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W3EG264M64EFSUXXXD4-MG

W3EG264M64EFSUXXXD4-MG

  • 厂商:

    WEDC

  • 封装:

  • 描述:

    W3EG264M64EFSUXXXD4-MG - 1GB - 2x64Mx64 DDR SDRAM, UNBUFFERED, FBGA - White Electronic Designs Corpo...

  • 数据手册
  • 价格&库存
W3EG264M64EFSUXXXD4-MG 数据手册
White Electronic Designs W3EG264M64EFSU-D4 ADVANCED* 1GB – 2x64Mx64 DDR SDRAM, UNBUFFERED, FBGA FEATURES Fast data transfer rate: PC-2100, PC-2700 and PC3200 Clock speeds of 133 MHz, 166 MHz and 200MHz Supports ECC error detection and correction Bi-directional data strobes (DQS) Differential clock inputs (CK & CK#) Programmable Read Latency 3 and 4 (clock) Programmable Burst Length (2, 4 or 8) Programmable Burst type (sequential & interleave) Edge aligned data output, center aligned data input Auto and self refresh Serial presence detect (SPD) with EEPROM VCC = VCCQ = +2.6V ±0.1V (200MHz) VCC = VCCQ = +2.5V ±0.2V (133 and 166MHz) Gold edge contacts Dual Rank JEDEC standard 200 pin, small-outline, SO-DIMM package • PCB height option: D4: 31.75 mm (1.25”) * This product is under development, is not qualified or characterized and is subject to change or cancellation without notice. DESCRIPTION The W3EG264M64EFSU is a 2x64Mx64 Double Data Rate SDRAM memory module based on 512Mb DDR SDRAM components. The module consists of sixteen 64Mx8 DDR SDRAMs in FBGA packages mounted on a 200 pin FR4 substrate. Synchronous design allows precise cycle control with the use of system clock. Data I/O transactions are possible on both edges and Burst Lengths allow the same device to be useful for a variety of high bandwidth, high performance memory system applications. NOTE: Consult factory for availability of: • RoHS compliant products • Vendor source control options • Industrial temperature option OPERATING FREQUENCIES DDR400@CL=3 Clock Speed CL-tRCD-tRP 200MHz 3-3-3 DDR333@CL=2.5 166MHz 2.5-3-3 DDR266@CL=2 133MHz 2-2-2 DDR266@CL=2.5 133MHz 2.5-3-3 August 2005 Rev. 0 1 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs PIN CONFIGURATION PIN# SYMBOL PIN# SYMBOL PIN# SYMBOL PIN# SYMBOL 51 VSS 101 A9 151 DQ42 1 VREF 2 VREF 52 VSS 102 A8 152 DQ46 53 DQ19 103 VSS 153 DQ43 3 VSS 4 VSS 54 DQ23 104 VSS 154 DQ47 5 DQ0 55 DQ24 105 A7 155 VCC 6 DQ4 56 DQ28 106 A6 156 VCC 7 DQ1 57 VCC 107 A5 157 VCC 8 DQ5 58 VCC 108 A4 158 CK1# 9 VCC 59 DQ25 109 A3 159 VSS 10 VCC 60 DQ29 110 A2 160 CK1 11 DQS0 61 DQS3 111 A1 161 VSS 12 DM0 62 DM3 112 A0 162 VSS 13 DQ2 63 VSS 113 VCC 163 DQ48 14 DQ6 64 VSS 114 VCC 164 DQ52 65 DQ26 115 A10 165 DQ49 15 VSS 16 VSS 66 DQ30 116 BA1 166 DQ53 17 DQ3 67 DQ27 117 BA0 167 VCC 18 DQ7 68 DQ31 118 RAS# 168 VCC 19 DQ8 69 VCC 119 WE# 169 DQS6 20 DQ12 70 VCC 120 CAS# 170 DM6 21 VCC 71 DNU 121 CS0# 171 DQ50 22 VCC 72 DNU 122 CS1# 172 DQ54 23 DQ9 73 DNU 123 NC 173 VSS 24 DQ13 74 DNU 124 NC 174 VSS 25 DQS1 75 VSS 125 VSS 175 DQ51 26 DM1 76 VSS 126 VSS 176 DQ55 27 VSS 77 DNU 127 DQ32 177 DQ56 78 DNU 128 DQ36 178 DQ60 28 VSS 29 DQ10 79 DNU 129 DQ33 179 VCC 30 DQ14 80 DNU 130 DQ37 180 VCC 31 DQ11 81 VCC 131 VCC 181 DQ57 32 DQ15 82 VCC 132 VCC 182 DQ61 83 DNU 133 DQS4 183 DQS7 33 VCC 34 VCC 84 DNU 134 DM4 184 DM7 35 CK0 85 NC 135 DQ34 185 VSS 36 VCC 86 DNU 136 DQ38 186 VSS 37 CK0# 87 VSS 137 VSS 187 DQ58 38 VSS 88 VSS 138 VSS 188 DQ62 39 VSS 89 DNU 