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W979H6KB / W979H2KB

LPDDR2-S4B 512Mb

Table of Contents-

4.1

4.2

5.1

5.2

7.1

7.2

GENERAL DESCRIPTION ............................................................................................................................................ 6

FEATURES .................................................................................................................................................................... 6

ORDER INFORMATION ................................................................................................................................................ 7

PIN CONFIGURATION .................................................................................................................................................. 8

134 Ball VFBGA ............................................................................................................................................................. 8

168 Ball WFBGA ............................................................................................................................................................ 9

PIN DESCRIPTION ..................................................................................................................................................... 10

Basic Functionality ....................................................................................................................................................... 10

Addressing Table ......................................................................................................................................................... 11

BLOCK DIAGRAM ....................................................................................................................................................... 12

FUNCTIONAL DESCRIPTION..................................................................................................................................... 13

Simplified LPDDR2 State Diagram .............................................................................................................................. 13

7.1.1

7.2.1

7.2.2

7.2.3

7.2.4

7.2.5

7.2.6

7.2.7

Simplified LPDDR2 Bus Interface State Diagram ......................................................................................................... 14

Power Ramp and Device Initialization.......................................................................................................................... 15

Timing Parameters for Initialization .............................................................................................................................. 17

Power Ramp and Initialization Sequence .................................................................................................................... 17

Initialization after Reset (without Power ramp) ............................................................................................................. 18

Power-off Sequence .................................................................................................................................................... 18

Timing Parameters Power-Off ..................................................................................................................................... 18

Uncontrolled Power-Off Sequence .............................................................................................................................. 18

Mode Register Assignment and Definition ................................................................................................................... 19

Mode Register Assignment ............................................................................................................................... 19

MR0_Device Information (MA[7:0] = 00H) ................................................................................................................... 20

MR1_Device Feature 1 (MA[7:0] = 01H) ...................................................................................................................... 20

Burst Sequence by Burst Length (BL), Burst Type (BT), and Warp Control (WC) .............................................. 21

Non Wrap Restrictions ...................................................................................................................................... 21

MR2_Device Feature 2 (MA[7:0] = 02H) ...................................................................................................................... 22

MR3_I/O Configuration 1 (MA[7:0] = 03H) ................................................................................................................... 22

MR4_Device Temperature (MA[7:0] = 04H) ................................................................................................................. 22

MR5_Basic Configuration 1 (MA[7:0] = 05H) ............................................................................................................... 23

MR6_Basic Configuration 2 (MA[7:0] = 06H) ............................................................................................................... 23

MR7_Basic Configuration 3 (MA[7:0] = 07H) ............................................................................................................... 23

MR8_Basic Configuration 4 (MA[7:0] = 08H) ............................................................................................................... 23

MR9_Test Mode (MA[7:0] = 09H) ................................................................................................................................ 23

MR10_Calibration (MA[7:0] = 0AH) ............................................................................................................................. 24

MR16_PASR_Bank Mask (MA[7:0] = 10H) .................................................................................................................. 24

MR32_DQ Calibration Pattern A (MA[7:0] = 20H) ........................................................................................................ 25

MR40_DQ Calibration Pattern B (MA[7:0] = 28H) ........................................................................................................ 25

MR63_Reset (MA[7:0] = 3FH): MRW only ................................................................................................................... 25

Activate Command ...................................................................................................................................................... 25

Activate Command Cycle: tRCD = 3, tRP = 3, tRRD = 2 ................................................................................... 25

Command Input Setup and Hold Timing............................................................................................................ 26

CKE Input Setup and Hold Timing .................................................................................................................... 26

Read and Write Access Modes.................................................................................................................................... 27

Burst Read Command ................................................................................................................................................. 27

Data Output (Read) Timing (tDQSCKmax) ........................................................................................................ 27

Data Output (Read) Timing (tDQSCKmin)......................................................................................................... 28

Burst Read: RL = 5, BL = 4, tDQSCK > tCK ...................................................................................................... 28

Burst Read: RL = 3, BL = 8, tDQSCK < tCK ...................................................................................................... 29

Power-up, Initialization, and Power-Off ........................................................................................................................ 15

7.3

Mode Register Definition .............................................................................................................................................. 19

