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| M5M44800CJ,TP-5,-6,-7, M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S -5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BYBY 8-BIT) DYNAMIC RAM FAST PAGE MODE 4194304-BIT (524288-WORD 8-BIT) DYNAMIC RAM DESCRIPTION This is a family of 524288-word by 8-bit dynamic RAMs, fabricated with the high performance CMOS process, and is ideal for largecapacity memory systems where high speed, low power dissipation, and low costs are essential. The use of double-layer metalization process technology and a single-transistor dynamic storage stacked capacitor cell provide high circuit density at reduced costs. Multiplexed address inputs permit both a reduction in pins and an increase in system densities. Self or extended refresh current is low enough for battery back-up application. MITSUBISHI LSIs MITSUBISHI LSIs PIN CONFIGURATION (TOP VIEW) (5V)VCC 1 DQ1 2 DQ2 3 DQ3 4 DQ4 5 NC 6 W 7 9 RAS 8 A9 28 VSS(0V) 27 DQ8 26 DQ7 25 DQ6 24 DQ5 23 CAS 22 OE 21 NC 20 A8 19 A7 18 A6 17 A5 16 A4 15 VSS(0V) FEATURES Type name M5M44800CXX-5,-5S M5M44800CXX-6,-6S M5M44800CXX-7,-7S RAS CAS Address OE Cycle Power access access access access time dissipation time time time time (max.ns) (max.ns) (max.ns) (max.ns) (min.ns) (typ.mW) A0 10 A1 11 A2 12 A3 13 (5V)VCC 14 50 60 70 13 15 20 25 30 35 13 15 20 90 110 130 450 375 325 XX=J,TP Outline 28P0K(400mil SOJ) Standard 28pin SOJ, 28pin TSOP (II) Single 5V10% supply Low stand-by power dissipation CMOS lnput level 5.5mW (Max) CMOS Input level 550W (Max) * Operating power dissipation M5M44800Cxx-5,-5S 495mW (Max) M5M44800Cxx-6,-6S 413mW (Max) M5M44800Cxx-7,-7S 358mW (Max) Self refresh capability * Self refresh current 150A(Max) Extended refresh capability Extended refresh current 150A(Max) Fast page mode(1024-column random access),Read-modify-write, RAS-only refresh, CAS before RAS refresh, Hidden refresh capabilities. Early-write mode, CAS and OE to control output buffer impedance 1024 refresh cycles every 16.4ms (A0 ~A9) 1024 refresh cycles every 128ms (A0 ~A9) * * :Applicable to self refresh version (M5M44800CJ,TP-5S,-6S,-7S :option) only (5V)VCC 1 DQ1 2 DQ2 3 DQ3 4 DQ4 5 NC 6 W A9 7 9 RAS 8 A0 10 A1 11 A2 12 A3 13 (5V)VCC 14 28 VSS(0V) 27 DQ8 26 DQ7 25 DQ6 24 DQ5 23 CAS 22 OE 21 NC 20 A8 19 A7 18 A6 17 A5 16 A4 15 VSS(0V) Outline 28P3Y-H(400mil TSOP Normal Bend) APPLICATION Microcomputer memory, Refresh memory for CRT NC:NO CONNECTION PIN DESCRIPTION Pin name A0~A9 DQ1~DQ8 RAS CAS W OE Vcc Vss Function Address inputs Data inputs/outputs Row address strobe input Column address strobe input Write control input Output enable input Power supply (+5V) Ground (0V) 1 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM FUNCTION In addition to normal read, write, and read-modify-write operations the M5M44800CJ, TP provides a number of other functions, e.g., fast page mode, RAS-only refresh, and delayed-write. The input conditions for each are shown in Table 1. Table 1 Input conditions for each mode Operation Read Write (Early write) Write (Delayed write) Read-modify-write RAS only refresh Hidden refresh CAS before RAS (Extended *) refresh Inputs RAS ACT ACT ACT ACT ACT ACT ACT ACT NAC CAS ACT ACT