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W989D6CB / W989D2CB

512Mb Mobile LPSDR

TABLE OF CONTENTS

1. GENERAL DESCRIPTION .......................................................................................................... 3

2. FEATURES .................................................................................................................................. 3

3. PIN CONFIGURATION ................................................................................................................ 4

3.1 Ball Assignment: LPSDR X 16 ............................................................................................................ 4

3.2 Ball Assignment: LPSDR X 32 ............................................................................................................ 4

4. PIN DESCRIPTION...................................................................................................................... 5

4.1 Signal Description ............................................................................................................................... 5

4.2 Addressing Table ................................................................................................................................ 5

5. BLOCK DIAGRAM ...................................................................................................................... 6

6. ELECTRICAL CHARACTERISTICS ........................................................................................... 7

6.1 Absolute Maximum Ratings ................................................................................................................ 7

6.2 Operating Conditions .......................................................................................................................... 7

6.3 Capacitance ........................................................................................................................................ 7

6.4 DC Characteristics .............................................................................................................................. 8

6.5 Automatic Temperature Compensated Self Refresh Current Feature .............................................. 10

6.6 AC Characteristics And AC Operating Conditions ............................................................................ 11

6.6.1 AC Characteristics.................................................................................................................................... 11

6.6.2 AC Test Condition .................................................................................................................................... 12

6.6.3 AC Latency Characteristics ...................................................................................................................... 13

7. FUNCTION DESCRIPTION ....................................................................................................... 14

7.1 Command Function ........................................................................................................................... 14

7.1.1Table 1. Truth Table .................................................................................................................................. 14

7.1.2 Functional Truth Table ............................................................................................................................. 15

7.1.3 Function Truth Table for CKE .................................................................................................................. 18

7.1.4 Bank Activate Command .......................................................................................................................... 19

7.1.5 Bank Precharge Command ...................................................................................................................... 19

7.1.6 Precharge All Command .......................................................................................................................... 19

7.1.7 Write Command ....................................................................................................................................... 19

7.1.8 Write with Auto Precharge Command ...................................................................................................... 19

7.1.9 Read Command ....................................................................................................................................... 19

7.1.10 Read with Auto Precharge Command.................................................................................................... 19

7.1.11 Extended Mode Register Set Command ............................................................................................... 19

7.1.12 Mode Register Set Command ................................................................................................................ 20

7.1.13 No-Operation Command ........................................................................................................................ 20

7.1.14 Burst Stop Command ............................................................................................................................. 20

7.1.15 Device Deselect Command.................................................................................................................... 20

7.1.16 Auto Refresh Command ......................................................................................................................... 20

7.1.17 Self Refresh Entry Command ................................................................................................................ 20

7.1.18 Self Refresh Exit Command ................................................................................................................... 20

7.1.19 Clock Suspend Mode Entry/Power Down Mode Entry Command ......................................................... 20

7.1.20 Clock Suspend Mode Exit / Power Down Mode Exit Command ............................................................ 20

7.1.21 Data Write/Output Enable, Data Mask/Output Disable Command ........................................................ 21

8.OPERATION ............................................................................................................................... 21

8.1 Read Operation ................................................................................................................................. 21

8.2 Write Operation ................................................................................................................................. 21

8.3 Precharge ......................................................................................................................................... 22

8.3.1 Auto Precharge ........................................................................................................................................ 22

8.3.2 READ with auto precharge interrupted by a READ (with or without auto precharge) ............................. 22

8.3.3 READ with auto precharge interrupted by a WRITE (with or without auto precharge) ............................ 23

8.3.4 WRITE with auto precharge interrupted by a READ (with or without auto precharge) ............................ 24

8.3.5 WRITE with auto precharge interrupted by a WRITE (with or without auto precharge) .......................... 25

- 1-

Publication Release Date: Sep, 22, 2011

Revision A01-005

W989D6CB / W989D2CB

512Mb Mobile LPSDR

8.4 Burst Termination .............................................................................................................................. 26

