mt16jss51264hy-1g1 Micron Semiconductor Products, mt16jss51264hy-1g1 Datasheet - Page 7

mt16jss51264hy-1g1

Manufacturer Part Number

mt16jss51264hy-1g1

Description

4gb X64, Dr 204-pin Ddr3 Sdram Sodimm

Manufacturer

Micron Semiconductor Products

Datasheet

1.MT16JSS51264HY-1G1.pdf (19 pages)

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General Description

Fly-By Topology

Temperature Sensor with Serial Presence-Detect EEPROM

Thermal Sensor Operations

Serial Presence-Detect EEPROM Operation

PDF: 09005aef832ed836/Source: 09005aef832ed8fb

JSS16C512x64H.fm - Rev. A 5/08 EN

The MT16JSS51264H DDR3 SDRAM module is a high-speed, CMOS dynamic random

access 4GB memory module organized in a x64 configuration. This DDR3 SDRAM

module uses internally configured, 8-bank 4Gb TwinDie DDR3 SDRAM devices.

DDR3 SDRAM modules use double data rate architecture to achieve high-speed opera-

tion. The double data rate architecture is essentially an 8n-prefetch architecture with an

interface designed to transfer two data words per clock cycle at the I/O pins. A single

read or write access for the DDR3 SDRAM module effectively consists of a single

8n-bit-wide, one-clock-cycle data transfer at the internal DRAM core and eight corre-

sponding n-bit-wide, one-half-clock-cycle data transfers at the I/O pins.

The differential data strobe (DQS, DQS#) is transmitted externally, along with data, for

use in data capture at the DDR3 SDRAM input receiver. DQS is center-aligned with data

for WRITEs. The read data is transmitted by the DDR3 SDRAM and edge-aligned to the

data strobes.

DDR3 SDRAM modules operate from a differential clock (CK and CK#); the crossing of

CK going HIGH and CK# going LOW will be referred to as the positive edge of CK.

Control, command, and address signals are registered at every positive edge of CK. Input

data is registered on both edges of DQS, and output data is referenced to both edges of

DQS, as well as to both edges of CK.

These DDR3 modules use faster clock speeds than earlier DDR technologies, making

signal quality more important than ever. For improved signal quality, the clock, control,

command, and address buses have been routed in a fly-by topology, where each clock,

control, command, and address pin on each DRAM is connected to a single trace and

terminated (rather than a tree structure, where the termination is off the module near

the connector). Inherent to fly-by topology, the timing skew between the clock and DQS

signals can be easily accounted for by using the write-leveling feature of DDR3.

The temperature from the integrated thermal sensor is monitored and converts into a

digital word via the I

to create a custom temperature-sensing solution based on system requirements.

Programming and configuration details comply with JEDEC Standard No. 21-C, page

4.7-1 “Mobile Platform Memory Module Thermal Sensor Component Specification.”

DDR3 SDRAM modules incorporate serial presence-detect. The SPD data is stored in a

256-byte EEPROM. The first 128 bytes are programmed by Micron to comply with JEDEC

Standard JC-45 “Appendix X: Serial Presence-Detect (SPD) for DDR3 SDRAM Modules.”

These bytes identify module-specific timing parameters, configuration information, and

physical attributes. User-specific information can be written into the remaining

128 bytes of storage. System READ/WRITE operations between the master (system logic)

and the slave EEPROM device occur via a standard I

and SDA (data) signals, together with SA[1:0], which provide four unique DIMM/

EEPROM addresses. Write protect (WP) is connected to V

hardware write protect.

C bus. System designers can use the user-programmable registers

4GB (x64, DR) 204-Pin DDR3 SDRAM SODIMM

Micron Technology, Inc., reserves the right to change products or specifications without notice.

C bus using the DIMM’s SCL (clock)

, permanently disabling

General Description

mt16jss51264hy-1g1 Micron Semiconductor Products, mt16jss51264hy-1g1 Datasheet - Page 7

mt16jss51264hy-1g1

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