ACT ACT NAC ACT ACT ACT DNC W NAC ACT ACT ACT DNC DNC DNC DNC DNC OE ACT DNC DNC ACT DNC ACT DNC DNC DNC Row address Column address Input/Output APD APD APD APD APD DNC DNC DNC DNC APD APD APD APD DNC DNC DNC DNC DNC Input OPN VLD VLD VLD DNC OPN DNC DNC DNC Output VLD OPN IVD VLD OPN VLD OPN OPN OPN Refresh YES YES YES YES YES YES YES YES NO Remark Fast page mode identical Self refresh * Stand-by Note : ACT : active, NAC : nonactive, DNC : don' t care, VLD : valid, IVD : invalid, APD : applied, OPN : open BLOCK DIAGRAM COLUMN ADDRESS STROBE INPUT CAS ROW ADDRESS RAS STROBE INPUT WRITE CONTROL INPUT W A0~A8 VCC (5V) CLOCK GENERATOR CIRCUIT VCC (5V) VSS (0V) VSS (0V) (8) DATA IN BUFFER COLUMN DECODER A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 SENSE REFRESH AMPLIFIER & I /O CONTROL ADDRESS INPUTS ROW & COLUMN ADDRESS BUFFER ROW A0~ A9 DECODER MEMORY CELL (4194304BITS) (8) DATA OUT BUFFER DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DATA INPUTS / OUTPUTS OE OUTPUT ENABLE INPUT 2 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM ABSOLUTE MAXIMUM RATINGS Symbol VCC VI VO IO Pd Topr Tstg Parameter Supply voltage Input voltage Output voltage Output current Power dissipation Operating temperature Storage temperature Conditions With respect to VSS Ratings -1~7 -1~7 -1~7 50 1000 0~70 -65~150 Unit V V V mA mW C C Ta=25C RECOMMENDED OPERATING CONDITIONS (Ta=0~70C, unless otherwise noted) Symbol VCC VSS VIH VIL Parameter Supply voltage Supply voltage High-level input voltage, all inputs Low-level input voltage, all inputs Min 4.5 0 2.4 -0.5 * * Limits Nom 5.0 0 Max 5.5 0 6.0 0.8 (Note 1) Unit V V V V Note 1 : All voltage values are with respect to Vss. * * : VIL(min) is -2.0V when pulse width is less than 25ns. (Pulse width is with respect to VSS.) ELECTRICAL CHARACTERISTICS (Ta=0~70C, VCC=5V10%, VSS=0V, unless otherwise noted) (Note 2) Symbol VOH VOL IOZ II ICC1 (AV) Parameter High-level output voltage Low-level output voltage Off-state output current Input current M5M44800C-5,-5S Average supply current M5M44800C-6,-6S from VCC, operating (Note 3,4,5) M5M44800C-7,-7S Test conditions IOH=-5mA IOL=4.2mA Q floating, 0V VOUT 5.5V 0V VIN +6.0V, Other inputs pins=0V RAS, CAS cycling tRC=tWC=min. output open RAS= CAS =VIH, output open RAS= CAS VCC -0.5V output open RAS cycling, CAS= VIH tRC=min. output open RAS=VIL, CAS cycling tPC=min. output open CAS before RAS refresh cycling tRC=min. output open Min 2.4 0 -10 -10 Limits Typ ICC2 Supply current from VCC, stand-by (Note 6) ICC3 (AV) M5M44800C-5,-5S Average supply current M5M44800C-6,-6S from VCC, RAS only refresh mode (Note 3,5) M5M44800C-7,-7S M5M44800C-5,-5S Average supply current M5M44800C-6,-6S from VCC, Fast Page (Note 3,4,5) M5M44800C-7,-7S Mode M5M44800C-5,-5S Average supply current from VCC, CAS before RAS M5M44800C-6,-6S refresh mode (Note 3,5) M5M44800C-7,-7S ICC4(AV) ICC6(AV) Max Vcc 0.4 10 10 90 75 65 2 1.0 0.1 * 90 75 65 90 75 65 80 65 55 Unit V V A A mA mA mA mA mA ICC8(AV) * Average supply current from VCC, Extended-Refresh mode RAS cycling CAS 0.2V or CAS before RAS refresh cycling RAS 0.2V or VCC-0.2V CAS 0.2V or VCC-0.2V (Note 6) W 0.2V or VCC-0.2V OE 0.2V or VCC-0.2V A0~A9 0.2V or VCC-0.2V, DQ=open tRC=125s, tRAS=tRASmin~1s (Note 6) RAS=CAS 0.2V output open 150 A ICC9(AV) * Note Note Note Note Average supply current from VCC, Self-Refresh mode 150 A 2: Current flowing into an IC is positive, out is negative. 