128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Features SDRAM RDIMM MT9LSDT1672 - 128MB MT9LSDT3272 - 256MB For component data sheets, refer to Micron's Web site: www.micron.com Features 168-Pin RDIMM (MO-161 R/C A) * 168-pin, PC133-compliant registered dual in-line memory module (RDIMM) * Phase-lock loop (PLL) clock driver to reduce loading * Uses 133 MHz SDRAM components * Supports ECC error detection and correction * 128MB (16 Meg x 72) and 256MB (32 Meg x 72) * VDD = +3.3V * Fully synchronous; all signals are registered on the positive edge of the PLL clock * Internal pipelined operation; column address can be changed every clock cycle * Internal SDRAM banks for hiding row access/ precharge * Programmable burst lengths (BL): 1, 2, 4, 8, or full page * Single rank * Auto precharge option * Auto and self refresh modes: 15.625s (128MB) or 7.81s (256MB) maximum periodic refresh interval * LVTTL-compatible inputs and outputs * Serial presence-detect (SPD) with EEPROM * Gold edge contacts Table 1: Figure 1: Standard Layout PCB height: 38.1mm (1.5in) Figure 2: Low Profile Layout PCB height: 28.58mm (1.125in) Options Marking * Package - 168-pin DIMM G - 168-pin DIMM (Pb-free) Y * Frequency/CAS latency1 - 133 MHz/CL = 2 -13E - 133 MHz/CL = 3 -133 Notes: 1. CL = CAS (READ) latency; registered mode will add one clock cycle to CL. Key Timing Parameters Data Rate (MT/s) Speed Grade Industry Nomenclature CL = 2 CL = 3 (ns) tRP (ns) tRC (ns) -13E PC133 133 - 15 15 60 -133 PC133 - 133 20 20 66 PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 1 tRCD Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved. Products and specifications discussed herein are subject to change by Micron without notice. 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Features Table 2: Addressing Parameter Refresh count Device banks Device configuration 128MB 256MB 4K 8K 4 (BA0, BA1) 4 (BA0, BA1) 128Mb (16 Meg x 8) 256Mb (32 Meg x 8) 4K (A0-A11) 8K (A0-A12) Row address Column address 1K (A0-A9) 1K (A0-A9) Module ranks 1 (S0#, S2#) 1 (S0#, S2#) Table 3: Part Numbers and Timing Parameters - 128MB Modules Base device: MT48LC16M8A2,1 128Mb SDRAM Part Number2 MT9LSDT1672G-13E__3 Module Density Configuration Memory Clock/ Data Rate Clock Cycles (CL-tRCD-tRP) 128MB 16 Meg x 72 7.5ns/133 MT/s 2-2-2 MT9LSDT1672Y-13E__3 128MB 16 Meg x 72 7.5ns/133 MT/s 2-2-2 MT9LSDT1672G-133__ 128MB 16 Meg x 72 7.5ns/133 MT/s 3-3-3 MT9LSDT1672Y-133__ 128MB 16 Meg x 72 7.5ns/133 MT/s 3-3-3 Table 4: Part Numbers and Timing Parameters - 256MB Modules Base device: MT48LC32M8A2,1 256Mb SDRAM Module Density Configuration Memory Clock/ Data Rate Clock Cycles (CL-tRCD-tRP) MT9LSDT3272G-13E__ 256MB 32 Meg x 72 7.5ns/133 MT/s 2-2-2 MT9LSDT3272Y-13E__ 256MB 32 Meg x 72 7.5ns/133 MT/s 2-2-2 MT9LSDT3272G-133__ 256MB 32 Meg x 72 7.5ns/133 MT/s 3-3-3 MT9LSDT3272Y-133__ 256MB 32 Meg x 72 7.5ns/133 MT/s 3-3-3 Part Number2 Notes: PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 1. Data sheets for the base devices can be found on Micron's Web site. 2. All part numbers end with a two-place code (not shown) that designates component and PCB revisions. Consult factory for current revision codes. Example: MT9LSDT3272G-133D2. 