Automotive DDR3L SDRAMMT41K512M8 – 64 Meg x 8 x 8 banksMT41K256M16 – 32 Meg x 16 x 8 banks
DescriptionDDR3L SDRAM (1.35V) is a low voltage version of theDDR3 (1.5V) SDRAM. Refer to the DDR3 (1.5V)SDRAM data sheet specifications when running in1.5V compatible mode.
Features• VDD = VDDQ = 1.35V (1.283–1.45V)• Backward compatible to VDD = VDDQ = 1.5V ±0.075V
– Supports DDR3L devices to be backward com-patible 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 –40°C to +105°C
– 64ms, 8192-cycle refresh at –40°C to +85°C– 32ms at +85°C to +105°C
• Self refresh temperature (SRT)• Automatic self refresh (ASR)• Write leveling• Multipurpose register• Output driver calibration• AEC-Q100• PPAP submission• 8D response time
Options Marking• Configuration
– 512 Meg x 8 512M8– 256 Meg x 16 256M16
• FBGA package (Pb-free) – x8 – 78-ball (10.5mm x 12mm) Rev. D RA– 78-ball (9mm x 10.5mm) Rev. E RH
• FBGA package (Pb-free) – x16 – 96-ball (10mm x 14mm) Rev. D RE– 96-ball (9mm x 14mm) Rev. E HA
• Timing – cycle time – 1.071ns @ CL = 13 (DDR3-1866) -107– 1.25ns @ CL = 11 (DDR3-1600) -125– 1.5ns @ CL = 9 (DDR3-1333) -15E– 1.875ns @ CL = 7 (DDR3-1066) -187E
• Product certification– Automotive A
• Operating temperature– Industrial (–40°C TC +95°C) IT– Automotive (–40°C TC +105°C) AT
• Revision :D/:E
Table 1: Key Timing Parameters
Speed Grade Data Rate (MT/s) Target tRCD-tRP-CL tRCD (ns) tRP (ns) CL (ns)
-1071, 2, 3 1866 13-13-13 13.91 13.91 13.91
-1251, 2 1600 11-11-11 13.75 13.75 13.75
-15E1 1333 9-9-9 13.5 13.5 13.5
-187E 1066 7-7-7 13.1 13.1 13.1
Notes: 1. Backward compatible to 1066, CL = 7 (-187E).2. Backward compatible to 1333, CL = 9 (-15E).3. Backward compatible to 1600, CL = 11 (-125).
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 1
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Products and specifications discussed herein are subject to change by Micron without notice.
Table 2: Addressing
Parameter 512 Meg x 8 256 Meg x 16
Configuration 64 Meg x 8 x 8 banks 32 Meg x 16 x 8 banks
Refresh count 8K 8K
Row address 64K (A[15:0]) 32K (A[14:0])
Bank address 8 (BA[2:0]) 8 (BA[2:0])
Column address 1K (A[9:0]) 1K (A[9:0])
Page size 1KB 2KB
Figure 1: DDR3L Part Numbers
Example Part Number: MT41K512M8RH-125 AIT:E
Configuration
512 Meg x 8
256 Meg x 16
512M8
256M16
-
ConfigurationMT41K Package Speed Revision
Revision:D/:E
:
Industrial
Automotive
IT
AT
Package
96-ball 9mm x 14mm FBGA96-ball 10.0mm x 14mm FBGA
Mark
HARE
Rev.
ED
78-ball 9mm x 10.5mm FBGA RHE
78-ball 10.5mm x 12mm FBGA RAD
Speed GradetCK = 1.071ns, CL = 13
tCK = 1.25ns, CL = 11tCK = 1.5ns, CL = 9tCK = 1.875ns, CL = 7
-107
-125
-15E
-187E
Temperature
Automotive A
Certification
Note: 1. Not all options listed can be combined to define an offered product. Use the part catalog search onhttp://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 thepart number. For a quick conversion of an FBGA code, see the FBGA Part Marking Decoder on Micron’s Web site: http://www.micron.com.
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 2
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
http://www.micron.comhttp://www.micron.com
ContentsState Diagram ................................................................................................................................................ 11Functional Description ................................................................................................................................... 12
Industrial Temperature ............................................................................................................................... 12Automotive Temperature ............................................................................................................................ 12General Notes ............................................................................................................................................ 13
Functional Block Diagrams ............................................................................................................................. 14Ball Assignments and Descriptions ................................................................................................................. 16Package Dimensions ....................................................................................................................................... 22Electrical Specifications .................................................................................................................................. 26
Absolute Ratings ......................................................................................................................................... 26Input/Output Capacitance .......................................................................................................................... 27
Thermal Characteristics .................................................................................................................................. 28Electrical Specifications – IDD Specifications and Conditions ............................................................................ 29Electrical Characteristics – DDR3L (1.35V) Operating IDD Specifications ........................................................... 40Electrical Specifications – DC and AC .............................................................................................................. 44
DC Operating Conditions ........................................................................................................................... 44Input Operating Conditions ........................................................................................................................ 45DDR3L 1.35V AC Overshoot/Undershoot Specification ................................................................................ 49DDR3L 1.35V Slew Rate Definitions for Single-Ended Input Signals .............................................................. 53DDR3L 1.35V Slew Rate Definitions for Differential Input Signals ................................................................. 55
ODT Characteristics ....................................................................................................................................... 561.35V ODT Resistors ................................................................................................................................... 57ODT Sensitivity .......................................................................................................................................... 58ODT Timing Definitions ............................................................................................................................. 58
Output Driver Impedance ............................................................................................................................... 6234 Ohm Output Driver Impedance .............................................................................................................. 63DDR3L 34 Ohm Driver ................................................................................................................................ 64DDR3L 34 Ohm Output Driver Sensitivity .................................................................................................... 65DDR3L Alternative 40 Ohm Driver ............................................................................................................... 66DDR3L 40 Ohm Output Driver Sensitivity .................................................................................................... 66
Output Characteristics and Operating Conditions ............................................................................................ 68Reference Output Load ............................................................................................................................... 71Slew Rate Definitions for Single-Ended Output Signals ................................................................................. 71Slew Rate Definitions for Differential Output Signals .................................................................................... 73
Speed Bin Tables ............................................................................................................................................ 74Electrical Characteristics and AC Operating Conditions ................................................................................... 78Command and Address Setup, Hold, and Derating ........................................................................................... 98Data Setup, Hold, and Derating ...................................................................................................................... 105Commands – Truth Tables ............................................................................................................................. 114Commands ................................................................................................................................................... 117
DESELECT ................................................................................................................................................ 117NO OPERATION ........................................................................................................................................ 117ZQ CALIBRATION LONG ........................................................................................................................... 117ZQ CALIBRATION SHORT .......................................................................................................................... 117ACTIVATE ................................................................................................................................................. 117READ ........................................................................................................................................................ 117WRITE ...................................................................................................................................................... 118PRECHARGE ............................................................................................................................................. 119REFRESH .................................................................................................................................................. 119SELF REFRESH .......................................................................................................................................... 120
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 3
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
DLL Disable Mode ..................................................................................................................................... 121Input Clock Frequency Change ...................................................................................................................... 125Write Leveling ............................................................................................................................................... 127
Write Leveling Procedure ........................................................................................................................... 129Write Leveling Mode Exit Procedure ........................................................................................................... 131
Initialization ................................................................................................................................................. 132Voltage Initialization / Change ....................................................................................................................... 134
VDD Voltage Switching ............................................................................................................................... 135Mode Registers .............................................................................................................................................. 136Mode Register 0 (MR0) ................................................................................................................................... 137
Burst Length ............................................................................................................................................. 137Burst Type ................................................................................................................................................. 138DLL RESET ................................................................................................................................................ 139Write Recovery .......................................................................................................................................... 140Precharge Power-Down (Precharge PD) ...................................................................................................... 140CAS Latency (CL) ....................................................................................................................................... 140
