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| Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module DESCRIPTION The MH16D72AKLB is 16777216 - word x 72-bit Double Data Rate(DDR) Sy nchronous DRAM mounted module. This consists of 9 industry standard 16M x 8 DDR Sy nchronous DRAMs in TSOP with SSTL_2 interf ace which achiev es v ery high speed data rate up to 133MHz. This socket-ty pe memory m odule is suitable f or main memory in computer systems and easy to interchange or add modules. 93pin 1pin FEATURES Max. Frequency CLK Access Time [component level] Type name MH16D72AKLB-75 MH16D72AKLB-10 133MHz 100MHz + 0.75ns + 0.8ns - Utilizes industry standard 16M X 8 DDR Synchronous DRAMs in TSOP package , industry standard Registered Buffer in TSSOP package , and industry standard PLL in TSSOP package. - Vdd=Vddq=2.5v 0.2V 144pin 145pin 52pin 53pin - Double data rate architecture; two data transf ers per clock cy c le - Bidirectional, data strobe (DQS) is transmitted/receiv ed with data - Dif f erential clock inputs (CK0 and /CK0) - data and data mask ref erenced to both edges of DQS - /CAS latency - 2.0/2.5 (programmable) - Burst length- 2/4/8 (programmable) - Auto precharge / All bank precharge controlled by A10 - 4096 ref resh cy c les /64ms - Auto ref resh and Self ref resh - Row address A0-11 / Column address A0-9 - SSTL_2 Interf ace - Module 1bank Conf igration - Burst Ty pe - sequential/interleav e(programmable) - Commands entered on each positiv e CLK edge 184pin 92pin APPLICATION Main memory unit for PC, PCserver MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 1 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs , MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module PIN CONFIGURATION PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 PIN NAME VREF DQ0 VSS DQ1 DQS0 DQ2 VDD DQ3 NC RESET VSS DQ8 DQ9 DQS1 VDDQ NC NC VSS DQ10 DQ11 CKE0 VDDQ DQ16 DQ17 DQS2 VSS A9 DQ28 A7 VDDQ DQ19 A5 DQ24 VSS DQ25 DQS3 A4 VDD DQ26 DQ27 A2 VSS 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 PIN NO. 43 44 45 46 47 48 49 50 51 52 KEY DQ32 VDDQ DQ33 DQS4 DQ34 VSS BA0 DQ35 DQ40 VDDQ /WE DQ41 /CAS VSS DQS5 DQ42 DQ43 VDD NC DQ48 DQ49 VSS NC NC VDDQ DQS6 DQ50 DQ51 VSS VDDID DQ56 PIN NAME A1 CB0 CB1 VDD DQS8 A0 CB2 VSS CB3 BA1 PIN NO. 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 PIN NAME DQ57 VDD DQS7 DQ58 DQ59 VSS NC SDA SCL VSS DQ4 DQ5 VDDQ DM0 DQ6 DQ7 VSS NC NC A13 VDDQ DQ12 DQ13 DM1 VDD DQ14 DQ15 CKE1 VDDQ NC DQ20 A12 VSS DQ21 A11 DM2 VDD DQ22 A8 DQ23 VSS A6 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 PIN NO. 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 KEY VSS DQ36 DQ37 VDD DM4 DQ38 DQ39 VSS DQ44 /RAS DQ45 VDDQ /S0 /S1 DM5 VSS DQ46 DQ47 NC VDDQ DQ52 DQ53 PIN NAME DQ28 DQ29 VDDQ DM3 A3 DQ30 VSS DQ31 CB4 CB5 VDDQ CK0 /CK0 VSS DM8 A10 CB6 VDDQ CB7 PIN NO. 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 PIN NAME NC VDD DM6 DQ54 DQ55 VDDQ NC DQ60 DQ61 VSS DM7 DQ62 DQ63 VDDQ SA0 SA1 SA2 VDDSPD NC: Not Connected MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 2 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module Block Diagram /RS0 DQS0 DM0 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQS1 DM1 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQS2 DM2 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQS3 DM3 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 DQS8 DM8 CB0 CB1 CB2 CB3 CB4 CB5 CB6 CB7 DM /S DQS /S0 BA0-BA1 A0-A11 /RAS /CAS CKE0 /WE PCK /PCK /RS0 -> SDRAMs D0-D8 RBA0-RBA1 -> SDRAMs D0-D8 RA0-RA11 -> SDRAMs D0-D8 /RRAS -> SDRAMs D0-D8 /RCAS -> SDRAMs D0-D8 /RCKE0 -> SDRAMs D0-D8 /RWE -> SDRAMs D0-D8 DQS4 DM4 DM /S DQS DQ32 DQ33 DQ34 DQ35 DM /S DQS D0 DQ36 DQ37 DQ38 DQ39 DQS5 DM5 DQ40 DQ41 DQ42 DQ43 D4 DM /S DQS DM /S DQS D1 DQ44 DQ45 DQ46 DQ47 D5 SERIAL PD DQS6 DM6 DM /S DQS SCL WP A0 A1 A2 SDA DQ48 DQ49 DQ50 DQ51 DM /S DQS SA0 SA1 SA2 VDDQ D0 to D8 D0 to D8 D0 to D8 D0 to D8 D2 DQ52 DQ53 DQ54 DQ55 DQS7 DM7 DQ56 DQ57 DQ58 DQ59 D6 VDD VREF VSS VDDID VDDID: OPEN -> VDD = VDDQ VSS -> VDD = VDDQ DM /S DQS DM /S DQS CK0 PCK0 -> SDRAMs D0-D8, Registered Buffer /PCK0 -> SDRAMs D0-D8, Registered Buffer PLL D3 DQ60 DQ61 DQ62 DQ63 D7 /CK0 D8 /RESET MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 3 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module PIN FUNCTION SYMBOL TYPE DESCRIPTION Clock: CK0 and /CK0 are dif f erential clock inputs. All address and control input signals are sampled on the crossing of the positive edge of CK0 and negativ e edge of /CK0. Output (read) data is ref erenced to the crossings of CK0 and /CK0 (both directions of c rossing). Clock Enable: CKE0 controls SDRAM internal clock. When CKE0 is low, the internal clock f or the f ollowing cy c le is ceased. CKE0 is also used to select auto / self ref resh. After self ref resh mode is started, CKE0 becomes asy nchronous input. Self ref resh is maintained as long as CKE0 is low. Phy s ical Bank Select: When /S0 is high, any command means No Operation. CK0,/CK0 Input CKE0 Input /S0 /RAS, /CAS, /WE Input Input Combination of /RAS, /CAS, /WE defines basic commands. A0-11 specif y the Row / Column Address in conjunction with BA0,1. The Row Address is specif ied by A0-11. The Column Address is specif ied by A0-9. A10 is also used to indicate precharge option. When A10 is high at a read / write command, an auto precharge is perf ormed. When A10 is high at a precharge command, all banks are precharged. Bank Address: BA0,1 specifies one of four banks in SDRAM to which a command is applied. BA0,1 must be set with ACT, PRE, READ, WRITE commands. A0-11 Input BA0,1 DQ 0-64 CB 0-7 DQS0-8 DM0-8 Vdd, Vss VddQ, VssQ Vddspd Vref RESET SDA SCL SA0-2 VDDID Input Input / Output Input / Output Input Power Supply Power Supply Power Supply Input Input Data Input/Output: Data bus Data Strobe: Output with read data, input with write data. Edge-aligned with read data, centered in write data. Used to capture write data. Masks write data when high, issued concurrently with input data. Both DM and DQ have a write latency of one clock once the write command is registered into the SDRAM. Power Supply for the memory array and peripheral circuitry. VddQ and VssQ are supplied to the Output Buffers only. Power Supply for SPD SSTL_2 