7.3.1

7.3.1.1

7.3.2

7.3.3

7.3.3.1

7.3.3.2

7.3.4

7.3.5

7.3.6

7.3.7

7.3.8

7.3.9

7.3.10

7.3.11

7.3.12

7.3.13

7.3.14

7.3.15

7.3.16

7.4

Command Definitions and Timing Diagrams ................................................................................................................ 25

7.4.1

7.4.1.1

7.4.1.2

7.4.1.3

7.4.2

7.4.3

7.4.3.1

7.4.3.2

7.4.3.3

7.4.3.4

Publication Release Date: Feb. 18, 2016

Revision: A01-003

-1-

W979H6KB / W979H2KB

7.4.3.5

7.4.3.6

7.4.3.7

7.4.3.8

7.4.3.9

7.4.4

7.4.4.1

7.4.5

7.4.5.1

7.4.5.2

7.4.5.3

7.4.5.4

7.4.6

7.4.6.1

7.4.7

7.4.7.1

7.4.7.2

7.4.8

7.4.8.1

7.4.9

7.4.9.1

7.4.10

7.4.10.1

7.4.10.2

7.4.11

7.4.11.1

7.4.12

7.4.13

7.4.13.1

7.4.14

7.4.14.1

7.4.14.2

7.4.15

7.4.15.1

7.4.16

7.4.16.1

7.4.16.2

7.4.16.3

7.4.16.4

7.4.16.5

7.4.16.6

7.4.17

7.4.18

7.4.19

7.4.19.1

7.4.19.2

7.4.19.3

7.4.20

7.4.20.1

7.4.20.2

7.4.20.3

7.4.21

7.4.21.1

7.4.21.2

7.4.22

7.4.23

LPDDR2: tDQSCKDL Timing ............................................................................................................................ 29

LPDDR2: tDQSCKDM Timing ........................................................................................................................... 30

LPDDR2: tDQSCKDS Timing............................................................................................................................ 30

Burst Read Followed by Burst Write: RL = 3, WL = 1, BL = 4 ............................................................................ 31

Seamless Burst Read: RL = 3, BL= 4, tCCD = 2 ............................................................................................... 31

Reads Interrupted by a Read....................................................................................................................................... 32

Read Burst Interrupt Example: RL = 3, BL= 8, tCCD = 2 ................................................................................... 32

Burst Write Operation .................................................................................................................................................. 32

Data Input (Write) Timing .................................................................................................................................. 33

Burst Write: WL = 1, BL= 4 ............................................................................................................................... 33

Burst Wirte Followed by Burst Read: RL = 3, WL= 1, BL= 4 .............................................................................. 34

Seamless Burst Write: WL= 1, BL = 4, tCCD = 2............................................................................................... 34

Writes Interrupted by a Write ....................................................................................................................................... 35

Write Burst Interrupt Timing: WL = 1, BL = 8, tCCD = 2 .................................................................................... 35

Burst Terminate ........................................................................................................................................................... 35

Burst Write Truncated by BST: WL = 1, BL = 16 ............................................................................................... 36

Burst Read Truncated by BST: RL = 3, BL = 16 ................................................................................................ 36

Write Data Mask .......................................................................................................................................................... 37

Write Data Mask Timing .................................................................................................................................... 37

Precharge Operation ................................................................................................................................................... 38

Bank Selection for Precharge by Address Bits .................................................................................................. 38

Burst Read Operation Followed by Precharge ............................................................................................................. 38

Burst Read Followed by Precharge: RL = 3, BL = 8, RU(tRTP(min)/tCK) = 2 .................................................... 39

Burst Read Followed by Precharge: RL = 3, BL = 4, RU(tRTP(min)/tCK) = 3 .................................................... 39

Burst Write Followed by Precharge ............................................................................................................................. 40

Burst Write Follwed by Precharge: WL = 1, BL = 4............................................................................................ 40

Auto Precharge Operation ........................................................................................................................................... 41

Burst Read with Auto-Precharge ................................................................................................................................. 41

Burst Read with Auto-Precharge: RL = 3, BL = 4, RU(tRTP(min)/tCK) = 2 ........................................................ 41

Burst Write with Auto-Precharge.................................................................................................................................. 42

Burst Write with Auto-Precharge: WL = 1, BL = 4 .............................................................................................. 42

Precharge & Auto Precharge Clarification ......................................................................................................... 43

Refresh Command ...................................................................................................................................................... 44