3: ICC1 (AV), ICC3 (AV), ICC4 (AV) and ICC6 (AV) are dependent on cycle rate. Maximum current is measured at the fastest cycle rate. 4: ICC1 (AV) and ICC4 (AV) are dependent on output loading. Specified values are obtained with the output open. 5: Column address can be changed once or less while RAS=VIL and CAS=VIH 3 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM CAPACITANCE (Ta=0~70C, VCC=5V10%, VSS=0V, unless otherwise noted) Limits Symbol CI (A) CI (CLK) CI / O Parameter Input capacitance, address inputs Input capacitance, clock inputs Input/Output capacitance, data ports Test conditions VI=VSS f=1MHz VI=25mVrms Min Typ Max 5 7 7 Unit pF pF pF SWITCHING CHARACTERISTICS (Ta=0~70C, VCC = 5V10%, VSS=0V, unless otherwise noted, see notes 6,13,14) Limits Symbol tCAC tRAC tAA tCPA tOEA tCLZ tOFF tOEZ Parameter Access time from CAS Access time from RAS Column address access time Access time from CAS precharge Access time from OE Output low impedance time from CAS low Output disable time after CAS high Output disable time after OE high (Note 7,8) (Note 7,9) (Note 7,10) (Note 7,11) (Note 7) (Note 7) (Note 12) (Note 12) M5M44800C-5,-5S M5M44800C-6,-6S M5M44800C-7,-7S Unit ns ns ns ns ns ns ns ns Min Max 13 50 25 30 13 Min Max 15 60 30 35 15 Min Max 20 70 35 40 20 5 13 13 5 15 15 5 20 20 Note 6:An initial pause of 500s is required after power-up followed by a minimum of eight initialization cycles (RAS-only refresh or CAS before RAS refresh cycles). Note the RAS may be cycled during the initial pause. And 8 initialization cycles are required after prolonged periods (greater than 16.4ms) of RAS inactivity before proper device operation is achieved. Note 7:Measured with a load circuit equivalent to 2TTL loads and 100pF. Note 8:Assumes that tRCD tRCD(max) and tASC tASC(max). Note 9:Assumes that tRCD tRCD(max) and tRAD tRAD(max). If tRCD or tRAD is greater than the maximum recommended value shown in this table, tRAC will increase by amount that tRCD exceeds the value shown. nOR10:Assumes that tRAD tRAD(max) and tASC tASC(max). Note11:Assumes that tCP tCP(max) and tASC tASC(max). Note12:tOFF(max), tOEZ(max) defines the time at which the output achieves the high impedance state (IOUT 10A ) and is not reference to VOH(min) or VOL(max). 4 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM TIMING REQUIREMENTS (For Read, Write, Read-Modify-Write, Refresh, and Fast-Page Mode Cycles) (Ta=0~70C, VCC = 5V10%, VSS=0V, unless otherwise noted, see notes 6,13,14) Limits Symbol tREF tREF tRP tRCD tCRP tRPC tCPN tRAD tASR tASC tRAH tCAH tDZC tDZO tCDD tODD tT Refresh cycle time Refresh cycle time * RAS high pulse width Delay time, RAS low to CAS low Delay time, CAS high to RAS low Delay time, RAS high to CAS low CAS high pulse width Column address delay time from RAS low Row address setup time before RAS low Column address setup time before CAS low Row address hold time after RAS low Column address hold time after CAS low 30 18 5 0 10 13 0 0 8 13 0 0 13 13 1 Parameter