reference voltage. This signal is asy nchronous and is driv en low to the register in order to guarantee the register outputs are low. This bidirectional pin is used to transf er data into or out of the SPD EEPROM. A resistor must be connected f rom the SDA bus line to VDD to act as a pullup. This signal is used to clock data into and out of t he SPD EEPROM. A resistor may be connected f rom the SCL bus time to VDD to act as a pullup. These signals are tied at the system planar to either VSS or VDD to conf igure the serial SPD EEPROM address range. VDD identif ication f lag Input / Output Input Input MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 4 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module BASIC FUNCTIONS The MH16D72AKLB provides basic functions, bank (row) activate, burst read / write, bank (row) precharge, and auto / self refresh. Each command is defined by control signals of /RAS, /CAS and /WE at CLK rising edge. In addition to 3 signals, /S0 ,CKE0 and A10 are used as chip select, refresh option, and precharge option, respectively. To know the detailed definition of commands, please see the command truth table. /CK0 CK0 /S0 /RAS /CAS /WE CKE0 A10 Chip Select : L=select, H=deselect Command Command Command Ref resh Option @ref resh command Precharge Option @precharge or read/write command def ine basic commands Activate (ACT) [/RAS =L, /CAS =/WE =H] ACT command activates a row in an idle bank indicated by BA. Read (READ) [/RAS =H, /CAS =L, /WE =H] READ command starts burst read from the active bank indicated by BA. First output data appears after /CAS latency. When A10 =H at this command, the bank is deactivated after the burst read (auto-precharge,READA) Write (WRITE) [/RAS =H, /CAS =/WE =L] WRITE command starts burst write to the active bank indicated by BA. Total data length to be written is set by burst length. When A10 =H at this command, the bank is deactivated after the burst write (auto-precharge, WRITEA). Precharge (PRE) [/RAS =L, /CAS =H, /WE =L] PRE command deactivates the active bank indicated by BA. This command also terminates burst read /write operation. When A10 =H at this command, all banks are deactivated (precharge all, PREA). Auto-Refresh (REFA) [/RAS =/CAS =L, /WE =CKE0 =H] REFA command starts auto-refresh cycle. Refresh address including bank address are generated internally. After this command, the banks are precharged automatically. MIT-DS-0397-1.1 24.Nov.2000 MITSUBISHI ELECTRIC 5 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module COM M AND TRUTH TABLE COMMAND Deselect No Operation Row Address Entry & Bank Activate Single Bank Precharge Precharge All Banks Column Address Entry & Write Column Address Entry & Write with Auto-Precharge Column Address Entry & Read Column Address Entry & Read with Auto-Precharge Auto-Refresh Self-Refresh Entry Self-Refresh Exit Burst Terminate Mode Register Set MNEMONIC DESEL NOP ACT PRE PREA WRIT E CKE0 CKE0 n-1 n H H H H H H X X X X X X /S H L L L L L /RAS X H L L L H /CAS X H H H H L /WE X H H L L L BA0,1 X X V V X V A10 /AP X X V L H L A0-9, note 11 X X V X X V WRITEA H X L H L L V H V READ H X L H L H V L V READA REFA REFS REFSX TERM MRS H H H L L H H X H L H H X X L L L H L L L H L L X H H L L L L X H H L H H H X H L L V X X X X X L H X X X X X L V X X X X X V 1 2 H=High Level, L=Low Level, V=Valid, X=Don't Care, n=CLK cycle number NOTE: 1. Applies only to read bursts with autoprecharge disabled; this command is undefined (and should not be used) for read bursts with autoprecharge enabled, and for write bursts. 2. BA0-BA1 select either the Base or the Extended Mode Register (BA0 = 0, BA1 = 0 selects Mode Register; BA0 = 1, BA1 = 0 selects Extended Mode Register; other combinations of BA0-BA1 are reserved; A0-A11 provide the op-code to be written to the selected Mode Register. MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 6 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module FUNCTION TRUTH TABLE Current State IDLE /S H L L L L L L L ROW ACTIVE H L L L L L L L L READ (AutoPrecharge Disabled) H L L L /RAS /CAS /WE X H H H L L L L X H H H H L L L L X H H H X H H L H H L L X H H L L H H L L X H H L X H L X H L H L X H L H L H L H L X H L H X X BA BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add X X BA BA, CA, A10 BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add X X BA BA, CA, A10 Address Command DESEL NOP TERM NOP NOP ILLEGAL 2 2 Action Notes READ / WRITE ILLEGAL ACT PRE / PREA REFA MRS DESEL NOP TERM READ / READA WRITE / WRITEA ACT PRE / PREA REFA MRS DESEL NOP TERM Bank Active, Latch RA NOP Auto-Refresh Mode Register Set NOP NOP NOP Begin Read, Latch CA, Determine Auto-Precharge Begin Write, Latch CA, Determine Auto-Precharge Bank Active / ILLEGAL Precharge / Precharge All ILLEGAL ILLEGAL NOP (Continue Burst to END) NOP (Continue Burst to END) Terminate Burst Terminate Burst, Latch CA, READ / READA Begin New Read, Determine Auto-Precharge WRITE WRITEA ACT PRE / PREA REFA MRS 4 5 5 2 3 L L L L L H L L L L L H H L L L H L H L BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add ILLEGAL Bank Active / ILLEGAL Terminate Burst, Precharge ILLEGAL ILLEGAL 2 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 7 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module FUNCTION TRUTH TABLE (continued) Current State WRIT E (AutoPrecharge Disabled) /S H L L L /RAS /CAS /WE X H H H X H H L X H L H X X BA BA, CA, A10 Address Command DESEL NOP TERM Action NOP (Continue Burst to END) NOP (Continue Burst to END) ILLEGAL Terminate Burst, Latch CA, READ / READA Begin Read, Determine AutoPrecharge WRITE / WRITEA ACT PRE / PREA REFA MRS DESEL NOP TERM Terminate Burst, Latch CA, Begin Write, Determine AutoPrecharge Bank Active / ILLEGAL Terminate Burst, Precharge ILLEGAL ILLEGAL NOP (Continue Burst to END) NOP (Continue Burst to END) ILLEGAL 3 3 Notes L L L L L READ with AUTO PRECHARGE H L L L L L L L L WRITE with AUTO PRECHARGE H L L L L L L L L MIT-DS-0397-1.1 H L L L L X H H H H L L L L X H H H H L L L L L H H L L X H H L L H H L L X H H L L H H L L L H L H L X H L H L H L H L X H L H L H L H L BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add X X BA BA, CA, A10 BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add X X