4Gb: x4, x8, x16 DDR3L SDRAM
Description
DDR3L SDRAM
MT41K1G4 – 128 Meg x 4 x 8 banks
MT41K512M8 – 64 Meg x 8 x 8 banks
MT41K256M16 – 32 Meg x 16 x 8 banks
Description
•
•
•
•
•
DDR3L SDRAM (1.35V) is a low voltage version of the
DDR3 (1.5V) SDRAM. Refer to DDR3 (1.5V) SDRAM
(Die Rev :E) data sheet specifications when running in
1.5V compatible mode.
Self refresh temperature (SRT)
Automatic self refresh (ASR)
Write leveling
Multipurpose register
Output driver calibration
Options
Features
Marking
• Configuration
– 1 Gig x 4
– 512 Meg x 8
– 256 Meg x 16
• FBGA package (Pb-free) – x4, x8
– 78-ball (9mm x 10.5mm) Rev. E
– 78-ball (7.5mm x 10.6mm) Rev. N
– 78-ball (8mm x 10.5mm) Rev. P
• FBGA package (Pb-free) – x16
– 96-ball (9mm x 14mm) Rev. E
– 96-ball (7.5mm x 13.5mm) Rev. N
– 96-ball (8mm x 14mm) Rev. P
• Timing – cycle time
– 938ps @ CL = 14 (DDR3-2133)
– 1.07ns @ CL = 13 (DDR3-1866)
– 1.25ns @ CL = 11 (DDR3-1600)
• Operating temperature
– Commercial (0°C T C +95°C)
– Industrial (–40°C T C +95°C)
– Automotive (–40°C T C +105°C)
• Revision
• VDD = V DDQ = 1.35V (1.283–1.45V)
• Backward compatible to V DD = V DDQ = 1.5V ±0.075V
– Supports DDR3L devices to be backward compatible in 1.5V applications
• Differential bidirectional data strobe
• 8n-bit prefetch architecture
• Differential clock inputs (CK, CK#)
• 8 internal banks
• Nominal and dynamic on-die termination (ODT)
for data, strobe, and mask signals
• Programmable CAS (READ) latency (CL)
• Programmable posted CAS additive latency (AL)
• Programmable CAS (WRITE) latency (CWL)
• Fixed burst length (BL) of 8 and burst chop (BC) of 4
(via the mode register set [MRS])
• Selectable BC4 or BL8 on-the-fly (OTF)
• Self refresh mode
• TC of 105°C
– 64ms, 8192-cycle refresh up to 85°C
– 32ms, 8192-cycle refresh at >85°C to 95°C
– 16ms, 8192-cycle refresh at >95°C to 105°C
1G4
512M8
256M16
RH
RG
DA
HA
LY
TW
-093
-107
-125
None
IT
AT
:E/:N/:P
Table 1: Key Timing Parameters
Speed Grade
Data Rate (MT/s)
Target tRCD-tRP-CL
-093 1, 2
2133
14-14-14
13.09
13.09
13.09
-107 1
1866
13-13-13
13.91
13.91
13.91
-125
1600
11-11-11
13.75
13.75
13.75
Notes:
tRCD
(ns)
tRP
(ns)
CL (ns)
1. Backward compatible to 1600, CL = 11 (-125).
2. Backward compatible to 1866, CL = 13 (-107).
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
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Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
Products and specifications discussed herein are subject to change by Micron without notice.
4Gb: x4, x8, x16 DDR3L SDRAM
Description
Table 2: Addressing
Parameter
Configuration
1 Gig x 4
512 Meg x 8
256 Meg x 16
128 Meg x 4 x 8 banks
64 Meg x 8 x 8 banks
32 Meg x 16 x 8 banks
Refresh count
8K
8K
8K
Row address
64K (A[15:0])
64K (A[15:0])
32K (A[14:0])
Bank address
8 (BA[2:0])
8 (BA[2:0])
8 (BA[2:0])
2K (A[11, 9:0])
1K (A[9:0])
1K (A[9:0])
1KB
1KB
2KB
Column address
Page size
Figure 1: DDR3L Part Numbers
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1. Not all options listed can be combined to define an offered product. Use the part catalog search on
http://www.micron.com for available offerings.
FBGA Part Marking Decoder
Due to space limitations, FBGA-packaged components have an abbreviated part marking that is different from the
part number. For a quick conversion of an FBGA code, see the FBGA Part Marking Decoder on Micron’s Web site:
http://www.micron.com.
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
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4Gb: x4, x8, x16 DDR3L SDRAM
Description
Contents
Important Notes and Warnings ....................................................................................................................... 11
State Diagram ................................................................................................................................................ 12
Functional Description ................................................................................................................................... 13
Industrial Temperature ............................................................................................................................... 13
Automotive Temperature ............................................................................................................................ 13
General Notes ............................................................................................................................................ 14
Functional Block Diagrams ............................................................................................................................. 15
Ball Assignments and Descriptions ................................................................................................................. 17
Package Dimensions ....................................................................................................................................... 23
Electrical Specifications .................................................................................................................................. 29
Absolute Ratings ......................................................................................................................................... 29
Input/Output Capacitance .......................................................................................................................... 30
Thermal Characteristics .................................................................................................................................. 31
Electrical Specifications – IDD Specifications and Conditions ............................................................................ 33
Electrical Characteristics – Operating IDD Specifications .................................................................................. 44
Electrical Specifications – DC and AC .............................................................................................................. 49
DC Operating Conditions ........................................................................................................................... 49
Input Operating Conditions ........................................................................................................................ 50
DDR3L 1.35V AC Overshoot/Undershoot Specification ................................................................................ 54
DDR3L 1.35V Slew Rate Definitions for Single-Ended Input Signals .............................................................. 57
DDR3L 1.35V Slew Rate Definitions for Differential Input Signals ................................................................. 59
ODT Characteristics ....................................................................................................................................... 60
1.35V ODT Resistors ................................................................................................................................... 61
ODT Sensitivity .......................................................................................................................................... 62
ODT Timing Definitions ............................................................................................................................. 62
Output Driver Impedance ............................................................................................................................... 66
34 Ohm Output Driver Impedance .............................................................................................................. 67
DDR3L 34 Ohm Driver ................................................................................................................................ 68
DDR3L 34 Ohm Output Driver Sensitivity .................................................................................................... 69
DDR3L Alternative 40 Ohm Driver ............................................................................................................... 70
DDR3L 40 Ohm Output Driver Sensitivity .................................................................................................... 70
Output Characteristics and Operating Conditions ............................................................................................ 72
Reference Output Load ............................................................................................................................... 75
Slew Rate Definitions for Single-Ended Output Signals ................................................................................. 75
Slew Rate Definitions for Differential Output Signals .................................................................................... 77
Speed Bin Tables ............................................................................................................................................ 78
Electrical Characteristics and AC Operating Conditions ................................................................................... 83
Command and Address Setup, Hold, and Derating .......................................................................................... 103
Data Setup, Hold, and Derating ...................................................................................................................... 110
Commands – Truth Tables ............................................................................................................................. 118
Commands ................................................................................................................................................... 121
DESELECT ................................................................................................................................................ 121
NO OPERATION ........................................................................................................................................ 121
ZQ CALIBRATION LONG ........................................................................................................................... 121
ZQ CALIBRATION SHORT .......................................................................................................................... 121
ACTIVATE ................................................................................................................................................. 121
READ ........................................................................................................................................................ 121
WRITE ...................................................................................................................................................... 122
PRECHARGE ............................................................................................................................................. 123
REFRESH .................................................................................................................................................. 123
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
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© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Description
SELF REFRESH .......................................................................................................................................... 124
DLL Disable Mode ..................................................................................................................................... 125
Input Clock Frequency Change ...................................................................................................................... 129
Write Leveling ............................................................................................................................................... 131
Write Leveling Procedure ........................................................................................................................... 133
Write Leveling Mode Exit Procedure ........................................................................................................... 135
Initialization ................................................................................................................................................. 136
Voltage Initialization/Change ........................................................................................................................ 138
VDD Voltage Switching ............................................................................................................................... 139
Mode Registers .............................................................................................................................................. 140
Mode Register 0 (MR0) ................................................................................................................................... 141
Burst Length ............................................................................................................................................. 141
Burst Type ................................................................................................................................................. 142
DLL RESET ................................................................................................................................................ 143
Write Recovery .......................................................................................................................................... 144
Precharge Power-Down (Precharge PD) ...................................................................................................... 144
CAS Latency (CL) ....................................................................................................................................... 144
Mode Register 1 (MR1) ................................................................................................................................... 146
DLL Enable/DLL Disable ........................................................................................................................... 146
Output Drive Strength ............................................................................................................................... 147
OUTPUT ENABLE/DISABLE ...................................................................................................................... 147
TDQS Enable ............................................................................................................................................. 147
On-Die Termination .................................................................................................................................. 148
WRITE LEVELING ..................................................................................................................................... 148
POSTED CAS ADDITIVE Latency ................................................................................................................ 148
Mode Register 2 (MR2) ................................................................................................................................... 149
CAS Write Latency (CWL) ........................................................................................................................... 150
AUTO SELF REFRESH (ASR) ....................................................................................................................... 150
SELF REFRESH TEMPERATURE (SRT) ........................................................................................................ 150
SRT vs. ASR ............................................................................................................................................... 151
DYNAMIC ODT ......................................................................................................................................... 151
Mode Register 3 (MR3) ................................................................................................................................... 151
MULTIPURPOSE REGISTER (MPR) ............................................................................................................ 152
MPR Functional Description ...................................................................................................................... 153
MPR Register Address Definitions and Bursting Order ................................................................................. 154
MPR Read Predefined Pattern .................................................................................................................... 159
MODE REGISTER SET (MRS) Command ........................................................................................................ 159
ZQ CALIBRATION Operation ......................................................................................................................... 160
ACTIVATE Operation ..................................................................................................................................... 161
READ Operation ............................................................................................................................................ 163
WRITE Operation .......................................................................................................................................... 174
DQ Input Timing ....................................................................................................................................... 182
PRECHARGE Operation ................................................................................................................................. 184