3. End of life. 2 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Pin Assignments and Descriptions Pin Assignments and Descriptions Figure 3: Pin Assignments 168-Pin SDRAM RDIMM Front 168-Pin SDRAM RDIMM Back Pin Symbol Pin Symbol Pin Symbol Pin Symbol Pin Symbol Pin Symbol Pin Symbol Pin Symbol 1 VSS 22 CB1 43 VSS 64 VSS 85 VSS 106 CB5 127 VSS 148 VSS 2 DQ0 23 VSS 44 NC 65 DQ21 86 DQ32 107 VSS 128 CKE0 149 DQ53 3 DQ1 24 NC 45 S2# 66 DQ22 87 DQ33 108 NC 129 NC 150 DQ54 4 DQ2 25 NC 46 DQMB2 67 DQ23 88 DQ34 109 NC 130 DQMB6 151 DQ55 5 DQ3 26 VDD 47 DQMB3 68 VSS 89 DQ35 110 VDD 131 DQMB7 152 6 VDD 27 WE# 48 NC 69 DQ24 90 VDD 111 CAS# 132 NC 153 DQ56 VSS 7 DQ4 28 DQMB0 49 VDD 70 DQ25 91 DQ36 112 DQMB4 133 VDD 154 DQ57 8 DQ5 29 DQMB1 50 NC 71 DQ26 92 DQ37 113 DQMB5 134 NC 155 DQ58 9 DQ6 30 S0# 51 NC 72 DQ27 93 DQ38 114 NC 135 NC 156 DQ59 10 DQ7 31 NC 52 CB2 73 VDD 94 DQ39 115 RAS# 136 CB6 157 VDD 11 DQ8 32 VSS 53 CB3 74 DQ28 95 DQ40 116 VSS 137 CB7 158 DQ60 12 VSS 33 A0 54 VSS 75 DQ29 96 VSS 117 A1 138 VSS 159 DQ61 13 DQ9 34 A2 55 DQ16 76 DQ30 97 DQ41 118 A3 139 DQ48 160 DQ62 14 DQ10 35 A4 56 DQ17 77 DQ31 98 DQ42 119 A5 140 DQ49 161 DQ63 15 DQ11 36 A6 57 DQ18 78 VSS 99 DQ43 120 A7 141 DQ50 162 VSS 16 DQ12 37 A8 58 DQ19 79 NF 100 DQ44 121 A9 142 DQ51 163 NF 17 DQ13 38 A10 59 VDD 80 NC 101 DQ45 122 BA0 143 VDD 164 NC 18 VDD 39 BA1 60 DQ20 81 NC 102 VDD 123 A11 144 DQ52 165 SA0 19 DQ14 40 VDD 61 NC 82 SDA 103 DQ46 124 VDD 145 NC 166 SA1 20 DQ15 41 VDD 62 NC 83 SCL 104 DQ47 125 NF 146 NC 167 SA2 21 CB0 42 CK0 63 NC 84 VDD 105 CB4 REGE 168 VDD Notes: PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 126 NF/A121 147 1. Pin 126 is NF for 128MB and A12 for 256MB. 3 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Pin Assignments and Descriptions Table 5: Pin Descriptions Symbol Type Description A0-A12 Input Address inputs: Sampled during the ACTIVE and READ/WRITE commands, with A10 defining auto precharge, to select one location out of the memory array in the respective device bank. A10 is sampled during a PRECHARGE command to determine whether both device banks are precharged (A10 HIGH). The address inputs also provide the op-code during a LOAD MODE REGISTER command. A0-A11 (256MB) and A0-A12 (256MB). BA0, BA1 Input Bank address inputs: BA0 and BA1 define the device bank to which an ACTIVE, READ, WRITE, or PRECHARGE command is being applied. CK0-CK3 Input Clock: CK0 is distributed through an on-board PLL to all devices. CK1-CK3 are terminated. CKE0 Input Clock enable: CKE enables (registered HIGH) and disables (registered LOW) the CK signal. Deactivating the clock provides power-down and SELF REFRESH operations (all device banks idle) or CLOCK SUSPEND operation (burst access in progress). CKE is synchronous except after the device enters power-down and self refresh modes, where CKE becomes asynchronous until after exiting the same mode. The input buffers, including CK, are disabled during power-down and self refresh modes, providing low standby power. DQMB0-DQMB7 Input Input/output mask: DQMB is an input mask signal for write accesses and an output enable signal for read accesses. Input data is masked when DQMB is sampled HIGH during a WRITE cycle. The output buffers are placed in a High-Z state (two-clock latency) when DQMB is sampled HIGH during a READ cycle. RAS#, CAS#, WE# Input Command inputs: RAS#, CAS#, and WE# (along with S#) define the command being entered. REGE Input Register enable. S0#, S2# Input Chip select: S# enables (registered LOW) and disables (registered HIGH) the command decoder. All commands are masked when S# is registered HIGH. S# is