BA BA, CA, A10 BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add 2 READ / READA ILLEGAL WRITE / WRITEA ACT PRE / PREA REFA MRS DESEL NOP TERM ILLEGAL Bank Active / ILLEGAL PRECHARGE/ILLEGAL ILLEGAL ILLEGAL NOP (Continue Burst to END) NOP (Continue Burst to END) ILLEGAL 2 2 READ / READA ILLEGAL WRITE / WRITEA ACT PRE / PREA REFA MRS ILLEGAL Bank Active / ILLEGAL PRECHARGE/ILLEGAL ILLEGAL ILLEGAL 24.Nov.2000 2 2 MITSUBISHI ELECTRIC 8 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module FUNCTION TRUTH TABLE (continued) Current State PRE CHARGING /S H L L L L L L L ROW ACTIVATING H L L L L L L L WRITE RECOVERING H L L L L L L L /RAS /CAS /WE X H H H L L L L X H H H L L L L X H H H L L L L X H H L H H L L X H H L H H L L X H H L H H L L X H L X H L H L X H L X H L H L X H L X H L H L X X BA BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add X X BA BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add X X BA BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add Address Command DESEL NOP TERM Action NOP (Idle after tRP) NOP (Idle after tRP) ILLEGAL 2 2 2 4 Notes READ / WRITE ILLEGAL ACT PRE / PREA REFA MRS DESEL NOP TERM ILLEGAL NOP (Idle after tRP) ILLEGAL ILLEGAL NOP (Row Active after tRCD) NOP (Row Active after tRCD) ILLEGAL 2 2 2 2 READ / WRITE ILLEGAL ACT PRE / PREA REFA MRS DESEL NOP TERM ILLEGAL ILLEGAL ILLEGAL ILLEGAL NOP NOP ILLEGAL 2 2 2 2 READ / WRITE ILLEGAL ACT PRE / PREA REFA MRS ILLEGAL ILLEGAL ILLEGAL ILLEGAL MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 9 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module FUNCTION TRUTH TABLE (continued) Current State REFRESHING /S H L L L L L L L MODE REGISTER SETTING H L L L L L L L /RAS /CAS /WE X H H H L L L L X H H H L L L L X H H L H H L L X H H L H H L L X H L X H L H L X H L X H L H L X X BA BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add X X BA BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add Address Command DESEL NOP TERM Action NOP (Idle after tRC) NOP (Idle after tRC) ILLEGAL Notes READ / WRITE ILLEGAL ACT PRE / PREA REFA MRS DESEL NOP TERM ILLEGAL ILLEGAL ILLEGAL ILLEGAL NOP (Idle after tRSC) NOP (Idle after tRSC) ILLEGAL READ / WRITE ILLEGAL ACT PRE / PREA REFA MRS ILLEGAL ILLEGAL ILLEGAL ILLEGAL ABBREVIATIONS: H=High Level, L=Low Level, X=Don't Care BA=Bank Address, RA=Row Address, CA=Column Address, NOP=No Operation NOTES: 1. All entries assume that CKE0 was High during the preceding clock cycle and the current clock cycle. 2. ILLEGAL to bank in specified state; function may be legal in the bank indicated by BA, depending on the state of that bank. 3. Must satisfy bus contention, bus turn around, write recovery requirements. 4. NOP to bank precharging or in idle state. May precharge bank indicated by BA. 5. ILLEGAL if any bank is not idle. ILLEGAL = Device operation and/or data-integrity are not guaranteed. MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 10 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module FUNCTION TRUTH TABLE for CKE Current State SELFREFRESH CKE0 CKE0 n n-1 H L L L L L L POWER DOWN H L L ALL BANKS IDLE H H H H H H H L ANY STATE other than listed above H H L L ABBREVIATIONS: H=High Level, L=Low Level, X=Don't Care NOTES: 1. CKE0 Low to High transition will re-enable CK0 and other inputs asynchronously . A minimum setup time must be satisfied before any command other than EXIT. 2. Power-Down and Self-Refresh can be entered only from the All Banks Idle State. 3. Must be legal command. X H H H H H L X H L H L L L L L L X H L H L /S X H L L L L X X X X X L H L L L L X X X X X /RAS /CAS /WE X X H H H L X X X X X L X H H H L X X X X X X X H H L X X X X X X L X H H L X X X X X X X X H L X X X X X X X H X H L X X X X X X X Add X X X X X X X X X X X X X X X X X X X X X X INVALID Exit Self-Refresh (Idle after tRC) Exit Self-Refresh (Idle after tRC) ILLEGAL ILLEGAL ILLEGAL NOP (Maintain Self-Refresh) INVALID Exit Power Down to Idle NOP (Maintain Self-Refresh) Refer to Function Truth Table Enter Self-Refresh Enter Power Down Enter Power Down ILLEGAL ILLEGAL ILLEGAL Refer to Current State =Power Down Refer to Function Truth Table Begin CLK Suspend at Next Cycle Exit CLK Suspend at Next Cycle Maintain CLK Suspend 3 3 2 2 2 2 2 2 2 2 Action Notes 1 1 1 1 1 1 1 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 11 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module SIMPLIFIED STATE DIAGRAM POWER APPLIED POWER ON PREA PRE CHARGE ALL REFS SELF REFRESH MRS REFSX REFA MODE REGISTER SET MRS IDLE AUTO REFRESH CKEL CKEH Active Power Down CKEH ACT POWER DOWN CKEL ROW ACTIVE WRITE WRITE WRITEA READA READ READ READ BURST STOP WRIT E READ TERM WRITEA READA READA WRITEA PRE PRE PRE READA PRE CHARGE Automatic Sequence Command Sequence MIT-DS-0397-1.1 24.Nov.2000 MITSUBISHI ELECTRIC 12 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module POWER ON SEQUENCE Before starting normal operation, the following power on sequence is necessary to prevent a SDRAM from damaged or multifunctioning. 1. Apply VDD before or the same time as VDDQ 2. Apply VDDQ before or at the same time as VTT & Vref 3. Maintain stable condition for 200us after stable power and CLK, apply NOP or DSEL 4. Issue precharge command for all banks of the device 5. Issue EMRS 6. Issue MRS for Mode Register and to reset the DLL 7. Issue 2 or more Auto Refresh commands 8. Maintain stable condition for 200 cycle After these sequence, the SDRAM is idle state and ready for normal operation. MODE REGISTER Burst Length, Burst Type and /CAS Latency can be programmed by setting the mode register (MRS). The mode register stores these data until the next MRS command, which may be issued when all banks in discrete in idle state. After tMRD from a MRS command, the DDR DIMM is ready for new command. BA1 BA0 A11 A10 A9 0 0 0 0 0 A8 DR A7 0 A6 A5 A4 A3 BT A2 A1 BL A0 CK0 /CK0 /S /RAS /CAS /WE BA0 LTMODE BA1 A11-A0 BL CL 000 001 010 011 100 101 110 111 NO YES /CAS Latency R R 2 R R R 2.5 R Burst Length 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 0 1 BT= 0 R 2 4 8 R R R R V BT= 1 R 2 4 8 R R R R Latency Mode Burst Type Sequential Interleaved DLL Reset 0 1 R: Reserved for Future Use MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 13 