Mode Register 1 (MR1) ................................................................................................................................... 142DLL Enable/DLL Disable ........................................................................................................................... 142Output Drive Strength ............................................................................................................................... 143OUTPUT ENABLE/DISABLE ...................................................................................................................... 143TDQS Enable ............................................................................................................................................. 143On-Die Termination .................................................................................................................................. 144WRITE LEVELING ..................................................................................................................................... 144POSTED CAS ADDITIVE Latency ................................................................................................................ 144
Mode Register 2 (MR2) ................................................................................................................................... 145CAS Write Latency (CWL) ........................................................................................................................... 146AUTO SELF REFRESH (ASR) ....................................................................................................................... 146SELF REFRESH TEMPERATURE (SRT) ........................................................................................................ 147SRT vs. ASR ............................................................................................................................................... 147DYNAMIC ODT ......................................................................................................................................... 147
Mode Register 3 (MR3) ................................................................................................................................... 148MULTIPURPOSE REGISTER (MPR) ............................................................................................................ 148MPR Functional Description ...................................................................................................................... 149MPR Register Address Definitions and Bursting Order ................................................................................. 150MPR Read Predefined Pattern .................................................................................................................... 155
MODE REGISTER SET (MRS) Command ........................................................................................................ 155ZQ CALIBRATION Operation ......................................................................................................................... 156ACTIVATE Operation ..................................................................................................................................... 157READ Operation ............................................................................................................................................ 159WRITE Operation .......................................................................................................................................... 170
DQ Input Timing ....................................................................................................................................... 178PRECHARGE Operation ................................................................................................................................. 180SELF REFRESH Operation .............................................................................................................................. 180Extended Temperature Usage ........................................................................................................................ 182Power-Down Mode ........................................................................................................................................ 183RESET Operation ........................................................................................................................................... 191On-Die Termination (ODT) ............................................................................................................................ 193
Functional Representation of ODT ............................................................................................................. 193Nominal ODT ............................................................................................................................................ 193
Dynamic ODT ............................................................................................................................................... 195Dynamic ODT Special Use Case ................................................................................................................. 195Functional Description .............................................................................................................................. 195
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 4
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Synchronous ODT Mode ................................................................................................................................ 201ODT Latency and Posted ODT .................................................................................................................... 201Timing Parameters .................................................................................................................................... 201ODT Off During READs .............................................................................................................................. 204
Asynchronous ODT Mode .............................................................................................................................. 206Synchronous to Asynchronous ODT Mode Transition (Power-Down Entry) .................................................. 208
Asynchronous to Synchronous ODT Mode Transition (Power-Down Exit) ........................................................ 210Asynchronous to Synchronous ODT Mode Transition (Short CKE Pulse) ...................................................... 212
Revision History ............................................................................................................................................ 214Rev. D – 02/17 ............................................................................................................................................ 214Rev. C – 02/14 ............................................................................................................................................ 214Rev. B – 06/13 ............................................................................................................................................ 214Rev. A – 05/13 ............................................................................................................................................ 214
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 5
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
List of FiguresFigure 1: DDR3L Part Numbers ........................................................................................................................ 2Figure 2: Simplified State Diagram ................................................................................................................. 11Figure 3: 512 Meg x 8 Functional Block Diagram ............................................................................................. 14Figure 4: 256 Meg x 16 Functional Block Diagram ........................................................................................... 15Figure 5: 78-Ball FBGA – x8 (Top View) ........................................................................................................... 16Figure 6: 96-Ball FBGA – x16 (Top View) ......................................................................................................... 17Figure 7: 78-Ball FBGA – x8 (RA) ..................................................................................................................... 22Figure 8: 78-Ball FBGA – x8 (RH) .................................................................................................................... 23Figure 9: 96-Ball FBGA – x16 (RE) ................................................................................................................... 24Figure 10: 96-Ball FBGA – x16 (HA) ................................................................................................................. 25Figure 11: Thermal Measurement Point ......................................................................................................... 28Figure 12: DDR3L 1.35V Input Signal .............................................................................................................. 48Figure 13: Overshoot ..................................................................................................................................... 49Figure 14: Undershoot ................................................................................................................................... 50Figure 15: VIX for Differential Signals .............................................................................................................. 51Figure 16: Single-Ended Requirements for Differential Signals ........................................................................ 51Figure 17: Definition of Differential AC-Swing and tDVAC ............................................................................... 52Figure 18: Nominal Slew Rate Definition for Single-Ended Input Signals .......................................................... 54Figure 19: DDR3L 1.35V Nominal Differential Input Slew Rate Definition for DQS, DQS# and CK, CK# .............. 55Figure 20: ODT Levels and I-V Characteristics ................................................................................................ 56Figure 21: ODT Timing Reference Load .......................................................................................................... 59Figure 22: tAON and tAOF Definitions ............................................................................................................ 60Figure 23: tAONPD and tAOFPD Definitions ................................................................................................... 60Figure 24: tADC Definition ............................................................................................................................. 61Figure 25: Output Driver ................................................................................................................................ 62Figure 26: DQ Output Signal .......................................................................................................................... 69Figure 27: Differential Output Signal .............................................................................................................. 70Figure 28: Reference Output Load for AC Timing and Output Slew Rate ........................................................... 71Figure 29: Nominal Slew Rate Definition for Single-Ended Output Signals ....................................................... 72Figure 30: Nominal Differential Output Slew Rate Definition for DQS, DQS# .................................................... 73Figure 31: Nominal Slew Rate and tVAC for tIS (Command and Address – Clock) ............................................. 101Figure 32: Nominal Slew Rate for tIH (Command and Address – Clock) ........................................................... 102Figure 33: Tangent Line for tIS (Command and Address – Clock) .................................................................... 103Figure 34: Tangent Line for tIH (Command and Address – Clock) .................................................................... 104Figure 35: Nominal Slew Rate and tVAC for tDS (DQ – Strobe) ......................................................................... 110Figure 36: Nominal Slew Rate for tDH (DQ – Strobe) ...................................................................................... 