M5M44800C-5,-5S M5M44800C-6,-6S M5M44800C-7,-7S Unit ms ms ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns Min Max 16.4 128 Min Max 16.4 128 Min Max 16.4 128 (Note 15) 37 (Note 16) (Note 17) 25 7 Delay time, data to CAS low Delay time, data to OE low Delay time, CAS high to data Delay time, OE high to data Transition time Note 13: The timing requirements are assumed tT=5ns. (Note 18) (Note 18) (Note 19) (Note 19) (Note 20) 50 40 20 5 0 10 15 0 0 10 15 0 0 15 15 1 45 30 10 50 50 20 5 0 10 15 0 0 10 15 0 0 20 20 1 50 35 10 50 Note 14: VIH(min) and VIL(max) are reference levels for measuring timing of input signals. Note 15: tRCD(max) is specified as a reference point only. If tRCD is less than tRCD(max), access time is tRAC. If tRCD is greater than tRCD(max), access time is controlled exclusively by tCAC or tAA. Note 16: tRAD(max) is specified as a reference point only. If tRAD tRAD(max) and tASC tASC(max), access time is controlled exclusively by tAA. Note 17: tASC(max) is specified as a reference point only. If tRCD tRCD(max) and tASC tASC(max), access time is controlled exclusively by tCAC. Note 18: Either tDZC or tDZO must be satisfied. Note 19: Either tCDD or tODD must be satisfied. Note 20: tT is measured between VIH(min) and VIL(max). Read and Refresh Cycles Limits Symbol tRC tRAS tCAS tCSH tRSH tRCS tRCH tRRH tRAL tOCH tORH Parameter M5M44800C-5,-5S M5M44800C-6,-6S M5M44800C-7,-7S Unit ns ns ns ns ns ns ns ns ns ns ns Read cycle time RAS low pulse width CAS low pulse width CAS hold time after RAS low RAS hold time after CAS low Read Setup time before CAS low Read hold time after CAS high Read hold time after RAS high Column address to RAS hold time CAS hold time after OE low RAS hold time after OE low Note 21: Either tRCH or tRRH must be satisfied for a read cycle. (Note 21) (Note 21) Min 90 50 13 50 13 0 0 0 25 13 13 Max 10000 10000 Min 110 60 15 60 15 0 0 0 30 15 15 Max 10000 10000 Min 130 70 20 70 20 0 0 0 35 20 20 Max 10000 10000 5 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Write Cycle (Early Write and Delayed Write) Limits Symbol tWC tRAS tCAS tCSH tRSH tWCS tWCH tCWL tRWL tWP tDS tDH tOEH Parameter Write cycle time RAS low pulse width CAS low pulse width CAS hold time after RAS low RAS hold time after CAS low Write setup time before CAS low Write hold time after CAS low CAS hold time after W low RAS hold time after W low Write pulse width Data setup time before CAS low or W low Data hold time after CAS low or W low OE hold time after W low M5M44800C-5,-5S M5M44800C-6,-6S M5M44800C-7,-7S Unit ns ns ns ns ns ns ns ns ns ns ns ns ns (Note 23) Min 90 50 13 50 13 0 8 13 13 8 0 8 13 Max 10000 10000 Min 110 60 15 60 15 0 10 15 15 10 0 10 15 Max 10000 10000 Min 130 70 20 70 20 0 15 20 20 15 0 15 20 Max 10000 10000 Read-Write and Read-Modify-Write Cycles Limits Symbol tRWC tRAS tCAS tCSH tRSH tRCS tCWD tRWD tAWD tCWL tRWL tWP tDS tDH tOEH Parameter Read write/read modify write cycle time M5M44800C-5,-5S M5M44800C-6,-6S M5M44800C-7,-7S Unit (Note 22) ns ns 10000 10000 10000 RAS low pulse width 10000 10000 10000 ns CAS low pulse width CAS hold time after RAS low 86 100 120 ns ns RAS hold time after CAS low 49 55 70 0 0 0 Read setup time before CAS low ns (Note 