8.1 Active Power Consumption during operation (TBD)

* Power Measurement conditions: Temperature = 85’C(Worst case) 25’C(Typical case) , Bus configuration =x8 @52MHz ,

8.2 Standby Power Consumption in auto power saving mode and standby state (TBD)

* Power Measurement conditions: Temperature = 85’C(Worst case) 25’C(Typical case) , Bus configuration =x8 @52MHz ,

* In auto power saving mode(and Standby state) , wake time should be

8.3 Sleep Power Consumption in Sleep State (TBD)

* Power Measurement conditions: Temperature = 85’C(Worst case) 25’C(Typical case) , Bus configuration =x8 @52MHz ,

* 1) In auto power saving mode , NAND power can not be turned off .However in sleep mode NAND power can be turned off. If NAND power is alive ,

NAND power is same with that of the Standby state.

8.4 Bus Operating Conditions

Density NAND Type ICC @ CTRL ICC @ NAND Unit

Max Max

1GB 8Gb MLC x 1

100

2GB 16Gb MLC x 1

8GB 16Gb MLC x 4 200

16GB 16Gb MLC x 8

Density NAND Type ICC @ CTRL ICC @ NAND Unit

Max Max

1GB 8Gb MLC x 1

300

2GB 16Gb MLC x 1

8GB 16Gb MLC x 4 200

16GB 16Gb MLC x 8 400

Density NAND Type ICC @ CTRL ICC @ NAND Unit

Max Max

1GB 8Gb MLC x 1

300 01uA

2GB 16Gb MLC x 1

8GB 16Gb MLC x 4

16GB 16Gb MLC x 8

Parameter Min Max Unit

Peak voltage on all lines -0.5 3.6 V

Input Leakage Current -10 10 μA

Output Leakage Current -10 10 μA

Parameter Symbol Min Max Unit

Supply voltage

VDD 1.70(or 2.7) 1.95(or 3.6) V

VDDF 2.7 3.6 V

VSS -0.5 0.5 V

- 24 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

8.5 Bus Signal Line Load

The total capacitance CL of each line of the moviNAND bus is the sum of the bus master capacitance CHOST, the bus capacitance CBUS itself and the

capacitance Cmovi of the moviNAND connected to this line: CL = CHOST + CBUS + Cmovi

The sum of the host and bus capacitances should be under 20pF.

8.5.1 moviNAND Connection Guide

This Connection guide is an example for customers to adopt moviNAND more easily

8.5.1.1 x8 support Host connection Guide

• This appendix is Just guideline for moviNAND connection. This value and schematic can be changed depens on the system environment.

• Coupling capacitor (1 µF + 0.1µF) have to be connected with VDD and VSS as close as possible.

• VDDI Capacitor is min 0.1uF

Parameter Symbol Min Max Unit Remark

Pull-up resistance for CMD RCMD 4.7 100 KOhm to prevent bus floating

Pull-up resistance for DAT0-DAT7 RDAT 50 100 KOhm to prevent bus floating

Internal pull up resistance DAT0-DAT7 Rint 50 150 KOhm to prevent unconnected

lines floating

Bus signal line capacitance CL30 pF Single moviNAND

Single moviNAND capacitance Cmovi 13 pF

Maximum signal line inductance 16 nH fPP <= 52 MHz

moviNAND

VDDF C

0.1uF

1uF

0.1uF

Host Controller

VDD

VDD VDD

CMD

CLK

DAT0

DAT1

DAT2

DAT3

DAT4

DAT5

DAT6

DAT7

50k R

10k

R 22Ω~46Ω

DAT0

DAT1

DAT2

DAT3

DAT4

DAT5

DAT6

DAT7

CMD

CLK

VDDF

VDD

VSS

VDDI

- 25 -

datasheet moviNAND

Rev. 0.0

KLMxGxxEHx

Draft

8.5.1.2 x4 support Host connection Guide

moviNAND

VDDF C

0.1uF

1uF

0.1uF

Host Controller

VDD

VDD VDD

CMD

CLK

DAT0

DAT1

DAT2

DAT3

50k R

10k

R 22Ω~46Ω

DAT0

DAT1

DAT2

DAT3

DAT4

DAT5

DAT6

DAT7

CMD

CLK

VDDF

VDD

VSS

VDDI