8.5 Mode Register Operation .................................................................................................................. 27

8.5.1 Burst Length field (A2~A0) ....................................................................................................................... 27

8.5.2 Addressing Mode Select (A3) .................................................................................................................. 27

8.5.3 Addressing Sequence for Sequential Mode ............................................................................................. 28

8.5.4 Addressing Sequence for Interleave Mode .............................................................................................. 28

8.5.5 Addressing Sequence Example (Burst Length = 8 and Input Address is 13) .......................................... 29

8.5.6 Read Cycle

CAS

Latency = 3 ................................................................................................................ 29

8.5.7

CAS

Latency field (A6~A4) ................................................................................................................... 30

8.5.8 Mode Register Definition .......................................................................................................................... 30

8.6 Extended Mode Register Description................................................................................................ 31

8.7 Simplified State Diagram................................................................................................................... 32

9. CONTROL TIMING WAVEFORMS ........................................................................................... 33

9.1 Command Input Timing ..................................................................................................................... 33

9.2 Read Timing ...................................................................................................................................... 34

9.3 Control Timing of Input Data (x16) .................................................................................................... 35

9.4 Control Timing of Output Data (x16) ................................................................................................. 36

9.5 Control Timing of Input Data (x32) .................................................................................................... 37

9.6 Control Timing of Output Data (x32) ................................................................................................. 38

9.7 Mode register Set (MRS) Cycle ........................................................................................................ 39

9.8 Extended Mode register Set (EMRS) Cycle ...................................................................................... 40

10. OPERATING TIMING EXAMPLE ............................................................................................ 41

10.1 Interleaved Bank Read (Burst Length = 4,

CAS

Latency = 3)....................................................... 41

10.2 Interleaved Bank Read (Burst Length = 4,

CAS

Latency = 3, Auto Precharge)............................ 42

10.3 Interleaved Bank Read (Burst Length = 8,

CAS

Latency = 3)....................................................... 43

10.4 Interleaved Bank Read (Burst Length = 8,

CAS

Latency = 3, Auto Precharge)............................ 44

10.5 Interleaved Bank Write (Burst Length = 8) ...................................................................................... 45

10.6 Interleaved Bank Write (Burst Length = 8, Auto Precharge) ........................................................... 46

10.7 Page Mode Read (Burst Length = 4,

CAS

Latency = 3) ............................................................... 47

10.8 Page Mode Read / Write (Burst Length = 8,

CAS

Latency = 3) .................................................... 48

10.9 Auto Precharge Read (Burst Length = 4,

CAS

Latency = 3)......................................................... 49

10.10 Auto Precharge Write (Burst Length = 4) ...................................................................................... 50

10.11 Auto Refresh Cycle ....................................................................................................................... 51

10.12 Self Refresh Cycle ........................................................................................................................ 52

10.13 Power Down Mode ........................................................................................................................ 53

10.14 Burst Read and Single Write (Burst Length = 4,

CAS

Latency = 3) ............................................ 54

10.15 Deep Power Down Mode Entry ..................................................................................................... 55

10.16 Deep Power Down Mode Exit ....................................................................................................... 56

10.17 Auto Precharge Timing (Read Cycle) ........................................................................................... 57

10.18 Auto Precharge Timing (Write Cycle)............................................................................................ 58

10.19 Timing Chart of Read to Write Cycle............................................................................................. 59

10.20 Timing Chart for Write to Read Cycle ........................................................................................... 59

10.21 Timing Chart for Burst Stop Cycle (Burst Stop Command) ........................................................... 60

10.22 Timing Chart for Burst Stop Cycle (Precharge Command) ........................................................... 60

10.23 CKE/DQM Input Timing (Write Cycle) ........................................................................................... 61

10.24 CKE/DQM Input Timing (Read Cycle)........................................................................................... 62

11. PACKAGE DIMENSION .......................................................................................................... 63

11.1 : LPSDR X 16 .................................................................................................................................. 63

11.2 : LPSDR X 32 .................................................................................................................................. 64

12.ORDERING INFORMATION .................................................................................................... 65

13. REVISION HISTORY ............................................................................................................... 66

- 2-

Publication Release Date: Sep, 22, 2011

Revision A01-005

W989D6CB / W989D2CB

512Mb Mobile LPSDR

1. GENERAL DESCRIPTION

The Winbond 512Mb Low Power SDRAM is a low power synchronous memory containing 536,870,912 memory cells

fabricated with Winbond high performance process technology.