23) 31 35 45 Delay time, CAS low to W low ns (Note 23) 68 80 95 Delay time, RAS low to W low ns (Note 23) Delay time, address to W low 43 50 60 ns 13 15 20 ns CAS hold time after W low 13 15 20 ns RAS hold time after W low ns 8 10 15 Write pulse width ns 0 0 0 Data setup time before CAS low or W low ns Data hold time after CAS low or W low 8 10 15 13 15 20 ns OE hold time after W low Note 22: tRWC is specified as tRWC(min)=tRAC(max)+tODD(min)+tRWL(min)+tRP(min)+4tT. Note 23: tWCS, tCWD, tRWD and tAWD and, tCPWD are specified as reference points only. If tWCS tWCS(min) the cycle is an early write cycle and the DQ pins will remain high impedance throughout the entire cycle. If tCWD tCWD(min), tRWD tRWD(min), tAWD tAWD(min) and tCPWD tCPWD(min) (for fast page mode cycle only), the cycle is a read-modify-write cycle and the DQ will contain the data read from the selected address. If neither of the above condition (delayed write) of the DQ (at access time and until CAS or OE goes back to VIH ) is indeterminate. Min 126 86 49 Max Min 150 100 55 Max Min 180 120 70 Max 6 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Fast Page Mode Cycle (Read, Early Write, Read-Write, Read-Modify-Write Cycle) Symbol tPC tPRWC tRAS tCP tCPRH tCPWD Parameter Fast page mode read/write cycle time Fast page mode read write/read modify write cycle time (Note 25) RAS low pulse width for read or write cycle (Note 26) CAS high pulse width RAS hold time after CAS precharge (Note 23) Delay time, CAS precharge to W low (Note 24) Limits M5M44800C-5,-5S M5M44800C-6,-6S M5M44800C-7,-7S Unit ns ns ns ns ns ns Min 35 71 85 8 30 48 Max 100000 12 Min 40 80 100 10 35 55 Max Min 45 95 115 10 40 65 Max 100000 15 100000 15 Note 24: All previously specified timing requirements and switching characteristics are applicable to their respective Fast page mode cycle. Note 25: tRAS(min) is specified as two cycles of CAS input are performed. Note 26: tCP(max) is specified as a reference point only. CAS before RAS Refresh Cycle, Extended Refresh Cycle * Symbol tCSR tCHR tCAS Parameter CAS setup time before RAS low CAS hold time after RAS low CAS low pulse width (Note 27) Limits M5M44800C-5,-5S M5M44800C-6,-6S M5M44800C-7,-7S Unit ns ns ns Min 5 10 20 Max Min 5 10 20 Max Min 5 15 25 Max Note 27: Eight or more CAS before RAS cycles instead of eight RAS cycles are necessary for proper operation of CAS before RAS refresh mode. Self Refresh Cycle * Symbol tRASS tRPS tCHS (Note 28) Limits Parameter CBR self refresh RAS low pulse width CBR self refresh RAS high precharge time CBR self refresh CAS hold time M5M44800C-5,-5S M5M44800C-6,-6S M5M44800C-7,-7S Unit s ns ns Min 100 90 -50 Max Min 100 110 -50 Max Min 100 130 -50 Max 7 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Timing Diagrams Read Cycle (Note 29) tRC tRAS VIH RAS VIL tCSH tCRP VIH VIL tRAD tASR A0~A9 VIH VIL tRAH tASC tCAH ROW ADDRESS tRP tRCD tCAS tRSH tCRP CAS tRAL tASR ROW ADDRESS COLUMN ADDRESS tRCS VIH W VIL tDZC DQ1~DQ8 (INPUTS) VIH VIL tCAC tAA tCLZ VOH DQ1~DQ8 (OUTPUTS) VOL Hi-Z DATA VALID Hi-Z tRRH tRCH tCDD tOFF Hi-Z tRAC tDZO VIH OE VIL tORH tOEA tOCH tOEZ tODD Note 29 Indicates the don't care input. VIH(min)VINVIH(max) or VIL(min)VINVIL(max) Indicates the invalid output. 