MT46V64M8P-75:D Micron Technology Inc, MT46V64M8P-75:D Datasheet - Page 64

MT46V64M8P-75:D

Manufacturer Part Number

MT46V64M8P-75:D

Description

IC DDR SDRAM 512MBIT 66TSOP

Manufacturer

Micron Technology Inc

Datasheet

1.MT46V64M8P-5BD.pdf (83 pages)

Specifications of MT46V64M8P-75:D

Format - Memory

RAM

Memory Type

DDR SDRAM

Memory Size

512M (64M x 8)

Speed

7.5ns

Interface

Parallel

Voltage - Supply

2.3 V ~ 2.7 V

Operating Temperature

0°C ~ 70°C

Package / Case

66-TSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Figure 37:

WRITE

PDF: 09005aef80a1d9d4/Source: 09005aef82a95a3a

DDR_x4x8x16_Core2.fm - 512Mb DDR: Rev. L; Core DDR Rev. A 4/07 EN

All DQ values collectively 4

DQS or LDQS/UDQS 3

DQ (first data valid)

DQ (last data valid)

Data Output Timing –

Notes:

Note:

CK#

1. READ command with CL = 2 issued at T0.

3. DQs transitioning after DQS transition define the

4. All DQs must transition by

During a WRITE command, the value on input A10 determines whether or not auto

precharge is used. If auto precharge is selected, the row being accessed will be

precharged at the end of the WRITE burst (after

selected, the row will remain open for subsequent accesses.

Input data appearing on the DQ is written to the memory array subject to the DM input

logic level appearing coincident with the data. If a given DM signal is registered LOW, the

corresponding data will be written to memory. If the DM signal is registered HIGH, the

corresponding data inputs will be ignored, and a WRITE will not be executed to that

byte/column location.

During WRITE bursts, the first valid data-in element will be registered on the first rising

edge of DQS following the WRITE command, and subsequent data elements will be

registered on successive edges of DQS. The LOW state on DQS between the WRITE

command and the first rising edge is known as the write preamble; the LOW state on

DQS following the last data-in element is known as the write postamble.

The time between the WRITE command and the first corresponding rising edge of DQS

(

clock cycle). All of the WRITE diagrams show the nominal case, and where the two

extreme cases (i.e.,

DQSS) is specified with a relatively wide range (from 75 percent to 125 percent of one

For the WRITE commands used in the following illustrations, auto precharge is dis-

abled.

DQS skew.

DQSCK is the DQS output window relative to CK and is the “long term” component of the

AC is the DQ output window relative to CK and is the “long term” component of DQ skew.

LZ (MIN) and

HZ (MAX) and

t LZ (MIN)

T0 1

AC and

AC (MIN) are the first valid signal transitions.

AC (MAX) are the latest valid signal transitions.

DQSS [MIN] and

t LZ (MIN)

t RPRE

DQSCK

DQSQ after DQS transitions, regardless of

t DQSCK 2 (MAX)

t DQSCK 2 (MIN)

T2n

DQSS [MAX]) might not be intuitive; they have

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

T2n

t AC 5 (MIN)

512Mb: x4, x8, x16 DDR SDRAM

WR time); if auto precharge is not

T3n

DQSQ window.

T3n

t AC 5 (MAX)

T4n

t DQSCK 2 (MAX)

t DQSCK 2 (MIN)

T4n

AC.

Operations

t HZ (MAX)

T5n

t RPST

T5n

MT46V64M8P-75:D Micron Technology Inc, MT46V64M8P-75:D Datasheet - Page 64

MT46V64M8P-75:D

Specifications of MT46V64M8P-75:D

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