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module EXTENDED MODE REGISTER DLL disable / enable mode can be programmed by setting the extended mode register (EMRS). The extended mode register stores these data until the next EMRS command, which may be issued when all banks in discrete in idle state. After tMRD from a EMRS command, the DDR DIMM is ready for new command. CK0 /CK0 /S /RAS /CAS /WE BA1 BA0 A11 A10 A9 0 1 0 0 0 A8 0 A7 0 A6 0 A5 0 A4 0 A3 0 A2 A1 A0 BA0 BA1 A11-A0 V QFC DS DD DLL Disable 0 1 DLL enable DLL disable Drive Strength 0 1 Normal Weak QFC 0 1 Disable Enable MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 14 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module ( Componennt Level ) /CLK CLK Command Address DQS DQ CL= 2 BL= 4 /CAS Latency Q0 Q1 Q2 Q3 D0 D1 D2 D3 Read Y Write Y Burst Length Burst Length Initial Address BL Sequential 0 1 2 3 8 4 5 6 7 0 1 4 2 3 0 2 1 1 2 3 4 5 6 7 0 1 2 3 0 1 0 2 3 4 5 6 7 0 1 2 3 0 1 3 4 5 6 7 0 1 2 3 0 1 2 4 5 6 7 0 1 2 3 5 6 7 0 1 2 3 4 Column Addressing Interleaved 6 7 0 1 2 3 4 5 7 0 1 2 3 4 5 6 0 1 2 3 4 5 6 7 0 1 2 3 0 1 1 0 3 2 5 4 7 6 1 0 3 2 1 0 2 3 0 1 6 7 4 5 2 3 0 1 3 2 1 0 7 6 5 4 3 2 1 0 4 5 6 7 0 1 2 3 5 4 7 6 1 0 3 2 6 7 4 5 2 3 0 1 7 6 5 4 3 2 1 0 A2 0 0 0 0 1 1 1 1 - A1 0 0 1 1 0 0 1 1 0 0 1 1 - A0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 15 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module ABSOLUTE M AXIMUM RATINGS Symbol Vdd VddQ VI VO IO Pd Topr Tstg Parameter Supply Voltage Supply Voltage for Output Input Voltage Output Voltage Output Current Power Dissipation Operating Temperature Storage Temperature Ta = 25 C Conditions with respect to Vss with respect to VssQ with respect to Vss with respect to VssQ Ratings -0.5 ~ 3.7 -0.5 ~ 3.7 -0.5 ~ Vdd+0.5 -0.5 ~ VddQ+0.5 50 10 0 ~ 70 -45 ~ 100 Unit V V V V mA W C C DC OPERATING CONDITIONS (Ta=0 ~ 70 C , unless otherwise noted) Limits Symbol Vdd VddQ Vref VIH(DC) VIL(DC) VIN(DC) Parameter Supply Voltage Supply Voltage for Output Input Reference Voltage High-Level Input Voltage Low-Level Input Voltage Input Voltage Level, CK0 and /CK0 Min. 2.3 2.3 1.15 Vref + 0.18 -0.3 -0.3 0.36 Vref - 0.04 Typ. 2.5 2.5 1.25 Max. 2.7 2.7 1.35 VddQ+0.3 Vref - 0.18 VddQ + 0.3 VddQ + 0.6 Vref + 0.04 Unit Notes V V V V V V V V 7 6 5 O VID(DC) Input Differential Voltage, CK0 and /CK0 VTT I/O Termination Voltage CAPACITANCE (Ta=0 ~ 70 C , Vdd = VddQ = 2.5 0.2V, Vss = VssQ = 0V, unless otherwise noted) O Symbol CI(A) CI(C) CI(K) CI/O Parameter Input Capacitance, address pin Input Capacitance, control pin Input Capacitance, CK0 pin Input Capacitance, I/O pin Test Condition VI - 1.25V f =100MHz VI = 25mVrm Limits(max.) 8.0 8.0 15.3 13.3 Unit Notes pF pF pF pF 11 11 11 11 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 16 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module AVERAGE SUPPLY CURRENT from Vdd (Ta=0 ~ 70 C , Vdd = VddQ = 2.5 0.2V, Vss = VssQ = 0V, Output Open, unless otherwise noted) Sy m bol Parameter/Test Conditions OPERATING CURRENT: One Bank; Activ e-Precharge; t RC = t RC MIN; t CK = t CK MIN; DQ, DM and DQS inputs changing twice per clock cy c le; address and control inputs changing once per clock cy c le OPERATING CURRENT: One Bank; Activ e-Read-Precharge; Burst = 2; t RC = t RC MIN; CL = 2.5; t CK = t CK MIN; IOUT= 0 mA;Address and control inputs changing once per clock cy c le PRECHARGE POWER-DOWN STANDBY CURRENT: All banks idle; power-down mode; CKE VIL (MAX); t CK = t CK MIN IDLE STANDBY CURRENT: /CS > VIH (MIN); All banks idle; CKE > VIH (MIN); t CK = t CK MIN; Address and other control inputs changing once per clock cy c le ACTIVE POWER-DOWN STANDBY CURRENT: One bank activ e; power-down mode; CKE VIL (MAX); t CK = t CK MIN ACTIVE STANDBY CURRENT: /CS > VIH (MIN); CKE > VIH (MIN); One bank; Activ e-Precharge; t RC = t RAS MAX; t CK = t CK MIN; DQ,DM and DQS inputs changing twice per clock cy c le; address and other control inputs changing once per clock cy c le OPERATING CURRENT: Burst = 2; Reads; Continuous burst;One bank activ e; Address and control inputs changing once per clock cy c le; CL = 2.5; t CK = t CK MIN; IOUT = 0 mA Limits(max) -75 -10 Unit Notes O IDD0 1390 1273 mA IDD1 1435 1318 mA IDD2P 580 508 mA IDD2N 760 688 mA IDD3P 760 688 mA IDD3N 985 868 mA IDD4R 1930 1768 mA OPERATING CURRENT: Burst = 2; Writes; Continuous burst; One bank activ e; Address and control inputs changing once per clock IDD4W cy c le; CL = 2.5; t CK = t CK MIN; DQ, DM and DQS inputs changing twice per clock cy c le IDD5 IDD6 AUTO REFRESH CURRENT: t RC = t RFC (MIN) SELF REFRESH CURRENT: CKE 0.2V 1885 1723 mA 2110 427 1948 355 mA mA 9 AC OPERATING CONDITIONS AND CHARACTERISTICS (Ta=0 ~ 70 C , Vdd = VddQ = 2.5 0.2V, Vss = VssQ = 0V, unless otherwise noted) Symbol Parameter/Test Conditions Limits Min. Vref + 0.35 Vref - 0.35 0.7 0.5*VDDQ-0.2 -5 -2 VDDQ + 0.6 0.5*VDDQ+0.2 5 2 Max. Unit Notes V V V V A A 24.Nov.2000 7 8 O VIH(AC) High-Level Input Voltage (AC) VIL(AC) Low-Level Input Voltage (AC) VID(AC) Input Differential Voltage, CLK and /CLK VIX(AC) Input Crossing Point Voltage, CLK and /CLK IOZ Ii Off-state Output Current /Q floating Vo=0~VDDQ Input Current / VIN=0 ~ VddQ MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 17 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module AC TIMING REQUIREMENTS (Component Level) (Ta=0 ~ 70 C , Vdd = VddQ = 2.5 0.2V, Vss = VssQ = 0V, unless otherwise noted) AC Characteristics Sy m bol tAC Parameter DQ Output Valid data delay time f rom CLK//CLK Min. -0.75 -0.75 0.45 0.45 min(tCL, tCH CL=2.5 tCK CLK cy c le time CL=2 tDH tDS tDIPW tHZ tLZ tDQSQ tDQSQA tDV tQH tDQSS tDQSH tDQSL tDSS tDSH tMRD Input Setup time (DQ,DM) Input Hold time(DQ,DM) DQ and DM input pulse width (f or each input) Data-out-high impedance time f rom CLK//CLK Data-out-low impedance time f rom CLK//CLK DQS-DQ Skew(f or DQS and associated DQ signals) DQS-DQ Skew(f or DQS and all DQ signals) DQ and DQS data Valid window DQ/DQS output hold time f rom DQS Write command to f irst DQS latching transition DQS input High lev el width DQS input Low lev el width DQS f alling edge to CLK setup time DQS f alling edge hold time f rom CLK Mode Register Set command cy c le time 0.35 tHP-0.75 O -75 Max. +0.75 +0.75 0.55 