8 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Write Cycle (Early write) tWC tRAS RAS VIH VIL tCSH tCRP VIH VIL tASR VIH VIL tRAH tASC tCAH COLUMN ADDRESS tRP tRCD tRSH tCAS tCRP CAS tASR A0~A9 ROW ADDRESS ROW ADDRESS tWCS VIH W VIL tDS DQ1~DQ8 (INPUTS) VIH tWCH tDH DATA VALID VIL VOH DQ1~DQ8 (OUTPUTS) VOL Hi-Z VIH OE VIL 9 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Write Cycle (Delayed write) tWC tRAS RAS VIH VIL tRP tCSH tCRP tRCD tCAS tRSH tCRP CAS VIH VIL tASR VIH VIL tRAH tASC tCAH tASR ROW ADDRESS A0~A9 ROW ADDRESS COLUMN ADDRESS tCWL tRCS VIH W VIL tRWL tWP tWCH tDZO DQ1~DQ8 (INPUTS) VIH VIL Hi-Z tDS tDH DATA VALID tCLZ VOH DQ1~DQ8 (OUTPUTS) VOL Hi-Z Hi-Z tDZO VIH OE VIL tOEZ tODD tOEH 10 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Read-Write, Read-Modify-Write Cycle tRWC tRAS VIH RAS VIL tCRP tCSH tRCD tRSH tCAS tCRP tRP CAS VIH VIL tASR tRAH tRAD tASC tCAH tASR A0~A9 VIH VIL ROW ADDRESS COLUMN ADDRESS ROW ADDRESS tRCS VIH VIL tDZC DQ1~DQ8 (INPUTS) VIH VIL Hi-Z tAWD tCWD tRWD tCWL tRWL tWP W tDS tDH DATA VALID tCAC tAA tCLZ Hi-Z DATA VALID Hi-Z VOH DQ1~DQ8 (OUTPUTS) VOL tRAC tDZO VIH OE VIL tODD tOEA tOEZ tOEH 11 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM RAS-only Refresh Cycle tRC tRAS VIH RAS VIL tCRP VIH VIL tASR tRAH tASR tRPC tCRP tRP CAS A0~A9 VIH VIL ROW ADDRESS ROW ADDRESS VIH W VIL DQ1~DQ8 (INPUTS) VIH VIL VOH DQ1~DQ8 (OUTPUTS) VOL Hi-Z VIH OE VIL 12 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM CAS before RAS Refresh Cycle, Extended Refresh Cycle * tRC tRP VIH RAS VIL tRPC CAS VIH VIL tCPN VIH VIL tRCH VIH W VIL tCSR tCHR tRPC tCSR tCHR tRAS tRAS tRC tRP tRPC tCRP tASR A0~A9 ROW ADDRESS COLUMN ADDRESS tRCS tCDD DQ1~DQ8 (INPUTS) VIH VIL tOFF VOH DQ1~DQ8 (OUTPUTS) VOL tOEZ tODD VIH OE VIL Hi-Z Hi-Z 13 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Hidden Refresh Cycle (Read) (Note 30) tRC tRAS VIH RAS VIL tCRP VIH VIL tRAD tASR A0~A9 VIH VIL tRAH tASC tCAH COLUMN ADDRESS tRC tRP tRAS tRP tRCD tRSH tCHR CAS tASR ROW ADDRESS ROW ADDRESS tRCS tRAL VIH W VIL tDZC DQ1~DQ8 (INPUTS) VIH VIL tCAC tAA tCLZ Hi-Z DATA VALID Hi-Z tRRH tCDD tOFF Hi-Z VOH DQ1~DQ8 (OUTPUTS) VOL tRAC tDZO VIH OE VIL tOEA tORH tOEZ tODD Note 30: Early write, delayed write, read write or read modify write cycle is applicable instead of read cycle. Timing requirements and output state are the same as that of each cycle described above. 14 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Fast Page Mode Read Cycle tRAS VIH RAS VIL tCSH tCRP VIH VIL tRAD tASR A0~A9 VIH VIL tRAH tASC tCAH tASC tCAH tCPRH tASC tCAH tRCD tCAS tCP tPC tCAS tCP tRSH tCAS tRP CAS tASR ROW ADDRESS COLUMN ADDRESS1 COLUMN ADDRESS2 COLUMN ADDRESS3 ROW ADDRESS tRAL tRCS VIH W VIL tDZC DQ1~DQ8 (INPUTS) VIH VIL Hi-Z tRCH tRCS tRCH tRCS tRCH tRRH tDZC tDZC tCDD Hi-Z Hi-Z tCAC tAA tCLZ Hi-Z tCAC tOFF tAA tCLZ Hi-Z tOFF DATA VALID-2 tCAC tAA tCLZ Hi-Z tOFF DATA VALID-3 VOH DQ1~DQ8 (OUTPUTS) VOL tRAC tDZO tOEA DATA VALID-1 tCPA tOCH tOEZ tOEA tCPA tOEZ tOEA tOCH tOEZ tOCH VIH OE VIL tDZO tODD tODD tDZO tORH tODD 15 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Fast Page Mode Write Cycle (Early Write) tRAS VIH RAS VIL tCRP tRCD VIH VIL tASR