SELF REFRESH Operation .............................................................................................................................. 184
Extended Temperature Usage ........................................................................................................................ 186
Power-Down Mode ........................................................................................................................................ 187
RESET Operation ........................................................................................................................................... 195
On-Die Termination (ODT) ............................................................................................................................ 197
Functional Representation of ODT ............................................................................................................. 197
Nominal ODT ............................................................................................................................................ 197
Dynamic ODT ............................................................................................................................................... 199
Dynamic ODT Special Use Case ................................................................................................................. 199
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
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4Gb: x4, x8, x16 DDR3L SDRAM
Description
Functional Description .............................................................................................................................. 199
Synchronous ODT Mode ................................................................................................................................ 205
ODT Latency and Posted ODT .................................................................................................................... 205
Timing Parameters .................................................................................................................................... 205
ODT Off During READs .............................................................................................................................. 208
Asynchronous ODT Mode .............................................................................................................................. 210
Synchronous to Asynchronous ODT Mode Transition (Power-Down Entry) .................................................. 212
Asynchronous to Synchronous ODT Mode Transition (Power-Down Exit) ........................................................ 214
Asynchronous to Synchronous ODT Mode Transition (Short CKE Pulse) ...................................................... 216
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
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4Gb: x4, x8, x16 DDR3L SDRAM
Description
List of Figures
Figure 1: DDR3L Part Numbers ........................................................................................................................ 2
Figure 2: Simplified State Diagram ................................................................................................................. 12
Figure 3: 1 Gig x 4 Functional Block Diagram .................................................................................................. 15
Figure 4: 512 Meg x 8 Functional Block Diagram ............................................................................................. 16
Figure 5: 256 Meg x 16 Functional Block Diagram ........................................................................................... 16
Figure 6: 78-Ball FBGA – x4, x8 (Top View) ...................................................................................................... 17
Figure 7: 96-Ball FBGA – x16 (Top View) ......................................................................................................... 18
Figure 8: 78-Ball FBGA – x4, x8 (RH) ............................................................................................................... 23
Figure 9: 78-Ball FBGA – x4, x8 (RG) ............................................................................................................... 24
Figure 10: 78-Ball FBGA – x4, x8 (DA) ............................................................................................................. 25
Figure 11: 96-Ball FBGA – x16 (HA) ................................................................................................................. 26
Figure 12: 96-Ball FBGA – x16 (LY) .................................................................................................................. 27
Figure 13: 96-Ball FBGA – x16 (TW) ................................................................................................................ 28
Figure 14: Thermal Measurement Point ......................................................................................................... 31
Figure 15: DDR3L 1.35V Input Signal .............................................................................................................. 53
Figure 16: Overshoot ..................................................................................................................................... 54
Figure 17: Undershoot ................................................................................................................................... 55
Figure 18: V IX for Differential Signals .............................................................................................................. 55
Figure 19: Single-Ended Requirements for Differential Signals ........................................................................ 55
Figure 20: Definition of Differential AC-Swing and tDVAC ............................................................................... 56
Figure 21: Nominal Slew Rate Definition for Single-Ended Input Signals .......................................................... 58
Figure 22: DDR3L 1.35V Nominal Differential Input Slew Rate Definition for DQS, DQS# and CK, CK# .............. 59
Figure 23: ODT Levels and I-V Characteristics ................................................................................................ 60
Figure 24: ODT Timing Reference Load .......................................................................................................... 63
Figure 25: tAON and tAOF Definitions ............................................................................................................ 64
Figure 26: tAONPD and tAOFPD Definitions ................................................................................................... 64
Figure 27: tADC Definition ............................................................................................................................. 65
Figure 28: Output Driver ................................................................................................................................ 66
Figure 29: DQ Output Signal .......................................................................................................................... 73
Figure 30: Differential Output Signal .............................................................................................................. 74
Figure 31: Reference Output Load for AC Timing and Output Slew Rate ........................................................... 75
Figure 32: Nominal Slew Rate Definition for Single-Ended Output Signals ....................................................... 76
Figure 33: Nominal Differential Output Slew Rate Definition for DQS, DQS# .................................................... 77
Figure 34: Nominal Slew Rate and tVAC for tIS (Command and Address – Clock) ............................................. 106
Figure 35: Nominal Slew Rate for tIH (Command and Address – Clock) ........................................................... 107
Figure 36: Tangent Line for tIS (Command and Address – Clock) .................................................................... 108
Figure 37: Tangent Line for tIH (Command and Address – Clock) .................................................................... 109
Figure 38: Nominal Slew Rate and tVAC for tDS (DQ – Strobe) ......................................................................... 114
Figure 39: Nominal Slew Rate for tDH (DQ – Strobe) ...................................................................................... 115
Figure 40: Tangent Line for tDS (DQ – Strobe) ................................................................................................ 116
Figure 41: Tangent Line for tDH (DQ – Strobe) ............................................................................................... 117
Figure 42: Refresh Mode ............................................................................................................................... 124
Figure 43: DLL Enable Mode to DLL Disable Mode ........................................................................................ 126
Figure 44: DLL Disable Mode to DLL Enable Mode ........................................................................................ 127
Figure 45: DLL Disable tDQSCK .................................................................................................................... 128
Figure 46: Change Frequency During Precharge Power-Down ........................................................................ 130
Figure 47: Write Leveling Concept ................................................................................................................. 131
Figure 48: Write Leveling Sequence ............................................................................................................... 134
Figure 49: Write Leveling Exit Procedure ....................................................................................................... 135
Figure 50: Initialization Sequence ................................................................................................................. 137
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
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4Gb: x4, x8, x16 DDR3L SDRAM
Description
Figure 51: V DD Voltage Switching .................................................................................................................. 139
Figure 52: MRS to MRS Command Timing ( tMRD) ......................................................................................... 140
Figure 53: MRS to nonMRS Command Timing ( tMOD) .................................................................................. 141
Figure 54: Mode Register 0 (MR0) Definitions ................................................................................................ 142
Figure 55: READ Latency .............................................................................................................................. 145
Figure 56: Mode Register 1 (MR1) Definition ................................................................................................. 146
Figure 57: READ Latency (AL = 5, CL = 6) ....................................................................................................... 149
Figure 58: Mode Register 2 (MR2) Definition ................................................................................................. 149
Figure 59: CAS Write Latency ........................................................................................................................ 150
Figure 60: Mode Register 3 (MR3) Definition ................................................................................................. 152
Figure 61: Multipurpose Register (MPR) Block Diagram ................................................................................. 153
Figure 62: MPR System Read Calibration with BL8: Fixed Burst Order Single Readout ..................................... 155
Figure 63: MPR System Read Calibration with BL8: Fixed Burst Order, Back-to-Back Readout .......................... 156
Figure 64: MPR System Read Calibration with BC4: Lower Nibble, Then Upper Nibble .................................... 157
Figure 65: MPR System Read Calibration with BC4: Upper Nibble, Then Lower Nibble .................................... 158
Figure 66: ZQ CALIBRATION Timing (ZQCL and ZQCS) ................................................................................. 160
Figure 67: Example: Meeting tRRD (MIN) and tRCD (MIN) ............................................................................. 161
Figure 68: Example: tFAW ............................................................................................................................. 162
Figure 69: READ Latency .............................................................................................................................. 163
Figure 70: Consecutive READ Bursts (BL8) .................................................................................................... 165
Figure 71: Consecutive READ Bursts (BC4) .................................................................................................... 165
Figure 72: Nonconsecutive READ Bursts ....................................................................................................... 166
Figure 73: READ (BL8) to WRITE (BL8) .......................................................................................................... 166
Figure 74: READ (BC4) to WRITE (BC4) OTF .................................................................................................. 167
Figure 75: READ to PRECHARGE (BL8) .......................................................................................................... 167
Figure 76: READ to PRECHARGE (BC4) ......................................................................................................... 168
Figure 77: READ to PRECHARGE (AL = 5, CL = 6) ........................................................................................... 168
Figure 78: READ with Auto Precharge (AL = 4, CL = 6) ..................................................................................... 168
Figure 79: Data Output Timing – tDQSQ and Data Valid Window .................................................................... 170
Figure 80: Data Strobe Timing – READs ......................................................................................................... 171
Figure 81: Method for Calculating tLZ and tHZ ............................................................................................... 172
Figure 82: tRPRE Timing ............................................................................................................................... 172
Figure 83: tRPST Timing ............................................................................................................................... 173
Figure 84: tWPRE Timing .............................................................................................................................. 175
Figure 85: tWPST Timing .............................................................................................................................. 175
Figure 86: WRITE Burst ................................................................................................................................ 176
Figure 87: Consecutive WRITE (BL8) to WRITE (BL8) ..................................................................................... 177
Figure 88: Consecutive WRITE (BC4) to WRITE (BC4) via OTF ........................................................................ 177
Figure 89: Nonconsecutive WRITE to WRITE ................................................................................................. 178
Figure 90: WRITE (BL8) to READ (BL8) .......................................................................................................... 178
Figure 91: WRITE to READ (BC4 Mode Register Setting) ................................................................................. 179
Figure 92: WRITE (BC4 OTF) to READ (BC4 OTF) ........................................................................................... 180
Figure 93: WRITE (BL8) to PRECHARGE ........................................................................................................ 181
Figure 94: WRITE (BC4 Mode Register Setting) to PRECHARGE ...................................................................... 181
Figure 95: WRITE (BC4 OTF) to PRECHARGE ................................................................................................ 182
Figure 96: Data Input Timing ........................................................................................................................ 183
Figure 97: Self Refresh Entry/Exit Timing ...................................................................................................... 185
Figure 98: Active Power-Down Entry and Exit ................................................................................................ 189
Figure 99: Precharge Power-Down (Fast-Exit Mode) Entry and Exit ................................................................. 189
Figure 100: Precharge Power-Down (Slow-Exit Mode) Entry and Exit .............................................................. 190
Figure 101: Power-Down Entry After READ or READ with Auto Precharge (RDAP) ........................................... 190
Figure 102: Power-Down Entry After WRITE .................................................................................................. 191
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