Command Scheduling Separations Related to Refresh ..................................................................................... 44

LPDDR2 SDRAM Refresh Requirements .................................................................................................................... 45

Definition of tSRF .............................................................................................................................................. 45

Regular, Distributed Refresh Pattern ................................................................................................................. 46

Allowable Transition from Repetitive Burst Refresh ........................................................................................... 47

NOT-Allowable Transition from Repetitive Burst Refresh .................................................................................. 47

Recommended Self-Refresh Entry and Exit ...................................................................................................... 48

All Bank Refresh Operation............................................................................................................................... 48

Self Refresh Operation ................................................................................................................................................ 49

Partial Array Self-Refresh: Bank Masking .................................................................................................................... 50

Mode Register Read Command .................................................................................................................................. 51

Mode Register Read Timing Example: RL = 3, tMRR = 2.................................................................................. 51

Read to MRR Timing Example: RL = 3, tMRR = 2 ............................................................................................ 52

Burst Write Followed by MRR: RL = 3, WL = 1, BL = 4 ..................................................................................... 52

Temperature Sensor.................................................................................................................................................... 53

Temperature Sensor Timing ............................................................................................................................. 54

DQ Calibration .................................................................................................................................................. 54

MR32 and MR40 DQ Calibration Timing Example: RL = 3, tMRR = 2 ............................................................... 55

Mode Register Write Command................................................................................................................................... 56

Mode Register Write Timing Example: RL = 3, tMRW = 5 ................................................................................. 56

Truth Table for Mode Register Read (MRR) and Mode Register Write (MRW) .................................................. 56

Mode Register Write Reset (MRW Reset) ................................................................................................................... 57

Mode Register Write ZQ Calibration Command ........................................................................................................... 57

Publication Release Date: Feb. 18, 2016

Revision: A01-003

-2-

W979H6KB / W979H2KB

7.4.23.1

7.4.23.2

7.4.23.3

7.4.23.4

7.4.23.5

7.4.24

7.4.24.1

7.4.24.2

7.4.24.3

7.4.24.4

7.4.24.5

7.4.24.6

7.4.24.7

7.4.24.8

7.4.24.9

7.4.24.10

7.4.24.11

7.4.24.12

7.4.25

7.4.25.1

7.4.26

7.4.27

ZQ Calibration Initialization Timing Example ..................................................................................................... 58

ZQ Calibration Short Timing Example ............................................................................................................... 58

ZQ Calibration Long Timing Example ................................................................................................................ 59

ZQ Calibration Reset Timing Example .............................................................................................................. 59

ZQ External Resistor Value, Tolerance, and Capacitive Loading ...................................................................... 60

Power-Down................................................................................................................................................................ 60

Basic Power Down Entry and Exit Timing ......................................................................................................... 60

CKE Intensive Environment .............................................................................................................................. 61

Refresh to Refresh Timing with CKE Intensive Environment ............................................................................. 61

Read to Power-Down Entry............................................................................................................................... 62

Read with Auto Precharge to Power-Down Entry .............................................................................................. 62

Write to Power-Down Entry ............................................................................................................................... 63

Write with Auto Precharge to Power-Down Entry .............................................................................................. 63

Refresh Command to Power-Down Entry.......................................................................................................... 64

Activate Command to Power-Down Entry ......................................................................................................... 64

Precharge/Precharge-All Command to Power-Down Entry ............................................................................... 64

Mode Register Read to Power-Down Entry ....................................................................................................... 65

MRW Command to Power-Down Entry ............................................................................................................. 65

Deep Power-Down ...................................................................................................................................................... 65

Deep Power Down Entry and Exit Timing.......................................................................................................... 66

Input Clock Stop and Frequency Change .................................................................................................................... 66

No Operation Command .............................................................................................................................................. 67

Command Truth Table................................................................................................................................................. 68

CKE Truth Table.......................................................................................................................................................... 69

Current State Bank n - Command to Bank n Truth Table ............................................................................................. 70

Current State Bank n - Command to Bank m Truth Table ............................................................................................ 72

Data Mask Truth Table ................................................................................................................................................ 73

7.5

Truth Tables ................................................................................................................................................................. 67

7.5.1

7.5.2

7.5.3

7.5.4

7.5.5

8.1

8.2

ELECTRICAL CHARACTERISTIC .............................................................................................................................. 74