111Figure 37: Tangent Line for tDS (DQ – Strobe) ................................................................................................ 112Figure 38: Tangent Line for tDH (DQ – Strobe) ............................................................................................... 113Figure 39: Refresh Mode ............................................................................................................................... 120Figure 40: DLL Enable Mode to DLL Disable Mode ........................................................................................ 122Figure 41: DLL Disable Mode to DLL Enable Mode ........................................................................................ 123Figure 42: DLL Disable tDQSCK .................................................................................................................... 124Figure 43: Change Frequency During Precharge Power-Down ........................................................................ 126Figure 44: Write Leveling Concept ................................................................................................................. 127Figure 45: Write Leveling Sequence ............................................................................................................... 130Figure 46: Write Leveling Exit Procedure ....................................................................................................... 131Figure 47: Initialization Sequence ................................................................................................................. 133Figure 48: VDD Voltage Switching .................................................................................................................. 135Figure 49: MRS to MRS Command Timing (tMRD) ......................................................................................... 136Figure 50: MRS to nonMRS Command Timing (tMOD) .................................................................................. 137
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 6
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Figure 51: Mode Register 0 (MR0) Definitions ................................................................................................ 138Figure 52: READ Latency .............................................................................................................................. 141Figure 53: Mode Register 1 (MR1) Definition ................................................................................................. 142Figure 54: READ Latency (AL = 5, CL = 6) ....................................................................................................... 145Figure 55: Mode Register 2 (MR2) Definition ................................................................................................. 146Figure 56: CAS Write Latency ........................................................................................................................ 146Figure 57: Mode Register 3 (MR3) Definition ................................................................................................. 148Figure 58: Multipurpose Register (MPR) Block Diagram ................................................................................. 149Figure 59: MPR System Read Calibration with BL8: Fixed Burst Order Single Readout ..................................... 151Figure 60: MPR System Read Calibration with BL8: Fixed Burst Order, Back-to-Back Readout .......................... 152Figure 61: MPR System Read Calibration with BC4: Lower Nibble, Then Upper Nibble .................................... 153Figure 62: MPR System Read Calibration with BC4: Upper Nibble, Then Lower Nibble .................................... 154Figure 63: ZQ CALIBRATION Timing (ZQCL and ZQCS) ................................................................................. 156Figure 64: Example: Meeting tRRD (MIN) and tRCD (MIN) ............................................................................. 157Figure 65: Example: tFAW ............................................................................................................................. 158Figure 66: READ Latency .............................................................................................................................. 159Figure 67: Consecutive READ Bursts (BL8) .................................................................................................... 161Figure 68: Consecutive READ Bursts (BC4) .................................................................................................... 161Figure 69: Nonconsecutive READ Bursts ....................................................................................................... 162Figure 70: READ (BL8) to WRITE (BL8) .......................................................................................................... 162Figure 71: READ (BC4) to WRITE (BC4) OTF .................................................................................................. 163Figure 72: READ to PRECHARGE (BL8) .......................................................................................................... 163Figure 73: READ to PRECHARGE (BC4) ......................................................................................................... 164Figure 74: READ to PRECHARGE (AL = 5, CL = 6) ........................................................................................... 164Figure 75: READ with Auto Precharge (AL = 4, CL = 6) ..................................................................................... 164Figure 76: Data Output Timing – tDQSQ and Data Valid Window .................................................................... 166Figure 77: Data Strobe Timing – READs ......................................................................................................... 167Figure 78: Method for Calculating tLZ and tHZ ............................................................................................... 168Figure 79: tRPRE Timing ............................................................................................................................... 168Figure 80: tRPST Timing ............................................................................................................................... 169Figure 81: tWPRE Timing .............................................................................................................................. 171Figure 82: tWPST Timing .............................................................................................................................. 171Figure 83: WRITE Burst ................................................................................................................................ 172Figure 84: Consecutive WRITE (BL8) to WRITE (BL8) ..................................................................................... 173Figure 85: Consecutive WRITE (BC4) to WRITE (BC4) via OTF ........................................................................ 173Figure 86: Nonconsecutive WRITE to WRITE ................................................................................................. 174Figure 87: WRITE (BL8) to READ (BL8) .......................................................................................................... 174Figure 88: WRITE to READ (BC4 Mode Register Setting) ................................................................................. 175Figure 89: WRITE (BC4 OTF) to READ (BC4 OTF) ........................................................................................... 176Figure 90: WRITE (BL8) to PRECHARGE ........................................................................................................ 177Figure 91: WRITE (BC4 Mode Register Setting) to PRECHARGE ...................................................................... 177Figure 92: WRITE (BC4 OTF) to PRECHARGE ................................................................................................ 178Figure 93: Data Input Timing ........................................................................................................................ 179Figure 94: Self Refresh Entry/Exit Timing ...................................................................................................... 181Figure 95: Active Power-Down Entry and Exit ................................................................................................ 185Figure 96: Precharge Power-Down (Fast-Exit Mode) Entry and Exit ................................................................. 185Figure 97: Precharge Power-Down (Slow-Exit Mode) Entry and Exit ................................................................ 186Figure 98: Power-Down Entry After READ or READ with Auto Precharge (RDAP) ............................................. 186Figure 99: Power-Down Entry After WRITE .................................................................................................... 187Figure 100: Power-Down Entry After WRITE with Auto Precharge (WRAP) ...................................................... 187Figure 101: REFRESH to Power-Down Entry .................................................................................................. 188Figure 102: ACTIVATE to Power-Down Entry ................................................................................................. 188
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 7
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Figure 103: PRECHARGE to Power-Down Entry ............................................................................................. 189Figure 104: MRS Command to Power-Down Entry ......................................................................................... 189Figure 105: Power-Down Exit to Refresh to Power-Down Entry ....................................................................... 190Figure 106: RESET Sequence ......................................................................................................................... 192Figure 107: On-Die Termination ................................................................................................................... 193Figure 108: Dynamic ODT: ODT Asserted Before and After the WRITE, BC4 .................................................... 198Figure 109: Dynamic ODT: Without WRITE Command .................................................................................. 198Figure 110: Dynamic ODT: ODT Pin Asserted Together with WRITE Command for 6 Clock Cycles, BL8 ............ 199Figure 111: Dynamic ODT: ODT Pin Asserted with WRITE Command for 6 Clock Cycles, BC4 .......................... 200Figure 112: Dynamic ODT: ODT Pin Asserted with WRITE Command for 4 Clock Cycles, BC4 .......................... 200Figure 113: Synchronous ODT ...................................................................................................................... 202Figure 114: Synchronous ODT (BC4) ............................................................................................................. 203Figure 115: ODT During READs .................................................................................................................... 205Figure 116: Asynchronous ODT Timing with Fast ODT Transition .................................................................. 207Figure 117: Synchronous to Asynchronous Transition During Precharge Power-Down (DLL Off) Entry ............ 209Figure 118: Asynchronous to Synchronous Transition During Precharge Power-Down (DLL Off) Exit ............... 211Figure 119: Transition Period for Short CKE LOW Cycles with Entry and Exit Period Overlapping ..................... 213Figure 120: Transition Period for Short CKE HIGH Cycles with Entry and Exit Period Overlapping ................... 213
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 8
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