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4Gb: x4, x8, x16 DDR3L SDRAM
Description
Figure 103:
Figure 104:
Figure 105:
Figure 106:
Figure 107:
Figure 108:
Figure 109:
Figure 110:
Figure 111:
Figure 112:
Figure 113:
Figure 114:
Figure 115:
Figure 116:
Figure 117:
Figure 118:
Figure 119:
Figure 120:
Figure 121:
Figure 122:
Figure 123:
Power-Down Entry After WRITE with Auto Precharge (WRAP) ...................................................... 191
REFRESH to Power-Down Entry .................................................................................................. 192
ACTIVATE to Power-Down Entry ................................................................................................. 192
PRECHARGE to Power-Down Entry ............................................................................................. 193
MRS Command to Power-Down Entry ......................................................................................... 193
Power-Down Exit to Refresh to Power-Down Entry ....................................................................... 194
RESET Sequence ......................................................................................................................... 196
On-Die Termination ................................................................................................................... 197
Dynamic ODT: ODT Asserted Before and After the WRITE, BC4 .................................................... 202
Dynamic ODT: Without WRITE Command .................................................................................. 202
Dynamic ODT: ODT Pin Asserted Together with WRITE Command for 6 Clock Cycles, BL8 ............ 203
Dynamic ODT: ODT Pin Asserted with WRITE Command for 6 Clock Cycles, BC4 .......................... 204
Dynamic ODT: ODT Pin Asserted with WRITE Command for 4 Clock Cycles, BC4 .......................... 204
Synchronous ODT ...................................................................................................................... 206
Synchronous ODT (BC4) ............................................................................................................. 207
ODT During READs .................................................................................................................... 209
Asynchronous ODT Timing with Fast ODT Transition .................................................................. 211
Synchronous to Asynchronous Transition During Precharge Power-Down (DLL Off) Entry ............ 213
Asynchronous to Synchronous Transition During Precharge Power-Down (DLL Off) Exit ............... 215
Transition Period for Short CKE LOW Cycles with Entry and Exit Period Overlapping ..................... 217
Transition Period for Short CKE HIGH Cycles with Entry and Exit Period Overlapping ................... 217
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
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4Gb: x4, x8, x16 DDR3L SDRAM
Description
List of Tables
Table 1: Key Timing Parameters ....................................................................................................................... 1
Table 2: Addressing ......................................................................................................................................... 2
Table 3: 78-Ball FBGA – x4, x8 Ball Descriptions .............................................................................................. 19
Table 4: 96-Ball FBGA – x16 Ball Descriptions ................................................................................................. 21
Table 5: Absolute Maximum Ratings .............................................................................................................. 29
Table 6: DDR3L Input/Output Capacitance .................................................................................................... 30
Table 7: Thermal Characteristics .................................................................................................................... 31
Table 8: Thermal Impedance ......................................................................................................................... 32
Table 9: Timing Parameters Used for I DD Measurements – Clock Units ............................................................ 33
Table 10: IDD0 Measurement Loop .................................................................................................................. 34
Table 11: IDD1 Measurement Loop .................................................................................................................. 35
Table 12: IDD Measurement Conditions for Power-Down Currents ................................................................... 36
Table 13: IDD2N and IDD3N Measurement Loop ................................................................................................ 37
Table 14: IDD2NT Measurement Loop .............................................................................................................. 37
Table 15: IDD4R Measurement Loop ................................................................................................................ 38
Table 16: IDD4W Measurement Loop ............................................................................................................... 39
Table 17: IDD5B Measurement Loop ................................................................................................................ 40
Table 18: IDD Measurement Conditions for IDD6, IDD6ET, and IDD8 .................................................................... 41
Table 19: IDD7 Measurement Loop .................................................................................................................. 42
Table 20: IDD Maximum Limits Die Rev. E for 1.35/1.5V Operation ................................................................... 44
Table 21: IDD Maximum Limits Die Rev. N for 1.35V/1.5V Operation ................................................................ 45
Table 22: IDD Maximum Limits Die Rev. P for 1.35V/1.5V Operation ................................................................. 47
Table 23: DDR3L 1.35V DC Electrical Characteristics and Operating Conditions .............................................. 49
Table 24: DDR3L 1.35V DC Electrical Characteristics and Input Conditions ..................................................... 50
Table 25: DDR3L 1.35V Input Switching Conditions – Command and Address ................................................. 51
Table 26: DDR3L 1.35V Differential Input Operating Conditions (CK, CK# and DQS, DQS#) .............................. 52
Table 27: DDR3L Control and Address Pins ..................................................................................................... 54
Table 28: DDR3L 1.35V Clock, Data, Strobe, and Mask Pins ............................................................................. 54
Table 29: DDR3L 1.35V – Minimum Required Time tDVAC for CK/CK#, DQS/DQS# Differential for AC Ringback ...
56
Table 30: Single-Ended Input Slew Rate Definition .......................................................................................... 57
Table 31: DDR3L 1.35V Differential Input Slew Rate Definition ........................................................................ 59
Table 32: On-Die Termination DC Electrical Characteristics ............................................................................ 60
Table 33: 1.35V RTT Effective Impedance ........................................................................................................ 61
Table 34: ODT Sensitivity Definition .............................................................................................................. 62
Table 35: ODT Temperature and Voltage Sensitivity ........................................................................................ 62
Table 36: ODT Timing Definitions .................................................................................................................. 63
Table 37: DDR3L(1.35V) Reference Settings for ODT Timing Measurements .................................................... 63
Table 38: DDR3L 34 Ohm Driver Impedance Characteristics ........................................................................... 67
Table 39: DDR3L 34 Ohm Driver Pull-Up and Pull-Down Impedance Calculations ........................................... 68
Table 40: DDR3L 34 Ohm Driver IOH/IOL Characteristics: V DD = V DDQ = DDR3L@1.35V ..................................... 68
Table 41: DDR3L 34 Ohm Driver IOH/IOL Characteristics: V DD = V DDQ = DDR3L@1.45V ..................................... 68
Table 42: DDR3L 34 Ohm Driver IOH/IOL Characteristics: V DD = V DDQ = DDR3L@1.283 ..................................... 69
Table 43: DDR3L 34 Ohm Output Driver Sensitivity Definition ........................................................................ 69
Table 44: DDR3L 34 Ohm Output Driver Voltage and Temperature Sensitivity .................................................. 69
Table 45: DDR3L 40 Ohm Driver Impedance Characteristics ........................................................................... 70
Table 46: DDR3L 40 Ohm Output Driver Sensitivity Definition ........................................................................ 70
Table 47: 40 Ohm Output Driver Voltage and Temperature Sensitivity .............................................................. 71
Table 48: DDR3L Single-Ended Output Driver Characteristics ......................................................................... 72
Table 49: DDR3L Differential Output Driver Characteristics ............................................................................ 73
Table 50: DDR3L Differential Output Driver Characteristics V OX(AC) ................................................................. 74
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
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4Gb: x4, x8, x16 DDR3L SDRAM
Description
Table 51:
Table 52:
Table 53:
Table 54:
Table 55:
Table 56:
Table 57:
Table 58:
Table 59:
Table 60:
Table 61:
Table 62:
Table 63:
Table 64:
Table 65:
Table 66:
Table 67:
Table 68:
Table 69:
Table 70:
Table 71:
Table 72:
Table 73:
Table 74:
Table 75:
Table 76:
Table 77:
Table 78:
Table 79:
Table 80:
Table 81:
Table 82:
Table 83:
Table 84:
Table 85:
Table 86:
Table 87:
Table 88:
Table 89:
Table 90:
Table 91:
Table 92:
Single-Ended Output Slew Rate Definition ....................................................................................... 75
Differential Output Slew Rate Definition .......................................................................................... 77
DDR3L-1066 Speed Bins .................................................................................................................. 78
DDR3L-1333 Speed Bins .................................................................................................................. 79
DDR3L-1600 Speed Bins .................................................................................................................. 80
DDR3L-1866 Speed Bins .................................................................................................................. 81
DDR3L-2133 Speed Bins .................................................................................................................. 82
Electrical Characteristics and AC Operating Conditions .................................................................... 83
Electrical Characteristics and AC Operating Conditions for Speed Extensions .................................... 93
DDR3L Command and Address Setup and Hold Values 1 V/ns Referenced – AC/DC-Based ............... 103
DDR3L-800/1066 Derating Values tIS/tIH – AC160/DC90-Based ....................................................... 104
DDR3L-800/1066/1333/1600 Derating Values for tIS/tIH – AC135/DC90-Based ................................ 104
DDR3L-1866/2133 Derating Values for tIS/tIH – AC125/DC90-Based ................................................ 104
DDR3L Minimum Required Time tVAC Above V IH(AC) (Below V IL[AC]) for Valid ADD/CMD Transition . 105
DDR3L Data Setup and Hold Values at 1 V/ns (DQS, DQS# at 2 V/ns) – AC/DC-Based ....................... 110
DDR3L Derating Values for tDS/tDH – AC160/DC90-Based .............................................................. 111
DDR3L Derating Values for tDS/tDH – AC135/DC90-Based .............................................................. 111
DDR3L Derating Values for tDS/tDH – AC130/DC90-Based at 2V/ns ................................................. 112
DDR3L Minimum Required Time tVAC Above V IH(AC) (Below V IL(AC)) for Valid DQ Transition ............. 113
Truth Table – Command ................................................................................................................. 118
Truth Table – CKE .......................................................................................................................... 120
READ Command Summary ............................................................................................................ 122
WRITE Command Summary .......................................................................................................... 122
READ Electrical Characteristics, DLL Disable Mode ......................................................................... 128
Write Leveling Matrix ..................................................................................................................... 132
Burst Order .................................................................................................................................... 143
MPR Functional Description of MR3 Bits ........................................................................................ 153
MPR Readouts and Burst Order Bit Mapping ................................................................................... 154
Self Refresh Temperature and Auto Self Refresh Description ............................................................ 186
Self Refresh Mode Summary ........................................................................................................... 186
Command to Power-Down Entry Parameters .................................................................................. 187
Power-Down Modes ....................................................................................................................... 188
Truth Table – ODT (Nominal) ......................................................................................................... 198
ODT Parameters ............................................................................................................................ 198
Write Leveling with Dynamic ODT Special Case .............................................................................. 199
Dynamic ODT Specific Parameters ................................................................................................. 200
Mode Registers for RTT,nom ............................................................................................................. 200
Mode Registers for RTT(WR) ............................................................................................................. 201
Timing Diagrams for Dynamic ODT ................................................................................................ 201
Synchronous ODT Parameters ........................................................................................................ 206
Asynchronous ODT Timing Parameters for All Speed Bins ............................................................... 211
ODT Parameters for Power-Down (DLL Off) Entry and Exit Transition Period ................................... 213
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10
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4Gb: x4, x8, x16 DDR3L SDRAM
Important Notes and Warnings
Important Notes and Warnings
Micron Technology, Inc. ("Micron") reserves the right to make changes to information published in this document,
including without limitation specifications and product descriptions. This document supersedes and replaces all
information supplied prior to the publication hereof. You may not rely on any information set forth in this document if you obtain the product described herein from any unauthorized distributor or other source not authorized
by Micron.
Automotive Applications. Products are not designed or intended for use in automotive applications unless specifically designated by Micron as automotive-grade by their respective data sheets. Distributor and customer/distributor shall assume the sole risk and liability for and shall indemnify and hold Micron harmless against all claims,
costs, damages, and expenses and reasonable attorneys' fees arising out of, directly or indirectly, any claim of
product liability, personal injury, death, or property damage resulting directly or indirectly from any use of nonautomotive-grade products in automotive applications. Customer/distributor shall ensure that the terms and conditions of sale between customer/distributor and any customer of distributor/customer (1) state that Micron
products are not designed or intended for use in automotive applications unless specifically designated by Micron
as automotive-grade by their respective data sheets and (2) require such customer of distributor/customer to indemnify and hold Micron harmless against all claims, costs, damages, and expenses and reasonable attorneys'
fees arising out of, directly or indirectly, any claim of product liability, personal injury, death, or property damage
resulting from any use of non-automotive-grade products in automotive applications.
