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P2V28S20DTP-7

P2V28S20DTP-7

  • 厂商:

    VML(世界先进)

  • 封装:

  • 描述:

    P2V28S20DTP-7 - 128Mb SDRAM Specification - Vanguard International Semiconductor

  • 数据手册
  • 价格&库存
P2V28S20DTP-7 数据手册
128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) 128Mb SDRAM Specification P2V28S20DTP-7,-75,-8 P2V28S30DTP-7,-75,-8 P2V28S40DTP-7,-75,-8 MIRA TECHNOLOGY INC. 8F., 68, SEC.3, NANKING E. RD. , TAIPEI, TAIWAN, R.O.C. TEL:886-2-25170055.25170066 FAX:886-2-25174575 JULY.2000 Rev.2.2 128Mb Synchronous DRAM 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 P2V28S30ATP-7,-75,-8 P2V28S40ATP-7,-75,-8 PRELIMINARY (4-BANK x 8,388,608-WORD x 4-BIT) (4-BANK x 4,194,304-WORD x 8-BIT) (4-BANK x 2,097,152-WORD x 16-BIT) P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Some of contents are described for general products and are subject to change without notice. DESCRIPTION P2V28S20ATP is organized as 4-bank x 8,388,608-word x 4-bit Synchronous DRAM with LVTTL interface and P2V28S30ATP is organized as 4-bank x 4,194,304-word x 8-bit and P2V28S40ATP is organized as 4-bank x 2,097, 152-word x 16-bit. All inputs and outputs are referenced to the rising edge of CLK. P2V28S20ATP,P2V28S30ATP and P2V28S40ATP achieve very high speed data rates up to 166MHz, and are suitable for main memories or graphic memories in computer systems. FEATURES ITEM tCLK tRAS tRCD tAC tRC Icc1 Clock Cycle Time (Min.) CL=2 CL=3 -7 7ns 45ns CL=2 CL=3 V28S20D 20ns 5.4ns 63ns 85mA 85mA 85mA 1mA P2V28S20/30/40ATP -75 -8 10ns 7.5ns 45ns 20ns 6ns 5.4ns 67.5ns 85mA 85mA 85mA 1mA 10ns 8ns 48ns 20ns 6ns 6ns 70ns 85mA 85mA 85mA 1mA Active to Precharge Command Period (Min.) (Min.) Row to Column Delay Access Time from CLK Ref /Active Command Period Operation Current (Single Bank) (Max.) (Min.) (Max.) V28S30D V28S40D -7,-75,-8 Icc6 Self Refresh Current (Max.) - Single 3.3V ±0.3V power supply - Max. Clock frequency -7:143MHz/-75:133MHz/-8:100MHz - Fully synchronous operation referenced to clock rising edge - 4-bank operation controlled by BA0,BA1(Bank Address) - /CAS latency- 2/3 (programmable) - Burst length- 1/2/4/8/FP (programmable) - Burst type- Sequential and interleave burst (programmable) - Byte Control- DQML and DQMU (P2V28S40ATP) - Random column access - Auto precharge / All bank precharge controlled by A10 - Auto and self refresh - 4096 refresh cycles /64ms - LVTTL Interface - Package P2V28S20ATP/30ATP/40ATP 400-mil, 54-pin Thin Small Outline (TSOP II) with 0.8mm lead pitch JULY.2000 Page-1 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) PIN CONFIGURATION (TOP VIEW) P2V28S20ATP P2V28S30ATP P2V28S40ATP PIN CONFIGURATION (TOP VIEW) Vdd NC VddQ NC DQ0 VssQ NC NC VddQ NC DQ1 VssQ NC Vdd NC /WE /CAS /RAS /CS BA0(A13) BA1(A12) A10(AP) A0 A1 A2 A3 Vdd Vdd DQ0 VddQ NC DQ1 VssQ NC DQ2 VddQ NC DQ3 VssQ NC Vdd NC /WE /CAS /RAS /CS BA0(A13) BA1(A12) A10(AP) A0 A1 A2 A3 Vdd Vdd DQ0 VddQ DQ1 DQ2 VssQ DQ3 DQ4 VddQ DQ5 DQ6 VssQ DQ7 Vdd DQML /WE /CAS /RAS /CS BA0(A13) BA1(A12) A10(AP) A0 A1 A2 A3 Vdd 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 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 Vss DQ15 VssQ DQ14 DQ13 VddQ DQ12 DQ11 VssQ DQ10 DQ9 VddQ DQ8 Vss NC DQMU CLK CKE NC A11 A9 A8 A7 A6 A5 A4 Vss Vss DQ7 VssQ NC DQ6 VddQ NC DQ5 VssQ NC DQ4 VddQ NC Vss NC DQM CLK CKE NC A11 A9 A8 A7 A6 A5 A4 Vss Vss NC VssQ NC DQ3 VddQ NC NC VssQ NC DQ2 VddQ NC Vss NC DQM CLK CKE NC A11 A9 A8 A7 A6 A5 A4 Vss 400mil 54pin TSOP(II) CLK CKE /CS /RAS /CAS /WE DQ0-15 : Master Clock : Clock Enable : Chip Select : Row Address Strobe : Column Address Strobe : Write Enable : Data I/O DQM A0-11 BA0,1 Vdd VddQ Vss VssQ : Output Disable / Write Mask : Address Input : Bank Address : Power Supply : Power Supply for Output : Ground : Ground for Output JULY.2000 Page-2 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) BLOCK DIAGRAM DQ0-7 I/O Buffer Memory Array 4 096 x1024 x8 Cell Array Memory Array 4096 x1024 x8 Cell Array Memory Array 4096 x1024 x8 Cell Array Memory Array 4096 x1024 x8 Cell Array Bank #0 Bank #1 Bank #2 Bank #3 Mode Register Control Circuitry Address Buffer Clock Buffer Control Signal Buffer A0-11 BA0,1 CLK CKE /CS /RAS /CAS /WE DQM Note:This figure shows the P2V28S30ATP The A2V28S20ATP configuration is 4096x2048x4 of cell array and DQ0-3 The A2V28S40ATP configuration is 4069x512x16 of cell array and DQ0-15 Type Designation Code P2 V 28 S 3 0 A TP -8 Access Item -7 : 7 ns (143MHz/3-3-3) -75 : 7.5ns (100MHz/2-2-2 or 133MHz/3-3-3) -8 : 8 ns (100MHz/2-2-2 or 125MHz/3-3-3) TP : TSOP(II) A : 2nd generation 0 : Random Column 2 : x4, 3 : x8, 4: x16 Package Type Process Generation Function Organization Synchronous DRAM Density Interface PSC DRAM 128 :128Mbit V :LVTTL JULY.2000 Page-3 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) PIN FUNCTION CLK Input Master Clock: All other inputs are referenced to the rising edge of CLK Clock Enable: CKE controls internal clock.When CKE is low, internal clock for the following cycle is ceased. CKE is also used to select auto / self-refresh. After self-refresh mode is started, CKE becomes asynchronous input. Self-refresh is maintained as long as CKE is low. Chip Select: When /CS is high, any command means No Operation. Combination of /RAS, /CAS, /WE defines basic commands. A 0-11 specify the Row / Column Address in conjunction with BA0,1. The Row Address is specified by A0-11. The Column Address is specified by A0-9,11(x4)/A0-9(x8)/A0-8(x16). A10 is also used to indicate precharge option. When A10 is high at a read / write command, an auto precharge is performed. When A10 is high at a precharge command, all banks are precharged. Bank Address: BA0,1 specifies one of four banks to which a command is applied. BA0,1 must be set with ACT, PRE , READ , WRITE commands. C KE Input /CS /RAS, /CAS, /WE Input Input A0-11 Input BA0,1 DQ0-3(x4), DQ0-7(x8), DQ0-15(x16) DQM(x4,x8), DQMU/L(x16) V dd, Vss VddQ, VssQ Input I nput / Output D ata In and Data out are referenced to the rising edge of CLK. Din Mask / Output Disable: When DQM(U/L) is high in burst write, Din for the current cycle is masked. When DQM(U/L) is high in burst read, Dout is disabled at the next but one cycle. P ower Supply for the memory array and peripheral circuitry. Input Power Supply Power Supply VddQ and VssQ are supplied to the Output Buffers only. JULY.2000 Page-4 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) BASIC FUNCTIONS The P2V28S20 , 30 and 40ATP 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, /CS ,CKE and A10 are used as chip select, refresh opt ion, and precharge option, respectively . To know the detailed definition of commands, please see the command truth table. CLK /CS /RAS /CAS /WE CKE A10 Chip Select : L=select, H=deselect Command Command Command Refresh Option @ refresh command Precharge Option @ precharge or read/write command define basic command 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 =CKE =H] REFA command starts auto-refresh cycle. Refresh address including bank address are generated internally. After this command, the banks are precharged automatically. JULY.2000 Page-5 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) COMMAND TRUTH TABLE COMMAND Deselect No Operation Row Address Entry & Bank Active 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 MNEMONIC DESEL NOP ACT PRE PREA WRITE WRITE A READ READA REFA REFS CKE n-1 H H H H H H H H H H H L CKE n X X X X X X X X X H L H H X X /CS H L L L L L L L L L L H L L L /RAS /CAS X H L L L H H H H L L X H H L X H H H H L L L L L L X H H L /WE BA0,1 A1 1 X H H L L L L H H H H X H L L X X V V X V V V V X X X X X L X X V X X V V V V X X X X X L A1 0 X X V L H L H L H X X X X X L A0-9 X X V X X V V V V X X X X X V*1 Self-Refresh Exit REFSX L Burst Terminate Mode Register Set TBST MRS H H H=High Level, L=Low Level, V=Valid, X=Don't Care, n=CLK cycle number NOTE: 1. A7-A9 =0, A0-A6 =Mode Address JULY.2000 Page-6 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) FUNCTION TRUTH TABLE Current State /CS /RAS /CAS /WE Address IDLE H L L L L L L L X H H H L L L L X H H H H L L L L X H H L H H L L X H H L L H H L L X H L X H L H L X H L H L 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, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add Command Action DESEL NOP TBST READ / WRITE ACT PRE / PREA REFA MRS DESEL NOP TBST READ / READA WRITE / WRITEA ACT PRE / PREA REFA MRS NOP NOP ILLEGAL*2 ILLEGAL*2 Bank Active, Latch RA NOP*4 Auto-Refresh*5 Mode Register Set*5 NOP NOP NOP Begin Read, Latch CA, Determine Auto-Precharge Begin Write, Latch CA, Determine Auto-Precharge Bank Active / ILLEGAL*2 Precharge / Precharge All ILLEGAL ILLEGAL ROW ACTIVE H L L L L L L L L JULY.2000 Page-7 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) FUNCTION TRUTH TABLE (continued) Current State READ /CS H L L L L L L L L /RAS /CAS /WE Address X H H H H L L L L X H H H H L L L L X H H L L H H L L X H H