VIH VIL tRAH tASC tCAH tASC tCAH tASC tCAH tCSH tCAS tCP tPC tCAS tCP tRSH tCAS tRP CAS tASR A0~A9 ROW ADDRESS COLUMN ADDRESS1 COLUMN ADDRESS2 COLUMN ADDRESS3 ROW ADDRESS tWCS VIH W VIL tDS DQ1~DQ8 (INPUTS) VIH VIL tWCH tWCS tWCH tWCS tWCH tDH tDS tDH tDS tDH DATA VALID-1 DATA VALID-2 DATA VALID-3 VOH DQ1~DQ8 (OUTPUTS) VOL Hi-Z VIH OE VIL 16 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Fast-Page Mode Write Cycle (Delayed Write) tRAS VIH RAS VIL tCRP VIH VIL tRWL tASR A0~A9 VIH VIL tRAH tASC tCAH COLUMN ADDRESS1 tRP tCSH tRCD tCAS tCP tRSH tPC tCAS CAS tASC tCAH tCWL tASR ROW ADDRESS ROW ADDRESS COLUMN ADDRESS2 tRCS VIH W VIL tWCH tDZC DQ1~DQ8 (INPUTS) VIH VIL Hi-Z tCWL tWP tRCS tWP tWCH tDH DATA VALID-1 tDS tDZC tDS Hi-Z tDH DATA VALID-2 tCLZ VOH DQ1~DQ8 (OUTPUTS) VOL Hi-Z Hi-Z tCLZ Hi-Z tOEZ tDZO VIH OE VIL tODD tDZO tOEZ tODD tOEH 17 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Fast Page Mode Read-Write, Read-Modify-Write Cycle tRAS VIH RAS VIL tCSH tCRP CAS VIH VIL tASR VIH VIL tRAD tRAH tASC tCAH tASC tCAH tCWL tRCD tCAS tCP tPRWC tCAS tRP tRWL tASR ROW ADDRESS A0~A9 ROW ADDRESS COLUMN ADDRESS1 COLUMN ADDRESS2 tAWD tRCS VIH W VIL tRWD tDZC DQ1~DQ8 (INPUTS) VIH VIL Hi-Z tCWD tCWL tWP tAWD tRCS tCWD tWP tWCH tCPWD tDS tCAC tAA tCLZ tDH DATA VALID-1 tWCH tDH DATA VALID-2 tDZC Hi-Z tDS tCAC tAA tCLZ DATA VALID-1 VOH DQ1~DQ8 (OUTPUTS) VOL Hi-Z Hi-Z DATA VALID-2 Hi-Z tRAC tDZO VIH OE VIL tOEA tODD tOEZ tDZO tCPA tOEA tODD tOEZ tOEH 18 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Self Refresh Cycle * (Note 28) tRP VIH RAS VIL tRPC CAS VIH VIL tCPN VIH VIL tRCH VIH W VIL tCDD DQ1~DQ8 (INPUTS) VIH VIL tOFF VOH DQ1~DQ8 (OUTPUTS) VOL tOEZ tODD VIH OE VIL Hi-Z tRASS tRPS tRPC tCSR tCHS tCRP tASR COLUMN ROW ADDRESS ADDRESS A0~A9 tRCS Hi-Z 19 M5M44800CJ,TP-5,-5S:Under development MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM Note 28:Self refresh sequence Two refreshing methods should be used properly depending on the low pulse width(tRASS) of RAS signal during self refresh period. 1. Distributed refresh during Read/Write operation (A) Timing diagram Read/Write Cycle Self Refresh Cycle Read/Write Cycle tNSD RAS last refresh cycle tRASS100s tSND first refresh cycle Table 2 Read/Write Cycle CBR distributed refresh RAS only distributed refresh Read/Write Self Refresh tNSD125s tNSD16s Self Refresh Read/Write tSND125s tSND16s (B) Definition of distributed refresh tREF tREF/1024 tREF/1024 RAS refresh cycle read/write cycles refresh cycle refresh cycle read/write cycles Definition of CBR distributed refresh (Including extended refresh) The CBR distributed refresh performs more than 1024 constant period (125s max.) CBR cycles within 128ms. Definition of RAS only distributed refresh All combinations of nine row address signals (A0~A9) are selected during 1024 constant period (16s max.) RAS only refresh cycles within 16.4ms. Switching from self refresh operation to read/write operation. The time interval from the rising edge of RAS signal at the end of self refresh operation to the falling edge of RAS signal in the first CBR refresh cycle during read/write operation period should be set within tSND (shown in table 2) 1.2 RAS only distributed refresh Note: Hidden refresh may be used instead of CBR refresh. RAS/CAS refresh may be used instead of RAS only refresh. 