Critical Applications. Products are not authorized for use in applications in which failure of the Micron component could result, directly or indirectly in death, personal injury, or severe property or environmental damage
("Critical Applications"). Customer must protect against death, personal injury, and severe property and environmental damage by incorporating safety design measures into customer's applications to ensure that failure of the
Micron component will not result in such harms. Should customer or distributor purchase, use, or sell any Micron
component for any critical application, customer and distributor shall indemnify and hold harmless Micron and
its subsidiaries, subcontractors, and affiliates and the directors, officers, and employees of each against all claims,
costs, damages, and expenses and reasonable attorneys' fees arising out of, directly or indirectly, any claim of
product liability, personal injury, or death arising in any way out of such critical application, whether or not Micron or its subsidiaries, subcontractors, or affiliates were negligent in the design, manufacture, or warning of the
Micron product.
Customer Responsibility. Customers are responsible for the design, manufacture, and operation of their systems,
applications, and products using Micron products. ALL SEMICONDUCTOR PRODUCTS HAVE INHERENT FAILURE RATES AND LIMITED USEFUL LIVES. IT IS THE CUSTOMER'S SOLE RESPONSIBILITY TO DETERMINE
WHETHER THE MICRON PRODUCT IS SUITABLE AND FIT FOR THE CUSTOMER'S SYSTEM, APPLICATION, OR
PRODUCT. Customers must ensure that adequate design, manufacturing, and operating safeguards are included
in customer's applications and products to eliminate the risk that personal injury, death, or severe property or environmental damages will result from failure of any semiconductor component.
Limited Warranty. In no event shall Micron be liable for any indirect, incidental, punitive, special or consequential
damages (including without limitation lost profits, lost savings, business interruption, costs related to the removal
or replacement of any products or rework charges) whether or not such damages are based on tort, warranty,
breach of contract or other legal theory, unless explicitly stated in a written agreement executed by Micron's duly
authorized representative.
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
11
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4Gb: x4, x8, x16 DDR3L SDRAM
State Diagram
State Diagram
Figure 2: Simplified State Diagram
CKE L
Power
applied
Power
on
MRS, MPR,
write
leveling
Initialization
Reset
procedure
Self
refresh
SRE
ZQCL
From any
state
RESET
ZQ
calibration
MRS
SRX
REF
ZQCL/ZQCS
Refreshing
Idle
PDE
ACT
PDX
Active
powerdown
Precharge
powerdown
Activating
PDX
CKE L
CKE L
PDE
Bank
active
WRITE
WRITE
READ
WRITE AP
Writing
READ
READ AP
READ
WRITE
WRITE AP
Reading
READ AP
WRITE AP
READ AP
PRE, PREA
Writing
PRE, PREA
PRE, PREA
Reading
Precharging
Automatic
sequence
Command
sequence
ACT = ACTIVATE
MPR = Multipurpose register
MRS = Mode register set
PDE = Power-down entry
PDX = Power-down exit
PRE = PRECHARGE
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
PREA = PRECHARGE ALL
READ = RD, RDS4, RDS8
READ AP = RDAP, RDAPS4, RDAPS8
REF = REFRESH
RESET = START RESET PROCEDURE
SRE = Self refresh entry
12
SRX = Self refresh exit
WRITE = WR, WRS4, WRS8
WRITE AP = WRAP, WRAPS4, WRAPS8
ZQCL = ZQ LONG CALIBRATION
ZQCS = ZQ SHORT CALIBRATION
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Functional Description
Functional Description
DDR3 SDRAM uses a double data rate architecture to achieve high-speed operation.
The double data rate architecture is an 8n-prefetch architecture with an interface designed to transfer two data words per clock cycle at the I/O pins. A single read or write
operation for the DDR3 SDRAM effectively consists of a single 8n-bit-wide, four-clockcycle data transfer at the internal DRAM core and eight corresponding n-bit-wide, onehalf-clock-cycle data transfers at the I/O pins.
The differential data strobe (DQS, DQS#) is transmitted externally, along with data, for
use in data capture at the DDR3 SDRAM input receiver. DQS is center-aligned with data
for WRITEs. The read data is transmitted by the DDR3 SDRAM and edge-aligned to the
data strobes.
The DDR3 SDRAM operates from a differential clock (CK and CK#). The crossing of CK
going HIGH and CK# going LOW is referred to as the positive edge of CK. Control, command, and address signals are registered at every positive edge of CK. Input data is registered on the first rising edge of DQS after the WRITE preamble, and output data is referenced on the first rising edge of DQS after the READ preamble.
Read and write accesses to the DDR3 SDRAM are burst-oriented. Accesses start at a selected location and continue for a programmed number of locations in a programmed
sequence. Accesses begin with the registration of an ACTIVATE command, which is then
followed by a READ or WRITE command. The address bits registered coincident with
the ACTIVATE command are used to select the bank and row to be accessed. The address bits registered coincident with the READ or WRITE commands are used to select
the bank and the starting column location for the burst access.
The device uses a READ and WRITE BL8 and BC4. An auto precharge function may be
enabled to provide a self-timed row precharge that is initiated at the end of the burst
access.
As with standard DDR SDRAM, the pipelined, multibank architecture of DDR3 SDRAM
allows for concurrent operation, thereby providing high bandwidth by hiding row precharge and activation time.
A self refresh mode is provided, along with a power-saving, power-down mode.
Industrial Temperature
The industrial temperature (IT) device requires that the case temperature not exceed
–40°C or 95°C. JEDEC specifications require the refresh rate to double when T C exceeds
85°C; this also requires use of the high-temperature self refresh option. Additionally,
ODT resistance and the input/output impedance must be derated when T C is < 0°C or
>95°C.
Automotive Temperature
The Automotive temperature (AT) device requires that the case temperature not exceed
–40°C or 105°C. Micron specification requires the refresh rate to 4X when T C exceeds
95°C; this also requires use of the high-temperature self refresh option. Additionally,
ODT resistance and the input/output impedance must be derated when T C is < 0°C or
>95°C.
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
13
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4Gb: x4, x8, x16 DDR3L SDRAM
Functional Description
General Notes
• The functionality and the timing specifications discussed in this data sheet are for the
DLL enable mode of operation (normal operation).
• Throughout this data sheet, various figures and text refer to DQs as “DQ.” DQ is to be
interpreted as any and all DQ collectively, unless specifically stated otherwise.
• The terms “DQS” and “CK” found throughout this data sheet are to be interpreted as
DQS, DQS# and CK, CK# respectively, unless specifically stated otherwise.
• Complete functionality may be described throughout the document; any page or diagram may have been simplified to convey a topic and may not be inclusive of all requirements.
• Any specific requirement takes precedence over a general statement.
• Any functionality not specifically stated is considered undefined, illegal, and not supported, and can result in unknown operation.
• Row addressing is denoted as A[n:0]. For example, 1Gb: n = 12 (x16); 1Gb: n = 13 (x4,
x8); 2Gb: n = 13 (x16) and 2Gb: n = 14 (x4, x8); 4Gb: n = 14 (x16); and 4Gb: n = 15 (x4,
x8).
• Dynamic ODT has a special use case: when DDR3 devices are architected for use in a
single rank memory array, the ODT ball can be wired HIGH rather than routed. Refer
to the Dynamic ODT Special Use Case section.
• A x16 device's DQ bus is comprised of two bytes. If only one of the bytes needs to be
used, use the lower byte for data transfers and terminate the upper byte as noted:
–
–
–
–
Connect UDQS to ground via 1kȍ* resistor.
Connect UDQS# to V DD via 1kȍ* resistor.
Connect UDM to V DD via 1kȍ* resistor.
Connect DQ[15:8] individually to either V SS, V DD, or V REF via 1kȍ resistors,* or float
DQ[15:8].
*If ODT is used, 1kȍ resistor should be changed to 4x that of the selected ODT.
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
14
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4Gb: x4, x8, x16 DDR3L SDRAM
Functional Block Diagrams
Functional Block Diagrams
DDR3 SDRAM is a high-speed, CMOS dynamic random access memory. It is internally
configured as an 8-bank DRAM.
