MT48LC16M16LFFG Micron Technology Inc, MT48LC16M16LFFG Datasheet - Page 20

MT48LC16M16LFFG

Manufacturer Part Number

MT48LC16M16LFFG

Description

Manufacturer

Micron Technology Inc

Datasheet

1.MT48LC16M16LFFG.pdf (61 pages)

Specifications of MT48LC16M16LFFG

Lead Free Status / Rohs Status

Not Compliant

Current page: 20 of 61
Download datasheet (2Mb)

subsequent WRITE command, and data from a fixed-

length READ burst may be immediately followed by

data from a WRITE command (subject to bus turn-

around limitations). The WRITE burst may be initiated

on the clock edge immediately following the last (or last

desired) data element from the READ burst, provided

that I/O contention can be avoided. In a given system

design, there may be a possibility that the device driv-

ing the input data will go Low-Z before the SDRAM DQs

go High-Z. In this case, at least a single-cycle delay

should occur between the last read data and the WRITE

command.

shown in Figures 9 and 10. The DQM signal must be

asserted (HIGH) at least two clocks prior to the WRITE

command (DQM latency is two clocks for output

256Mb: x16 Mobile SDRAM

MobileRamY26L_B.p65 – Pub. 04/03

Data from any READ burst may be truncated with a

The DQM input is used to avoid I/O contention, as

COMMAND

ADDRESS

NOTE:

DQM

CLK

A CAS latency of three is used for illustration. The READ

command may be to any bank, and the WRITE command

may be to any bank. If a burst of one is used, then DQM is

not required.

BANK,

COL n

READ

READ to WRITE

TRANSITIONING DATA

Figure 9

NOP

t HZ

OUT

t CK

DON’T CARE

BANK,

COL b

WRITE

buffers) to suppress data-out from the READ. Once the

WRITE command is registered, the DQs will go High-Z

(or remain High-Z), regardless of the state of the DQM

signal; provided the DQM was active on the clock just

prior to the WRITE command that truncated the READ

command. If not, the second WRITE will be an invalid

WRITE. For example, if DQM was LOW during T4 in

Figure 10, then the WRITEs at T5 and T7 would be

valid, while the WRITE at T6 would be invalid.

WRITE command (DQM latency is zero clocks for input

buffers) to ensure that the written data is not masked.

Figure 9 shows the case where the clock frequency al-

lows for bus contention to be avoided without adding a

NOP cycle, and Figure 10 shows the case where the

additional NOP is needed.

COMMAND

ADDRESS

The DQM signal must be de-asserted prior to the

NOTE:

DQM

CLK

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

A CAS latency of three is used for illustration. The READ command

may be to any bank, and the WRITE command may be to any bank.

BANK,

COL n

READ

READ to WRITE With

Extra Clock Cycle

NOP

Figure 10

TRANSITIONING DATA

NOP

MOBILE SDRAM

256Mb: x16

NOP

t HZ

OUT

PRELIMINARY

NOP

DON’T CARE

BANK,

COL b

WRITE

MT48LC16M16LFFG Micron Technology Inc, MT48LC16M16LFFG Datasheet - Page 20

MT48LC16M16LFFG

Specifications of MT48LC16M16LFFG

Related parts for MT48LC16M16LFFG