It is designed to consume less power than the ordinary SDRAM with low power features essential for applications which

use batteries. It is available in two organizations: 4,194,304-words × 4 banks × 32 bits or 8,388,608 words × 4 banks × 16

bits. The device operates in a fully synchronous mode, and the output data are synchronized to positive edges of the

system clock and is capable of delivering data at clock rate up to 166MHz. The device supports special low power functions

such as Partial Array Self Refresh (PASR) and Automatic Temperature Compensated Self Refresh (ATCSR).

The Low Power SDRAM is suitable for 2.5G / 3G cellular phone, PDA, digital still camera, mobile game consoles and other

handheld applications where large memory density and low power consumption are required. The device operates from

1.8V power supply, and supports the 1.8V LVCMOS bus interface.

2. FEATURES

Power supply V

= 1.7V~1.95V

DDQ

= 1.7V~1.95V

Frequency : 166MHz(-6),133MHz(-75)

Programmable Partial Array Self Refresh

Power Down Mode

Deep Power Down Mode (DPD)

Programmable output buffer driver strength

Automatic Temperature Compensated Self Refresh

CAS

Latency: 2 and 3

Burst Length: 1, 2, 4, 8, and full page

Refresh: 8K refresh cycle / 64ms

Interface: LVCMOS

Support package :

54 balls VFBGA (x16)

90 balls VFBGA (x32)

Operating Temperature Range

Extended (-25°C ~ +85°C)

Industrial (-40°C ~ +85°C)

- 3-

Publication Release Date: Sep, 22, 2011

Revision A01-005

W989D6CB / W989D2CB

512Mb Mobile LPSDR

3. PIN CONFIGURATION

3.1 Ball Assignment: LPSDR X 16

54Ball FBGA

VSS

DQ14

DQ12

DQ10

DQ8

UDQM

A12

VSS

DQ15

DQ13

DQ11

DQ9

CLK

A11

VSSQ

VDDQ

VSSQ

VDDQ

VSS

CKE

4 5 6

VDDQ

VSSQ

VDDQ

VSSQ

VDD

DQ0

DQ2

DQ4

DQ6

LDQM

VDD

DQ1

DQ3

DQ5

DQ7

CAS

BA0

RAS

BA1

A10

VDD

(Top View) Pin Configuration

3.2 Ball Assignment: LPSDR X 32

90Ball FBGA

DQ26

DQ28

VSSQ

VDDQ

VSS

CLK

DQM1

VDDQ

VSSQ

DQ11

DQ13

DQ24

VDDQ

DQ27

DQ29

DQ31

DQM3

CKE

DQ8

DQ10

DQ12

VDDQ

DQ15

VSS

VSSQ

DQ25

DQ30

A12

VSS

DQ9

DQ14

VSSQ

VSS

4 5 6

VDD

VDDQ

DQ22

DQ17

A10

BA0

DQ23

VSSQ

DQ20

DQ18

DQ16

DQM2

BA1

DQ21

DQ19

VDDQ

VSSQ

VDD

A11

RAS

DQM0

VSSQ

VDDQ

DQ4

DQ2

CAS

VDD

DQ6

DQ1

VDDQ

VDD

DQ7

DQ5

DQ3

VSSQ

DQ0

(Top View) Pin Configuration

- 4-

Publication Release Date: Sep, 22, 2011

Revision A01-005

W989D6CB / W989D2CB

512Mb Mobile LPSDR

4. PIN DESCRIPTION

4.1 Signal Description

BALL NAME

A [n : 0]

BA0, BA1

DQ0~DQ15 (×16)

DQ0~DQ31 (×32)

FUNCTION

Address

Bank Select

DESCRIPTION

Multiplexed pins for row and column address.