Figure 3: 1 Gig x 4 Functional Block Diagram
ODT
control
ODT
ZQ
RZQ
ZQCL, ZQCS
CKE
VSSQ
To pull-up/pull-down
networks
ZQ CAL
RESET#
Control
logic
A12
CK, CK#
VDDQ/2
BC4 (burst chop)
Command
decode
CS#
RAS#
CAS#
WE#
Bank 7
Bank 6
Bank 5
Bank 4
Bank 3
Bank 2
Bank 1
OTF
Mode registers
Refresh
counter
19
Columns 0, 1, and 2
Bank 7
Bank 6
Bank 5
Bank 4
Bank 3
Bank 2
Bank 1
16
16
Bank 0
rowaddress
latch
and
decoder
65,536
DLL
(1 . . . 4)
Bank 0
memory
array
(65,536 x 256 x 32)
32
READ
FIFO
and
data
MUX
4
DQ[3:0]
READ
drivers
BC4
RTT,nom
8,192
BC4
OTF
A[15:0]
BA[2:0]
19
Address
register
3
sw1
sw2
DM
(1, 2)
Columnaddress
counter/
latch
DQS, DQS#
VDDQ/2
32
Data
interface
Column
decoder
4
Data
WRITE
drivers
and
input
logic
8
RTT,nom
sw1
RTT(WR)
sw2
DM
3
Columns 0, 1, and 2
CK, CK#
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
RTT(WR)
Bank
control
logic
256
(x32)
11
DQ[3:0]
DQS, DQS#
VDDQ/2
32
I/O gating
DM mask logic
sw2
sw1
Sense amplifiers
3
RTT(WR)
CK, CK#
16
Rowaddress
MUX
RTT,nom
15
Column 2
(select upper or
lower nibble for BC4)
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Functional Block Diagrams
Figure 4: 512 Meg x 8 Functional Block Diagram
ODT
control
ODT
ZQ
RZQ
Control
logic
CKE
VSSQ
To ODT/output drivers
ZQ CAL
RESET#
ZQCL, ZQCS
A12
VDDQ/2
CK, CK#
BC4 (burst chop)
Command
decode
CS#
RAS#
CAS#
WE#
Bank 7
Bank 6
Bank 5
Bank 4
Bank 3
Bank 2
Bank 1
OTF
Mode registers
Refresh
counter
CK, CK#
sw1
(1 . . . 8)
19
Bank 0
Memory
array
(65,536 x 128 x 64)
Bank 0
rowaddress
65,536
latch
and
decoder
16
16
Sense amplifiers
sw2
DLL
16
Rowaddress
MUX
64
DQ8
READ
FIFO
and
data
MUX
8
19
Address
register
DQ[7:0]
DQS, DQS#
VDDQ/2
64
BC4
OTF
RTT,nom
sw1
RTT(WR)
sw2
I/O gating
DM mask logic
3
A[15:0]
BA[2:0]
TDQS#
DQ[7:0]
Read
drivers
BC4
8,192
RTT(WR)
RTT,nom
Columns 0, 1, and 2
Bank 7
Bank 6
Bank 5
Bank 4
Bank 3
Bank 2
Bank 1
(1, 2)
Bank
control
logic
3
VDDQ/2
(128
x64)
64
8
Data
interface
Data
Column
decoder
Columnaddress
counter/
latch
10
DQS/DQS#
Write
drivers
and
input
logic
RTT,nom
sw1
RTT(WR)
sw2
7
DM/TDQS
(shared pin)
3
Columns 0, 1, and 2
CK, CK#
Column 2
(select upper or
lower nibble for BC4)
Figure 5: 256 Meg x 16 Functional Block Diagram
ODT
control
ODT
ZQ
RZQ
Control
logic
CKE
VSSQ
To ODT/output drivers
ZQ CAL
RESET#
ZQCL, ZQCS
A12
VDDQ/2
CK, CK#
BC4 (burst chop)
Command
decode
CS#
RAS#
CAS#
WE#
Bank 7
Bank 6
Bank 5
Bank 4
Bank 3
Bank 2
Bank 1
OTF
Mode registers
Refresh
counter
18
Bank 7
Bank 6
Bank 5
Bank 4
Bank 3
Bank 2
Bank 1
15
15
Bank 0
rowaddress
latch
and
decoder
32,768
DLL
(1 . . . 16)
128
READ
FIFO
and
data
MUX
16
DQ[15:0]
READ
drivers
LDQS, LDQS#, UDQS, UDQS#
BC4
128
18
Address
register
3
sw2
LDQS, LDQS#
Bank
control
logic
(1 . . . 4)
Columnaddress
counter/
latch
UDQS, UDQS#
VDDQ/2
128
Data
interface
Column
decoder
16
Data
WRITE
drivers
and
input
logic
RTT,nom
sw1
RTT(WR)
sw2
7
(1, 2)
LDM/UDM
3
Columns 0, 1, and 2
CK, CK#
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
RTT(WR)
I/O gating
DM mask logic
(128
x128)
10
RTT,nom
sw1
BC4
OTF
3
DQ[15:0]
VDDQ/2
Sense amplifiers
A[14:0]
BA[2:0]
sw2
sw1
Bank 0
memory
array
(32,768 x 128 x 128)
16,384
RTT(WR)
CK, CK#
13
Rowaddress
MUX
RTT,nom
Column 0, 1, and 2
16
Column 2
(select upper or
lower nibble for BC4)
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Ball Assignments and Descriptions
Ball Assignments and Descriptions
Figure 6: 78-Ball FBGA – x4, x8 (Top View)
1
2
3
VSS
VDD
VSS
VDDQ
4
5
6
7
8
9
NC
NF, NF/TDQS#
VSS
VDD
VSSQ
DQ0
DM, DM/TDQS
VSSQ
VDDQ
DQ2
DQS
DQ1
DQ3
VSSQ
NF, DQ6 DQS#
VDD
VSS
VSSQ
A
B
C
D
VSSQ
E
VREFDQ
NF, DQ7 NF, DQ5
VDDQ NF, DQ4
VDDQ
F
NC
VSS
RAS#
CK
VSS
NC
ODT
VDD
CAS#
CK#
VDD
CKE
NC
CS#
WE#
A10/AP
ZQ
NC
VSS
BA0
BA2
A15
VREFCA
VSS
VDD
A3
A0
A12/BC#
BA1
VDD
VSS
A5
A2
A1
A4
VSS
VDD
A7
A9
A11
A6
VDD
VSS
RESET#
A13
A14
A8
VSS
G
H
J
K
L
M
N
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. Ball descriptions listed in Table 3 (page 19) are listed as “x4, x8” if unique; otherwise,
x4 and x8 are the same.
2. A comma separates the configuration; a slash defines a selectable function.
Example D7 = NF, NF/TDQS#. NF applies to the x4 configuration only. NF/TDQS# applies
to the x8 configuration only—selectable between NF or TDQS# via MRS (symbols are defined in Table 3).
17
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© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Ball Assignments and Descriptions
Figure 7: 96-Ball FBGA – x16 (Top View)
1
2
3
VDDQ
DQ13
VSSQ
4
5
6
7
8
9
DQ15
DQ12
VDDQ
VSS
VDD
VSS
UDQS#
DQ14
VSSQ
VDDQ
DQ11
DQ9
UDQS
DQ10
VDDQ
VSSQ
VDDQ
UDM
DQ8
VSSQ
VDD
VSS
VSSQ
DQ0
LDM
VSSQ
VDDQ
VDDQ
DQ2
LDQS
DQ1
DQ3
VSSQ
VSSQ
DQ6
LDQS#
VDD
VSS
VSSQ
VREFDQ
VDDQ
DQ4
DQ7
DQ5
VDDQ
NC
VSS
RAS#
CK
VSS
NC
ODT
VDD
CAS#
CK#
VDD
CKE
NC
CS#
WE#
A10/AP
ZQ
NC
VSS
BA0
BA2
NC
VREFCA
VSS
VDD
A3
A0
A12/BC#
BA1
VDD
VSS
A5
A2
A1
A4
VSS
VDD
A7
A9
A11
A6
VDD
VSS
RESET#
A13
A14
A8
VSS
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. Ball descriptions listed in Table 4 (page 21) are listed as “x4, x8” if unique; otherwise,
x4 and x8 are the same.
2. A comma separates the configuration; a slash defines a selectable function.
Example D7 = NF, NF/TDQS#. NF applies to the x4 configuration only. NF/TDQS# applies
to the x8 configuration only—selectable between NF or TDQS# via MRS (symbols are defined in Table 3).
18
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© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Ball Assignments and Descriptions
Table 3: 78-Ball FBGA – x4, x8 Ball Descriptions
Symbol
Type
Description
A[15:13], A12/BC#,
A11, A10/AP, A[9:0]
Input
Address inputs: Provide the row address for ACTIVATE commands, and the column
address and auto precharge bit (A10) for READ/WRITE commands, to select one
location out of the memory array in the respective bank. A10 sampled during a
PRECHARGE command determines whether the PRECHARGE applies to one bank
(A10 LOW, bank selected by BA[2:0]) or all banks (A10 HIGH). The address inputs also
provide the op-code during a LOAD MODE command. Address inputs are referenced
to VREFCA. A12/BC#: When enabled in the mode register (MR), A12 is sampled during
READ and WRITE commands to determine whether burst chop (on-the-fly) will be
performed (HIGH = BL8 or no burst chop, LOW = BC4). See Table 70 (page 118).
BA[2:0]
Input
Bank address inputs: BA[2:0] define the bank to which an ACTIVATE, READ,
WRITE, or PRECHARGE command is being applied. BA[2:0] define which mode
register (MR0, MR1, MR2, or MR3) is loaded during the LOAD MODE command.
BA[2:0] are referenced to VREFCA.
CK, CK#
Input
Clock: CK and CK# are differential clock inputs. All control and address input signals
are sampled on the crossing of the positive edge of CK and the negative edge of
CK#. Output data strobe (DQS, DQS#) is referenced to the crossings of CK and CK#.
CKE
Input
Clock enable: CKE enables (registered HIGH) and disables (registered LOW)
internal circuitry and clocks on the DRAM. The specific circuitry that is enabled/
disabled is dependent upon the DDR3 SDRAM configuration and operating mode.
Taking CKE LOW provides PRECHARGE POWER-DOWN and SELF REFRESH operations
(all banks idle), or active power-down (row active in any bank). CKE is synchronous
for power-down entry and exit and for self refresh entry. CKE is asynchronous for
self refresh exit. Input buffers (excluding CK, CK#, CKE, RESET#, and ODT) are
disabled during POWER-DOWN. Input buffers (excluding CKE and RESET#) are disabled during SELF REFRESH. CKE is referenced to VREFCA.
CS#
Input
Chip select: CS# enables (registered LOW) and disables (registered HIGH) the
command decoder. All commands are masked when CS# is registered HIGH. CS#
provides for external rank selection on systems with multiple ranks. CS# is considered
part of the command code. CS# is referenced to VREFCA.
DM
Input
Input data mask: DM is an input mask signal for write data. Input data is masked
when DM is sampled HIGH along with the input data during a write access.
Although the DM ball is input-only, the DM loading is designed to match that of the
DQ and DQS balls. DM is referenced to VREFDQ. DM has an optional use as TDQS on
the x8.
ODT
Input
On-die termination: ODT enables (registered HIGH) and disables (registered LOW)
termination resistance internal to the DDR3 SDRAM. When enabled in normal
operation, ODT is only applied to each of the following balls: DQ[7:0], DQS, DQS#,
and DM for the x8; DQ[3:0], DQS, DQS#, and DM for the x4. The ODT input is
ignored if disabled via the LOAD MODE command. ODT is referenced to VREFCA.
RAS#, CAS#, WE#
Input
Command inputs: RAS#, CAS#, and WE# (along with CS#) define the command
being entered and are referenced to VREFCA.
RESET#
Input
Reset: RESET# is an active LOW CMOS input referenced to VSS. The RESET# input receiver is a CMOS input defined as a rail-to-rail signal with DC HIGH ุ 0.8 × VDD and
DC LOW ื 0.2 × VDDQ. RESET# assertion and desertion are asynchronous.
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4Gb_DDR3L.pdf - Rev. R 09/18 EN
19
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Ball Assignments and Descriptions
Table 3: 78-Ball FBGA – x4, x8 Ball Descriptions (Continued)
Symbol
Type
DQ[3:0]
I/O
Data input/output: Bidirectional data bus for the x4 configuration. DQ[3:0] are
referenced to VREFDQ.
DQ[7:0]
I/O
Data input/output: Bidirectional data bus for the x8 configuration. DQ[7:0] are
referenced to VREFDQ.
DQS, DQS#
I/O
Data strobe: Output with read data. Edge-aligned with read data. Input with write
data. Center-aligned to write data.
TDQS, TDQS#
Output
Termination data strobe: Applies to the x8 configuration only. When TDQS is
enabled, DM is disabled, and the TDQS and TDQS# balls provide termination
resistance.
VDD
Supply
Power supply: 1.5V ±0.075V.
VDDQ
Supply
DQ power supply: 1.5V ±0.075V. Isolated on the device for improved noise immunity.
VREFCA
Supply
Reference voltage for control, command, and address: VREFCA must be
maintained at all times (including self refresh) for proper device operation.
VREFDQ
Supply
Reference voltage for data: VREFDQ must be maintained at all times (excluding self
refresh) for proper device operation.