1.1 CBR distributed refresh Switching from read/write operation to self refresh operation. The time interval from the falling edge of RAS signal in the last CBR refresh cycle during read/write operation period to the falling edge of RAS signal at the start of self refresh operation should be set within tNSD (shown in table 2). 20 M5M44800CJ,TP-5,-5S:Under development Switching from read/write operation to self refresh operation. The time interval tNSD from the falling edge of RAS signal in the last RAS only refresh cycle during read/write operation period to the falling edge of RAS signal at the start of self refresh operation should be set within 16s. Switching from self refresh operation to read/write operation. The time interval tSND from the rising edge of RAS signal at the end of self refresh operation to the falling edge of RAS signal in the first CBR refresh cycle during read/write operation period should be set within 16s. MITSUBISHI LSIs M5M44800CJ,TP-5,-6,-7,-5S,-6S,-7S FAST PAGE MODE 4194304-BIT (524288-WORD BY 8-BIT) DYNAMIC RAM 2. Burst refresh during Read/Write operation (A) Timing diagram Read/Write Self Refresh Read/Write tNSB tRASS100s tSNB RAS first refresh cycles refresh cycles 1023 cycles refresh cycles 1023 cycles last refresh cycles Table 3 Read/Write Cycle CBR burst refresh RAS only burst refresh Read/Write Self Refresh tNSB16.4ms Self Refresh Read/Write tSNB16.4ms tNSB+tSNB16.4ms (B) Definition of burst refresh 16.4ms RAS refresh cycles 1024 cycles read/write cycles Definition of CBR burst refresh The CBR burst refresh performs more than 1024 continuous CBR cycles within 16.4ms. Definition of RAS only burst refresh All combination of nine row address signals (A0~A9) are selected during 1024 continuous RAS only refresh cycles within 16.4ms. 2.1 CBR burst refresh Switching from read/write operation to self refresh operation. The time interval tNSB from the falling edge of RAS signal in the first CBR refresh cycle during read/write operation period to the falling edge of RAS signal at the start of self refresh operation should be set within 16.4ms. Switching from self refresh operation to read/write operation. The time interval tSNB from the rising edge of RAS signal at the end of self refresh operation to the falling edge of RAS signal in the last CBR refresh cycle during read/write operation period should be set within 16.4ms. 21 M5M44800CJ,TP-5,-5S:Under development 2.2 RAS only burst refresh Switching from read/write operation to self refresh operation. The time interval from the falling edge of RAS signal in the first RAS only refresh cycle during read/write operation period to the falling edge of RAS signal at the start of self refresh operation should be set within tNSB (shown in table 3). Switching from self refresh operation to read / write operation. The time interval from the rising edge of RAS signal at the end of self refresh operation to the falling edge of RAS signal in the last RAS only refresh cycle during read/write operation period should be set within tSNB (shown in table 3). |
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