0.55 Min. -0.8 -0.8 0.45 0.45 -10 Max. +0.8 +0.8 0.55 0.55 Unit ns ns tCK tCK ns 15 15 ns ns ns ns ns +0.8 +0.8 +0.6 +0.6 0.35 tHP-1.0 Notes tDQSCK DQ Output Valid data delay time f rom CLK//CLK tCH tCL tHP CLK High lev el width CLK Low lev el width CLK half period min(tCL, tCH 15 15 8 10 0.6 0.6 2 +0.75 +0.75 +0.5 +0.5 -0.8 -0.8 20 7.5 10 0.5 0.5 1.75 -0.75 -0.75 ns ns ns ns tCK ns 14 14 0.75 0.35 0.35 0.2 0.2 15 0 0.4 0.25 0.9 0.9 0.4 0.9 1.25 0.75 0.35 0.35 0.2 0.2 15 0 1.25 tCK tCK tCK tCK tCK ns ns 16 15 tWPRES Write preamble setup time tWPST tWPRE tIS tIH tRPST tRPRE Write postamble Write preamble Input Setup time (address and control) Input Hold time (address and control) Read postamble Read preamble 0.6 0.4 0.25 1.2 1.2 0.6 tCK tCK ns ns 19 19 0.6 1.1 0.4 0.9 0.6 1.1 tCK tCK MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 18 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module AC TIMING REQUIREMENTS(Continues) (Ta=0 ~ 70 C , Vdd = VddQ = 2.5 0.2V, Vss = VssQ = 0V, unless otherwise noted) AC Characteristics Symbol tRAS tRC tRFC tRCD tRP tRRD tWR tDAL tWT R tXSNR tXSRD tXPNR tXPRD tREFI Row Active time Row Cycle time(operation) Auto Ref. to Active/Auto Ref. command period Row to Column Delay Row Precharge time Act to Act Delay time Write Recovery time Auto Precharge write recovery + precharge time Internal Write to Read Command Delay Exit Self Ref. to non-Read command Exit Self Ref. to -Read command Exit Power down to command Exit Power down to -Read command Average Periodic Refresh interval Parameter Min. 45 65 75 20 20 15 15 35 1 75 200 1 1 15.6 -75 Max. 120,000 Min. 50 70 80 20 20 15 15 35 1 80 200 1 1 15.6 -10 Max. 120,000 Unit Notes ns ns ns ns ns ns ns ns tCK ns tCK tCK tCK us 18 17 O Output Load Condition (f or component measurement) DQS DQ VREF VTT=V REF 10cm 50ohm VREF 25 ohm VOUT Zo=50 ohm 50 ohm VTT=V REF 30pF VREF Output Timing Measurement Reference Point MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 19 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module Notes 1. All voltages referenced to Vss. 2. Tests for AC timing, IDD, and electrical, AC and DC characteristics, may be conducted at nominal reference/supply voltage levels, but the related specifications and device operation are guaranteed for the full voltage range specified. 3. AC timing and IDD tests may use a VIL to VIH swing of up to 1.5V in the test environment, but input timing is still referenced to VREF (or to the crossing point for CK//CK), and parameter specifications are guaranteed for the specified AC input levels under normal use conditions. The minimum slew rate for the input signals is 1V/ns in the range between VIL(AC) and VIH(AC). 4. The AC and DC input level specifications are as defined in the SSTL_2 Standard (i.e. the receiver will effectively switch as a result of the signal crossing the AC input level, and will remain in that state as long as the signal does not ring back above (below) the DC input LOW (HIGH) level. 5. VREF is expected to be equal to 0.5*VddQ of the transmitting device, and to track variations in the DC level of the same. Peak-to-peak noise on VREF may not exceed +/-2% of the DC value. 6. VTT is not applied directly to the device. VTT is a system supply for signal termination resistors, is expected to be set equal to VREF, and must track variations in the DC level of VREF. 7. VID is the magnitude of the difference between the input level on CLK and the input level on /CLK. 8. The value of VIX is expected to equal 0.5*VddQ of the transmitting device and must track variations in the DC level of the same. 9. Enables on-chip refresh and address counters. 10. IDD specification are tested after the device is properly initialized. 11. This parameter is sampled. VddQ = +2.5V+/-0.2V, Vdd = +2.5V+/-0.2V, f =100MHz, Ta = 25 C , VOUT(DC)= VddQ/2, VOUT(PEAK TO PEAK) = 25mV, DM inputs are grouped with I/O pins - reflecting the fact that they are matched in laoding (to faciliate trace matching at the board level). 12. The CLK//CLK input reference level (for signals other than CLK//CLK) is the point at which CLK and /CLK cross; the input reference level for signals other than CLK//CLK, is VREF. 13. Inputs are not recognized as valid until VREF stabilized. Exception: during the period before VREF stabilizes, CKE=< 0.3VddQ is recognized as LOW. 14. t HZ and tLZ transitions occur in the same access time windows as valid data transitions. These parameters are not referenced to a specific voltage level, but specify when the device output is no longer driving (HZ), or begins driving (LZ). 15. The maximum limit for this parameter is not a device limit. The device will operate with a greater value for this parameter, but system performance (bus turnaround) will degrade accordingly. 16. The specific requirement is that DQS be valid (HIGH, LOW, or at some point on a valid transition) on or before this CLK edge. A valid transition is defined as monotonic, and meeting the input slew rate specifications of the device. When no writes were previously in progress on the bus, DQS will be transitioning from High-Z to logic LOW. If a previous write was in progress, DQS could be HIGH, LOW, or transitioning from HIGH to LOW at this time, depending on tDQSS. 17. A maximum of eight AUTO REFRESH commands can be posted to any given DDR SDRAM device. 