L L H H L L X H L H L H L H L X H L H L H L H L 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 Command Action DESEL NOP TBST READ /READA WRITE / WRITEA ACT PRE / PREA REFA MRS DESEL NOP TBST READ / READA WRITE / WRITEA ACT PRE / PREA REFA MRS NOP (Continue Burst to END) NOP (Continue Burst to END) Terminate Burst Terminate Burst, Latch CA,Begin Read, Determine Auto-Precharge*3 Terminate Burst, Latch CA,Begin Write, Determine Auto-Precharge*3 Bank Active / ILLEGAL*2 Terminate Burst, Precharge ILLEGAL ILLEGAL NOP (Continue Burst to END) NOP (Continue Burst to END) Terminate Burst, Latch CA,Begin Terminate Burst, Latch CA,Begin Read, Determine Auto-Precharge*3 Terminate Burst, Latch CA,Begin Write, Determine Auto-Precharge*3 Bank Active / ILLEGAL*2 Terminate Burst, Precharge ILLEGAL ILLEGAL WRIT E H L L L L L L L L JULY.2000 Page-8 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) FUNCTION TRUTH TABLE (continued) Current State READ with AUTO PRECHARGE /CS H L L L L L L L L WRITE with AUTO PRECHARGE H L L L L L L L L /RAS /CAS /WE X H H H H L L L L X H H H H L L L L X H H L L H H L L X H H L L H H L L X H L H L H L H L X H L H L H L H L Address 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 Command DESEL NOP TBST READ / READA WRITE / WRITE A ACT PRE / PREA REFA MRS DESEL NOP TBST Action NOP (Continue Burst to END) NOP (Continue Burst to END) ILLEGAL ILLEGAL ILLEGAL Bank Active / ILLEGAL*2 ILLEGAL*2 ILLEGAL ILLEGAL NOP (Continue Burst to END) NOP (Continue Burst to END) ILLEGAL READ / ILLEGAL READA WRITE / ILLEGAL WRITEA ACT PRE / PREA REFA MRS Bank Active / ILLEGAL*2 ILLEGAL*2 ILLEGAL ILLEGAL JULY.2000 Page-9 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) FUNCTION TRUTH TABLE (continued) Current State PRE CHARGING /CS H L L L L L L L ROW ACTIVATING 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 Address 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 Command DESEL NOP TBST READ / WRITE ACT PRE / PREA REFA MRS DESEL NOP TBST READ / WRITE ACT PRE / PREA REFA MRS Action NOP (Idle after tRP) NOP (Idle after tRP) ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 NOP*4 (Idle after tRP) ILLEGAL ILLEGAL NOP (Row Active after tRCD) NOP (Row Active after tRCD) ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL ILLEGAL JULY.2000 Page-10 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) FUNCTION TRUTH TABLE (continued) Current State WRITE RECOVERING /CS H L L L L L L L REFRESHING 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 Address 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 Command DESEL NOP TBST READ / WRITE ACT PRE / PREA REFA MRS DESEL NOP TBST READ / WRITE ACT PRE / PREA REFA MRS Action NOP NOP ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL ILLEGAL NOP (Idle after tRC) NOP (Idle after tRC) ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL JULY.2000 Page-11 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) FUNCTION TRUTH TABLE (continued) Current State MODE REGISTER SETTING /CS H L L L L L L L /RAS /CAS /WE Address X H H H L L L L X H H L H H L L X H L X H L H L X X BA BA, CA, A10 BA, RA BA, A10 X Op-Code, Mode-Add Command DESEL NOP TBST READ / WRITE ACT PRE / PREA REFA MRS Action NOP (Idle after tRSC) NOP (Idle after tRSC) ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL JULY.2000 Page-12 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) FUNCTION TRUTH TABLE for CKE Current State SELFREFRESH*1 CKE n-1 H L L L L L L POWER DOWN H L L ALL BANKS IDLE*2 H H H H H H H L ANY STATE other than listed above H H L L CKE n X H H H H H L X H L H L L L L L L X H L H L /CS X H L L L L X X X X X L H L L L L X X X X X /RAS /CAS 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 /WE 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 Action 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 Power Down) 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 Susspend at Next Cycle*3 Exit CLK Susspend at Next Cycle*3 Maintain CLK Suspend ABBREVIATIONS: H=High Level, L=Low Level, X=Don't Care NOTES: 1. CKE Low to High transition will re-enable CLK 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. JULY.2000 Page-13 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) SIMPLIFIED STATE DIAGRAM SELF REFRESH REFS REFSX MODE REGISTER SET MRS REFA IDLE AUTO REFRESH CKEL CLK SUSPEND ACT CKEL CKEH CKEH POWER DOWN ROW ACTIVE TERM WRITE CKEL WRITEA READA READ WRITE TERM READ CKEL WRITE SUSPEND WRITE CKEH READ CKEH READ SUSPEND WRITEA WRITEA READA READA WRITEA SUSPEND CKEL CKEL WRITEA CKEH PRE PRE PRE READA CKEH READA SUSPEND POWER APPLIED POWER ON PRE PRE CHARGE Automatic Sequence Command Sequence JULY.2000 Page-14 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) POWER ON SEQUENCE Before starting normal operation, the following power on sequence is necessary to prevent a SDRAM from damaged or malfunctioning. 