List of TablesTable 1: Key Timing Parameters ....................................................................................................................... 1Table 2: Addressing ......................................................................................................................................... 2Table 3: 78-Ball FBGA – x8 Ball Descriptions ................................................................................................... 18Table 4: 96-Ball FBGA – x16 Ball Descriptions ................................................................................................. 20Table 5: Absolute Maximum Ratings .............................................................................................................. 26Table 6: DDR3L Input/Output Capacitance .................................................................................................... 27Table 7: Thermal Characteristics .................................................................................................................... 28Table 8: DDR3L Timing Parameters Used for IDD Measurements – Clock Units ................................................. 29Table 9: DDR3L IDD0 Measurement Loop ........................................................................................................ 30Table 10: DDR3L IDD1 Measurement Loop ...................................................................................................... 31Table 11: DDR3L IDD Measurement Conditions for Power-Down Currents ....................................................... 32Table 12: DDR3L IDD2N and IDD3N Measurement Loop .................................................................................... 33Table 13: DDR3L IDD2NT Measurement Loop .................................................................................................. 33Table 14: DDR3L IDD4R Measurement Loop .................................................................................................... 34Table 15: DDR3L IDD4W Measurement Loop .................................................................................................... 35Table 16: DDR3L IDD5B Measurement Loop .................................................................................................... 36Table 17: DDR3L IDD Measurement Conditions for IDD6, IDD6ET, and IDD8 ........................................................ 37Table 18: DDR3L IDD7 Measurement Loop ...................................................................................................... 38Table 19: IDD Maximum Limits - Die Rev D ..................................................................................................... 40Table 20: IDD Maximum Limits Die Rev E ........................................................................................................ 42Table 21: DDR3L 1.35V DC Electrical Characteristics and Operating Conditions .............................................. 44Table 22: DDR3L 1.35V DC Electrical Characteristics and Input Conditions ..................................................... 45Table 23: DDR3L 1.35V Input Switching Conditions - Command and Address .................................................. 46Table 24: DDR3L 1.35V Differential Input Operating Conditions (CK, CK# and DQS, DQS#) .............................. 47Table 25: DDR3L Control and Address Pins ..................................................................................................... 49Table 26: DDR3L 1.35V Clock, Data, Strobe, and Mask Pins ............................................................................. 49Table 27: DDR3L 1.35V - Minimum Required Time tDVAC for CK/CK#, DQS/DQS# Differential for AC Ringback ... 52Table 28: Single-Ended Input Slew Rate Definition .......................................................................................... 53Table 29: DDR3L 1.35V Differential Input Slew Rate Definition ........................................................................ 55Table 30: On-Die Termination DC Electrical Characteristics ............................................................................ 56Table 31: 1.35V RTT Effective Impedance ........................................................................................................ 57Table 32: ODT Sensitivity Definition .............................................................................................................. 58Table 33: ODT Temperature and Voltage Sensitivity ........................................................................................ 58Table 34: ODT Timing Definitions .................................................................................................................. 59Table 35: DDR3L(1.35V) Reference Settings for ODT Timing Measurements .................................................... 59Table 36: DDR3L 34 Ohm Driver Impedance Characteristics ........................................................................... 63Table 37: DDR3L 34 Ohm Driver Pull-Up and Pull-Down Impedance Calculations ........................................... 64Table 38: DDR3L 34 Ohm Driver IOH/IOL Characteristics: VDD = VDDQ = [email protected] ..................................... 64Table 39: DDR3L 34 Ohm Driver IOH/IOL Characteristics: VDD = VDDQ = [email protected] ..................................... 64Table 40: DDR3L 34 Ohm Driver IOH/IOL Characteristics: VDD = VDDQ = [email protected] ..................................... 65Table 41: DDR3L 34 Ohm Output Driver Sensitivity Definition ........................................................................ 65Table 42: DDR3L 34 Ohm Output Driver Voltage and Temperature Sensitivity .................................................. 65Table 43: DDR3L 40 Ohm Driver Impedance Characteristics ........................................................................... 66Table 44: DDR3L 40 Ohm Output Driver Sensitivity Definition ........................................................................ 66Table 45: 40 Ohm Output Driver Voltage and Temperature Sensitivity .............................................................. 67Table 46: DDR3L Single-Ended Output Driver Characteristics ......................................................................... 68Table 47: DDR3L Differential Output Driver Characteristics ............................................................................ 69Table 48: DDR3L Differential Output Driver Characteristics VOX(AC) ................................................................. 70Table 49: Single-Ended Output Slew Rate Definition ....................................................................................... 71Table 50: Differential Output Slew Rate Definition .......................................................................................... 73
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 9
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Table 51: DDR3L-1066 Speed Bins .................................................................................................................. 74Table 52: DDR3L-1333 Speed Bins .................................................................................................................. 75Table 53: DDR3L-1600 Speed Bins .................................................................................................................. 76Table 54: DDR3L-1866 Speed Bins .................................................................................................................. 77Table 55: Electrical Characteristics and AC Operating Conditions .................................................................... 78Table 56: Electrical Characteristics and AC Operating Conditions .................................................................... 80Table 57: Electrical Characteristics and AC Operating Conditions for Speed Extensions .................................... 90Table 58: DDR3L Command and Address Setup and Hold Values 1 V/ns Referenced – AC/DC-Based ................ 99Table 59: DDR3L-800/1066/1333/1600 Derating Values tIS/tIH – AC160/DC90-Based ...................................... 99Table 60: DDR3L-800/1066/1333/1600 Derating Values for tIS/tIH – AC135/DC90-Based ................................. 99Table 61: DDR3L-1866 Derating Values for tIS/tIH – AC125/DC90-Based ........................................................ 100Table 62: DDR3L Minimum Required Time tVAC Above VIH(AC) (Below VIL[AC]) for Valid ADD/CMD Transition . 100Table 63: DDR3L Data Setup and Hold Values at 1 V/ns (DQS, DQS# at 2 V/ns) – AC/DC-Based ....................... 106Table 64: DDR3L Derating Values for tDS/tDH – AC160/DC90-Based .............................................................. 106Table 65: DDR3L Derating Values for tDS/tDH – AC135/DC100-Based ............................................................ 106Table 66: DDR3L Derating Values for tDS/tDH – AC130/DC100-Based at 2V/ns ............................................... 108Table 67: DDR3L Minimum Required Time tVAC Above VIH(AC) (Below VIL(AC)) for Valid DQ Transition ............. 109Table 68: Truth Table – Command ................................................................................................................. 114Table 69: Truth Table – CKE .......................................................................................................................... 116Table 70: READ Command Summary ............................................................................................................ 118Table 71: WRITE Command Summary .......................................................................................................... 118Table 72: READ Electrical Characteristics, DLL Disable Mode ......................................................................... 124Table 73: Write Leveling Matrix ..................................................................................................................... 128Table 74: Burst Order .................................................................................................................................... 139Table 75: MPR Functional Description of MR3 Bits ........................................................................................ 149Table 76: MPR Readouts and Burst Order Bit Mapping ................................................................................... 150Table 77: Self Refresh Temperature and Auto Self Refresh Description ............................................................ 182Table 78: Self Refresh Mode Summary ........................................................................................................... 182Table 79: Command to Power-Down Entry Parameters .................................................................................. 183Table 80: Power-Down Modes ....................................................................................................................... 184Table 81: Truth Table – ODT (Nominal) ......................................................................................................... 194Table 82: ODT Parameters ............................................................................................................................ 194Table 83: Write Leveling with Dynamic ODT Special Case .............................................................................. 195Table 84: Dynamic ODT Specific Parameters ................................................................................................. 196Table 85: Mode Registers for RTT,nom ............................................................................................................. 196Table 86: Mode Registers for RTT(WR) ............................................................................................................. 197Table 87: Timing Diagrams for Dynamic ODT ................................................................................................ 197Table 88: Synchronous ODT Parameters ........................................................................................................ 202Table 89: Asynchronous ODT Timing Parameters for All Speed Bins ............................................................... 207Table 90: ODT Parameters for Power-Down (DLL Off) Entry and Exit Transition Period ................................... 209
4Gb: x8, x16 Automotive DDR3L SDRAMDescription
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 10
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
State Diagram
Figure 2: Simplified State Diagram
SRX = Self refresh exitWRITE = WR, WRS4, WRS8WRITE AP = WRAP, WRAPS4, WRAPS8ZQCL = ZQ LONG CALIBRATIONZQCS = ZQ SHORT CALIBRATION
Bankactive
ReadingWriting
Activating
Refreshing
Selfrefresh
Idle
Active power-down
ZQcalibration
From anystate
Powerapplied Reset
procedure Power
onInitial-ization
MRS, MPR, write
leveling
Prechargepower-down
Writing Reading
Automaticsequence
Commandsequence
Precharging
READ
READ READ
READ AP
READ AP
READ AP
PRE, PREA
PRE, PREA PRE, PREA
WRITE
WRITE
CKE L CKE L
CKE L
WRITE
WRITE AP
WRITE AP
WRITE AP
PDE
PDE
PDX
PDX
SRX
SRE
REF
MRS
ACT
RESET
ZQCL
ZQCL/ZQCS
ACT = ACTIVATEMPR = Multipurpose registerMRS = Mode register setPDE = Power-down entryPDX = Power-down exitPRE = PRECHARGE
PREA = PRECHARGE ALLREAD = RD, RDS4, RDS8 READ AP = RDAP, RDAPS4, RDAPS8REF = REFRESHRESET = START RESET PROCEDURESRE = Self refresh entry
4Gb: x8, x16 Automotive DDR3L SDRAMState Diagram
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 11
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
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 de-signed to transfer two data words per clock cycle at the I/O pins. A single READ orWRITE 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, foruse in data capture at the DDR3 SDRAM input receiver. DQS is center-aligned with datafor WRITEs. The read data is transmitted by the DDR3 SDRAM and edge-aligned to thedata strobes.