A10 is Auto Precharge Select

Select bank to activate during row address latch time, or bank to

read/write during address latch time.

Data Input/ Output Multiplexed pins for data output and input.

Chip Select

Row

Address Strobe

Column

Address Strobe

Write Enable

I/O Mask

Clock Inputs

Clock Enable

Power

Ground

Power for I/O

Buffer

Ground for

I/O Buffer

No Connection

Disable or enable the command decoder. When command

decoder is disabled, new command is ignored and previous

operation continues.

Command input. When sampled at the rising edge of the clock,

RAS

CAS

and

define the operation to be executed.

Referred to

RAS

Referred to

The output buffer is placed at Hi-Z (with latency of 2 in CL=2, 3;)

when DQM is sampled high in read cycle. In write cycle, sampling

DQM high will block the write operation with zero latency.

System clock used to sample inputs on the rising edge of clock.

CKE controls the clock activation and deactivation. When CKE is

low, Power Down mode, Suspend mode or Self Refresh mode is

entered.

Power supply for input buffers and logic circuit inside DRAM.

Ground for input buffers and logic circuit inside DRAM.

Power supply separated from VDD, used for output buffers to

improve noise.

Separated ground from VSS, used for output buffers to improve

noise.

No connection

RAS

CAS

UDQM / LDQM(x16)

DQM0 ~ DQM3 (x32)

CLK

CKE

VDD

VSS

VDDQ

VSSQ

4.2 Addressing Table

ITEM

Number of banks

Bank address pins

Auto precharge pin

Row addresses

X16

Column addresses

Refresh count

Row addresses

x32

Column addresses

Refresh count

512 Mb

BA0,BA1

A10/AP

A0-A12

A0-A9

A0-A12

A0-A8

- 5-

Publication Release Date: Sep, 22, 2011

Revision A01-005

参数对比

与W989D2CBJX6I相近的元器件有：W989D2CB、W989D2CBJX6E、W989D2CBJX7E、W989D2CBJX7G、W989D6CB、W989D6CBGX6E、W989D6CBGX6I、W989D6CBGX7E、W989D6CBGX7G。描述及对比如下：