considered part of the command code. SA0-SA2 Input Presence-detect address inputs: These pins are used to configure the presencedetect device. SCL Input Serial clock for presence-detect: SCL is used to synchronize the presence-detect data transfer to and from the module. CB0-CB7 Input/ Output Check bits. DQ0-DQ63 Input/ Output Data input/output: Data bus. SDA Input/ Output Serial presence-detect data: SDA is a bidirectional pin used to transfer addresses and data into and data out of the EEPROM portion of the module. VDD Supply Power supply: +3.3V 0.3V. VSS Supply Ground. NC - Not connected: These pins are not connected on the module. NF - No function: Connected within the module but provides no functionality. PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 4 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Functional Block Diagrams Functional Block Diagrams Figure 4: Functional Block Diagram - Standard Layout RS0# RDQMB0 RDQMB4 VSS VSS DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQM CS# DQ DQ DQ U1 DQ DQ DQ DQ DQ DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQM CS# DQ DQ DQ U2 DQ DQ DQ DQ DQ CB0 CB1 CB2 CB3 CB4 CB5 CB6 CB7 DQM CS# DQ DQ DQ DQ U12 DQ DQ DQ DQ DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQM CS# DQ DQ DQ DQ U3 DQ DQ DQ DQ DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 DQM CS# DQ DQ DQ DQ U4 DQ DQ DQ DQ VSS RDQMB1 DQ32 DQ33 DQ34 DQ35 DQ36 DQ37 DQ38 DQ39 DQM CS# DQ DQ DQ DQ U14 DQ DQ DQ DQ DQ40 DQ41 DQ42 DQ43 DQ44 DQ45 DQ46 DQ47 DQM CS# DQ DQ DQ DQ U13 DQ DQ DQ DQ DQ48 DQ49 DQ50 DQ51 DQ52 DQ53 DQ54 DQ55 DQM CS# DQ DQ DQ DQ U11 DQ DQ DQ DQ DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 DQ62 DQ63 DQM CS# DQ DQ DQ DQ U10 DQ DQ DQ DQ RDQMB5 VSS VSS VSS RS2# RDQMB2 RDQMB6 VSS VSS VSS RDQMB3 RDQMB7 VSS VSS U5, U7 RAS# R e g i s t e r s CAS# CKE0 WE# A0-A11/A12 BA0 BA1 S0#, S2# DQMB0-DQMB7 CK0 PLL RCAS#: SDRAM RCKE0: SDRAM VSS RWE#: SDRAM RA0-RA11/RA12: SDRAM CK1-CK3 RBA0: SDRAM RBA1: SDRAM PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN VSS U9 RS0#, RS2# RDQMB0-RDQMB7 SCL SPD EEPROM WP A0 REGE VDD SDRAM x 3 SDRAM x 3 SDRAM x 3 Register x 2 U6 RRAS#: SDRAM A1 A2 SDA VDD SDRAM VSS SDRAM VSS SA0 SA1 SA2 U8 5 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Functional Block Diagrams Figure 5: Functional Block Diagram - Low Profile Layout RS0# RDQMB0 RDQMB4 VSS VSS DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQM CS# DQ DQ DQ U1 DQ DQ DQ DQ DQ DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQM CS# DQ DQ DQ U2 DQ DQ DQ DQ DQ CB0 CB1 CB2 CB3 CB4 CB5 CB6 CB7 DQM CS# DQ DQ DQ DQ U3 DQ DQ DQ DQ DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQM CS# DQ DQ DQ DQ U5 DQ DQ DQ DQ DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 DQM CS# DQ DQ DQ DQ U6 DQ DQ DQ DQ VSS RDQMB1 DQ32 DQ33 DQ34 DQ35 DQ36 DQ37 DQ38 DQ39 DQM CS# DQ DQ DQ DQ U14 DQ DQ DQ DQ DQ40 DQ41 DQ42 DQ43 DQ44 DQ45 DQ46 DQ47 DQM CS# DQ DQ DQ DQ U13 DQ DQ DQ DQ DQ48 DQ49 DQ50 DQ51 DQ52 DQ53 DQ54 DQ55 DQM CS# DQ DQ DQ DQ U10 DQ DQ DQ DQ DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 DQ62 DQ63 DQM CS# DQ DQ DQ DQ U9 DQ DQ DQ DQ RDQMB5 VSS VSS VSS RS2# RDQMB2 RDQMB6 VSS VSS VSS RDQMB3 RDQMB7 VSS VSS U11, U12 RAS# R e g i s t e r s CAS# CKE0 WE# A0-A11/A12 BA0 BA1 S0#, S2# DQMB0-DQMB7 CK0 PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN PLL RCAS#: SDRAM RCKE0: SDRAM VSS RWE#: SDRAM RA0-RA11/RA12: SDRAM CK1-CK3 