1. Apply power and start clock. Attempt to maintain CKE high, DQM high and NOP condition at the inputs. 2. Maintain stable power, stable clock, and NOP input conditions for a minimum of 200µs. 3. Issue precharge commands for all banks. (PRE or PREA) 4. After all banks become idle state (after tRP), issue 8 or more auto-refresh commands. 5. Issue a mode register set command to initialize the mode register. 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 are in idle state. After tRSC from a MRS command, the SDRAM is ready for new command. CLK /CS /RAS /CAS /WE BA0,1 A11-A0 V BA0 BA1 A1 1 A1 0 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 0 0 0 0 0 0 0 LTMODE BT BL BL 0 0 0 0 1 0 0 1 1 0 0 1 0 1 0 BT= 0 1 2 4 8 R R R FP BT= 1 1 2 4 8 R R R R CL 000 001 LATENCY MODE 0 0 1 1 1 1 1 1 0 0 1 1 0 1 0 1 0 1 /CAS LATENCY R R 2 3 R R R R R: Reserved for Future Use FP: Full Page BURST LENGTH 101 110 111 BURST TYPE 0 1 SEQUENTIAL INTERLEAVED JULY.2000 Page-15 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) CLK Command Address DQ CL= 3 BL= 4 Read Y Q0 Q1 Q2 Q3 Write Y D0 D1 D2 D3 /CAS Latency Burst Length Burst Type Burst Length Initial Address A2 0 0 0 0 1 1 1 1 A1 A0 0 0 1 1 0 0 1 1 0 0 1 1 0 1 0 1 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 0 1 0 1 0 1 0 1 0 1 JULY.2000 Page-16 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) OPERATIONAL DESCRIPTION BANK ACTIVATE The 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 addresses A0-11. The minimum activation interval between one bank and the other bank is tRRD. Maximum 2 ACT commands are allowed within tRC , although the number of banks which are active concurrently is not limited. 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 A0-A9(x4), A0-8(X8), A0-7 (X16) , 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, TBST, ACT) to the same bank is inhibited till the internal precharge is complete. The internal precharge starts at BL after READA. (Need to keep tRAS min.) The next ACT command can be issued after (BL + tRP) from the previous READA. 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=4, CL=3) CLK 2 ACT command / tRCmin tRCmin Command A0-9 A10 A11 BA0,1 DQ ACT tRRD Xa Xa Xa 00 ACT READ tRAS Y 0 Xb tRCD Xb Xb 01 00 Qa0 PRE tRP ACT Xb 1 Xb Xb 01 Qa1 Qa2 Qa3 Precharge all JULY.2000 Page-17 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Multi Bank Interleaving READ (BL=4, CL=3) CLK Command A0-9 A10 A11 BA0,1 DQ /CAS latency Burst Length ACT tRCD Xa Xa Xa 00 00 Y 0 Xb Xb Xb 10 Qa0 10 Qa1 00 Qa2 Qa3 Qb0 Qb1 Qb2 Y 0 0 READ ACT READ PRE READ with Auto-Precharge (BL=4, CL=3) CLK BL + tRP Command A0-9 A10 A11 BA0,1 DQ ACT tRCD Xa Xa Xa 00 READ BL Y 1 tRP ACT Xa Xa Xa 00 Qa0 Qa1 Qa2 Qa3 00 Internal precharge start READ Auto-Precharge Timing (BL=4) CLK Command CL=3 CL=2 DQ DQ Qa0 AC T READ BL Qa0 Qa1 Qa2 Qa3 Qa1 Qa2 Qa3 Internal Precharge Start Timing JULY.2000 Page-18 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) WRITE After tRCD from the bank activation, a WRITE command can be issued. 1st input data is set at the same cycle as the WRITE. Following (BL -1) data are written into the RAM, when the Burst Length is BL. The start address is specified by A0-A9(x4), A0-8(X8), A0-7(X16) 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 input data to the PRE command, the write recovery time (tWR) is required. When A10 is high at a WRITE command, the autoprecharge (WRITEA) is performed. Any command (READ, WRITE, PRE, TBST, ACT) to the same bank is inhibited till the internal precharge is complete. The internal precharge begins at tWR after the last input data cycle. (Need to keep tRAS min.) The next ACT command can be issued after tRP from the internal precharge timing. WRITE with Auto-Precharge (BL=4) CLK Command A0-9 A10 A11 BA0,1 DQ ACT tRCD Xa Xa Xa Xa Xa 00 00 Da0 Y 0 Xb Xb Xb 10 Da1 Da2 Da3 10 Db0 0 Write ACT tRCD Y 0 0 00 Db1 Db2 Db3 0 0 10 Write PRE PRE Multi Bank Interleaving WRITE (BL=4) CLK Command A0-9 A10 A11 BA0,1 DQ ACT tRCD Xa Xa Xa 00 00 tWR Da0 Da1 Da2 Da3 Internal precharge starts Y 1 Write tRP Xa Xa Xa 