18. tXPRD should be 200 tCLK in the condition of the unstable CLK operation during the power down mode. 19. For command/address and CLK & /CLK slew rate >1.0V/ns. 20. Min(tCL, tCH)refers to the smaller of the actual clock low time and the actualclock high time as provided to the device. O MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 20 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module (Component Level) Read Operation /CLK CLK Cmd & Add. tDQSCK tRPRE tIS Valid Data tRPST tIH VREF tCK tCH tCL DQS tDQSQ tAC tDV DQ Write Operation / tDQSS=max. /CLK CLK DQS tDQSS tWPRES tWPRE tDSS tWPST tDQSL tDS tDQSH tDH DQ Write Operation / tDQSS=min. /CLK CLK DQS tDQSS tWPRES tWPRE tDQSL tDS tDQSH tDH tDSH tWPST DQ MIT-DS-0397-1.1 24.Nov.2000 MITSUBISHI ELECTRIC 21 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module OPERATIONAL DESCRIPTION BANK ACTIVATE The DDR SDRAM has four independent banks. Each bank is activated by the ACT command with the bank addresses (BA0,1). A row is indicated by the row address A11-0. The minimum activation interval between one bank and the other bank is tRRD. M aximum 2 ACT commands are allowed within tRC,although the number of banks which are active concurrently is not limited. PRECHARGE The PRE command deactivates the bank indicated by BA0,1. When multiple banks are active, the precharge all command (PREA,PRE+A10=H) is available to deactivate them at the same time. After tRP from the precharge, an ACT command to the same bank can be issued. Bank Activation and Precharge All (BL=8, CL=2 (Discrete level)) Module input and output timing. /CLK CLK 2 ACT command / tRCmin tRCmin PRE tRAS Xb tRCD Y BL/2 0 1 Xb tRP Xb ACT Command ACT tRRD ACT READ A0-9,11-12 Xa A10 Xa Xb BA0,1 00 01 00 01 DQS DQ Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 Precharge all A precharge command can be issued at BL/2(Discrete) from a read command without data loss. MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 22 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module READ After tRCD from the bank activation, a READ command can be issued. 1st Output data is available after the /CAS Latency from the READ, followed by (BL-1) consecutive data when the Burst Length is BL. The start address is specified by A11,A9-A0, and the address sequence of burst data is defined by the Burst Type. A READ command may be applied to any active bank, so the row precharge time (tRP) can be hidden behind continuous output data by interleaving the multiple banks. When A10 is high at a READ command, the auto-precharge(READA) is performed. Any command(READ,WRITE,PRE,ACT) to the same bank is inhibited till the internal precharge is complete. The internal precharge starts at BL/2 after READA. The next ACT command can be issued after (BL/2+tRP) from the previous READA. Multi Bank Interleaving READ (BL=8, CL=2(Discrete level)) Module input and output timing. /CLK CLK Command A0-9,11 A10 BA0,1 DQS DQ Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 Qb0 Qb1 Qb2 Qb3 Qb4 Qb5 Qb7 Qb8 ACT tRCD Xa Xa READ ACT Y 0 Xb Xb READ PRE Y 0 0 00 00 10 10 00 Burst Length Module /CAS latency (Discrete CL + 1) MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 23 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module READ with Auto-Precharge (BL=8, CL=2(Discrete)) Module input and output timing. /CLK CLK Command A0-9,11-12 A10 BA0,1 DQS DQ Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 BL/2 + tRP ACT tRCD Xa Xa Y 1 00 READ BL/2 tRP Xb Xb 00 ACT 00 Internal precharge start (BL/2+1 in case of Module) READ Auto-Precharge Timing (BL=8) Module input and output timing. /CLK CLK Command Module CL=3.5 Discrete CL=2.5 DQ Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 ACT READ BL/2 CL=3 CL=2 DQ Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 Internal Precharge Start Timing (In case of module, Precharge start at BL/2+1) MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 24 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module WRITE After tRCD from the bank activation, a WRITE command can be issued. 1st input data is set from the WRITE command with data strobe input, following (BL-1) data are written into RAM , when the Burst Length is BL. The start address is specified by A11,A9-A0, and the address sequence of burst data is defined by the Burst Type. A WRITE command may be applied to any active bank, so the row precharge time (tRP) can be hidden behind continuous input data by interleaving the multiple banks. From the last data to the PRE command, the write recovery time (tWRP) is required. When A10 is high at a WRITE command, the auto-precharge(WRITEA) is performed. Any command(READ,WRITE,PRE,ACT) to the same bank is inhibited till the internal precharge is complete. The next ACT command can be issued after tDAL from the last input data cycle. Module input and output timing. /CLK CLK Command A0-9,11 A10 BA0,1 DQS DQ Da0 Da1 Da2 Da3 Da4 Da5 Da6 Da7 Db0 Db1 Db2 Db3 Db4 Db5 Db6 Db7 Multi Bank Interleaving WRITE (BL=8) ACT Xa Xa Xa 00 tRC D WRITE ACT Ya 0 00 Xb Xb 10 tRC D WRITE Yb 0 10 PRE PRE 0 00 0 10 Module input and output timing. /CLK CLK Command A0-9,11 A10 BA0,1 DQS DQ ACT Xa Xa 00 tRC D WRITE with Auto-Precharge (BL=8) WRITE tDAL Y 1 ACT Xb Xb 00 00 Da0 Da1 Da2 Da3 Da4 Da5 Da6 Da7 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 25 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module BURST INTERRUPTION [Read Interrupted by Read] Burst read operation can be interrupted by new read of any bank. Random column access is allowed. READ to READ interval is minimum 1CLK. Module input and output timing. /CLK CLK Command A0-9,11 A10 BA0,1 READ READ Yi 0 00 Yj 0 00 Read Interrupted by Read (BL=8, CL=2(Discrete)) READ Yk 0 10 READ Yl 0 01 DQS DQ Qai0 Qai1 Qaj0 Qaj1 Qaj2 Qaj3 Qak0 Qak1 Qak2 Qak3 Qak4 Qak5 Qal0 Qal1 Qal2 Qal3 Qal4 Qal5 Qal6 Qal7 [Read Interrupted by precharge] Burst read operation can be interrupted by precharge of the same bank. READ to PRE interval is minimum 1 CLK. A PRE command to output disable latency is equivalent to the /CAS Latency. As a result, READ to PRE interval determines valid data length to be output. The figure below shows examples of BL=8. Module input and output timing. /CLK CLK Command DQS READ PRE Read Interrupted by Precharge (BL=8) Module CL=3.5 Discrete CL=2.5 DQ Command DQS DQ Command DQS DQ READ PRE READ PRE Q0 Q1 Q2 Q3 Q4 Q5 Q0 Q1 Q2 Q3 Q0 Q1 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 26 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module Read Interrupted by Precharge (BL=8) Module input and output timing. /CLK CLK Command DQS READ PRE Module CL=3.0 Discrete CL=2.0 DQ Command DQS DQ Command DQS DQ READ PRE READ PRE Q0 Q1 Q2 Q3 Q4 Q5 Q0 Q1 Q2 Q3 Q0 Q1 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 27 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module [Read Interrupted by Burst Stop] Burst read operation can be interrupted by a burst stop command(TERM ). READ to TERM interval is minimum 1 CLK. A TERM command to output disable latency is equivalent to the /CAS Latency. As a result, READ to TERM interval determines valid data length to be output. The figure below shows