Absolute Maximum DC Ratings ................................................................................................................................... 74

AC & DC Operating Conditions .................................................................................................................................... 74

8.2.1

8.2.1.1

8.2.2

8.2.3

8.2.4

8.2.4.1

8.2.4.1.1

8.2.4.1.2

8.2.4.1.3

8.2.4.2

8.2.4.2.1

8.2.4.3

8.2.4.3.1

8.2.4.4

8.2.4.4.1

8.2.4.4.2

8.2.4.5

8.2.4.6

8.2.4.7

8.2.4.8

8.2.5

8.2.5.1

8.2.5.2

8.2.5.3

Recommended DC Operating Conditions .................................................................................................................... 74

Recommended DC Operating Conditions ......................................................................................................... 74

Input Leakage Current ................................................................................................................................................. 75

Operating Temperature Conditions .............................................................................................................................. 75

AC and DC Input Measurement Levels ........................................................................................................................ 75

AC and DC Logic Input Levels for Single-Ended Signals................................................................................... 75

Single-Ended AC and DC Input Levels for CA and CS_n Inputs ....................................................................... 75

Single-Ended AC and DC Input Levels for CKE ................................................................................................ 76

Single-Ended AC and DC Input Levels for DQ and DM ..................................................................................... 76

Vref Tolerances ................................................................................................................................................ 76

VRef(DC) Tolerance and VRef AC-Noise Limits................................................................................................ 77

Input Signal....................................................................................................................................................... 78

LPDDR2-800/1066 Input Signal ........................................................................................................................ 78

AC and DC Logic Input Levels for Differential Signals ....................................................................................... 79

Differential Signal Definition .............................................................................................................................. 79

Differential swing requirements for clock (CK_t - CK_c) and strobe (DQS_t - DQS_c) ...................................... 79

Single-Ended Requirements for Differential Signals .......................................................................................... 80

Differential Input Cross Point Voltage ................................................................................................................ 81

Slew Rate Definitions for Single-Ended Input Signals ....................................................................................... 82

Slew Rate Definitions for Differential Input Signals ............................................................................................ 82

AC and DC Output Measurement Levels ..................................................................................................................... 83

Single Ended AC and DC Output Levels ........................................................................................................... 83

Differential AC and DC Output Levels ............................................................................................................... 83

Single Ended Output Slew Rate ........................................................................................................................ 83

Publication Release Date: Feb. 18, 2016

Revision: A01-003

-3-

W979H6KB / W979H2KB

8.2.5.4

8.2.5.5

8.2.6

8.2.6.1

8.2.6.2

8.2.6.3

8.2.6.4

8.2.6.5

8.2.6.6

8.2.6.7

Differential Output Slew Rate ............................................................................................................................ 85

Overshoot and Undershoot Specifications ........................................................................................................ 86

Output buffer Characteristics ....................................................................................................................................... 87

HSUL_12 Driver Output Timing Reference Load ............................................................................................... 87

RON

and RON

Resistor Definition .............................................................................................................. 87

RON

and RON

Characteristics with ZQ Calibration ..................................................................................... 88

Output Driver Temperature and Voltage Sensitivity ........................................................................................... 88

RON

and RON

Characteristics without ZQ Calibration ................................................................................ 89

RZQ I-V Curve .................................................................................................................................................. 90

Input/Output Capacitance ................................................................................................................................. 92

IDD Measurement Conditions ...................................................................................................................................... 93

Definition of Switching for CA Input Signals ...................................................................................................... 93

Definition of Switching for IDD4R ...................................................................................................................... 94

Definition of Switching for IDD4W ..................................................................................................................... 94

IDD Specifications ....................................................................................................................................................... 95

LPDDR2 IDD Specification Parameters and Operating Conditions, 85°C (x16, x32) .......................................... 95

IDD6 Partial Array Self-Refresh Current, 85°C (x16, x32) .................................................................................. 97

Definition for tCK(avg) and nCK................................................................................................................................... 97

Definition for tCK(abs) ................................................................................................................................................. 97

Definition for tCH(avg) and tCL(avg) ............................................................................................................................ 98

Definition for tJIT(per) .................................................................................................................................................. 98

Definition for tJIT(cc) ................................................................................................................................................... 98

Definition for tERR(nper) ............................................................................................................................................. 98