RBA0: SDRAM VSS RBA1: SDRAM U9 RS0#, RS2# RDQMB0-RDQMB7 SCL SPD EEPROM WP A0 REGE VDD SDRAM x 3 SDRAM x 3 SDRAM x 3 Register x 2 U4 RRAS#: SDRAM U8 A1 A2 SDA VDD SDRAM VSS SDRAM VSS SA0 SA1 SA2 6 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM General Description General Description The MT9LSDT1672 and MT9LSDT3272 are high-speed, CMOS dynamic random access 128MB and 256MB memory modules organized in a x72 ECC configuration. SDRAM modules use 4-bank SDRAM devices with a synchronous interface (all signals are registered on the positive edge of clock signal CK). Read and write accesses to SDRAM modules are burst oriented; accesses start at a selected location and continue for a programmed number of locations in a programmed sequence. Accesses begin with the registration of an ACTIVE command, which is then followed by a READ or WRITE command. The address bits registered coincident with the ACTIVE command are used to select the device bank and row to be accessed (BA0, BA1 select the device bank; A0-A11 select the device row for the 256MB module; A0-A12 select the device row for the 512MB module). The address bits registered coincident with the READ or WRITE command are used to select the starting device column location for the burst access. SDRAM modules provide for programmable READ or WRITE burst lengths of 1, 2, 4, or 8 locations, or full page, with a burst terminate option. An auto precharge function may be enabled to provide a self-timed device row precharge that is initiated at the end of the burst sequence. SDRAM modules use an internal pipelined architecture. Precharging one device bank while accessing one of the other three device banks will hide the PRECHARGE cycles and provide seamless, high-speed, random-access operation. SDRAM modules are designed to operate in 3.3V, low-power memory systems. An auto refresh mode is provided, along with a power-saving power-down mode. All inputs and outputs are LVTTL compatible. SDRAM modules offer substantial advances in DRAM operating performance, including the ability to synchronously burst data at a high data rate with automatic device column-address generation, the ability to interleave between device banks to hide precharge time, and the capability to randomly change device column addresses on each clock cycle during a burst access. For more information regarding SDRAM operation, refer to the 128Mb and 256Mb SDRAM component data sheets. PLL and Register Operation These SDRAM modules can either be operated in registered mode (REGE pin HIGH), where the control/address input signals are latched in the register on one rising clock edge and sent to the SDRAM devices on the following rising clock edge (data access is delayed by one clock), or in buffered mode (REGE pin LOW), where the input signals pass through the register/buffer to the SDRAM devices on the same clock. A phase-lock loop (PLL) on the modules is used to redrive the clock signals to the SDRAM devices to minimize system clock loading (CK0 is connected to the PLL, and CK1, CK2, and CK3 are terminated). PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 7 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM General Description Serial Presence-Detect Operation SDRAM modules incorporate serial presence-detect. The SPD function is implemented using a 2,048-bit EEPROM. This nonvolatile storage device contains 256 bytes. The first 128 bytes are programmed