型号	W989D2CBJX6I	W989D2CB	W989D2CBJX6E	W989D2CBJX7E	W989D2CBJX7G	W989D6CB	W989D6CBGX6E	W989D6CBGX6I	W989D6CBGX7E	W989D6CBGX7G
描述	512Mb Mobile LPSDR	512Mb Mobile LPSDR	512Mb Mobile LPSDR	512Mb Mobile LPSDR	512Mb Mobile LPSDR	512Mb Mobile LPSDR	512Mb Mobile LPSDR	512Mb Mobile LPSDR	512Mb Mobile LPSDR	512Mb Mobile LPSDR
是否Rohs认证	符合	-	符合	符合	符合	-	符合	符合	符合	符合
厂商名称	Winbond(华邦电子)	-	Winbond(华邦电子)	Winbond(华邦电子)	Winbond(华邦电子)	-	Winbond(华邦电子)	Winbond(华邦电子)	Winbond(华邦电子)	Winbond(华邦电子)
零件包装代码	BGA	-	BGA	BGA	BGA	-	BGA	BGA	BGA	BGA
包装说明	8 X 13 MM, 0.80 MM PITCH, HALOGEN AND LEAD FREE, VFBGA-90	-	8 X 13 MM, 0.80 MM PITCH, HALOGEN AND LEAD FREE, VFBGA-90	TFBGA, BGA90,9X15,32	8 X 13 MM, 0.80 MM PITCH, HALOGEN AND LEAD FREE, VFBGA-90	-	8 X 9 MM, 0.80 MM PITCH, HALOGEN AND LEAD FREE, VFBGA-54	8 X 9 MM, 0.80 MM PITCH, HALOGEN AND LEAD FREE, VFBGA-54	8 X 9 MM, 0.80 MM PITCH, HALOGEN AND LEAD FREE, VFBGA-54	8 X 9 MM, 0.80 MM PITCH, HALOGEN AND LEAD FREE, VFBGA-54
针数	90	-	90	90	90	-	54	54	54	54
Reach Compliance Code	compli	-	compli	compli	compli	-	compli	compli	compli	compli
ECCN代码	EAR99	-	EAR99	EAR99	EAR99	-	EAR99	EAR99	EAR99	EAR99
访问模式	FOUR BANK PAGE BURST	-	FOUR BANK PAGE BURST	FOUR BANK PAGE BURST	FOUR BANK PAGE BURST	-	FOUR BANK PAGE BURST	FOUR BANK PAGE BURST	FOUR BANK PAGE BURST	FOUR BANK PAGE BURST
最长访问时间	5.4 ns	-	5.4 ns	5.4 ns	5.4 ns	-	5.4 ns	5.4 ns	5.4 ns	5.4 ns
其他特性	AUTO/SELF REFRESH	-	AUTO/SELF REFRESH	AUTO/SELF REFRESH	AUTO/SELF REFRESH	-	AUTO/SELF REFRESH	AUTO/SELF REFRESH	AUTO/SELF REFRESH	AUTO/SELF REFRESH
最大时钟频率 (fCLK)	166 MHz	-	166 MHz	133 MHz	133 MHz	-	166 MHz	166 MHz	133 MHz	133 MHz
I/O 类型	COMMON	-	COMMON	COMMON	COMMON	-	COMMON	COMMON	COMMON	COMMON
交错的突发长度	1,2,4,8	-	1,2,4,8	1,2,4,8	1,2,4,8	-	1,2,4,8	1,2,4,8	1,2,4,8	1,2,4,8
JESD-30 代码	R-PBGA-B90	-	R-PBGA-B90	R-PBGA-B90	R-PBGA-B90	-	R-PBGA-B54	R-PBGA-B54	R-PBGA-B54	R-PBGA-B54
长度	13 mm	-	13 mm	13 mm	13 mm	-	9 mm	9 mm	9 mm	9 mm
内存密度	536870912 bi	-	536870912 bi	536870912 bi	536870912 bi	-	536870912 bi	536870912 bi	536870912 bi	536870912 bi
内存集成电路类型	DDR DRAM	-	DDR DRAM	DDR DRAM	DDR DRAM	-	DDR DRAM	DDR DRAM	DDR DRAM	DDR DRAM
内存宽度	32	-	32	32	32	-	16	16	16	16
功能数量	1	-	1	1	1	-	1	1	1	1
端口数量	1	-	1	1	1	-	1	1	1	1
端子数量	90	-	90	90	90	-	54	54	54	54
字数	16777216 words	-	16777216 words	16777216 words	16777216 words	-	33554432 words	33554432 words	33554432 words	33554432 words
字数代码	16000000	-	16000000	16000000	16000000	-	32000000	32000000	32000000	32000000
工作模式	SYNCHRONOUS	-	SYNCHRONOUS	SYNCHRONOUS	SYNCHRONOUS	-	SYNCHRONOUS	SYNCHRONOUS	SYNCHRONOUS	SYNCHRONOUS
