MT18LD472AG-5X MICRON [Micron Technology], MT18LD472AG-5X Datasheet - Page 6

MT18LD472AG-5X

Manufacturer Part Number

MT18LD472AG-5X

Description

2, 4 MEG x 72 NONBUFFERED DRAM DIMMs

Manufacturer

MICRON [Micron Technology]

Datasheet

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OBSOLETE

PIN DESCRIPTIONS

2, 4 Meg x 72 Nonbuffered DRAM DIMMs

DM60.p65 – Rev. 6/98

6, 18, 26, 40, 41, 49, 59,

1, 12, 23, 32, 43, 54, 64,

68, 78, 85, 96, 107, 116,

55-58, 60, 65-67, 69-72,

124, 133, 143, 157, 168

127, 138, 148, 152, 162

2-5, 7-11, 13-17, 19-20,

139-142, 144, 149-151,

125-126, 128, 132, 146

21-22, 52-53, 105-106,

73, 84, 90, 102, 110,

74-77, 86-89,91-95,

28, 29, 46, 47, 112,

153-156, 158-161

97-101, 103-104,

42, 62, 111, 115,

33-38, 117-121

113, 130, 131

PIN NUMBERS

136-137

165-167

30, 45

27, 48

31, 44

RAS0#, RAS2#

CAS0#-CAS7#

WE0#, WE2#

OE0#, OE2#

DQ0-DQ63

CB0-CB7

SA0-SA2

SYMBOL

A0-A10

RFU

SDA

SCL

Input/Output

Output

Supply

Input/

Input

TYPE

–

Row-Address Strobe: RAS# is used to clock-in the row-

address bits. Two RAS# inputs allow for one x72 bank or

two x36 banks.

Column-Address Strobe: CAS# is used to clock-in the

column-address bits, enable the DRAM output buffers

and strobe the data inputs on WRITE cycles. Eight CAS#

inputs allow byte access control for any memory bank

configuration.

Write Enable: WE# is the READ/WRITE control for the

DQ pins. If WE# is LOW prior to CAS# going LOW, the

access is an EARLY WRITE cycle. If WE# is HIGH while

CAS# is LOW, the access is a READ cycle, provided OE#

is also LOW. If WE# goes LOW after CAS# goes LOW,

then the cycle is a LATE WRITE cycle. A LATE WRITE

cycle is generally used in conjunction with a READ cycle

to form a READ-MODIFY-WRITE cycle.

Output Enable: OE# is the input/output control for the DQ

pins. These signals may be driven, allowing LATE WRITE

cycles.

Address Inputs: These inputs are multiplexed and clocked

by RAS# and CAS#.

Data I/O: For WRITE cycles, DQ0-DQ63 act as inputs to

the addressed DRAM location. For READ access cycles,

DQ0-DQ63 act as outputs for the addressed DRAM

location.

Check Bits.

Reserved for Future Use: These pins should be left

unconnected.

Power Supply: +3.3V 0.3V.

Ground.

Serial Presence-Detect Data. SDA is a bidirectional pin

used to transfer addresses and data into and data out of

the presence-detect portion of the module.

Serial Clock for Presence-Detect. SCL is used to

synchronize the presence-detect data transfer to and

from the module.

Presence-Detect Address Inputs. These pins are used to

configure the presence-detect device.

NONBUFFERED DRAM DIMMs

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

DESCRIPTION

2, 4 MEG x 72

1998, Micron Technology, Inc.

MT18LD472AG-5X MICRON [Micron Technology], MT18LD472AG-5X Datasheet - Page 6

MT18LD472AG-5X

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