The DDR3 SDRAM operates from a differential clock (CK and CK#). The crossing of CKgoing HIGH and CK# going LOW is referred to as the positive edge of CK. Control, com-mand, and address signals are registered at every positive edge of CK. Input data is reg-istered on the first rising edge of DQS after the WRITE preamble, and output data is ref-erenced 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 se-lected location and continue for a programmed number of locations in a programmedsequence. Accesses begin with the registration of an ACTIVATE command, which is thenfollowed by a READ or WRITE command. The address bits registered coincident withthe ACTIVATE command are used to select the bank and row to be accessed. The ad-dress bits registered coincident with the READ or WRITE commands are used to selectthe 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 beenabled to provide a self-timed row precharge that is initiated at the end of the burstaccess.
As with standard DDR SDRAM, the pipelined, multibank architecture of DDR3 SDRAMallows for concurrent operation, thereby providing high bandwidth by hiding row pre-charge 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 TC exceeds85°C; this also requires use of the high-temperature self refresh option. Additionally,ODT resistance and the input/output impedance must be derated when TC is 85°C.
Automotive Temperature
The automotive temperature (AT) device requires that the case temperature not exceed–40°C or 105°C. JEDEC specifications require the refresh rate to double when TC exceeds85°C; this also requires use of the high-temperature self refresh option. Additionally,ODT resistance and the input/output impedance must be derated when TC is 85°C.
4Gb: x8, x16 Automotive DDR3L SDRAMFunctional Description
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 12
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
General Notes
• The functionality and the timing specifications discussed in this data sheet are for theDLL enable mode of operation (normal operation).
• Throughout this data sheet, various figures and text refer to DQs as “DQ.” DQ is to beinterpreted as any and all DQ collectively, unless specifically stated otherwise.
• The terms “DQS” and “CK” found throughout this data sheet are to be interpreted asDQS, DQS# and CK, CK# respectively, unless specifically stated otherwise.
• Complete functionality may be described throughout the document; any page or dia-gram may have been simplified to convey a topic and may not be inclusive of all re-quirements.
• Any specific requirement takes precedence over a general statement.• Any functionality not specifically stated is considered undefined, illegal, and not sup-
ported, and can result in unknown operation.• Row addressing is denoted as A[n:0]. For example, 1Gb: n = 12 (x16); 1Gb: n = 13 (x8);
2Gb: n = 13 (x16) and 2Gb: n = 14 (x8); 4Gb: n = 14 (x16); and 4Gb: n = 15 (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. Referto 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 beused, use the lower byte for data transfers and terminate the upper byte as noted:
– Connect UDQS to ground via 1k * resistor.– Connect UDQS# to VDD via 1k * resistor.– Connect UDM to VDD via 1k * resistor.– Connect DQ[15:8] individually to either VSS, VDD, or VREF via 1k resistors,* or float
DQ[15:8].
*If ODT is used, 1k resistor should be changed to 4x that of the selected ODT.
4Gb: x8, x16 Automotive DDR3L SDRAMFunctional Description
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 13
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Functional Block DiagramsDDR3 SDRAM is a high-speed, CMOS dynamic random access memory. It is internallyconfigured as an 8-bank DRAM.
Figure 3: 512 Meg x 8 Functional Block Diagram
Bank 5Bank 6
Bank 7
Bank 4
Bank 7
Bank 4Bank 5
Bank 6
16
Row-address
MUX
Controllogic
Column-addresscounter/
latch
Mode registers
10
Co
mm
and
d
eco
de
A[15:0]BA[2:0]
16
19
8,192
I/O gatingDM mask logic
Columndecoder
Bank 0Memory
array(65,536 x 128 x 64)
Bank 0row-
addresslatchand
decoder
65,536
Sense amplifiers
Bank control
logic
19
Bank 1Bank 2
Bank 3
16
7
3
3
Refreshcounter
8
64
64
64
DQS, DQS#
Columns 0, 1, and 2
Columns 0, 1, and 2
ZQCL, ZQCS
To ODT/output drivers
Read drivers DQ[7:0]
READFIFOanddataMUX
Data
8
3
Bank 1Bank 2
Bank 3
DM/TDQS(shared pin)
TDQS#
CK, CK#
DQS/DQS#
ZQ CALZQ
RZQ
ODT
CKE
CK, CK#
RAS#
WE#
CAS#
CS#
RESET#
CK, CK#
DLL
DQ[7:0]
DQ8(1 . . . 8)
(1, 2)
sw1 sw2
VDDQ/2
RTT(WR)RTT,nom
sw1 sw2
VDDQ/2
RTT,nom RTT(WR)
sw1 sw2
VDDQ/2
RTT,nom RTT(WR)
BC4 (burst chop)
BC4
BC4
Write drivers
andinputlogic
Datainterface
Column 2(select upper or
lower nibble for BC4)
(128x64)
ODTcontrol
Addressregister
A12VSSQ
OTF
OTF
4Gb: x8, x16 Automotive DDR3L SDRAMFunctional Block Diagrams
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 14
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Figure 4: 256 Meg x 16 Functional Block Diagram
Bank 5Bank 6
Bank 7
Bank 4
Bank 7
Bank 4Bank 5
Bank 6
13
Row-address
MUX
Controllogic
Column-addresscounter/
latch
Mode registers
10
Co
mm
and
d
eco
de
A[14:0]BA[2:0]
15
Addressregister
18
(128x128)
16,384
I/O gatingDM mask logic
Columndecoder
Bank 0memory
array(32,768 x 128 x 128)
Bank 0row-
addresslatchand
decoder
32,768
Sense amplifiers
Bankcontrollogic
18
Bank 1Bank 2
Bank 3
15
7
3
3
Refreshcounter
16
128
128
128
LDQS, LDQS#, UDQS, UDQS#
Column 0, 1, and 2
Columns 0, 1, and 2
ZQCL, ZQCS
To ODT/output drivers
BC4
READ drivers
DQ[15:0]
READFIFOanddataMUX
Data
16
BC4 (burst chop)
3
Bank 1Bank 2
Bank 3
LDM/UDM
CK, CK#
LDQS, LDQS#
UDQS, UDQS#
ZQ CALZQ
RZQ
ODT
CKE
CK, CK#
RAS#
WE#
CAS#
CS#
RESET#
CK, CK#
DLL
DQ[15:0]
(1 . . . 16)
(1 . . . 4)
(1, 2)
sw1 sw2
VDDQ/2
RTT,nom RTT(WR)
BC4
sw1 sw2
VDDQ/2
RTT,nom RTT(WR)
sw1 sw2
VDDQ/2
RTT,nom RTT(WR)
Column 2(select upper or
lower nibble for BC4)
Datainterface
WRITE drivers
andinputlogic
ODTcontrol
VSSQ A12
OTF
OTF
4Gb: x8, x16 Automotive DDR3L SDRAMFunctional Block Diagrams
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 15
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Ball Assignments and Descriptions
Figure 5: 78-Ball FBGA – x8 (Top View)
1 2 3 4 6 7 8 95
VSS
VSS
VDDQ
VSSQ
VREFDQ
NC
ODT
NC
VSS
VDD
VSS
VDD
VSS
VDD
VSSQ
DQ2
DQ6
VDDQ
VSS
VDD
CS#
BA0
A3
A5
A7
RESET#
NC
DQ0
DQS
DQS#
DQ4
RAS#
CAS#
WE#
BA2
A0
A2
A9
A13
NF/TDQS#
DM/TDQS
DQ1
VDD
DQ7
CK
CK#
A10/AP
A15
A12/BC#
A1
A11
A14
VDD
VDDQ
VSSQ
VSSQ
VDDQ
NC
CKE
NC
VSS
VDD
VSS
VDD
VSS
VSS
VSSQ
DQ3
VSS
DQ5
VSS
VDD
ZQ
VREFCA
BA1
A4
A6
A8
A
B
C
D
E
F
G
H
J
K
L
M
N
Note: 1. A slash defines a selectable function.
