0
登录后你可以
  • 下载海量资料
  • 学习在线课程
  • 观看技术视频
  • 写文章/发帖/加入社区
会员中心
创作中心
发布
  • 发文章

  • 发资料

  • 发帖

  • 提问

  • 发视频

创作活动
AW12P7218BLK0M

AW12P7218BLK0M

  • 厂商:

    ATPELECTRONICS

  • 封装:

    SODIMM204

  • 描述:

    MODULE DDR3L SDRAM 4GB 204SODIMM

  • 数据手册
  • 价格&库存
AW12P7218BLK0M 数据手册
Electronics, Inc. 2590 North First Street, San Jose, CA 95131, U.S.A. Tel: 408-732-5000 Fax: 408-732-5055 http://www.atpinc.com Rev. Date: Nov. 26, 2015 ATP AW12P7218BLK0M 4GB DDR3- 1600 UNBUFFERED ECC SODIMM DESCRIPTION The ATP AW12P7218BLK0M is a high performance 4GB DDR3-1600 Unbuffered ECC SODIMM SDRAM memory module. It is organized as 512M x 72 in a 204-pin Small Outline Dual-In-Line Memory Module (SODIMM) package. The module utilizes nine 512Mx8 DDR3 SDRAMs in FBGA package. The module consists of a 256-byte serial EEPROM, which contains the module configuration information. KEY FEATURES  High Density: 4GB (512M x 72)  DIMM Rank: 1 Rank  Cycle Time: 1.25ns (800MHz)  CAS Latency: 11  Power supply: 1.35V(1.28V~1.45V) Backward compatible to 1.5V ±0.075V  Internal self calibration through ZQ  On-board I2C temperature sensor with integrated (SPD) EEPROM  Burst lengths: 8  Auto & Self refresh Part No. AW12P7218BLK0M        Asynchronous Reset Minimum Thickness of Golden Finger: 30 Micro-inch 7.8 s refresh interval at lower than TCASE 85°C, 3.9s refresh interval at 85°C < TCASE < 95 °C Dynamic On Die Termination Fly-by topology PCB Height: 1.18 inches RoHS compliant Max Freq 800MHz (1.25ns@CL=11) x2 Interface SSTL_15 PIN DESCRIPTION Pin Name Description Pin Name Description A0~A9, A11~A15 A10/AP BA0~BA2 Address Inputs Address Input/Auto precharge SDRAM Bank Address Column Address Strobe Clock Inputs, positive line Clock Inputs, negative line Clock Enables Data Masks Data Input/Output Data strobes Data strobes, negative line ODT0 RAS CS0 SA0~SA1 SCL SDA VDD VDDSPD VSS RESET WE Event NC On die termination Row Address Strobe Chip Selects SPD address Serial Presence Detect (SPD) Clock Input SPD Data Input/Output Core Power SPD Power Ground This signal resets the DDR3 SDRAM Write Enable CAS CK0~CK1 CK0 ~ CK1 CKE0 DM0~DM8 DQ0~DQ63 DQS0~DQS8 DQS0 ~ DQS8 VREFDQ VREFCA A12/ BC VTT CB0~CB7 Input/Output Reference Address Input/Burst chop Termination voltage DIMM ECC Check bits TEST Your Ultimate Memory Solution! Page 1 of 7 Temperature sensor Event output No Connect Logic Analyzer specific test pin (No connect on SO-DIMM) ATP AW12P7218BLK0M PIN ASSIGNMENT No. Designation No. Designation No. Designation No. Designation 1 3 5 7 9 VREFDQ VSS DQ0 DQ1 VSS 2 4 6 8 10 VSS DQ4 DQ5 VSS A1 A0 VDD CK0 106 108 110 112 114 A2 BA1 VDD CK1 DQS0 105 107 109 111 113 11 13 15 17 DM0 DQ2 DQ3 VSS 12 14 16 18 DQS0 VSS DQ6 DQ7 115 117 119 121 VDD A10/AP BA0 19 21 DQ8 DQ9 20 22 VSS DQ12 123 125 23 VSS 24 DQ13 127 25 26 VSS 27 29 DQS1 DQS1 VSS 28 30 DM1 31 33 35 DQ10 DQ11 VSS 37 39 41 43 45 47 49 DQ16 DQ17 VSS DQS2 DQS2 VSS DQ18 51 53 55 57 59 CK0 WE VDD 116 118 120 122 CK1 VDD NC NC RAS VDD ODT0 CAS 124 126 CS0 NC 128 NC 129 130 A13 131 133 VDD DQ32 132 134 VDD DQ36 32 34 36 RESET VSS DQ14 DQ15 135 137 139 DQ33 VSS DQ37 VSS DM4 38 40 42 44 VSS DQ20 DQ21 DM2 141 143 145 147 DQS4 DQS4 VSS DQ34 DQ35 136 138 140 142 144 146 148 DQ38 DQ39 VSS DQ44 46 48 50 VSS DQ22 DQ23 149 151 153 VSS DQ40 DQ41 150 152 154 DQ45 VSS DQ19 VSS DQ24 DQ25 DM3 52 54 56 58 60 VSS DQ28 DQ29 VSS VSS DM5 DQ42 DQ43 VSS 156 158 160 162 164 DQS5 DQS5 VSS DQ46 DQ47 VSS 61 63 65 67 VSS DQ26 DQ27 VSS 62 64 66 68 DQS3 DQS3 VSS DQ30 DQ31 155 