VSS
Supply
Ground.
VSSQ
Supply
DQ ground: Isolated on the device for improved noise immunity.
ZQ
Reference
NC
–
No connect: These balls should be left unconnected (the ball has no connection to
the DRAM or to other balls).
NF
–
No function: When configured as a x4 device, these balls are NF. When configured
as a x8 device, these balls are defined as TDQS#, DQ[7:4].
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
Description
External reference ball for output drive calibration: This ball is tied to an
external 240˖ resistor (RZQ), which is tied to VSSQ.
20
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Ball Assignments and Descriptions
Table 4: 96-Ball FBGA – x16 Ball Descriptions
Symbol
Type
Description
A[14:13], A12/BC#,
A11, A10/AP, A[9:0]
Input
Address inputs: Provide the row address for ACTIVATE commands, and the column
address and auto precharge bit (A10) for READ/WRITE commands, to select one
location out of the memory array in the respective bank. A10 sampled during a
PRECHARGE command determines whether the PRECHARGE applies to one bank
(A10 LOW, bank selected by BA[2:0]) or all banks (A10 HIGH). The address inputs also
provide the op-code during a LOAD MODE command. Address inputs are referenced
to VREFCA. A12/BC#: When enabled in the mode register (MR), A12 is sampled during
READ and WRITE commands to determine whether burst chop (on-the-fly) will be
performed (HIGH = BL8 or no burst chop, LOW = BC4). See Table 70 (page 118).
BA[2:0]
Input
Bank address inputs: BA[2:0] define the bank to which an ACTIVATE, READ,
WRITE, or PRECHARGE command is being applied. BA[2:0] define which mode
register (MR0, MR1, MR2, or MR3) is loaded during the LOAD MODE command.
BA[2:0] are referenced to VREFCA.
CK, CK#
Input
Clock: CK and CK# are differential clock inputs. All control and address input signals
are sampled on the crossing of the positive edge of CK and the negative edge of
CK#. Output data strobe (DQS, DQS#) is referenced to the crossings of CK and CK#.
CKE
Input
Clock enable: CKE enables (registered HIGH) and disables (registered LOW) internal
circuitry and clocks on the DRAM. The specific circuitry that is enabled/disabled is dependent upon the DDR3 SDRAM configuration and operating mode. Taking CKE
LOW provides PRECHARGE POWER-DOWN and SELF REFRESH operations (all banks
idle),or active power-down (row active in any bank). CKE is synchronous for powerdown entry and exit and for self refresh entry. CKE is asynchronous for self refresh
exit. Input buffers (excluding CK, CK#, CKE, RESET#, and ODT) are disabled during
POWER-DOWN. Input buffers (excluding CKE and RESET#) are disabled during SELF
REFRESH. CKE is referenced to VREFCA.
CS#
Input
Chip select: CS# enables (registered LOW) and disables (registered HIGH) the
command decoder. All commands are masked when CS# is registered HIGH. CS# provides for external rank selection on systems with multiple ranks. CS# is considered
part of the command code. CS# is referenced to VREFCA.
LDM
Input
Input data mask: LDM is a lower-byte, input mask signal for write data. Lower-byte
input data is masked when LDM is sampled HIGH along with the input data during a
write access. Although the LDM ball is input-only, the LDM loading is
designed to match that of the DQ and DQS balls. LDM is referenced to VREFDQ.
ODT
Input
On-die termination: ODT enables (registered HIGH) and disables (registered LOW)
termination resistance internal to the DDR3 SDRAM. When enabled in normal
operation, ODT is only applied to each of the following balls: DQ[15:0], LDQS,
LDQS#, UDQS, UDQS#, LDM, and UDM for the x16; DQ0[7:0], DQS, DQS#, DM/TDQS,
and NF/TDQS# (when TDQS is enabled) for the x8; DQ[3:0], DQS, DQS#, and DM for
the x4. The ODT input is ignored if disabled via the LOAD MODE command. ODT is
referenced to VREFCA.
RAS#, CAS#, WE#
Input
Command inputs: RAS#, CAS#, and WE# (along with CS#) define the command
being entered and are referenced to VREFCA.
RESET#
Input
Reset: RESET# is an active LOW CMOS input referenced to VSS. The RESET# input receiver is a CMOS input defined as a rail-to-rail signal with DC HIGH ุ 0.8 × VDD and
DC LOW ื 0.2 × VDDQ. RESET# assertion and desertion are asynchronous.
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
21
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Ball Assignments and Descriptions
Table 4: 96-Ball FBGA – x16 Ball Descriptions (Continued)
Symbol
Type
UDM
Input
DQ[7:0]
I/O
Data input/output: Lower byte of bidirectional data bus for the x16 configuration.
DQ[7:0] are referenced to VREFDQ.
DQ[15:8]
I/O
Data input/output: Upper byte of bidirectional data bus for the x16 configuration.
DQ[15:8] are referenced to VREFDQ.
LDQS, LDQS#
I/O
Lower byte data strobe: Output with read data. Edge-aligned with read data.
Input with write data. Center-aligned to write data.
UDQS, UDQS#
I/O
Upper byte data strobe: Output with read data. Edge-aligned with read data.
Input with write data. DQS is center-aligned to write data.
VDD
Supply
Power supply: 1.5V ±0.075V.
VDDQ
Supply
DQ power supply: 1.5V ±0.075V. Isolated on the device for improved noise immunity.
VREFCA
Supply
Reference voltage for control, command, and address: VREFCA must be
maintained at all times (including self refresh) for proper device operation.
VREFDQ
Supply
Reference voltage for data: VREFDQ must be maintained at all times (excluding self
refresh) for proper device operation.
VSS
Supply
Ground.
VSSQ
Supply
DQ ground: Isolated on the device for improved noise immunity.
ZQ
Reference
NC
–
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
Description
Input data mask: UDM is an upper-byte, input mask signal for write data. Upperbyte input data is masked when UDM is sampled HIGH along with that input data
during a WRITE access. Although the UDM ball is input-only, the UDM loading is
designed to match that of the DQ and DQS balls. UDM is referenced to VREFDQ.
External reference ball for output drive calibration: This ball is tied to an
external 240˖ resistor (RZQ), which is tied to VSSQ.
No connect: These balls should be left unconnected (the ball has no connection to
the DRAM or to other balls).
22
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Package Dimensions
Package Dimensions
Figure 8: 78-Ball FBGA – x4, x8 (RH)
0.155
Seating plane
A
78X Ø0.45
Dimensions apply
to solder balls postreflow on Ø0.35 SMD
ball pads.
0.12 A
1.8 CTR
Nonconductive
overmold
Ball A1 ID
(covered by SR)
9
8
7
3
2
Ball A1 ID
1
A
B
C
D
E
F
10.5 ±0.1
G
9.6 CTR
H
J
K
L
M
N
0.8 TYP
0.8 TYP
1.1 ±0.1
6.4 CTR
0.25 MIN
9 ±0.1
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. All dimensions are in millimeters.
2. Solder ball material: SAC305 (96.5% Sn, 3% Ag, 0.5% Cu).
23
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Package Dimensions
Figure 9: 78-Ball FBGA – x4, x8 (RG)
0.155
Seating plane
A
0.12 A
1.8 CTR
nonconductive
overmold
78X Ø0.47
Dimensions apply
to solder balls postreflow on Ø0.42 SMD
ball pads.
Ball A1 ID
(covered by SR)
9 8 7
Ball A1 ID
3 2 1
A
B
C
D
E
F
G
H
J
K
L
M
N
10.6 ±0.1
9.6 CTR
0.8 TYP
1.1 ±0.1
0.8 TYP
6.4 CTR
0.25 MIN
7.5 ±0.1
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. All dimensions are in millimeters.
2. Solder ball material: SAC302 (96.8% Sn, 3% Ag, 0.2% Cu).
24
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Package Dimensions
Figure 10: 78-Ball FBGA – x4, x8 (DA)
0.155
Seating plane
A
0.12 A
1.8 CTR
Nonconductive
overmold
78X Ø0.47
Dimensions apply
to solder balls postreflow on Ø0.42 SMD
ball pads.
Ball A1 ID
(covered by SR)
9 8 7
Ball A1 ID
3 2 1
A
B
C
D
E
F
G
H
J
K
L
M
N
10.5 ±0.1
9.6 CTR
0.8 TYP
1.1 ±0.1
0.8 TYP
6.4 CTR
0.29 MIN
8 ±0.1
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. All dimensions are in millimeters.
2. Solder ball material: SAC302 (96.8% Sn, 3% Ag, 0.2% Cu).
25
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Package Dimensions
Figure 11: 96-Ball FBGA – x16 (HA)
0.155
Seating plane
1.8 CTR
Nonconductive
overmold
96X Ø0.45
Dimensions
apply to solder
balls post-reflow
on Ø0.35 SMD
ball pads.
9
8
7
3
A
2
0.12 A
Ball A1 Index
(covered by SR)
1
Ball A1 Index
A
B
C
D
E
F
G
H
12 CTR
J
14 ±0.1
K
L
M
N
P
R
0.8 TYP
T
0.8 TYP
1.1 ±0.1
6.4 CTR
0.25 MIN
9 ±0.1
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. All dimensions are in millimeters.
2. Solder ball material: SAC305 (96.5% Sn, 3% Ag, 0.5% Cu).
26
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Package Dimensions
Figure 12: 96-Ball FBGA – x16 (LY)
0.155
Seating plane
A
0.12 A
1.8 CTR
Nonconductive
overmold
96X Ø0.47
Dimensions apply
to solder balls postreflow on Ø0.42
SMD ball pads.
Ball A1 ID
(covered by SR)
9 8 7
Ball A1 ID
3 2 1
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
13.5 ±0.1
12 CTR
0.8 TYP
1.1 ±0.1
0.8 TYP
6.4 CTR
0.29 MIN
7.5 ±0.1
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. All dimensions are in millimeters.
2. Solder ball material: SAC302 (96.8% Sn, 3% Ag, 0.2% Cu).
27
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Package Dimensions
Figure 13: 96-Ball FBGA – x16 (TW)
0.155
Seating plane
0.12 A
A
1.8 CTR
Nonconductive
overmold
96X Ø0.47
Dimensions apply
to solder balls postreflow on Ø0.42 SMD
ball pads.
Ball A1 ID
(covered by SR)
9 8 7
Ball A1 ID
3 2 1
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
14 ±0.1
12 CTR
0.8 TYP
1.1 ±0.1
0.8 TYP
6.4 CTR
0.34 ±0.05
8 ±0.1
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. All dimensions are in millimeters.
2. Material composition: Pb-free SAC302 (96.8% Sn, 3% Ag, 0.2% Cu).
28
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications
Electrical Specifications
Absolute Ratings
Stresses greater than those listed may cause permanent damage to the device. This is a
stress rating only, and functional operation of the device at these or any other conditions outside those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may adversely affect reliability.