by Micron to identify the module type and various SDRAM organizations and timing parameters. The remaining 128 bytes of storage are available for use by the customer. System READ/WRITE operations between the master (system logic) and the slave EEPROM device (DIMM) occur via a standard I2C bus using the DIMM's SCL (clock) and SDA (data) signals, together with SA (2:0), which provide eight unique DIMM/EEPROM addresses. Write protect (WP) is tied to VSS on the module, permanently disabling hardware write protect. PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 8 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Electrical Specifications Electrical Specifications Stresses greater than those listed may cause permanent damage to the module. This is a stress rating only, and functional operation of the module 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 adversely affect reliability. Table 6: Symbol VDD VIN, VOUT Table 7: Symbol VDD, VDDQ Absolute Maximum Ratings Parameter/Condition Min Max Units Voltage on VDD supply relative to VSS -1.0 +4.6 V Voltage on inputs, NC, or I/O pins relative to VSS -1.0 +4.6 V Parameter/Condition Min Max Units V Operating Conditions Supply voltage +3.0 +3.6 VIH Input high voltage: Logic 1; All inputs +2.0 VDD + 0.3 V VIL Input low voltage: Logic 0; All inputs -0.3 0.8 V -10 +10 A Input leakage current: Any input 0V VIN VDD (All other pins not under test = 0V) Address inputs, RAS#, CAS#, WE#, BA, CK, CKE, S# DQMB -5 +5 A IOZ Output leakage current: DQ pins are disabled; 0V VOUT VDDQ DQ -5 +5 A VOH Output high voltage (IOUT = -4mA) +2.4 - V VOL Output low voltage (IOUT = 4mA) - 0.4 V TOPR Ambient operating temperature (commercial) 0 +55 C II Design Considerations Micron memory modules are designed to optimize signal integrity through carefully designed terminations, controlled board impedances, routing topologies, trace length matching, and decoupling. However, good signal integrity starts at the system level. Micron encourages designers to simulate the signal characteristics of the system's memory bus to ensure adequate signal integrity of the entire memory system. Component AC Timing and Operating Conditions Recommended AC operating conditions are given in the SDRAM component data sheets. Component specifications are available on Micron's Web site. Module speed grades correlate with component speed grades, as shown in Table 8. Table 8: Module and Component Speed Grades SDRAM components meet or exceed the listed module speed grades Module Speed Grade Component Speed Grade -13E -7E -133 -75 PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 9 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Electrical Specifications IDD Specifications Table 9: IDD Specifications and Conditions - 128MB Values are shown for the MT48LC16M8A2 SDRAM components only and are computed from values specified in the 128Mb (16 Meg x 8) component data sheet Parameter/Condition t t Symbol -13E -133 Units Operating current: Active mode; BL = 2; Read or write; RC = RC (MIN) IDD1 1,440 1,350 mA Standby current: Power-down mode; All device banks idle; CKE = LOW IDD2 18 18 mA Standby current: Active mode; CKE = HIGH; CS# = HIGH; All device banks active after tRCD has been met; No accesses in progress IDD3 450 450 mA Operating current: Burst mode; Page burst; Read or write; All device banks active IDD4 1,485 1,350 mA Auto refresh current: CS# = HIGH; CKE = HIGH tRFC t = tRFC (MIN) RFC = 15.625s Self refresh current: CKE 0.2V Table 10: IDD5 2,970 2,790 mA IDD6 27 27 mA IDD7 18 18 mA IDD Specifications and Conditions - 256MB Values are shown for the MT48LC32M8A2 SDRAM components only and are computed from values specified in the 256Mb (32 Meg x 8) component data sheet Parameter/Condition Symbol -13E -133 Units Operating current: Active mode; BL = 2; Read or write; tRC = tRC (MIN) IDD1 1,215 1,125 mA Standby current: Power-down mode; All device banks idle; CKE = LOW IDD2 18 18 mA Standby current: Active mode; CKE = HIGH; CS# = HIGH; All device banks active after tRCD has been met; No accesses in progress IDD3 360 360 mA Operating current: Burst mode; Page burst; Read or write; All device banks active IDD4 1,215 1,215 mA IDD5 2,560 2,430 mA IDD6 32 32 mA IDD7 23 23 mA Auto refresh current: CS# = HIGH; CKE = HIGH tRFC = tRFC (MIN) tRFC = 7.8125s Self refresh current: CKE 0.2V PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 10 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Register and PLL Specifications Register and PLL Specifications Table 11: Register Timing Requirements and Switching Characteristics 162835A device or equivalent JESD82-2 Parameter Symbol Maximum clock pulse frequency f MAX Condition Min Max Units - 150 240 MHz Propagation delay, single rank (CK to output) t PD1 50pF to GND and 50 to VTT 1.4 3.5 ns Propagation delay, dual rank (CK to output) t PD2 30pF to GND and 50 to VTT 0.7 2.5 ns 3.3 - ns Pulse duration t W CK, HIGH or LOW Setup time tSU Data before CK HIGH 1.0 - ns Hold time tH Data after CK HIGH 0.6 - ns Table 12: PLL Clock Driver Timing Requirements and Switching Characteristics CDC2510 device or equivalent JESD82-5 Parameter Symbol Min Max Units Operating clock frequency fCK 50 140 MHz Input duty cycle tDC Cycle-to-cycle jitter tJIT CC 44 55 % -75 75 ps Static phase offset t -150 150 ps SSC induced skew tSSC - 150 ps Output-to-output skew tSK - 150 ps Notes: PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN O Notes 1, 2 1. SSC = spread spectrum clock. The use of SSC synthesizers on the system motherboard will reduce EMI. 2. Skew is defined as the total clock skew between any two outputs and, therefore, is specified as a maximum only. 11 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Serial Presence-Detect Serial Presence-Detect Table 13: Serial Presence-Detect EEPROM DC Operating Conditions Parameter/Condition Symbol Min Max Units VDDSPD 1.7 3.6 V Input high voltage: Logic 1; All inputs VIH VDDSPD x 0.7 VDDSPD + 0.5 V Input low voltage: Logic 0; All inputs VIL -0.6 VDDSPD x 0.3 V Output low voltage: IOUT = 3mA Supply voltage VOL - 0.4 V Input leakage current: VIN = GND to VDD ILI 0.10 3.0 A Output leakage current: VOUT = GND to VDD ILO 0.05 3.0 A Standby current ISB 1.6 4.0 A Power supply current, read: SCL clock frequency = 100 kHz ICCR 0.4 1.0 mA Power supply current, write: SCL clock frequency = 100 kHz ICCW 2.0 3.0 mA Table 14: Serial Presence-Detect EEPROM AC Operating Conditions Parameter/Condition Symbol Min Max Units Notes SCL LOW to SDA data-out valid tAA 0.2 0.9 s 1 Time the bus must be free before a new transition can start tBUF 1.3 - s Data-out hold time tDH 200 - ns Clock/data fall time tF - 300 ns 2 Clock/data rise time tR - 300 ns 2 Data-in hold time tHD:DAT 0 - s Start condition hold time tHD:STA 0.6 - s tHIGH 0.6 - s tI - 50 ns tLOW 1.3 - s fSCL - 400 kHz Data-in setup time tSU:DAT 100 - ns Start condition setup time tSU:STA 0.6 - s Stop condition setup time tSU:STO 0.6 - s tWRC - 10 ms Clock HIGH period Noise suppression time constant at SCL, SDA inputs Clock LOW period SCL clock frequency WRITE cycle time Notes: 3 4 1. To avoid spurious start and stop conditions, a minimum delay is placed between SCL = 1 and the falling or rising edge of SDA. 2. This parameter is sampled. 