4Gb: x8, x16 Automotive DDR3L SDRAMBall Assignments and Descriptions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 16
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Figure 6: 96-Ball FBGA – x16 (Top View)
1 2 3 4 6 7 8 95
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
VDDQ
VSSQ
VDDQ
VSSQ
VSS
VDDQ
VSSQ
VREFDQ
NC
ODT
NC
VSS
VDD
VSS
VDD
VSS
DQ13
VDD
DQ11
VDDQ
VSSQ
DQ2
DQ6
VDDQ
VSS
VDD
CS#
BA0
A3
A5
A7
RESET#
DQ15
VSS
DQ9
UDM
DQ0
LDQS
LDQS#
DQ4
RAS#
CAS#
WE#
BA2
A0
A2
A9
A13
DQ12
UDQS#
UDQS
DQ8
LDM
DQ1
VDD
DQ7
CK
CK#
A10/AP
NC
A12/BC#
A1
A11
A14
VDDQ
DQ14
DQ10
VSSQ
VSSQ
DQ3
VSS
DQ5
VSS
VDD
ZQ
VREFCA
BA1
A4
A6
A8
VSS
VSSQ
VDDQ
VDD
VDDQ
VSSQ
VSSQ
VDDQ
NC
CKE
NC
VSS
VDD
VSS
VDD
VSS
Note: 1. A slash defines a selectable function.
4Gb: x8, x16 Automotive DDR3L SDRAMBall Assignments and Descriptions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 17
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Table 3: 78-Ball FBGA – x8 Ball Descriptions
Symbol Type Description
[15:13], A12/BC#,A11, A10/AP, A[9:0]
Input Address inputs: Provide the row address for ACTIVATE commands, and the columnaddress and auto precharge bit (A10) for READ/WRITE commands, to select onelocation out of the memory array in the respective bank. A10 sampled during aPRECHARGE 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 alsoprovide the op-code during a LOAD MODE command. Address inputs are referencedto VREFCA. A12/BC#: When enabled in the mode register (MR), A12 is sampled duringREAD and WRITE commands to determine whether burst chop (on-the-fly) will beperformed (HIGH = BL8 or no burst chop, LOW = BC4). See Truth Table - Command inthe DDR3 SDRAM data sheet.
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 moderegister (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 signalsare sampled on the crossing of the positive edge of CK and the negative edge ofCK#. 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 synchronousfor power-down entry and exit and for self refresh entry. CKE is asynchronous forself refresh exit. Input buffers (excluding CK, CK#, CKE, RESET#, and ODT) aredisabled during POWER-DOWN. Input buffers (excluding CKE and RESET#) are disa-bled during SELF REFRESH. CKE is referenced to VREFCA.
CS# Input Chip select: CS# enables (registered LOW) and disables (registered HIGH) thecommand decoder. All commands are masked when CS# is registered HIGH. CS#provides for external rank selection on systems with multiple ranks. CS# is consideredpart 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 maskedwhen 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 theDQ and DQS balls. DM is referenced to VREFDQ. DM has an optional use as TDQS onthe x8.
ODT Input On-die termination: ODT enables (registered HIGH) and disables (registered LOW)termination resistance internal to the DDR3 SDRAM. When enabled in normaloperation, ODT is only applied to each of the following balls: DQ[7:0], DQS, DQS#,and DM for the x8. The ODT input is ignored if disabled via the LOAD MODE com-mand. ODT is referenced to REFCA.
RAS#, CAS#, WE# Input Command inputs: RAS#, CAS#, and WE# (along with CS#) define the commandbeing entered and are referenced to VREFCA.
RESET# Input Reset: RESET# is an active LOW CMOS input referenced to VSS. The RESET# input re-ceiver is a CMOS input defined as a rail-to-rail signal with DC HIGH ≥ 0.8 × VDD andDC LOW ≤ 0.2 × VDDQ. RESET# assertion and desertion are asynchronous.
4Gb: x8, x16 Automotive DDR3L SDRAMBall Assignments and Descriptions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 18
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Table 3: 78-Ball FBGA – x8 Ball Descriptions (Continued)
Symbol Type Description
DQ[7:0] I/O Data input/output: Bidirectional data bus for the x8 configuration. DQ[7:0] arereferenced to VREFDQ.
DQS, DQS# I/O Data strobe: Output with read data. Edge-aligned with read data. Input with writedata. Center-aligned to write data.
TDQS, TDQS# Output Termination data strobe: Applies to the x8 configuration only. When TDQS isenabled, DM is disabled, and the TDQS and TDQS# balls provide terminationresistance.
VDD Supply Power supply: 1.35V, 1.283–1.45V operational; compatible to 1.5V operation.
VDDQ Supply DQ power supply: 1.35V, 1.283–1.45V operational; compatible to 1.5V operation.
VREFCA Supply Reference voltage for control, command, and address: VREFCA must bemaintained at all times (including self refresh) for proper device operation.
VREFDQ Supply Reference voltage for data: VREFDQ must be maintained at all times (excluding selfrefresh) for proper device operation.
VSS Supply Ground.
VSSQ Supply DQ ground: Isolated on the device for improved noise immunity.
ZQ Reference External reference ball for output drive calibration: This ball is tied to anexternal 240Ω resistor (RZQ), which is tied to VSSQ.
NC – No connect: These balls should be left unconnected (the ball has no connection tothe DRAM or to other balls).