139 DQ35 189 DQ59 40 VSS 90 VSS 140 DQ39 190 DQ63 41 DQ16 91 DNU 141 DQ40 191 VCC 42 DQ20 92 VCC 142 DQ44 192 VCC 43 DQ17 93 VCC 143 VCC 193 SDA 44 DQ21 94 VCC 144 VCC 194 SA0 45 VCC 95 CKE1 145 DQ41 195 SCL 46 VCC 96 CKE0 146 DQ45 196 SA1 47 DQS2 97 NC 147 DQS5 197 VCCSPD 48 DM2 98 NC 148 DM5 198 SA2 49 DQ18 99 A12 149 VSS 199 NC 50 DQ22 100 A11 150 VSS 200 VSS W3EG264M64EFSU-D4 ADVANCED PIN NAMES Symbol A0-A12 BA0, BA1 DQ0-DQ63 CB0-CB7 CK0, CK0# CK1, CK1# CK2, CK2# CKE0-CKE1 CS0#-CS1# WE#, CAS#, RAS# DQS0-DQS8 DM0-DM8 VCC VCCSPD VREF VSS SCL SA0-SA2 SDA NC DNU Description Address input Bank Address Input/Output: Data I/Os, Data bus Input/Output: Check Bits Clock Input Clock Enable Input Chip Select Input Command Input Data Strobe Data Write Mask Supply: Power Supply: +2.5V ±0.2V Supply: Serial EEPROM Positive Power Supply Supply: SSTL_2 reference voltage Supply: Ground Serial Clock Presence Detect Address Input Input/Output: Serial PresenceDetect Data No Connect Do Not Use August 2005 Rev. 0 2 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs FUNCTIONAL BLOCK DIAGRAM W3EG264M64EFSU-D4 ADVANCED CS1# CS0# DQS0 DM0 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQS2 DM2 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQS4 DM4 DQ32 DQ33 DQ34 DQ35 DQ36 DQ37 DQ38 DQ39 DQS6 DM6 DQ48 DQ49 DQ50 DQ51 DQ52 DQ53 DQ54 DQ55 DM S0# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S1# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S0# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S1# DQS DQ DQ DQ DQ DQ DQ DQ DQ DQS7 DM7 DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 DQ62 DQ63 DM S0# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S1# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S0# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S1# DQS DQ DQ DQ DQ DQ DQ DQ DQ DQS5 DM5 DQ40 DQ41 DQ42 DQ43 DQ44 DQ45 DQ46 DQ47 DM S0# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S1# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S0# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S1# DQS DQ DQ DQ DQ DQ DQ DQ DQ DQS3 DM3 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 DM S0# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S1# DQS DQ DQ DQ DQ DQ DQ DQ DQ DQS1 DM1 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DM S0# DQS DQ DQ DQ DQ DQ DQ DQ DQ DM S1# DQS DQ DQ DQ DQ DQ DQ DQ DQ BA0, BA1 A0-A12 RAS# CAS# CKE0 CKE1 WE# BA0, BA1: DDR SDRAMs A0-A12: DDR SDRAMs RAS#: DDR SDRAMs CAS#: DDR SDRAMs CKE0: DDR SDRAMs CKE1: DDR SDRAMs WE#: DDR SDRAMs 120 CK0 CK0# 120 CK1 CK1# VCCSPD VCC VREF VSS DDR SDRAMs DDR SDRAMs CK2 CK2# SERIAL PD SCL WP 120 SDA A0 A1 A2 SA0 SA1 SA2 SPD/EEPROM DDR SDRAMs DDR SDRAMs DDR SDRAMs Note: 1. All resistor values are 22Ω unless otherwise specified. August 2005 Rev. 0 3 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs W3EG264M64EFSU-D4 ADVANCED DC ELECTRICAL CHARACTERISTICS PARAMETER/CONDITION Supply Voltage I/O Supply Voltage I/O Reference Voltage I/O Termination Voltage (system) Input High (Logic 1) Voltage Input Low (Logic 0) Voltage High Current (VOUT = VCCQ - 0.373V, minimum VREF, minimum VTT) Low Current (VOUT = 0.373V, maximum VREF, maximum VTT) SYMBOL VCC VCCQ VREF VTT VIH VIL VOH VOL MIN 2.3 2.3 0.49 × VCCQ VREF - 0.04 VREF + 0.15 -0.3 -16.8 