3. For a restart condition or following a WRITE cycle. 4. The SPD EEPROM WRITE cycle time (tWRC) is the time from a valid stop condition of a write sequence to the end of the EEPROM internal ERASE/PROGRAM cycle. During the WRITE cycle, the EEPROM bus interface circuit is disabled, SDA remains HIGH due to pull-up resistance, and the EEPROM does not respond to its slave address. Serial Presence-Detect Data For the latest serial presence-detect data, refer to Micron's SPD page: www.micron.com/SPD. PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 12 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Module Dimensions Module Dimensions Figure 6: 168-Pin SDRAM RDIMM - Standard Layout 4.0 (0.157) MAX Front view 133.50 (5.256) 133.20 (5.244) U1 U2 U4 U3 2.0 (0.079) R (2X) 38.23 (1.505) 37.97 (1.495) U5 3.0 (0.118) D (2X) U7 U6 U9 17.78 (0.7) TYP 3.0 (0.118) TYP 1.37 (0.054) 1.17 (0.046) 6.35 (0.25) TYP 1.0 (0.039) R (2X) Pin 1 3.0 (0.118) TYP 1.02 (0.04) TYP 1.27 (0.05) TYP Pin 84 115.57 (4.55) TYP Back view U10 U11 U12 U13 U14 3.25 (0.128) 3.0 (0.118) 42.18 (1.661) TYP 66.68 (2.625) TYP Pin 168 Notes: PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN Pin 85 1. All dimensions are in millimeters (inches); MAX/MIN or typical (TYP) where noted. 2. The dimensional diagram is for reference only. Refer to the JEDEC MO document for additional design dimensions. 13 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved 128MB, 256MB (x72, ECC, SR): 168-Pin SDRAM RDIMM Module Dimensions Figure 7: 168-Pin SDRAM RDIMM - Low Profile Layout 4.0 (0.157) MAX Front view 133.50 (5.256) 133.20 (5.244) 2.0 (0.079) R (2X) U4 U1 U2 U3 U5 U6 28.702 (1.13) 28.448 (1.12) 3.0 (0.118) D (2X) U7 17.78 (0.7) TYP 3.0 (0.118) TYP 6.35 (0.25) TYP 3.0 (0.118) TYP 1.37 (0.054) 1.17 (0.046) 1.0 (0.039) R (2X) Pin 1 1.02 (0.04) TYP 1.27 (0.05) TYP Pin 84 115.57 (4.55) TYP Back view U9 U10 U13 U12 U11 U14 3.25 (0.128) 3.0 (0.118) 42.18 (1.661) TYP 66.68 (2.625) TYP Pin 168 Notes: Pin 85 1. All dimensions are in millimeters (inches); MAX/MIN or typical (TYP) where noted. 2. The dimensional diagram is for reference only. Refer to the JEDEC MO document for additional design dimensions. 8000 S. Federal Way, P.O. Box 6, Boise, ID 83707-0006, Tel: 208-368-3900 prodmktg@micron.com www.micron.com Customer Comment Line: 800-932-4992 Micron, the M logo, and the Micron logo are trademarks of Micron Technology, Inc. All other trademarks are the property of their respective owners. This data sheet contains minimum and maximum limits specified over the power supply and temperature range set forth herein. Although considered final, these specifications are subject to change, as further product development and data characterization sometimes occur. PDF: 09005aef80a2e32f/Source: 09005aef80a2e30d SD9C16_32x72.fm - Rev. D 1/08 EN 14 Micron Technology, Inc., reserves the right to change products or specifications without notice. (c)2003 Micron Technology, Inc. All rights reserved.