最高工作温度	85 °C	-	85 °C	85 °C	85 °C	-	85 °C	85 °C	85 °C	85 °C
最低工作温度	-40 °C	-	-25 °C	-25 °C	-25 °C	-	-25 °C	-40 °C	-25 °C	-25 °C
组织	16MX32	-	16MX32	16MX32	16MX32	-	32MX16	32MX16	32MX16	32MX16
输出特性	3-STATE	-	3-STATE	3-STATE	3-STATE	-	3-STATE	3-STATE	3-STATE	3-STATE
封装主体材料	PLASTIC/EPOXY	-	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY	-	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY
封装代码	TFBGA	-	TFBGA	TFBGA	TFBGA	-	TFBGA	TFBGA	TFBGA	TFBGA
封装等效代码	BGA90,9X15,32	-	BGA90,9X15,32	BGA90,9X15,32	BGA90,9X15,32	-	BGA54,9X9,32	BGA54,9X9,32	BGA54,9X9,32	BGA54,9X9,32
封装形状	RECTANGULAR	-	RECTANGULAR	RECTANGULAR	RECTANGULAR	-	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR
封装形式	GRID ARRAY, THIN PROFILE, FINE PITCH	-	GRID ARRAY, THIN PROFILE, FINE PITCH	GRID ARRAY, THIN PROFILE, FINE PITCH	GRID ARRAY, THIN PROFILE, FINE PITCH	-	GRID ARRAY, THIN PROFILE, FINE PITCH	GRID ARRAY, THIN PROFILE, FINE PITCH	GRID ARRAY, THIN PROFILE, FINE PITCH	GRID ARRAY, THIN PROFILE, FINE PITCH
峰值回流温度（摄氏度）	NOT SPECIFIED	-	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED	-	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED
电源	1.8 V	-	1.8 V	1.8 V	1.8 V	-	1.8 V	1.8 V	1.8 V	1.8 V
认证状态	Not Qualified	-	Not Qualified	Not Qualified	Not Qualified	-	Not Qualified	Not Qualified	Not Qualified	Not Qualified
刷新周期	8192	-	8192	8192	8192	-	8192	8192	8192	8192
座面最大高度	1.025 mm	-	1.025 mm	1.025 mm	1.025 mm	-	1.025 mm	1.025 mm	1.025 mm	1.025 mm
自我刷新	YES	-	YES	YES	YES	-	YES	YES	YES	YES
连续突发长度	1,2,4,8,FP	-	1,2,4,8,FP	1,2,4,8,FP	1,2,4,8,FP	-	1,2,4,8,FP	1,2,4,8,FP	1,2,4,8,FP	1,2,4,8,FP
最大待机电流	0.00001 A	-	0.00001 A	0.00001 A	0.00001 A	-	0.00001 A	0.00001 A	0.00001 A	0.00001 A
最大压摆率	0.075 mA	-	0.075 mA	0.075 mA	0.075 mA	-	0.075 mA	0.075 mA	0.075 mA	0.075 mA
最大供电电压 (Vsup)	1.95 V	-	1.95 V	1.95 V	1.95 V	-	1.95 V	1.95 V	1.95 V	1.95 V
最小供电电压 (Vsup)	1.7 V	-	1.7 V	1.7 V	1.7 V	-	1.7 V	1.7 V	1.7 V	1.7 V
标称供电电压 (Vsup)	1.8 V	-	1.8 V	1.8 V	1.8 V	-	1.8 V	1.8 V	1.8 V	1.8 V
表面贴装	YES	-	YES	YES	YES	-	YES	YES	YES	YES
技术	CMOS	-	CMOS	CMOS	CMOS	-	CMOS	CMOS	CMOS	CMOS
温度等级	INDUSTRIAL	-	OTHER	OTHER	OTHER	-	OTHER	INDUSTRIAL	OTHER	OTHER
端子形式	BALL	-	BALL	BALL	BALL	-	BALL	BALL	BALL	BALL
端子节距	0.8 mm	-	0.8 mm	0.8 mm	0.8 mm	-	0.8 mm	0.8 mm	0.8 mm	0.8 mm
端子位置	BOTTOM	-	BOTTOM	BOTTOM	BOTTOM	-	BOTTOM	BOTTOM	BOTTOM	BOTTOM
处于峰值回流温度下的最长时间	NOT SPECIFIED	-	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED	-	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED
宽度	8 mm	-	8 mm	8 mm	8 mm	-	8 mm	8 mm	8 mm	8 mm