00 ACT JULY.2000 Page-19 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) 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 1 CLK.. Read Interrupted by Read (BL=4, CL=3) CLK Command A0-9 A10 A11 BA0,1 DQ 00 00 10 Qai0 Qaj0 01 Qaj1 Qbk0 Qbk1 Qbk2 Qal0 Qal1 Qal2 Qal3 READ READ Yi 0 Yj 0 READ Yk 0 0 READ Yl [ Read Interrupted by Write ] Burst read operation can be interrupted by write of any bank. Random column access is allowed. In this case, the DQ should be controlled adequately by using the DQM to prevent the bus contention. The output is disabled automatically 1 cycle after WRITE assertion. Read Interrupted by Write (BL=4, CL=3) CLK Command A0-9 A10 A11 BA0,1 DQM Q D Qai0 Daj0 Daj1 Daj2 Daj3 00 00 READ Yi 0 Write Yj 0 DQM control Write control JULY.2000 Page-20 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) [ 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=4. Read Interrupted by Precharge (BL=4) CLK Command DQ Command READ PRE Q0 Q1 Q2 READ PRE Q0 Q1 CL=3 DQ Command DQ READ PRE Q0 Command DQ Command READ Q0 PRE Q1 Q2 READ PRE Q0 Q1 CL=2 DQ Command DQ READ PRE Q0 JULY.2000 Page-21 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) [Read Interrupted by Burst Terminate] rupt the burst read operation and disable the data output. The terminated bank remains active. READ to TBST interval is minimum 1 CLK. A TBST command to Similarly to the precharge, a burst terminate command can inter- output disable latency is equivalent to the /CAS Latency. Read Interrupted by Terminate (BL=4) CLK Command DQ Command READ TBST Q0 Q1 Q2 READ TBST Q0 Q1 CL=3 DQ Command DQ READ TBST Q0 Command DQ Command READ Q0 TBST Q1 Q2 READ TBST Q0 Q1 CL=2 DQ Command DQ READ TBST Q0 JULY.2000 Page-22 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) [ Write Interrupted by Write ] Burst write operation can be interrupted by new write of any bank. Random column access is allowed. WRITE to WRITE interval is minimum 1 CLK. Write Interrupted by Write (CL=3,BL=4) CLK Command A0-9 A10 A11 BA0,1 DQ 00 Dai0 00 Daj0 Daj1 10 Dbk0 Dbk1 Dbk2 00 Dal0 Dal1 Dal2 Dal3 Write Write Yi 0 Yj 0 Write Yk 0 Write Yl 0 [ Write Interrupted by Read ] Burst write operation can be interrupted by read of the same or the other bank. Random column access is allowed. WRITE to READ interval is minimum 1 CLK. The input data on DQ at the interrupting READ cycle is "don't care". Write Interrupted by Read (CL=3,BL=4) CLK Command A0-9 A10 A11 BA0,1 DQM DQ Dai0 Qaj0 Qaj1 Dbk0 Dbk1 Qal0 00 00 10 00 Write READ Yi 0 Yj 0 Write Yk 0 READ Yl 0 JULY.2000 Page-23 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) [ Write Interrupted by Precharge ] Burst write operation can be interrupted by precharge of the same bank.Write recovery time(tWR) is required from the last data to PRE command. During write recovery, data inputs must be masked by DQM. Write Interrupted by Precharge (BL=4) CLK Command ACT Write PRE tRP ACT A0-9,11 Xa Ya Xa A10 0 0 0 0 BA0-1 DQM 00 00 00 00 tWR DQ Da 0 Da 1 [Write Interrupted by Burst Terminate] Burst terminate command can terminate burst write operation.In this case, the write recovery time is not required and the bank remains active. WRITE to TBST interval is minimum 1 CLK. Write Interrupted by Terminate (BL=4) CLK Command ACT Write TBST Write A0-9,11 Xa Ya Yb A10 0 0 0 BA0-1 00 00 00 DQ Da 0 Da 1 Db 0 Db 1 Db 2 Db 3 JULY.2000 Page-24 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) [Write with Auto-Precharge Interrupted by Write or Read to another Bank] Burst write with auto-precharge can be interrupted by write or read to another bank. Next ACT command can be issued after tRP. Auto-precharge interruption by a command to the same bank is inhibited. Write Interrupted by WRITE to another bank (BL=4) CLK Command Write Write BL tRP ACT A0-9,11 Ya Yb tWR Xa A10 1 0 Xa BA0-1 00 10 00 DQ Da 0 Da 1 Db 0 Db 1 Db 2 Db 3 activate auto-precharge interrupted Write Interrupted by READ to another bank (CL=2,BL=4) CLK Command Write Read BL tRP ACT A0-9,11 Ya Yb tWR Xa A10 1 0 Xa BA0-1 00 10 00 DQ Da 0 Da 1 interrupted Qb0 Qb1 Qb2 Qb3 activate auto-precharge JULY.2000 Page-25 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) [Read with Auto-Precharge Interrupted by Read to another Bank] Burst write with auto-precharge can be interrupted by write or read to another bank. Next ACT command can be issued after tRP. Auto-precharge interruption by a command to the same bank is inhibited. Read Interrupted by Read to another bank (CL=2,BL=4) CLK Command Read Read BL tRP ACT A0-9,11 Ya Yb Xa A10 1 0 Xa BA0-1 00 10 00 DQ Qa0 Qa1 Qb0 Qb1 Qb2 Qb3 auto-precharge interrupted activate [Full Page Burst] Full page burst length is available for only the sequential burst type. Full page burst read or write is repeated untill a Precharge or a Burst Terminate command is issued. In case of the full page burst, a read or write with auto-precharge command is illegal. [Single Write] When single write mode is set, burst length for write is always one, independently of Burst Length defined by (A2-0). JULY.2000 Page-26 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) 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 64M bit 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 tRC. Any command must not be supplied to the device before tRC from the REFA command. Auto-Refresh CLK /CS NOP or DESELECT /RAS /CAS /WE CKE A0-11 BA0,1 m inimum tRFC Auto Refresh on All Banks Auto Refresh on All Banks JULY.2000 Page-27 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) SELF REFRESH Self-refresh mode is entered by issuing a REFS command (/CS= /RAS= /CAS= L, /WE= H, CKE= L). Once the selfrefresh is initiated, it is maintained as long as CKE is kept low. During the self-refresh mode, CKE is asynchronous and the only enabled 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=H. After tRC from the 1st CLK egde following CKE=H, all banks are in the idle state and a new command can be issued, but DESEL or NOP commands must be asserted till then. Self-Refresh CLK Stable CLK /CS /RAS /CAS /WE CKE NOP new command A0-11 BA0,1 X 00 Self Refresh Entry Self Refresh Exit minimum tRFC for recovery JULY.2000 Page-28 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) CLK SUSPEND CKE controls the internal CLK at the following cycle. Figure below shows how CKE works. By negating CKE, the next internal CLK is suspended. The purpose of CLK suspend is power down, output suspend or input suspend. CKE is a synchronous input except during the self-refresh mode. CLK suspend can be performed either when the banks are active or idle. A command at the suspended cycle is ignored. ext.CLK tIH CKE tIS tIH tIS int.CLK Power Down by CKE CLK CKE Command PRE NOP NOP NOP Standby Power Down CKE Command ACT NOP NOP NOP Active Power Down DQ Suspend by CKE (CL=2) CLK CKE Command Write Read DQ D0 D1 D2 D3 Q0 Q1 Q2 Q3 JULY.2000 Page-29 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) DQM CONTROL DQM is a dual function signal defined as the data mask for writes and the output disable for reads. During writes, DQM(U,L) masks input data word by word. DQM(U,L) to write mask latency is 0. During reads, DQM(U,L) forces output to Hi-Z word by word. DQM(U,L) to output Hi-Z latency is 2. DQM Function(CL=3) CLK Command DQM Write READ DQ D0 D2 D3 Q0 Q1 Q3 masked by DQM(U,L)=H disabled by DQM(U,L)=H JULY.2000 Page-30 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) ABSOLUTE MAXIMUM 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 Conditions with respect to Vss with respect to VssQ with respect to Vss with respect to VssQ Ratings -0.5 - 4.6 -0.5 - 4.6 -0.5 - 4.6 -0.5 - 4.6 50 Unit V V V V mA mW ˚C ˚C Ta = 25˚C 1000 0 - 70 -65 - 150 RECOMMENDED OPERATING CONDITIONS (Ta=0 - 70 ˚C ,unless otherwise noted) Symbol Vdd Vss VddQ VssQ VIH*1 VIL*2 Parameter Supply Voltage Supply Voltage Supply Voltage for output Supply Voltage for output High-Level Input Voltage all inputs Low-level Input Voltage all inputs Limits Min. 3.0 0 3.0 0 2.0 -0.3 Typ. 3.3 0 3.3 0 Max. 3.6 Unit V V 3.6 0 VddQ +0.3 0.8 V V V V NOTES: 1. VIH(max)=5.5V for pulse width less than 10ns. 2. VIL(min)=-1.0V for pulse width less than 10ns. CAPACITANCE (Ta=0 -70˚C,Vdd=VddQ=3.3± 0 . 3 V , V s s = V s s Q = 0 V , u n l e s s o t h e r w i s e n o t e d ) Limits (max.) -75/-8 5.0 5.0 4.0 6.5 Symbol CI(A) CI(C) CI(K) CI/O Parameter Input Capacitance, address pin Input Capacitance, contorl pin Input Capacitance, CLK pin Input Capacitance, I/O pin Test Condition Limits (min.) 2.5 2.5 2.5 4.0 -7 3.8 3.8 Unit pF pF pF pF @ 1MHz 1.4V bias 200mV swing Vcc=3.3V 3.5 6.5 JULY.2000 Page-31 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) AVERAGE SUPPLY CURRENT from Vdd (Ta=0 - 70˚C, Vdd=VddQ=3.3±0.3V,Vss=VssQ=0V, unless otherwise noted) Organization Limits (max.) -7 -75 -8 ITEM Symbol Unit Operating current Precharge Standby current in Non-Power down mode Icc1 tRC=min, tCLK=min BL=1,IOL=0mA CKE=VILmax tCLK=15ns CKE=VIHmin