examples of BL=8. Read Interrupted by TERM (BL=8) Module input and output timing. /CLK CLK Command DQS READ TERM Module CL=3.5 Discrete CL=2.5 DQ Command DQS DQ Command DQS DQ Command DQS READ TERM Q0 Q1 Q2 Q3 Q4 Q5 READ TERM Q0 Q1 Q2 Q3 READ TERM Q0 Q1 Module CL=3.0 Discrete CL=2.0 DQ Command DQS DQ Command DQS DQ READ TERM READ TERM Q0 Q1 Q2 Q3 Q4 Q5 Q0 Q1 Q2 Q3 Q0 Q1 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 28 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module [Read Interrupted by Write with TERM] Read Interrupted by TERM (BL=8) /CLK CLK Command READ TERM WRITE CL=2.5 DQS DQ Command READ TERM Q0 Q1 Q2 Q3 D0 D1 D2 D3 D4 D5 WRITE CL=2.0 DQS DQ Q0 Q1 Q2 Q3 D0 D1 D2 D3 D4 D5 D6 D7 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 29 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module [Write interrupted by Write] Burst write operation can be interrupted by write of any bank. Random column access is allowed. WRITE to WRITE interval is minimum 1 CLK. Write Interrupted by Write (BL=8) Module input and output timing. /CLK CLK Command A0-9,11 A10 BA0,1 DQS DQ Dai0 Dai1 Daj0 Daj1 Daj2 Daj3 D a k 0 D a k 1 D a k 2 D a k 3 D a k 4 D a k 5 Dal0 Dal1 Dal2 Dal3 Dal4 Dal5 Dal6 Dal7 WRITE WRITE Yi 0 00 Yj 0 00 WRITE Yk 0 10 WRITE Yl 0 00 [Write interrupted by Read] Burst write operation can be interrupted by read of the same or the other bank. Random column access is allowed. Internal WRITE to READ command interval(tWTR) is minimum 1 CLK. The input data on DQ at the interrupting READ cycle is "don't care". tWTR is referenced from the first positive edge after the last data input. Module input and output timing. /CLK CLK Command A0-9,11 A10 BA0,1 WRITE Yi 0 00 Write Interrupted by Read (BL=8, CL=2.5(Discrete)) READ Yj 0 00 DM QS DQ Dai0 Dai1 tWTR Qaj0 Qaj1 Qaj2 Qaj3 Qaj4 Qaj5 Qaj6 Qaj7 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 30 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module [Write interrupted by Precharge] Burst write operation can be interrupted by precharge of the same or all bank. Random column access is allowed. tWR is referenced from the first positive CLK edge after the last data input. Write Interrupted by Precharge (BL=8, CL=2.5) Module input and output timing. /CLK CLK Command A0-9,11 A10 BA0,1 DM QS DQ Dai0 Dai1 WRITE Yi 0 00 PRE 00 tWR MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 31 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module [Initialize and Mode Register sets] /CLK CLK Command A0-9,11 A10 BA0,1 DQS DQ NOP PRE EMRS MRS PRE AR AR MRS ACT Code Code Code Xa 1 Code Code 1 Code Xa 10 00 00 Xa tMRD tMRD tRP tRFC tRFC tMRD [AUTO REFRESH] Single cycle of auto-refresh is initiated with a REFA(/CS=/RAS=/CAS=L,/WE=CKE=H) command. The refresh address is generated internally. 4096 REFA cycles within 64ms refresh 128M bits memory cells. The auto-refresh is performed on 4 banks concurrently. Before performing an auto refresh, all banks must be in the idle state. Auto-refresh to auto-refresh interval is minimum tRFC . Any command must not be supplied to the device before tRFC from the REFA command. Auto-Refresh /CLK CLK /CS /RAS /CAS /WE CKE A0-11 BA0,1 tRFC NOP or DESELECT Auto Refresh on All Banks MIT-DS-0397-1.1 Auto Refresh on All Banks 24.Nov.2000 MITSUBISHI ELECTRIC 32 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module [S ELF REFRESH] Self -refresh mode is entered by issuing a REFS command (/CS=/RAS=/CAS=L,/WE=H,CKE=L). Once the self-refresh is initiated, it is maintained as long as CKE is kept low. During the self-refresh mode, CKE is asynchronous and the only enable input, all other inputs including CLK are disabled and ignored, so that power consumption due to synchronous inputs is saved. To exit the self-refresh, supplying stable CLK inputs, asserting DESEL or NOP command and then asserting CKE for longer than tXSNR/tXSRD. Self-Refresh /CLK CLK /CS /RAS /CAS /WE CKE A0-11 BA0,1 X X tXSNR Self Refresh Exit Act tXSRD Y Y Read MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 33 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module [Asynchronous S ELF REFRESH] Asynchronous Self -refresh mode is entered by CKE=L within 2 tCLK after issuing a REFA command (/CS=/RAS=/CAS=L,/WE=H). Once the self-refresh is initiated, it is maintained as long as CKE is kept low. During the self-refresh mode, CKE is asynchronous and the only enable input, all other inputs including CLK are disabled and ignored, so that power consumption due to synchronous inputs is saved. To exit the self-refresh, supplying stable CLK inputs, asserting DESEL or NOP command and then asserting CKE for longer than tXSNR/tXSRD. Asynchronous Self-Refresh /CLK CLK /CS /RAS /CAS /WE CKE A0-11 BA0,1 max 2 tCLK tXSNR Self Refresh Exit Act MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 34 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module [Power DOWN] The purpose of CLK suspend is power down. CKE is synchronous input except during the self-refresh mode. A command at cycle is ignored. From CKE=H to normal function, DLL recovery time is NOT required in the condition of the stable CLK operation during the power down mode. Power Down by CKE /CLK CLK CKE Command PRE NOP Standby Power Down NOP Valid CKE Command ACT NOP Active Power Down tXPNR/ tXPRD NOP Valid [DM CONTROL] DM is defined as the data mask for writes. During writes,DM masks input data word by word. DM to write mask latency is 0. DM Function(BL=8,CL=2(Discrete)) Module input and output timing. /CLK CLK Command Write READ DM DQS DQ D0 D1 D3 D4 D5 D6 D7 Don't Care Q0 Q1 Q2 Q3 Q4 Q5 Q6 masked by DM=H MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 35 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module 133.35 3.00 3.00 4-R2 1.27 6.35 64.77 73.295 1.8 6.35 49.53 128.95 2 - 2.50 3.9Max 1.27 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 36 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module Serial Presence Detect Table I Byte 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 Function described Number of Serial PD Bytes Written during Production Total # bytes of SPD memory device Fundamental memory type # Row Addresses on this assembly # Column Addresses on this assembly # Module Banks on this assembly Data