MT41J256M4JP-15E:G Micron Technology Inc, MT41J256M4JP-15E:G Datasheet - Page 137

MT41J256M4JP-15E:G

Manufacturer Part Number

MT41J256M4JP-15E:G

Description

IC DDR3 SDRAM 1GBIT 78FBGA

Manufacturer

Micron Technology Inc

Series

-r

Datasheets

1.MT41J64M16LA-187EB_TR.pdf (181 pages)

2.MT41J256M4JP-15EG.pdf (208 pages)

Specifications of MT41J256M4JP-15E:G

Format - Memory

RAM

Memory Type

DDR3 SDRAM

Memory Size

1G (256M x 4)

Speed

667MHz

Interface

Parallel

Voltage - Supply

1.425 V ~ 1.575 V

Operating Temperature

0°C ~ 95°C

Package / Case

78-TFBGA

Lead Free Status / RoHS Status

Supplier Unconfirmed

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

MT41J256M4JP-15E:G

Manufacturer:

Micron Technology Inc

Quantity:

10 000

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Figure 80: Data Strobe Timing – READs

Figure 81: Method for Calculating

PDF: 09005aef826aa906/Source: 09005aef82a357c3

1Gb_DDR3_4.fm - Rev. F 11/08 EN

early strobe

DQS, DQS#

late strobe

CK#

t HZ (DQS), t HZ (DQ)

t LZ (DQS) MIN

t HZ (DQS), t HZ (DQ) end point = 2 × T1 - T2

Notes:

t LZ (DQS) MAX

t RPRE

parameters are referenced to a specific voltage level which specifies when the device

output is no longer driving

driving

signal at two different voltages. The actual voltage measurement points are not critical

as long as the calculation is consistent. The parameters

and

1. Within a burst, the rising strobe edge is not necessarily fixed at

2. The DQS high pulse width is defined by

3. The minimum pulse width of the READ preamble is defined by

HZ and

LZ (DQ). Figure 81 shows a method to calculate the point when the device is no longer

t DQSCK (MIN)

(MAX). Instead, the rising strobe edge can vary between

case) and

case); however, they tend to track one another.

pulse width of the READ postamble is defined by

QSL. Likewise,

HZ (DQ) are defined as single-ended.

t RPRE

Bit 0

RL measured

to this point

HZ (DQS) and

LZ transitions occur in the same access time as valid data transitions. These

t QSH

t DQSCK (MAX)

LZ (DQS) MAX and

Bit 0

Bit 1

LZ and

t QSH

LZ (DQS) MIN and

t DQSCK (MIN)

t QSL

Bit 1

Bit 2

HZ (DQ) or begins driving

+ 2xmV

+ xmV

t QSL

- xmV

- 2xmV

t QSH

t DQSCK (MAX)

HZ (DQS) and

Bit 2

137

Bit 3

HZ (DQS) MAX are not tied to

t QSH

t DQSCK (MIN)

t QSL

HZ (DQS) MIN are not tied to

Bit 4

Bit 3

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

t QSL

QSH, and the DQS low pulse width is defined by

+ 2xmV

t DQSCK (MAX)

- 2xmV

+ xmV

t LZ (DQS), t LZ (DQ) begin point = 2 × T1 - T2

HZ (DQ) or begins driving

- xmV

Bit 4

Bit 5

1Gb: x4, x8, x16 DDR3 SDRAM

t DQSCK (MIN)

RPST (MIN).

LZ (DQS),

Bit 5

Bit 6

LZ (DQS),

DQSCK (MIN) and

t DQSCK (MAX)

Bit 6

Bit 7

DQSCK (MAX) (late strobe

LZ (DQ) by measuring the

RPRE (MIN). The minimum

t LZ (DQS), t LZ (DQ)

DQSCK (MIN) or

t HZ (DQS) MIN

DQSCK (MIN) (early strobe

t RPST

LZ (DQ),

Bit 7

t RPST

LZ (DQS),

t HZ (DQS) MAX

Operations

DQSCK (MAX).

HZ (DQS),

DQSCK

MT41J256M4JP-15E:G Micron Technology Inc, MT41J256M4JP-15E:G Datasheet - Page 137

MT41J256M4JP-15E:G

Specifications of MT41J256M4JP-15E:G

Available stocks

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