16.8 MAX 2.7 2.7 0.51 × VCCQ VREF + 0.04 VCC + 0.3 VREF - 0.15 — — UNITS V V V V V V mA mA CAPACITANCE PARAMETER Input/Output Capacitance: DQ, DQS,DM Input Capacitance: Command and Address Input Capacitance: CK, CK#, Input Capacitance: CKE, S# SYMBOL CI0 CI1 CI2 CI3 MAX 12 47 25 25 UNITS pF pF pF pF August 2005 Rev. 0 4 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs 0°C ≤ TA ≤ +70°C; VCC, VCCQ = +2.5V ±0.2V DDR400: VCC = VCCQ = +2.6V ±0.2V W3EG264M64EFSU-D4 ADVANCED IDD SPECIFICATIONS AND CONDITIONS MAX PARAMETER/CONDITION OPERATING CURRENT: One device bank; Active-Precharge; tRC = tRC (MIN); tCK = tCK (MIN); DQ, DM and DQS inputs changing once per clock cycle; Address and control inputs changing once every two clock cycles OPERATING CURRENT: One device bank; Active-Read-Precharge; Burst = 4; tRC = tRC (MIN); tCK = tCK (MIN); IOUT = 0mA; Address and control inputs changing once per clock cycle PRECHARGE POWER-DOWN STANDBY CURRENT: All device banks idle; Power-down mode; tCK = tCK (MIN); CKE = (LOW) IDLE STANDBY CURRENT: CS# = HIGH; All device banks are idle; tCK = tCK (MIN); CKE = HIGH; Address and other control inputs changing once per clock cycle. VIN = VREF for DQ, DQS, and DM ACTIVE POWER-DOWN STANDBY CURRENT: One device bank active; Power-down mode; tCK = tCK (MIN); CKE = LOW ACTIVE STANDBY CURRENT: CS# = HIGH; CKE = HIGH; One device bank active; tRC = tRAS (MAX); tCK = tCK (MIN); DQ, DM and DQS inputs changing twice per clock cycle; Address and other control inputs changing once per clock cycle OPERATING CURRENT: Burst = 2; Reads; Continuous burst; One device bank active; Address and control inputs changing once per clock cycle; tCK = tCK (MIN); IOUT = 0mA OPERATING CURRENT: Burst = 2; Writes; Continuous burst; One device bank active; Address and control inputs changing once per clock cycle; tCK = tCK (MIN); DQ, DM, and DQS inputs changing twice per clock cycle AUTO REFRESH BURST CURRENT: SELF REFRESH CURRENT: CKE ≤ 0.2V OPERATING CURRENT: Four device bank interleaving READs (Burst = 4) with auto precharge, tRC = minimum tRC allowed; tCK = tCK (MIN); Address and control inputs change only during Active READ, or WRITE commands tREFC = tRFC (MIN) SYM IDD0 DDR400 DDR333 DDR266 DDR266 UNITS @CL=3 @CL=2.5 @CL=2 @CL=2.5 2475 2070 2070 1845 mA IDD1 2745 2340 2340 2115 mA IDD2P IDD2F 90 990 90 810 90 810 90 720 mA mA IDD3P IDD3N 810 1080 630 900 630 900 540 810 mA mA IDD4R IDD4W 2790 2790 2385 2295 2385 2295 2115 2025 mA mA IDD5 IDD6 IDD7 4185 90 5130 3510 90 4545 3510 90 4545 3330 90 3960 mA mA mA August 2005 Rev. 0 5 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs W3EG264M64EFSU-D4 ADVANCED DDR SDRAM COMPONENT ELECTRICAL CHARACTERISTICS AND RECOMMENDED AC OPERATING CONDITIONS 0°C ≤ TA ≤ +70°C; VCC = VCCQ = +2.5V ±0.2V AC CHARACTERISTICS PARAMETER Access window of DQs from CK/CK# CK high-level width CK low-level width Clock cycle time 403 MIN -0.70 0.45 0.45 6 7.5 0.45 0.45 1.75 -0.60 0.35 0.35 335 MAX +0.70 0.55 0.55 13 13 MIN -0.75 0.45 0.45 7.5 7.5 0.5 0.5 1.75 -0.75 0.35 0.35 262 MAX +0.75 0.55 0.55 13 13 MIN -0.75 0.45 0.45 7.5 7.5/10 0.5 0.5 1.75 -0.75 0.35 0.35 265 MAX 0.75 0.55 0.55 13 13 UNITS NOTES ns tCK 26 tCK 26 ns 39, 44 ns 39, 44 ns 39, 44 ns 23, 27 ns 23, 27 ns 27 ns tCK tCK ns 22, 23 tCK tCK