CLK=VILmax(fixed) CKE=VIHmin tCLK=15ns(Note) CKE=VIHmin tCLK=VILmax(fixed) CKE=/CS=VIHmin tCLK=15ns(Note) CKE=VIHmin tCLK=VILmax(fixed) All Bank Active tCLK = min BL=4, CL=3, IOL=0mA x4/x8/x16 100 95 85 mA Icc2N x4/x8/x16 20 20 20 mA Icc2NS x4/x8/x16 15 15 15 mA Precharge Standby current in Power down mode Icc2P x4/x8/x16 2 2 2 mA Icc2PS x4/x8/x16 1 1 1 mA Icc3N x4/x8/x16 30 30 30 Active Standby current Icc3NS mA x4/x8/x16 25 140 25 130 25 120 mA Burst current Auto-refresh current Self-refresh current Icc4 x4/x8/x16 Icc5 Icc6 tRC=min, tCLK=min CKE < 0.2V x4/x8/x16 x4/x8/x16 7,7.5,8 130 1 130 1 130 1 mA mA NOTE: 1. Icc(max) is specified at the output open condition. 2. Input signals are changed one time during 30ns. AC OPERATING CONDITIONS AND CHARACTERISTICS (Ta=0 - 70˚C, Vdd=VddQ=3.3±0.3V,Vss=VssQ=0V, unless otherwise noted) Symbol Parameter High-Level Output Voltage (DC) Low-level Output Voltage (DC) Off-state Output Current Input Current Test Conditions Min. Limits Max. unit V 0.4 V µA µA VOH (DC) VOL (DC) IOZ II IOH=-2mA IOL= 2mA Q floating VO=0 -- VddQ VIH = 0 -- VddQ +0.3V 2.4 -5 -5 5 5 JULY.2000 Page-32 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) AC TIMING REQUIREMENTS (Ta=0 - 70˚C, Vdd=VddQ=3.3±0.3V,Vss=VssQ=0V, unless otherwise noted) Input Pulse Levels:0.8V-2.0V Input Timing Measurement Level:1.4V Limits Symbol tCLK Parameter Min. CLK cycle time CL=2 CL=3 7 2.5 2.5 1 1.5 0.8 63 70 20 45 20 14 14 14 -7 Max. Min. 10 7.5 2.5 2.5 10 1 1.3 0.8 67.5 75 20 100K 45 20 15 15 15 64 -75 Max. Min. 10 8 3 3 10 1 2 0.8 -8 Max. Unit ns ns ns ns 10 ns ns ns ns ns ns 100K ns ns ns ns ns 64 ms tCH tCL tT tIS tIH tRC tRFC tRCD tRAS tRP tWR tRRD tRSC tREF CLK High pulse width CLK Low pulse width Transition time of CLK Input Setup time Input Hold time Row Cycle time Refresh Cycle Time Row to Column Delay Row Active time Row Precharge time Write Recovery time Act to Act Delay time Mode Register Set Cycle time Refresh Interval time (all inputs) (all inputs) 07 80 20 100K 48 20 20 20 20 64 CLK 1.4V DQ 1.4V Any AC timing is referenced to the input signal passing through 1.4V. JULY.2000 Page-33 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) SWITCHING CHARACTERISTICS (Ta=0 - 70˚C, Vdd=VddQ=3.3±0.3V,Vss=VssQ=0V, unless otherwise noted) Limits S ymbol Parameter Min. CL=2 tAC Access time from CLK CL=3 tOH Output Hold time from CLK Delay time , output lowimpedance from CLK Delay time , output highimpedance from CLK CL=2 CL=3 2.7 0 2.7 5.4 5.4 3 3 0 3 5.4 -7 Max. Min. -7.5 Max. 6 5.4 3 3 0 3 6 Min. -8 Max. 6 6 ns ns ns ns ns ns *1 Unit Note tOLZ tOHZ NOTE: 1. If clock rising time is longer than 1ns,(tr/2-0.5ns) should be added to the parameter. Output Load Condition VOUT 50pF DQ 1.4V CLK 1.4V Output Timing Measurement Reference Point CLK tOLZ DQ 1.4V 1.4V tAC tOH tOHZ JULY.2000 Page-34 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Burst Write (single bank) @BL=4 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK tRC /CS tRAS tRP /RAS t RCD tRCD /CAS tWR tWR /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y X Y X X X X 0 0 0 0 0 0 D0 D0 D0 D0 D0 D0 D0 D0 ACT#0 WRITE#0 PRE#0 ACT # 0 WRITE#0 PRE#0 Italic parameter indicates minimum case JULY.2000 Page-35 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Burst Write (multi bank) @BL=4 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK tRC tRC /CS tRAS tRRD tRP /RAS tRCD tRCD tRCD /CAS tWR tWR /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y X Y X Y X X X X X X X X X 0 0 1 1 0 0 0 1 0 D0 D0 D0 D0 D1 D1 D1 D1 D0 D0 D0 D0 ACT#0 WRITE#0 ACT#1 PRE#0 ACT# 0 WRITE#0 ACT#1 PRE#0 WRITEA#1 (Auto-Precharge) Italic parameter indicates minimum case JULY.2000 Page-36 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Burst Read (single bank) @BL=4 CL=2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK tRC /CS tRAS tRP tRAS /RAS tRCD tRCD /CAS /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y X Y X X X X 0 0 0 0 0 0 Q0 Q0 Q0 Q0 Q0 Q0 Q0 Q0 ACT#0 READ# 0 PRE#0 ACT# 0 READ# 0 PRE#0 Italic parameter indicates minimum case JULY.2000 Page-37 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Burst Read (multiple bank) @BL=4 CL=2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK tRC tRC /CS tRRD tRAS /RAS tRCD tRCD tRCD /CAS /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y X Y X Y X X X X X X X X X 0 0 1 1 0 0 1 0 Q0 Q0 Q0 Q0 Q1 Q1 Q1 Q1 Q0 Q0 Q0 Q0 ACT#0 READA# 0 ACT#1 READA# 1 ACT# 0 READ# 0 ACT# 1 PRE#0 Italic parameter