Width of this assembly... ... Data Width continuation Voltage interface standard of this assembly SDRAM Cycletime at Max. Supported CAS Latency (CL). -75 -10 -75 -10 SPD enrty data 128 256 Bytes SDRAM DDR 12 10 1BANK x72 0 SSTL2.5V 7.5ns 8.0ns +0.75ns +0.8 ns ECC SPD DATA(hex) 80 08 07 0C 0A 01 48 00 04 75 80 75 80 02 80 08 08 01 0E 04 0C 01 02 26 00 A0 A0 75 80 00 00 00 00 50 3C 50 2D 32 Cycle time for CL=2.5 SDRAM Access from Clock tAC for CL=2.5 DIMM Configuration type (Non-parity,Parity,ECC) Refresh Rate/Type SDRAM width,Primary DRAM Error Checking SDRAM data width MIimum Clock Delay, Random Column Access 15.625uS/SR x8 x8 1 clock 2, 4, 8 4bank 2.0, 2.5 0 1 Registered with PLL Differential Clock VDD + 0.2V -75 -10 -75 -10 -75 Burst Lengths Supported Number of Device Banks CAS# Latency CS# Latency WE Latency SDRAM Module Attributes SDRAM Device Attributes:General SDRAM Cycle time(2nd highest CAS latency) Cycle time for CL=2 SDRAM Access form Clock(2nd highest CAS latency) 10ns 10ns +0.75ns +0.8ns Undefined Undefined Undefined Undefined 20ns 15ns 20ns 24 tAC for CL=2 25 SDRAM Cycle time(3rd highest CAS latency) -10 26 -75 SDRAM Access form Clock(3rd highest CAS latency) -10 27 28 29 30 Minimum Row Precharge Time (tRP) Minimum Row Active to Row Active Delay (tRRD) RAS to CAS Delay Minv (tRCD) -75 45ns 50ns Active to Precharge Min (tRAS) -10 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 37 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module Serial Presence Detect Table II 31 32 Density of each bank on module Command and Address signal input setup time Command and Address signal input hold time -75 -10 -75 -10 -75 128MByte 0.9nS 1.2nS 0.9nS 1.2nS 0.5nS 0.6nS 0.5nS 0.6nS 20 90 C0 90 C0 50 60 50 60 00 00 B4 5A 1CFFFFFFFFFFFFFF 33 34 35 36-61 62 Data signal input setup time Data signal input hold time Superset Information (may be used in future) SPD Revision -10 -75 -10 option 0 Check sum for -75 63 Checksum for bytes 0-62 Check sum for -10 64-71 Manufactures Jedec ID code per JEP-108E MITSUBISHI 72 Manufacturing location Manufacturing Location XX 73-90 Manufactures Part Number MH16D72AKLB-75 MH16D72AKLB-10 4D483136443732414B4C422D373520202020 4D483136443732414B4C422D313020202020 91-92 93-94 95-98 99-127 128-255 Revision Code Manufacturing date Assembly Serial Number Reserved Open for Customer Use PCB revision year/week code serial number Undefined Undefined rrrr yyww ssssssss 00 00 MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 38 Preliminary Spec. Some contents are subject to change without notice. MITSUBISHI LSIs MH16D72AKLB-10,75 1,207.959,552-BIT (16,777,216-WORD BY 72-BIT) Double Data Rate Synchronous DRAM Module Keep safety first in your circuit designs! Mitsubishi Electric Corporation puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage. Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of nonflammable material or (iii) prevention against any malfunction or mishap. Notes regarding these materials 1.These materials are intended as a reference to assist our customers in the selection of the Mitsubishi semiconductor product best suited to the customer's application; they do not convey any license under any intellectual property rights, or any other rights, belonging to Mitsubishi Electric Corporation or a third party. 2.Mitsubishi Electric Corporation assumes no responsibility for any damage, or infringement of any third-party's rights, originating in the use of any product data, diagrams, charts, programs, algorithms, or circuit application examples contained in these materials. 3.All information contained in these materials, including product data, diagrams, charts, programs and algorithms represents information on products at the time of publication of these materials, and are subject to change by Mitsubishi Electric Corporation without notice due to product improvements or other reasons. It is therefore recommended that customers contact Mitsubishi Electric Corporation or an authorized Mitsubishi Semiconductor product distributor for the latest product information before purchasing a product listed herein. The information described here may contain technical inaccuracies or typographical errors. Mitsubishi Electric Corporation assumes no responsibility for any damage, liability, or other loss rising from these inaccuracies or errors. Please also pay attention to information published by Mitsubishi Electric Corporation by various means, including the Mitsubishi Semiconductor hom e page (http://www.mitsubishichips.com). 4.When using any or all of the information contained in these materials, including product data, diagrams, charts, programs and algorithms, please be sure to evaluate all information as a total system before making a final decision on the applicability of the information and products. Mitsubishi Electric Corporation assumes no responsibility for any damage, liability or other loss resulting from the information contained herein. 5.Mitsubishi Electric Corporation semiconductors are not designed or manufactured for use in a device or system that is used under circumstances in which human life is potentially at stake. Please contact Mitsubishi Electric Corporation or an authorized Mitsubishi Semiconductor product distributor when considering the use of a product contained herein for any specific purposes, such as apparatus or systems for transportation, vehicular, medical, aerospace, nuclear, or undersea repeater use. 6.The prior written approval of Mitsubishi Electric Corporation is necessary to reprint or reproduce in whole or in part these materials. 7.If these products or technologies are subject to the Japanese export control restrictions, they must be exported under a license from the Japanese government and cannot be imported into a country other than the approved destination. Any diversion or reexport contrary to the export control laws and regulations of Japan and/or the country of destination is prohibited. 8.Please contact Mitsubishi Electric Corporation or an authorized Mitsubishi Semiconductor product distributor for further details on these materials or the products contained therein. MIT-DS-0397-1.1 MITSUBISHI ELECTRIC 24.Nov.2000 39 |
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