Table 5: Absolute Maximum Ratings
Symbol
Parameter
Min
Max
Unit
Notes
1
VDD
VDD supply voltage relative to VSS
–0.4
1.975
V
VDDQ
VDD supply voltage relative to VSSQ
–0.4
1.975
V
VIN, VOUT
Voltage on any pin relative to VSS
–0.4
1.975
V
0
95
°C
2, 3
Operating case temperature – Industrial
–40
95
°C
2, 3
Operating case temperature – Automotive
–40
105
°C
2, 3
Storage temperature
–55
150
°C
TC
TSTG
Operating case temperature – Commercial
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1. VDD and VDDQ must be within 300mV of each other at all times, and VREF must not be
greater than 0.6 × VDDQ. When VDD and VDDQ are 85°C: IDD0, IDD1, IDD2N, IDD2NT, IDD2Q, IDD3N, IDD3P, IDD4R, IDD4W, and IDD5B
must be derated by 2%; IDD2Px must be derated by 30%.
Table 21: IDD Maximum Limits Die Rev. N for 1.35V/1.5V Operation
Speed Bin
Parameter
DDR3/3L DDR3/3L DDR3/3L DDR3/3L DDR3/3L
Units Notes
-1066
-1333
-1600
-1866
-2133
Symbol Width
Operating current 0: One bank
ACTIVATE-to-PRECHARGE
IDD0
Operating current 1: One bank
ACTIVATE-to-READ-to-PRECHARGE
IDD1
x4, x8
42
45
47
49
51
mA
1, 2
x16
52
55
57
59
61
mA
1, 2
x4
50
53
56
59
62
mA
1, 2
x8
55
58
61
64
67
mA
1, 2
x16
75
78
81
84
87
mA
1, 2
Precharge power-down current: Slow exit
IDD2P0
All
8
8
8
8
8
mA
1, 2
Precharge power-down current: Fast exit
IDD2P1
All
10
12
14
16
18
mA
1, 2
Precharge quiet standby current
IDD2Q
All
20
22
24
26
28
mA
1, 2
Precharge standby current
IDD2N
All
20
22
24
26
28
mA
1, 2
Precharge standby ODT current
IDD2NT
x4, x8
24
26
28
30
32
mA
1, 2
x16
27
29
31
33
35
mA
1, 2
Active power-down current
IDD3P
All
22
24
26
28
30
mA
1, 2
Active standby current
IDD3N
x4, x8
26
28
30
32
34
mA
1, 2
x16
34
36
38
40
42
mA
1, 2
x4
65
75
85
95
105
mA
1, 2
x8
75
85
95
105
115
mA
1, 2
x16
135
145
155
165
175
mA
1, 2
x4
65
75
85
95
105
mA
1, 2
x8
75
85
95
105
115
mA
1, 2
x16
135
145
155
165
175
mA
1, 2
Burst read operating current
IDD4R
Burst write operating current
IDD4W
Burst refresh current
IDD5B
All
165
170
175
180
185
mA
1, 2
Room temperature self refresh
IDD6
All
12
12
12
12
12
mA
1, 2, 3
Extended temperature self refresh
IDD6ET
All
16
16
16
16
16
mA
All banks interleaved read current
IDD7
x4, x8
110
120
130
140
150
mA
Reset current
IDD8
Notes:
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
1.
2.
3.
4.
2, 4
1, 2
x16
170
180
190
200
210
mA
1, 2
All
IDD2P +
2mA
IDD2P +
2mA
IDD2P +
2mA
IDD2P +
2mA
IDD2P +
2mA
mA
1, 2
TC = 85°C; SRT and ASR are disabled.
Enabling ASR could increase IDDx by up to an additional 2mA.
Restricted to TC (MAX) = 85°C.
TC = 85°C; ASR and ODT are disabled; SRT is enabled.
45
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© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Characteristics – Operating IDD Specifications
5. The IDD values must be derated (increased) on IT-option devices when operated outside
of the range 0°C ื TC ื 85°C:
5a. When TC < 0°C: IDD2P0, IDD2P1 and IDD3P must be derated by 4%; IDD4R and IDD4W must
be derated by 2%; and IDD6, IDD6ET and IDD7 must be derated by 7%.
5b. When TC > 85°C: IDD0, IDD1, IDD2N, IDD2NT, IDD2Q, IDD3N, IDD3P, IDD4R, IDD4W, and IDD5B
must be derated by 2%; IDD2Px must be derated by 30%.
09005aef85af8fa8
4Gb_DDR3L.pdf - Rev. R 09/18 EN
46
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2017 Micron Technology, Inc. All rights reserved.
4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Characteristics – Operating IDD Specifications
Table 22: IDD Maximum Limits Die Rev. P for 1.35V/1.5V Operation
Speed Bin
Parameter
Symbol
Operating current 0: One bank ACTIVATE-to-PRECHARGE
IDD0
Operating current 1: One bank ACTIVATE-to-READ-to-PRECHARGE
IDD1
Precharge power-down current: Slow
exit
IDD2P0
Precharge power-down current: Fast
exit
IDD2P1
Precharge quiet standby current
IDD2Q
Precharge standby current
IDD2N
Precharge standby ODT current
IDD2NT
Active power-down current
IDD3P
Active standby current
IDD3N
Burst read operating current
IDD4R
Burst write operating current
IDD4W
Burst refresh current
IDD5B
Self refresh
IDD6
Extended temperature self refresh
All banks interleaved read current
Reset current
IDD6ET
IDD7
IDD8
Notes:
1.
2.
3.
4.
5.
Width
DDR3/3L
-1600
DDR3/3L
-1866
DDR3/3L
-2133
x4, x8
28
29
31
X16
32
32
34
x4, x8
43
44
47
x16
45
46
54
x4, x8
10
11
12
x16
12
12
12
x4, x8
11
11
13
x16
12
12
14
Units
Notes
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
mA
1, 2
ALL
15
15
17
x4, x8
16
17
22
x16
17
17
22
x4, x8
20
22
27
x16
22
23
28
x4,x8
15
15
17
x16
17
17
19
x4, x8
20
21
23
x16
22
23
25
x4, x8
90
90
110
x16
110
120
130
x4, x8
90
90
110
16
120
130
140
x4, x8
152
152
160
x16
156
156
160
ALL
15
15
15
mA
1, 2, 3
mA
2, 4
mA
1, 2
mA
1, 2
ALL
23
23
23
x4, x8
130
146
150
x16
132
147
160
All
IDD2P + 2mA IDD2P + 2mA IDD2P + 2mA
TC = 85°C; SRT and ASR are disabled.
Enabling ASR could increase IDDx by up to an additional 2mA.
Restricted to TC (MAX) = 85°C.
TC = 85°C; ASR and ODT are disabled; SRT is enabled.
The IDD values must be derated (increased) on IT-option devices when operated outside
of the range 0°C ื TC ื +85°C:
5a. When TC < 0°C: IDD2P0, IDD2P1 and IDD3P must be derated by 4%; IDD4R and IDD4W must
be derated by 2%; and IDD6, IDD6ET and IDD7 must be derated by 7%.
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Characteristics – Operating IDD Specifications
5b. When TC > 85°C: IDD0, IDD1, IDD2N, IDD2NT, IDD2Q, IDD3N, IDD3P, IDD4R, IDD4W, and IDD5B
must be derated by 2%; IDD2Px must be derated by 30%.
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications – DC and AC
Electrical Specifications – DC and AC
DC Operating Conditions
Table 23: DDR3L 1.35V DC Electrical Characteristics and Operating Conditions
All voltages are referenced to VSS
Parameter/Condition
Symbol
Min
Nom
Max
Unit
Notes
Supply voltage
VDD
1.283
1.35
1.45
V
1–7
I/O supply voltage
VDDQ
1.283
1.35
1.45
V
1–7
II
–2
–
2
μA
IVREF
–1
–
1
μA
Input leakage current
Any input 0V ื VIN ื VDD, VREF pin 0V ื VIN ื 1.1V
(All other pins not under test = 0V)
VREF supply leakage current
VREFDQ = VDD/2 or VREFCA = VDD/2
(All other pins not under test = 0V)
Notes:
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8, 9
1. VDD and VDDQ must track one another. VDDQ must be ื VDD. VSS = VSSQ.
2. VDD and VDDQ may include AC noise of ±50mV (250 kHz to 20 MHz) in addition to the
DC (0 Hz to 250 kHz) specifications. VDD and VDDQ must be at same level for valid AC
timing parameters.
3. Maximum DC value may not be greater than 1.425V. The DC value is the linear average
of VDD/VDDQ(t) over a very long period of time (for example, 1 second).
4. Under these supply voltages, the device operates to this DDR3L specification.
5. If the maximum limit is exceeded, input levels shall be governed by DDR3 specifications.
6. Under 1.5V operation, this DDR3L device operates in accordance with the DDR3 specifications under the same speed timings as defined for this device.
7. Once initialized for DDR3L operation, DDR3 operation may only be used if the device is
in reset while VDD and VDDQ are changed for DDR3 operation (see VDD Voltage Switching (page 139)).
8. The minimum limit requirement is for testing purposes. The leakage current on the VREF
pin should be minimal.
9. VREF (see Table 24).
49
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications – DC and AC
Input Operating Conditions
Table 24: DDR3L 1.35V DC Electrical Characteristics and Input Conditions
All voltages are referenced to VSS
Parameter/Condition
Symbol
Min
Nom
Max
Unit
VIN low; DC/commands/address busses
VIL
VSS
N/A
See Table 25
V
VIN high; DC/commands/address busses
VIH
See Table 25
N/A
VDD
V
Notes
Input reference voltage command/address bus
VREFCA(DC)
0.49 × VDD
0.5 × VDD
0.51 × VDD
V
1, 2
I/O reference voltage DQ bus
VREFDQ(DC)
0.49 × VDD
0.5 × VDD
0.51 × VDD
V
2, 3
I/O reference voltage DQ bus in SELF REFRESH
VREFDQ(SR)
VSS
0.5 × VDD
VDD
V
4
VTT
–
0.5 × VDDQ
–
V
5
Command/address termination voltage
(system level, not direct DRAM input)
Notes:
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1. VREFCA(DC) is expected to be approximately 0.5 × VDD and to track variations in the DC
level. Externally generated peak noise (non-common mode) on VREFCA may not exceed
±1% × VDD around the VREFCA(DC) value. Peak-to-peak AC noise on VREFCA should not exceed ±2% of VREFCA(DC).
2. DC values are determined to be less than 20 MHz in frequency. DRAM must meet specifications if the DRAM induces additional AC noise greater than 20 MHz in frequency.