157 159 161 163 165 167 169 171 DQ48 DQ49 VSS 166 168 170 172 DQ52 DQ53 VSS DM6 69 71 CB0 CB1 70 72 VSS CB4 73 75 VSS 74 76 174 176 178 180 182 DQ54 DQ55 VSS DQ60 DQ61 VSS CB5 DM8 173 175 177 179 181 DQS6 DQS6 VSS DQ50 DQ51 VSS 78 80 VSS CB6 183 185 DQ56 DQ57 184 186 77 79 DQS8 DQS8 VSS 81 83 85 87 89 91 CB2 CB3 VDD CKE0 CKE1 BA2 82 84 86 88 90 92 CB7 VREFCA VDD A15 A14 A9 187 189 191 193 195 197 VSS DM7 DQ58 DQ59 VSS SA0 188 190 192 194 196 198 93 95 VDD 94 96 VDD A11 199 201 VDDSPD SA1 200 202 SCL 98 100 102 104 A7 A6 VDD A4 203 VTT 204 VTT 97 99 101 103 A12/ BC A8 A5 VDD A3 DQS7 DQS7 VSS DQ62 DQ63 VSS Event SDA Note:1. This address might be connected to NC balls of the DRAMs (depending on density); either way they will be connected to the termination resistor. Your Ultimate Memory Solution! 2590 North First Street, San Jose, CA 95131, USA. http://www.atpinc.com Tel. (408) 732-5000 Fax (408) 732-5055 Page 2 of 7 ATP AW12P7218BLK0M CS0 CAS RAS WE ODT0 CK0 CK0 CKE0 A[13:0]/BA[2:0] FUNCTIONAL BLOCK DIAGRAM DQS DQS DM DQ0~7 U1 CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQ0~7 DQS4 DQS4 DM4 ZQ DQ32~39 DQS DQS DM DQ0~7 U8 CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQS0 DQS0 DM0 ZQ Serial PD w/ integrated Thermal sensor Integrated Thermal sensor in SPD SDA SCL CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQ0~7 DQS5 DQS5 DM5 ZQ DQS2 DQS2 DM2 DQS DQS DM DQS3 DQS3 DM3 DQ0~7 ZQ DQS DQS DM DQ0~7 U4 DQ48~55 DQS7 DQS7 DM7 CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQ24~31 U3 DQS6 DQS6 DM6 CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQ16~23 DQ40~47 ZQ DQ56~63 DQS DQS DM DQ0~7 ZQ DQS DQS DM DQ0~7 ZQ DQS DQS DM DQ0~7 ZQ U6 U5 U9 CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQ0~7 ZQ SA0 SA1 SA2 VDD VTT Your Ultimate Memory Solution! 2590 North First Street, San Jose, CA 95131, USA. http://www.atpinc.com Tel. (408) 732-5000 Fax (408) 732-5055 Page 3 of 7 SPD DDR3 SDRAMS U1-U9 VREFDQ DDR3 SDRAMS U1-U9 VREFCA DDR3 SDRAMS U1-U9 VTT DDR3 SDRAMS U1-U9 VSS DDR3 SDRAMS U1-U9 BA0-BA2 DDR3 SDRAMS U1-U9 A0-A14 RAS DDR3 SDRAMS U1-U9 CAS DDR3 SDRAMS U1-U9 WE RESET CK0 CK1 CB0~CB7 A2 VDD CK0 DQS DQS DM A1 VDDSPD CK1 DQS8 DQS8 DM8 EVENT A0 U7 CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQ8~15 U2 CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQS DQS DM CS CAS RAS WE ODT CK CK CKE A[13:0]/BA[2:0] DQS1 DQS1 DM1 EVENT DDR3 SDRAMS U1-U9 DDR3 SDRAMS U1-U9 DDR3 SDRAMS U1-U9 DDR3 SDRAMS U1-U9 DDR3 SDRAMS U1-U9 ATP AW12P7218BLK0M ABSOLUTE MAXIMUM DC RATINGS Item Voltage on VDD pin relative to VSS Voltage on VDDQ pin relative to VSS Voltage on any pin relative to VSS Storage Temperature Operating Temperature Symbol Rating Units Notes VDD VDDQ VIN, VOUT TSTG TCASE -0.4V ~ 1.975V -0.4V ~ 1.975V -0.4V ~ 1.975V -55 to +100 0 to +95 V V V o C o C 1 1 1 1 1,2,3 Note: 1. Permanent device damage may occur if ABSOLUTE MAXIMUM RATINGS are exceeded. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. 2. It is the case surface temperature on the center/top side of the DRAM. For the measurement conditions, please refer to JESD51-2 standard. 