4Gb: x8, x16 Automotive DDR3L SDRAMBall Assignments and Descriptions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 19
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Table 4: 96-Ball FBGA – x16 Ball Descriptions
Symbol Type Description
[14:13], A12/BC#,A11, A10/AP, A[9:0]
Input Address inputs: Provide the row address for ACTIVATE commands, and the columnaddress and auto precharge bit (A10) for READ/WRITE commands, to select onelocation out of the memory array in the respective bank. A10 sampled during aPRECHARGE 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 alsoprovide the op-code during a LOAD MODE command. Address inputs are referencedto VREFCA. A12/BC#: When enabled in the mode register (MR), A12 is sampled duringREAD and WRITE commands to determine whether burst chop (on-the-fly) will beperformed (HIGH = BL8 or no burst chop, LOW = BC4). See Truth Table - Command inthe DDR3 SDRAM data sheet.
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 moderegister (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 signalsare sampled on the crossing of the positive edge of CK and the negative edge ofCK#. 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) internalcircuitry and clocks on the DRAM. The specific circuitry that is enabled/disabled is de-pendent upon the DDR3 SDRAM configuration and operating mode. Taking CKELOW provides PRECHARGE POWER-DOWN and SELF REFRESH operations (all banksidle),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 refreshexit. Input buffers (excluding CK, CK#, CKE, RESET#, and ODT) are disabled duringPOWER-DOWN. Input buffers (excluding CKE and RESET#) are disabled during SELFREFRESH. CKE is referenced to VREFCA.
CS# Input Chip select: CS# enables (registered LOW) and disables (registered HIGH) thecommand decoder. All commands are masked when CS# is registered HIGH. CS# pro-vides for external rank selection on systems with multiple ranks. CS# is consideredpart 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-byteinput data is masked when LDM is sampled HIGH along with the input data during awrite access. Although the LDM ball is input-only, the LDM loading isdesigned 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 normaloperation, ODT is only applied to each of the following balls: DQ[15:0], LDQS,LDQS#, UDQS, UDQS#, LDM, and UDM for the x16. The ODT input is ignored if disa-bled 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 commandbeing entered and are referenced to VREFCA.
RESET# Input Reset: RESET# is an active LOW CMOS input referenced to VSS. The RESET# input re-ceiver is a CMOS input defined as a rail-to-rail signal with DC HIGH ≥ 0.8 × VDD andDC LOW ≤ 0.2 × VDDQ. RESET# assertion and desertion are asynchronous.
4Gb: x8, x16 Automotive DDR3L SDRAMBall Assignments and Descriptions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 20
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Table 4: 96-Ball FBGA – x16 Ball Descriptions (Continued)
Symbol Type Description
UDM Input Input data mask: UDM is an upper-byte, input mask signal for write data. Upper-byte input data is masked when UDM is sampled HIGH along with that input dataduring a WRITE access. Although the UDM ball is input-only, the UDM loading isdesigned to match that of the DQ and DQS balls. UDM is referenced to VREFDQ.
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: 1.35V, 1.283–1.45V operational; compatible to 1.5V operation.
VDDQ Supply DQ power supply: 1.35V, 1.283–1.45V operational; compatible to 1.5V operation.
VREFCA Supply Reference voltage for control, command, and address: VREFCA must bemaintained at all times (including self refresh) for proper device operation.
VREFDQ Supply Reference voltage for data: VREFDQ must be maintained at all times (excluding selfrefresh) for proper device operation.
VSS Supply Ground.
VSSQ Supply DQ ground: Isolated on the device for improved noise immunity.
ZQ Reference External reference ball for output drive calibration: This ball is tied to anexternal 240Ω resistor (RZQ), which is tied to VSSQ.
NC – No connect: These balls should be left unconnected (the ball has no connection tothe DRAM or to other balls).
4Gb: x8, x16 Automotive DDR3L SDRAMBall Assignments and Descriptions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 21
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Package Dimensions
Figure 7: 78-Ball FBGA – x8 (RA)
1.8 CTRNonconductive
overmold
0.155
Seating plane
0.12 A
123789
Ball A1 ID Ball A1 ID
A
0.25 MIN
1.1 ±0.1
6.4 CTR
10.5 ±0.1
0.8 TYP
9.6 CTR
12 ±0.1
78X Ø0.45Dimensions applyto solder balls post-reflow on Ø0.35 SMDball pads.
0.8 TYP
ABCDEFGHJKLMN
Notes: 1. All dimensions are in millimeters.2. Solder ball material: SAC305 (96.5% Sn, 3% Ag, 0.5% Cu).
4Gb: x8, x16 Automotive DDR3L SDRAMPackage Dimensions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 22
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Figure 8: 78-Ball FBGA – x8 (RH)
6.4 CTR
9 ±0.1
0.8 TYP
10.5 ±0.1
9.6 CTR
0.8 TYP
1.1 ±0.1
0.25 MIN
1
A
23789
B
C
D
E
F
G
H
J
K
L
M
N
0.12 AA
0.155
78X Ø0.45Dimensions applyto solder balls post-reflow on Ø0.35 SMDball pads.
Seating plane
Ball A1 ID(covered by SR)
Ball A1 ID
1.8 CTRNonconductive
overmold
Notes: 1. All dimensions are in millimeters.2. Solder ball material: SAC305 (96.5% Sn, 3% Ag, 0.5% Cu).
4Gb: x8, x16 Automotive DDR3L SDRAMPackage Dimensions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 23
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Figure 9: 96-Ball FBGA – x16 (RE)
1.8 CTRNonconductive
overmold
0.155
Seating plane
0.12 A
123789
Ball A1 ID Ball A1 ID
A
0.25 MIN
1.1 ±0.1
6.4 CTR
10 ±0.1
0.8 TYP
12 CTR
14 ±0.1
96X Ø0.45Dimensions applyto solder ballspost-reflow onØ0.35 SMD ball pads
0.8 TYP
ABCDEFGHJKLMNPRT
Notes: 1. All dimensions are in millimeters.2. Solder ball material: SAC305 (96.5% Sn, 3% Ag, 0.5% Cu).
4Gb: x8, x16 Automotive DDR3L SDRAMPackage Dimensions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 24
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Figure 10: 96-Ball FBGA – x16 (HA)
Ball A1 Index
Dimensionsapply to solderballs post-reflowon Ø0.35 SMDball pads.
14 ±0.1
0.8 TYP
1.1 ±0.1
12 CTR
Ball A1 Index(covered by SR)
0.8 TYP
9 ±0.1
0.25 MIN6.4 CTR
96X Ø0.45
9 8 7 3 2 1
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
A 0.12 A
Seating plane
1.8 CTRNonconductive
overmold
0.155
Notes: 1. All dimensions are in millimeters.2. Solder ball material: SAC305 (96.5% Sn, 3% Ag, 0.5% Cu).
4Gb: x8, x16 Automotive DDR3L SDRAMPackage Dimensions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 25
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Electrical Specifications
Absolute Ratings
Stresses greater than those listed may cause permanent damage to the device. This is astress rating only, and functional operation of the device at these or any other condi-tions outside those indicated in the operational sections of this specification is not im-plied. Exposure to absolute maximum rating conditions for extended periods may ad-versely affect reliability.