indicates minimum case JULY.2000 Page-38 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) W rite Interrupted by Write @BL=4 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK /CS tRRD /RAS tRCD /CAS tWR /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y X Y Y Y X X X X X X X 0 0 1 0 1 0 0 1 D0 D0 D0 D0 D0 D1 D1 D1 D0 D0 D0 D0 ACT#0 WRITE# 0 ACT#1 WRITE# 0 WRITEA# 1 interrupt interrupt other same bank bank WRITE# 0 interrupt other bank PRE#0 ACT# 1 Italic parameter indicates minimum case JULY.2000 Page-39 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Read Interrupted by Read @BL=4,CL=2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK /CS tRRD /RAS tRCD tRCD /CAS /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y X Y Y Y X X X X X X X 0 0 1 1 1 0 1 Q0 Q0 Q0 Q1 Q1 Q1 Q1 Q1 Q0 Q0 Q0 Q0 ACT#0 READ#0 ACT#1 READ#1 interrupt other bank READA# 1 interrupt same bank READ# 0 interrupt other bank ACT# 1 Italic parameter indicates minimum case JULY.2000 Page-40 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Write Interrupted by Read, Read Interrupted by Write @BL=4,CL=2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK /CS tRRD /RAS tRCD tRCD /CAS tWR /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X X Y Y Y X X X X 0 1 0 1 1 1 D0 D0 Q1 Q1 D1 D1 D1 D1 ACT#0 WRITE# 0 ACT#1 READ#1 WRITE# 1 PRE#1 Italic parameter indicates minimum case JULY.2000 Page-41 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Write/Read Terminated by Precharge @BL=4,CL=2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK tRC /CS tRP tRAS tRP /RAS tRCD tRCD /CAS tWR /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y X Y X X X X X X X 0 0 0 0 0 0 0 D0 D0 Q0 Q0 ACT#0 WRITE# 0 PRE#0 ACT#0 Te rminate READ# 0 PRE#0 ACT#0 Te rminate Italic parameter indicates minimum case JULY.2000 Page-42 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Write/Read Terminated by Burst Terminate @BL=4,CL=2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK /CS /RAS tRCD /CAS tWR /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y Y Y X X 0 0 0 0 0 D0 D0 Q0 Q0 D0 D0 D0 D0 ACT#0 WRITE# 0 TERM READ# 0 TERM WRITE#0 PRE#0 Italic parameter indicates minimum case JULY.2000 Page-43 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Single Write Burst Read @BL=4,CL=2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK /CS /RAS tRCD /CAS /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y Y X X 0 0 0 D0 Q0 Q0 Q0 Q0 ACT#0 WRITE# 0 READ# 0 Italic parameter indicates minimum case JULY.2000 Page-44 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Power-Up Sequesce and Intialize CLK 200µs /CS tRP tRFC tRFC tRSC /RAS /CAS /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ NOP Power On PRE ALL REFA REFA REFA MRS ACT# 0 MA X 0 X 0 X 0 0 Minimum 8 REFA cycles Italic parameter indicates minimum case JULY.2000 Page-45 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Auto Refresh 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK tRFC /CS tRP /RAS tRCD /CAS /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y X X 0 0 D0 D0 D0 D0 PRE ALL REFA ACT#0 WRITE#0 All bank m ust be idle before REFA is issued. s Italic parameter indicates minimum case JULY.2000 Page-46 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Self Refresh 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK tRFC /CS tRP /RAS /CAS /WE CKE DQM A0-8, A10 A9,11 BA0,1 DQ X X X 0 PRE ALL Self Refres h Entry All bank m ust be idle before REFS is issued. s Self Refres h Exit ACT#0 Italic parameter indicates minimum case JULY.2000 Page-47 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) CLK Suspension @BL=4,CL=2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK /CS /RAS tRCD /CAS /WE CKE DQM A0-8 A10 A9,11 BA0,1 DQ X Y Y X X 0 0 0 D0 D0 D0 D0 Q0 Q0 Q0 Q0 ACT#0 WRITE# 0 internal CLK suspended READ# 0 internal CLK suspended Italic parameter indicates minimum case JULY.2000 Page-48 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) Power Down 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CLK /CS /RAS /CAS /WE Standby Power Down Active Power Down CKE DQM A0-8 A10 A9,11 BA0,1 DQ X X X 0 PRE ALL ACT# 0 JULY.2000 Page-49 Rev.2.2 128Mb Synchronous DRAM P2V28S20ATP-7,-75,-8 (4-BANK x 8,388,608-WORD x 4-BIT) P2V28S30ATP-7,-75,-8 (4-BANK x 4,194,304-WORD x 8-BIT) P2V28S40ATP-7,-75,-8 (4-BANK x 2,097,152-WORD x 16-BIT) DQM Write Mask @BL=4 JULY.2000 Page-50 Rev.2.2
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