3. At 85 - 95 oC operation temperature range, doubling refresh commands in frequency to a 32ms period ( Refresh interval =3.9 µs ) is required, and to enter to self refresh mode at this temperature range, an EMRS command is required to change internal refresh rate. AC & DC OPERATING CONDITIONS (SSTL-15) Recommended operating conditions Item Supply Voltage Supply Voltage for Output 4 VREF CA(DC) VREF DQ(DC) Input High Voltage (DC) Input High Voltage (AC) Input Low Voltage (DC) Input Low Voltage (AC) Symbol Min. Typical Max. Units VDD VDDQ I/O I/O VIH (DC) VIH (AC) VIL (DC) VIL (AC) 1.283 1.283 0.49 * VDD 0.49 * VDD VREF + 0.09 VREF + 0.135 VSS - 1.35 1.35 0.50 * VDD 0.50 * VDD - 1.45 1.45 0.51 * VDD 0.51 * VDD VDD VREF - 0.09 VREF - 0.135 V V V V V V V V Note: 1. The value of VREF may be selected by the user to provide optimum noise margin in the system. Typically the value of VREF is expected to be about 0.5 x VDDQ of the transmitting device and VREF is expected to track variations in VDDQ. 2. Peak to peak AC noise on VREF may not exceed 2% VREF (DC). 3. VTT of transmitting device must track VREF of receiving device. 4. AC parameters are measured with VDD, VDDQ and VDDL tied together. RELIABILITY MTBF @25 oC (Hours) 1 FIT @ 25 oC 2 MTBF @40 oC (Hours) 1 FIT @ 40 oC2 11,418,000 87 6,065,000 164 Note: 1. The Mean Time between Failures (MTBF) is calculated using a prediction methodology, Bellcore Prediction, which based on reliability data of the individual components in the module. It assumes nominal voltage, with all other parameters within specified range. 2. Failures per Billion Device-Hours Your Ultimate Memory Solution! 2590 North First Street, San Jose, CA 95131, USA. http://www.atpinc.com Tel. (408) 732-5000 Fax (408) 732-5055 Page 4 of 7 ATP AW12P7218BLK0M IDD SPECIFICATION PARAMETER & POWER CONSUMPTION (IDD values are for full operating range of Voltage and Temperature) Symbol Proposed Conditions Value Units Operating one bank active-precharge current; IDD0 CKE: High; External clock: On; tCK, nRC, nRAS, CL: see Timing table ; BL: 8; AL: 0;/ CS: High between ACT and PRE; Command, Address, Bank Address Inputs: partially toggling ; Data IO: FLOATING; DM:stable at 0; Bank Activity: Cycling with one bank active at a time: 0,0,1,1,2,2,...; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0; IDD1 CKE: High; External clock: On; tCK, nRC, nRAS, nRCD, CL: see Timing table ; BL: 8; AL: 0; /CS: High between ACT, RD and PRE; Command, Address, Bank Address Inputs, Data IO: partially toggling ; DM:stable at 0; Bank Activity: Cycling with one bank active at a time: 0,0,1,1,2,2,...; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0; IDD2P0 CKE: Low; External clock: On; tCK, CL: see Timing table ; BL: 8; AL: 0; /CS: stable at 1; Command, Address, Bank Address Inputs: stable at 0; Data IO: FLOATING; DM:stable at 0; Bank Activity: all banks closed; Output Buffer and RTT: Enabled in Mode Registers2); ODT Signal: stable at 0; Pre-charge Power Down Mode: Slow Exit 260 mA 390 mA 90 mA 100 mA 150 mA 180 mA 140 mA 140 mA 180 mA 810 mA 910 mA 1,370 mA 140 mA 1,170 mA 1,850 mW Operating one bank active-read-precharge current; Precharge Power-Down Current Slow Exit Precharge Power-Down Current Fast Exit IDD2P1 CKE: Low; External clock: On; tCK, CL: see Timing table; BL: 81); AL: 0; /CS: stable at 1; Command, Address, Bank Address Inputs: stable at 0; Data IO: FLOATING; DM:stable at 0; Bank Activity: all banks closed; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0; Pre-charge Power Down Mode: Fast Exit Precharge standby current; IDD2N CKE: High; External clock: On; tCK, CL: see Timing table ; BL: 8; AL: 0; /CS: stable at 1; Command, Address, Bank Address Inputs: partially tog-gling; Data IO: FLOATING; DM:stable at 0; Bank Activity: all banks closed; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0; Precharge Standby ODT Current IDD2NT CKE: High; External clock: On; tCK, CL: see Timing table ; BL: 8; AL: 0; /CS: stable at 1; Command, Address, Bank Address Inputs: partially tog-gling ; Data IO: FLOATING;DM:stable at 0; Bank Activity: all banks closed; Output Buffer and RTT: Enabled in Mode Registers Precharge quiet standby current; IDD2Q CKE: High; External clock: On; tCK, CL: see Timing table; BL: 8; AL: 0; /CS: stable at 1; Command, Address, Bank Address Inputs: stable at 0; Data IO: FLOATING; DM:stable at 0;Bank Activity: all banks closed; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0 Active Power-Down Current IDD3P CKE: Low; External clock: On; tCK, CL: see Timing table ; BL: 8; AL: 0; /CS: stable at 1; Command, Address, Bank Address Inputs: stable at 0; Data IO: FLOATING;DM:stable at 0; Bank Activity: all banks open; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0 Active Standby Current IDD3N CKE: High; External clock: On; tCK, CL: see Timing table ; BL: 8; AL: 0; /CS: stable at 1; Command, Address, Bank Address Inputs: partially tog-gling ; Data IO: FLOATING; DM:stable at 0;Bank Activity: all banks open; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0; Operating Burst Read Current IDD4R CKE: High; External clock: On; tCK, CL: see Timing table; BL: 8; AL: 0; /CS: High between RD; Command, Address, Bank Address Inputs: par-tially toggling ; Data IO: seamless read data burst with different data between one burst and the next one; DM:stable at 0; Bank Activity: all banks open, RD commands cycling through banks: 0,0,1,1,2,2,...; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0; Operating Burst Write Current IDD4W CKE: High; External clock: On; tCK, CL: see Timing table ; BL: 8; AL: 0; CS: High between WR; Command, Address, Bank Address Inputs: par-tially toggling ; Data IO: seamless write data burst with different data between one burst and the next one; DM: stable at 0; Bank Activity: all banks open, WR commands cycling through banks: 0,0,1,1,2,2,...; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at HIGH; Burst Refresh Current IDD5B CKE: High; External clock: On; tCK, CL, nRFC: see Timing table ; BL: 8; AL: 0; CS: High between REF; Command, Address, Bank Address Inputs: partially toggling ; Data IO: FLOATING;DM:stable at 0; Bank Activity: REF command every nRFC; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0; IDD6 Auto Self-Refresh (ASR): Disabled; Self-Refresh Temperature Range (SRT): Normale); CKE: Low; External clock: Off; CK and CK: LOW; CL: see Timing table ; BL: 8; AL: 0; /CS, Command, Address, Bank Address, Data IO: FLOATING;DM:stable at 0; Bank Activity: Self- Refresh operation; Output Buffer and RTT: Enabled in Mode Registers2); ODT Signal: FLOATING Self Refresh Current: Normal Temperature Range TCASE: 0 - 85°C; Operating Bank Interleave Read Current IDD7 PDIMM CKE: High; External clock: On; tCK, nRC, nRAS, nRCD, nRRD, nFAW, CL: see Timing table ; BL: 8; AL: CL-1; /CS: High between ACT and RDA; Command, Address, Bank Address Inputs: partially toggling; Data IO: read data bursts with different data between one burst and the next one ; DM:stable at 0; Bank Activity: two times interleaved cycling through banks (0, 1, ...7) with different addressing; Output Buffer and RTT: Enabled in Mode Registers; ODT Signal: stable at 0; Power Consumption per DIMM System is operating at 800 MHz clock with VDD = 1.35V. This parameter is calculated at a common loading. Your Ultimate Memory Solution! 