3. VREFDQ(DC) is expected to be approximately 0.5 × VDD and to track variations in the DC
level. Externally generated peak noise (non-common mode) on VREFDQ may not exceed
±1% × VDD around the VREFDQ(DC) value. Peak-to-peak AC noise on VREFDQ should not exceed ±2% of VREFDQ(DC).
4. VREFDQ(DC) may transition to VREFDQ(SR) and back to VREFDQ(DC) when in SELF REFRESH,
within restrictions outlined in the SELF REFRESH section.
5. VTT is not applied directly to the device. VTT is a system supply for signal termination resistors. Minimum and maximum values are system-dependent.
50
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications – DC and AC
Table 25: DDR3L 1.35V Input Switching Conditions – Command and Address
Parameter/Condition
Symbol
DDR3L-800/1066
DDR3L-1333/1600
DDR3L-1866/2133
Units
Command and Address
5
160
160
–
mV
VIH(AC135),min5
135
135
135
mV
–
–
125
mV
VIH(DC90),min
90
90
90
mV
Input low DC voltage: Logic 0
VIL(DC90),min
–90
–90
–90
mV
Input low AC voltage: Logic 0
VIL(AC125),min5
–
–
–125
mV
VIL(AC135),min5
–135
–135
–135
mV
5
–160
–160
–
mV
Input high AC voltage: Logic 1
VIH(AC160),min
VIH(AC125),min
Input high DC voltage: Logic 1
VIL(AC160),min
5
DQ and DM
Input high AC voltage: Logic 1
VIH(AC160),min5
160
160
–
mV
5
135
135
135
mV
5
–
–
130
mV
VIH(AC135),min
VIH(AC125),min
Input high DC voltage: Logic 1
VIH(DC90),min
90
90
90
mV
Input low DC voltage: Logic 0
VIL(DC90),min
–90
–90
–90
mV
Input low AC voltage: Logic 0
VIL(AC125),min5
–
–
–130
mV
5
–135
–135
–135
mV
VIL(AC160),min5
–160
–160
–
mV
VIL(AC135),min
Notes:
1. All voltages are referenced to VREF. VREF is VREFCA for control, command, and address. All
slew rates and setup/hold times are specified at the DRAM ball. VREF is VREFDQ for DQ
and DM inputs.
2. Input setup timing parameters (tIS and tDS) are referenced at VIL(AC)/VIH(AC), not VREF(DC).
3. Input hold timing parameters (tIH and tDH) are referenced at VIL(DC)/VIH(DC), not VREF(DC).
4. Single-ended input slew rate = 1 V/ns; maximum input voltage swing under test is
900mV (peak-to-peak).
5. When two VIH(AC) values (and two corresponding VIL(AC) values) are listed for a specific
speed bin, the user may choose either value for the input AC level. Whichever value is
used, the associated setup time for that AC level must also be used. Additionally, one
VIH(AC) value may be used for address/command inputs and the other VIH(AC) value may
be used for data inputs.
For example, for DDR3-800, two input AC levels are defined: VIH(AC160),min and
VIH(AC135),min (corresponding VIL(AC160),min and VIL(AC135),min). For DDR3-800, the address/
command inputs must use either VIH(AC160),min with tIS(AC160) of 210ps or VIH(AC150),min
with tIS(AC135) of 365ps; independently, the data inputs must use either VIH(AC160),min
with tDS(AC160) of 75ps or VIH(AC150),min with tDS(AC150) of 125ps.
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications – DC and AC
Table 26: DDR3L 1.35V Differential Input Operating Conditions (CK, CK# and DQS, DQS#)
Parameter/Condition
Symbol
Min
Max
Units
Notes
Differential input logic high – slew
VIH,diff(AC)slew
180
N/A
mV
4
Differential input logic low – slew
VIL,diff(AC)slew
N/A
–180
mV
4
Differential input logic high
VIH,diff(AC)
2 × (VIH(AC) - VREF)
VDD/VDDQ
mV
5
Differential input logic low
VIL,diff(AC)
VSS/VSSQ
2 × (VIL(AC) - VREF)
mV
6
VIX
VREF(DC) - 150
VREF(DC) + 150
mV
5, 7, 9
VIX (175)
VREF(DC) - 175
VREF(DC) + 175
mV
5, 7–9
VDDQ/2 + 160
VDDQ
mV
5
VDD/2 + 160
VDD
mV
5
VSSQ
VDDQ/2 - 160
mV
6
VSS
VDD/2 - 160
mV
6
Differential input crossing voltage
relative to VDD/2 for DQS, DQS#; CK,
CK#
Differential input crossing voltage
relative to VDD/2 for CK, CK#
Single-ended high level for strobes
Single-ended high level for CK, CK#
Single-ended low level for strobes
Single-ended low level for CK, CK#
Notes:
1.
2.
3.
4.
5.
6.
7.
8.
9.
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VSEH
VSEL
Clock is referenced to VDD and VSS. Data strobe is referenced to VDDQ and VSSQ.
Reference is VREFCA(DC) for clock and VREFDQ(DC) for strobe.
Differential input slew rate = 2 V/ns.
Defines slew rate reference points, relative to input crossing voltages.
Minimum DC limit is relative to single-ended signals; overshoot specifications are applicable.
Maximum DC limit is relative to single-ended signals; undershoot specifications are applicable.
The typical value of VIX(AC) is expected to be about 0.5 × VDD of the transmitting device,
and VIX(AC) is expected to track variations in VDD. VIX(AC) indicates the voltage at which
differential input signals must cross.
The VIX extended range (±175mV) is allowed only for the clock; this VIX extended range
is only allowed when the following conditions are met: The single-ended input signals
are monotonic, have the single-ended swing VSEL, VSEH of at least VDD/2 ±250mV, and
the differential slew rate of CK, CK# is greater than 3 V/ns.
VIX must provide 25mV (single-ended) of the voltages separation.
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications – DC and AC
Figure 15: DDR3L 1.35V Input Signal
VIL and VIH levels with ringback
VDDQ + 0.4V
Overshoot
VDD + 0.4V
Narrow pulse width
Minimum VIL and VIH levels
VIH MIN(AC)
VIH MIN(DC)
VIH(AC)
VIH(DC)
VIL MIN(AC)
VDDQ
VREF + 125/135/160mV
VIH(AC)
VREF + 90mV
VIH(DC)
VREF DC MAX + 1%
.51 x VDD
VREF = VDD/2
.49 x VDD
VREF DC MIN - 1% VDD
MAX 2% Total
VREF DC MAX
VREF
DC MIN
MAX 2% Total
VIL MIN(DC)
VDD
VIL(DC)
VREFDQ + AC noise
VREFDQ + DC error
VREFDQ - DC error
VREFDQ - AC noise
VREF - 90mV
VIL(DC)
VREF - 125/135/160mV
VIL(AC)
VIL(AC)
0.0V
VSS
VSS - 0.40V
Undershoot
VSS - 0.40V
Narrow pulse width
Note:
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1. Numbers in diagrams reflect nominal values.
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications – DC and AC
DDR3L 1.35V AC Overshoot/Undershoot Specification
Table 27: DDR3L Control and Address Pins
Parameter
DDR3L-800
DRR3L-1066
DDR3L-1333
DDR3L-1600
DDR3L-1866
DDR3L-2133
Maximum peak amplitude allowed for overshoot area
(see Figure 16)
0.4V
0.4V
0.4V
0.4V
0.4V
0.4V
Maximum peak amplitude allowed for undershoot area
(see Figure 17)
0.4V
0.4V
0.4V
0.4V
0.4V
0.4V
Maximum overshoot area
above VDD (see Figure 16)
0.67 V/ns
0.5 V/ns
0.4 V/ns
0.33 V/ns
0.28 V/ns
0.25 V/ns
Maximum undershoot
area below VSS (see Figure 17)
0.67 V/ns
0.5 V/ns
0.4 V/ns
0.33 V/ns
0.28 V/ns
0.25 V/ns
Table 28: DDR3L 1.35V Clock, Data, Strobe, and Mask Pins
Parameter
DDR3L-800
DDR3L-1066
DDR3L-1333
DDR3L-1600
DDR3L-1866
DDR3L-2133
Maximum peak amplitude allowed for overshoot area
(see Figure 16)
0.4V
0.4V
0.4V
0.4V
0.4V
0.4V
Maximum peak amplitude allowed for undershoot area
(see Figure 17)
0.4V
0.4V
0.4V
0.4V
0.4V
0.4V
Maximum overshoot area
above VDD/VDDQ (see Figure 16)
0.25 V/ns
0.19 V/ns
0.15 V/ns
0.13 V/ns
0.11 V/ns
0.10 V/ns
Maximum undershoot
area below VSS/VSSQ (see
Figure 17)
0.25 V/ns
0.19 V/ns
0.15 V/ns
0.13 V/ns
0.11 V/ns
0.10 V/ns
Figure 16: Overshoot
Maximum amplitude
Overshoot area
Volts (V)
VDD/VDDQ
Time (ns)
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications – DC and AC
Figure 17: Undershoot
VSS/VSSQ
Volts (V)
Undershoot area
Maximum amplitude
Time (ns)
Figure 18: VIX for Differential Signals
VDD, VDDQ
VDD, VDDQ
CK#, DQS#
CK#, DQS#
X
VIX
VIX
VDD/2, VDDQ/2
X
X
VDD/2, VDDQ/2
VIX
X
VIX
CK, DQS
CK, DQS
VSS, VSSQ
VSS, VSSQ
Figure 19: Single-Ended Requirements for Differential Signals
VDD or VDDQ
VSEH,min
VDD/2 or VDDQ/2
VSEH
CK or DQS
VSEL,max
VSEL
VSS or VSSQ
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4Gb: x4, x8, x16 DDR3L SDRAM
Electrical Specifications – DC and AC
Figure 20: Definition of Differential AC-Swing and tDVAC
tDVAC
VIH,diff(AC)min
VIH,diff,min
CK - CK#
DQS - DQS#
0.0
VIL,diff,max
VIL,diff(AC)max
tDVAC
Half cycle
Table 29: DDR3L 1.35V – Minimum Required Time tDVAC for CK/CK#, DQS/DQS# Differential for AC
Ringback
DDR3L-800/1066/1333/1600
tDVAC
tDVAC
DDR3L-1866/2133
tDVAC
tDVAC
tDVAC
Slew Rate (V/ns)
at
320mV (ps)
at
270mV (ps)
at
270mV (ps)
at
250mV (ps)
at
260mV (ps)
>4.0
189
201
163
168
176
4.0
189
201
163
168
176
3.0
162
179
140
147
154
2.0
109
134
95
105
111
1.8
91
119
80
91
97
1.6
69
100
62
74
78
1.4
40
76
37
52
55
1.2
Note 1
44
5
22
24
1.0
Note 1