Table 5: Absolute Maximum Ratings
Symbol Parameter Min Max Unit Notes
VDD VDD supply voltage relative to VSS –0.4 1.975 V 1
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
TC Operating case temperature – Industrial –40 95 °C 2, 3
Operating case temperature – Automotive –40 105 °C 2, 3
TSTG Storage temperature –55 150 °C
Notes: 1. VDD and VDDQ must be within 300mV of each other at all times, and VREF must not begreater than 0.6 × VDDQ. When VDD and VDDQ are
Input/Output Capacitance
Table 6: DDR3L Input/Output Capacitance
Note 1 applies to the entire table; gray-shaded cells are DDR3L unique values; all other values are the same for bothDDR3L and DDR3
CapacitanceParameters Symbol
DDR3L-800 DDR3L-1066 DDR3L-1333 DDR3L-1600 DDR3L-1866
Unit NotesMin Max Min Max Min Max Min Max Min Max
CK and CK# CCK 0.8 1.6 0.8 1.6 0.8 1.4 0.8 1.4 0.8 1.3 pF
ΔC: CK to CK# CDCK 0.0 0.15 0.0 0.15 0.0 0.15 0.0 0.15 0.0 0.15 pF Single-end I/O: DQ, DM CIO 1.4 2.5 1.4 2.5 1.4 2.3 1.4 2.2 1.4 2.1 pF 2
Differential I/O: DQS,DQS#, TDQS, TDQS#
CIO 1.4 2.5 1.4 2.5 1.4 2.3 1.4 2.2 1.4 2.1 pF3
ΔC: DQS to DQS#,TDQS, TDQS#
CDDQS0.0 0.2 0.0 0.2 0.0 0.15 0.0 0.15 0.0 0.15
pF3
ΔC: DQ to DQS CDIO –0.5 0.3 –0.5 0.3 –0.5 0.3 –0.5 0.3 –0.5 0.3 pF 4Inputs (CTRL, CMD,ADDR)
CI 0.75 1.3 0.75 1.3 0.75 1.3 0.75 1.2 0.75 1.2 pF5
ΔC: CTRL to CK CDI_CTRL –0.5 0.3 –0.5 0.3 –0.4 0.2 –0.4 0.2 –0.4 0.2 pF 6
ΔC: CMD_ADDR to CK CDI_CMD_ADDR
–0.5 0.5 –0.5 0.5 –0.4 0.4 –0.4 0.4 –0.4 0.4pF
7
ZQ pin capacitance CZQ – 3.0 – 3.0 – 3.0 – 3.0 – 3.0 pF
Reset pin capacitance CRE – 3.0 – 3.0 – 3.0 – 3.0 – 3.0 pF
Notes: 1. VDD = 1.35V (1.283–1.45V), VDDQ = VDD, VREF = VSS, f = 100 MHz, TC = 25°C. VOUT(DC) = 0.5× VDDQ, VOUT = 0.1V (peak-to-peak).
2. DM input is grouped with I/O pins, reflecting the fact that they are matched in loading.3. Includes TDQS, TDQS#. CDDQS is for DQS vs. DQS# and TDQS vs. TDQS# separately.4. CDIO = CIO(DQ) - 0.5 × (CIO(DQS) + CIO(DQS#)).5. Excludes CK, CK#; CTRL = ODT, CS#, and CKE; CMD = RAS#, CAS#, and WE#; ADDR =
A[n:0], BA[2:0].6. CDI_CTRL = CI(CTRL) - 0.5 × (CCK(CK) + CCK(CK#)).7. CDI_CMD_ADDR = CI(CMD_ADDR) - 0.5 × (CCK(CK) + CCK(CK#)).
4Gb: x8, x16 Automotive DDR3L SDRAMElectrical Specifications
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 27
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Thermal Characteristics
Table 7: Thermal Characteristics
Parameter/Condition Value Units Symbol Notes
Operating case temperature -Industrial
–40 to +95 °C TC 1, 2, 3, 4
Operating case temperature -Automotive
–40 to +105 °C TC 1, 2, 3, 4
Junction-to-case (TOP) Die Rev D78-ball (RA) 2.4
°C/W ΘJC 596-ball (RE) 2.4
Junction-to-case (TOP) Die Rev E78-ball (RH) 4.0
°C/W ΘJC 596-ball (HA) 3.9
Notes: 1. MAX operating case temperature. TC is measured in the center of the package.2. A thermal solution must be designed to ensure the DRAM device does not exceed the
maximum TC during operation.3. Device functionality is not guaranteed if the DRAM device exceeds the maximum TC dur-
ing operation.4. If TC exceeds 85°C, the DRAM must be refreshed externally at 2x refresh, which is a 3.9μs
interval refresh rate. The use of SRT or ASR (if available) must be enabled.5. The thermal resistance data is based off of a number of samples from multiple lots and
should be viewed as a typical number.
Figure 11: Thermal Measurement Point
(L/2)
L
W
(W/2)
Tc test point
4Gb: x8, x16 Automotive DDR3L SDRAMThermal Characteristics
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 28
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights reserved.
Electrical Specifications – IDD Specifications and ConditionsWithin the following IDD measurement tables, the following definitions and conditionsare used, unless stated otherwise:
• LOW: VIN VIL(AC)max; HIGH: VIN VIH(AC)min.• Midlevel: Inputs are VREF = VDD/2.• RON set to RZQ/7 (34 ).• RTT,nom set to RZQ/6 (40 ).• RTT(WR) set to RZQ/2 (120 ).• QOFF is enabled in MR1.• ODT is enabled in MR1 (RTT,nom) and MR2 (RTT(WR)).• TDQS is disabled in MR1.• External DQ/DQS/DM load resistor is 25 to VDDQ/2.• Burst lengths are BL8 fixed.• AL equals 0 (except in IDD7).• IDD specifications are tested after the device is properly initialized.• Input slew rate is specified by AC parametric test conditions.• Optional ASR is disabled.• Read burst type uses nibble sequential (MR0[3] = 0).• Loop patterns must be executed at least once before current measurements begin.
Table 8: DDR3L Timing Parameters Used for IDD Measurements – Clock Units
IDDParameter
DDR3L-800 DDR3L-1066 DDR3L-1333 DDR3L-1600 DDR3L-1866
Unit
-25E -25 -187E -187 -15E -15 -125E -125 -107
5-5-5 6-6-6 7-7-7 8-8-8 9-9-9 10-10-10 10-10-10 11-11-11 13-13-13tCK (MIN) IDD 2.5 1.875 1.5 1.25 1.071 ns
CL IDD 5 6 7 8 9 10 10 11 13 CKtRCD (MIN) IDD 5 6 7 8 9 10 10 11 13 CKtRC (MIN) IDD 20 21 27 28 33 34 38 39 45 CKtRAS (MIN) IDD 15 15 20 20 24 24 28 28 32 CKtRP (MIN) 5 6 7 8 9 10 10 11 13 CKtFAW x8 16 16 20 20 20 20 24 24 26 CK
x16 20 20 27 27 30 30 32 32 33 CKtRRDIDD
x8 4 4 4 4 4 4 5 5 5 CK
x16 4 4 6 6 5 5 6 6 6 CKtRFC 1Gb 44 44 59 59 74 74 88 88 103 CK
2Gb 64 64 86 86 107 107 128 128 150 CK
4Gb 104 104 139 139 174 174 208 208 243 CK
8Gb 140 140 187 187 234 234 280 280 328 CK
4Gb: x8, x16 Automotive DDR3L SDRAMElectrical Specifications – IDD Specifications and Conditions
09005aef8537e66f4Gb_auto_DDR3L.pdf - Rev. D 02/17 EN 29
Micron Technology, Inc. reserves the right to change products or specifications without notice.© 2013 Micron Technology, Inc. All rights rese
Top Related