2590 North First Street, San Jose, CA 95131, USA. http://www.atpinc.com Tel. (408) 732-5000 Fax (408) 732-5055 Page 5 of 7 ATP AW12P7218BLK0M TIMING PARAMETER Parameter Symbol Clock cycle time at CL=11.0, CWL=8.0 Internal read command to first data ACT to internal read or write delay time PRE command period ACT to ACT or REF command period ACTIVE to PRECHARGE command period Average high pulse width Average low pulse width DQS, DQS to DQ skew, per group, per access DQ output hold time from DQS, DQS DQ low-impedance time from CK, CK DQ high-impedance time from CK, CK Data setup time to DQS, DQS referenced to Vih(ac)Vil(ac) levels Data hold time to DQS, DQS referenced to Vih(ac)Vil(ac) levels DQS, DQS READ Preamble DQS, DQS differential READ Postamble DQS, DQS output high time DQS, DQS output low time DQS, DQS WRITE Preamble DQS, DQS WRITE Postamble DQS, DQS rising edge output access time from rising CK, CK DQS, DQS low-impedance time (Referenced from RL-1) DQS, DQS high-impedance time (Referenced from RL+BL/2) DQS, DQS differential input low pulse width DQS, DQS differential input high pulse width DQS, DQS rising edge to CK, CK rising edge DQS, DQS falling edge setup time to CK, CK rising edge DQS, DQS falling edge hold time to CK, CK rising edge DLL locking time Internal READ Command to PRECHARGE Command delay Delay from start of internal write transaction to internal read command WRITE recovery time Mode Register Set command cycle time Mode Register Set command update delay CAS to CAS command delay Auto precharge write recovery + precharge time Multi-Purpose Register Recovery Time ACTIVE to ACTIVE command period for 1KB page size Four activate window for 1KB page size Command and Address setup time to CK, CK referenced to Vih(ac) / Vil(ac) levels Command and Address hold time from CK, CK referenced to Vih(ac) / Vil(ac) levels Power-up and RESET calibration time Normal operation Full calibration time Normal operation short calibration time Exit Reset from CKE HIGH to a valid command Exit Power Down with DLL on to any valid command; Exit Precharge Power Down with DLL frozen to commands not requiring a locked DLL Asynchronous RTT turn-on delay (Power-Down with DLL frozen) Asynchronous RTT turn-off delay (Power-Down with DLL frozen) ODT turn-on RTT_NOM and RTT_WR turn-off time from ODTLoff reference RTT dynamic change skew 4Gb REFRESH to REFRESH OR REFRESH to ACTIVE command interval Average periodic refresh interval (0°C ≤ TCASE ≤ 85 °C) Average periodic refresh interval (85°C ≤ TCASE ≤ 95 °C) Exit Self Refresh to commands not requiring a locked DLL Exit Self Refresh to commands requiring a locked DLL Power Down Entry to Exit Timing Write leveling output delay Write leveling output error 1:Unit ’nCK’ represents one clock cycle of the input clock, counting the actual clock edges. PHYSICAL DIMENSIONS (UNITS IN INCHES) (Drawing not to scale) Your Ultimate Memory Solution! 2590 North First Street, San Jose, CA 95131, USA. http://www.atpinc.com Tel. (408) 732-5000 Fax (408) 732-5055 Page 6 of 7 tCK tAA tRCD tRP tRC tRAS tCH(avg) tCL(avg) tDQSQ tQH tLZ(DQ) tHZ(DQ) tDS(base) tDH(base) tRPRE tRPST tQSH tQSL tWPRE tWPST tDQSCK tLZ(DQS) tHZ(DQS) tDQSL tDQSH tDQSS tDSS tDSH tDLLK tRTP tWTR tWR tMRD tMOD tCCD tDAL tMPRR tRRD tFAW tIS(base) tIH(base) tZQinitI tZQoper tZQCS tXPR tXP tAONPD tAOFPD tAON tAOF tADC tRFC tREFI tREFI tXS tXSDLL tPD tWLO tWLOE DDR3-1600 min 1.25 13.75(13.1252) 13.75(13.1252) 13.75(13.1252) 48.75(48.1252) 35 0.47 0.47 0.38 -450 Max
AW12P7218BLK0M 价格&库存

很抱歉,暂时无法提供与“AW12P7218BLK0M”相匹配的价格&库存,您可以联系我们找货

免费人工找货