Definition for Duty Cycle Jitter tJIT(duty) ...................................................................................................................... 99

Definition for tCK(abs), tCH(abs) and tCL(abs) ............................................................................................................ 99

Clock Period Jitter Effects on Core Timing Parameters ............................................................................................... 99

Cycle Time De-rating for Core Timing Parameters ............................................................................................ 99

Clock Cycle De-rating for Core Timing Parameters ......................................................................................... 100

Clock Jitter Effects on Command/Address Timing Parameters .................................................................................. 100

Clock Jitter Effects on Read Timing Parameters ........................................................................................................ 100

tRPRE ............................................................................................................................................................ 100

tLZ(DQ), tHZ(DQ), tDQSCK, tLZ(DQS), tHZ(DQS) ......................................................................................... 100

tQSH, tQSL..................................................................................................................................................... 100

tRPST ............................................................................................................................................................. 101

Clock Jitter Effects on Write Timing Parameters ........................................................................................................ 101

tDS, tDH ......................................................................................................................................................... 101

tDSS, tDSH..................................................................................................................................................... 101

tDQSS ............................................................................................................................................................ 101

Refresh Requirement Parameters ............................................................................................................................. 102

LPDDR2 AC Timing .................................................................................................................................................. 103

CA and CS_n Setup, Hold and Derating .................................................................................................................... 108

CA and CS_n Setup and Hold Base-Values for 1V/nS .................................................................................... 108

Derating Values LPDDR2 tIS/tIH - AC/DC Based AC220 ................................................................................ 109

Required Time tVAC above VIH(ac) {below VIL(ac)} for Valid Transition......................................................... 109

Nominal Slew Rate and tVAC for Setup Time tIS for CA and CS_n with Respect to Clock .............................. 110

Nominal Slew Rate for Hold Time tIH for CA and CS_n with Respect to Clock ................................................ 111

Tangent Line for Setup Time tIS for CA and CS_n with Respect to Clock ....................................................... 112

Tangent Line for Hold Time tIH for CA and CS_n with Respect to Clock ......................................................... 113

Data Setup, Hold and Slew Rate Derating ................................................................................................................. 114

Data Setup and Hold Base-Values .................................................................................................................. 114

8.3

IDD Specification Parameters and Test Conditions ..................................................................................................... 93

8.3.1

8.3.1.1

8.3.1.2

8.3.1.3

8.3.2

8.3.2.1

8.3.2.2

8.4

Clock Specification....................................................................................................................................................... 97

8.4.1

8.4.2

8.4.3

8.4.4

8.4.5

8.4.6

8.4.7

8.4.8

8.5

Period Clock Jitter ........................................................................................................................................................ 99

8.5.1

8.5.1.1

8.5.1.2

8.5.2

8.5.3

8.5.3.1

8.5.3.2

8.5.3.3

8.5.3.4

8.5.4

8.5.4.1

8.5.4.2

8.5.4.3

8.6

8.7

Refresh Requirements ............................................................................................................................................... 102

8.6.1

8.7.1

8.7.2

8.7.2.1

8.7.2.2

8.7.2.3

8.7.2.4

8.7.2.5

8.7.2.6

8.7.2.7

8.7.3

8.7.3.1

AC Timings ................................................................................................................................................................ 103

Publication Release Date: Feb. 18, 2016

Revision: A01-003

-4-

W979H6KB / W979H2KB

8.7.3.2

8.7.3.3

8.7.3.4

8.7.3.5

8.7.3.6

8.7.3.7

Derating Values LPDDR2 tDS/tDH - AC/DC Based AC220 ............................................................................. 115

Required Time tVAC above VIH(ac) {below VIL(ac)} for Valid Transition......................................................... 115

Nominal Slew Rate and tVAC for Setup Time tDS for DQ with Respect to Strobe ........................................... 116

Nominal Slew Rate for Hold time tDH for DQ with Respect to Strobe .............................................................. 117

Tangent Line for Setup Time tDS for DQ with Respect to Strobe .................................................................... 118

Tangent Line for Hold Time tDH for DQ with Respect to Strobe ...................................................................... 119

10.

PACKAGE DIMENSIONS .......................................................................................................................................... 120

REVISION HISTORY ................................................................................................................................................. 122

Publication Release Date: Feb. 18, 2016

Revision: A01-003

-5-