tCK ns ns ns ns ns ns SYMBOL MIN MAX tAC -0.65 +0.65 tCH 0.45 0.55 tCL 0.45 0.55 CL = 3 tCK (3) 5 10 CL = 2.5 tCK (2.5) CL = 2 tCK (2) DQ and DM input hold time relative to DQS tDH 0.40 DQ and DM input setup time relative to DQS tDS 0.40 DQ and DM input pulse width (for each input) tDIPW 1.75 Access window of DQS from CK/CK# tDQSCK -0.55 +0.55 DQS input high pulse width tDQSH 0.35 DQS input low pulse width tDQSL 0.35 DQS-DQ skew, DQS to last DQ valid, per group, per tDQSQ 0.4 access Write command to first DQS latching transition tDQSS 0.72 1.25 DQS falling edge to CK rising - setup time tDSS 0.20 DQS falling edge from CK rising - hold time tDSH 0.20 Half clock period tHP tCH,tCL Data-out high-impedance window from CK/CK# tHZ +0.65 Data-out low-impedance window from CK/CK# tLZ -0.65 +0.65 Address and control input hold time (fast slew rate) tIHF 0.60 Address and control input setup time (fast slew rate) tISF 0.60 Address and control input hold time (slow slew rate) tIHS 0.8 +0.60 +0.75 +0.75 0.4 0.75 1.25 0.20 0.20 tCH,tCL +0.70 -0.70 0.75 0.75 0.8 0.5 0.75 1.25 0.20 0.20 tCH,tCL +0.75 -0.75 0.90 0.90 1 0.5 0.75 1.25 0.2 0.2 tCH, tCL +0.75 -0.75 0.90 0.90 1 30 16, 36 16, 36 12 12 12 August 2005 Rev. 0 6 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs W3EG264M64EFSU-D4 ADVANCED DDR SDRAM COMPONENT ELECTRICAL CHARACTERISTICS AND RECOMMENDED AC OPERATING CONDITIONS (Continued) 0°C < TA 1V/ns (2V/ns differentially). DQ and DM input slew rates must not deviate from DQS by more than 10%. If the DQ/DM/DQS slew rate is less than 0.5V/ns, timing must be derated: 50ps must be added to tDS and tDH for each 100mV/ns reduction in slew rate. If slew rates exceed 4V/ns, functionality is uncertain. tHP min is the lesser of tCL min and tCH min actually applied to the device CK and CK# inputs, collectively during bank active. tHZ (MAX) will prevail over the tDQSCK (MAX) + tRPST (MAX) condition. tLZ (MIN) will prevail over tDQSCK (MIN) + PRE (MAX) condition. For slew rates greater than 1V/ns the (LZ) transition will start about 310ps earlier. CKE must be active (High) during the entire time a refresh command is executed. That is, from the time the AUTO REFRESH command is registered, CKE must be active at each rising clock edge, until tRFC has been satisfied. Whenever the operating frequency is altered, not including jitter, the DLL is required to be reset. This is followed by 200 clock cycles (before READ commands). 3. VTT 50Ω Reference Reference Point Point 30pF Output Output (VOUT) 13. 4. AC timing and IDD tests may use a VIL-to-VIH swing of up to 1.5V in the test environment, but input timing is still referenced to VREF (or to the crossing point for CK/CK#), and parameter specifications are guaranteed for the specified AC input levels under normal use conditions. The minimum slew rate for the input signals used to test the device is 1V/ns in the range between VIL(AC) and VIH(AC). The AC and DC input level specifications are defined in the SSTL_ 2 standard (i.e., the receiver will effectively switch as a result of the signal crossing the AC input level, and will remain in that state as long as the signal does not ring back above [below] the DC input LOW [high] level). For slew rates less than 1V/ns and greater than or equal to 0.5V/ ns. If the slew rate is less than 0.5V/ns, timing must be derated: tIS has an additional 50ps per each 100mV/ns reduction in slew rate from the 500mV/ns. tIH has 0ps added, that is, it remains constant. If the slew rate exceeds 4.5V/ns, functionality is uncertain. For 403 and 335, slew rates must be greater than or equal to 0.5V/ns. Inputs are not recognized as valid until VREF stabilizes. Exception: during the period before VREF stabilizes, CKE ≤ 0.3 x VCCQ is recognized as LOW. tHZ and tLZ transitions occur in the same access time windows as valid data transitions. These parameters are not referenced to a specific voltage level, but specify when the device output is no longer driving (HZ) and begins driving (LZ). The intent of the “Don’t Care” state after completion of the postamble is the DQS-driven signal should either be HIGH, LOW, or high-Z, and that any signal transition within the input switching region must follow valid input requirements. That is, if DQS transitions HIGH (above VIHDC (MIN) then it must not transition LOW (below VIHDC) prior to tDQSH (MIN). This is not a device limit. The device will operate with a negative value, but system performance could be degraded due to bus turnaround. 14. 15. 5. 16. 17. 6. 18. 19. 7. 8. 20. 21. 9. 22. 10. August 2005 Rev. 0 8 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs W3EG264M64EFSU-D4 ADVANCED ORDERING INFORMATION FOR D4 Part Number W3EG264M64EFSU403D4-x W3EG264M64EFSU335D4-x W3EG264M64EFSU262D4-x W3EG264M64EFSU265D4-x Speed 200MHz/400Mbps 166MHz/333Mbps 133MHz/266Mbps 133MHz/266Mbps CAS Latency 3 2.5 2 2.5 tRCD 3 3 2 3 tRP 3 3 2 3 Height* 31.75 (1.25") MAX 31.75 (1.25") MAX 31.75 (1.25") MAX 31.75 (1.25") MAX NOTES: • Consult Factory for availability of RoHS compliant products. (G = RoHS Compliant) • Vendor specific part numbers are used to provide memory components source control. The place holder for this is shown as lower case “-x” in the part numbers above and is to be replaced with the respective vendors code. Consult factory for qualified sourcing options. (M = Micron, S = Samsung & consult factory for others) • Consult factory for availability of industrial temperature (-40°C to 85°C) option 200-PIN DDR2 SODIMM DIMENSIONS FRONT VIEW 67.56 (2.66) 3.81 (0.150 ) MAX 2.00 (0.079) R (2X) 31.75 (1.25) 20.00 (0.787) TYP 6.00 (0.236) 2.44 (0.096) 1.10 (0.043) 2.00 (0.079) 0.99 (0.039) TYP 0.46 (0.018) TYP 63.60 (2.504) TYP 0.61 (0.024) TYP 1.80 (0.071) (2X) PIN 199 PIN 1 BACK VIEW PIN 200 * ALL DIMENSIONS ARE IN MILLIMETERS AND (INCHES) August 2005 Rev. 0 9 PIN 2 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs PART NUMBERING GUIDE W3EG264M64EFSU-D4 ADVANCED W 3 E G 264M 64 E F S U xxx D4 -x G WEDC MEMORY DDR GOLD DEPTH (Dual Rank) BUS WIDTH x8 FBGA 2.5V UNBUFFERED SPEED (MHz) PACKAGE 200 PIN COMPONENT VENDOR NAME (M = MICRON) (S = SAMSUNG) G = RoHS COMPLIANT August 2005 Rev. 0 10 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs Document Title 1GB - 2x64Mx64 DDR SDRAM, UNBUFFERED, FBGA W3EG264M64EFSU-D4 ADVANCED Revision History Rev # Rev 0 History Created Release Date 8-05 Status Advanced August 2005 Rev. 0 11 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG264M64EFSUXXXD4-MG 价格&库存

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