mt48lc16m4a2tg Micron Semiconductor Products, mt48lc16m4a2tg Datasheet - Page 18
mt48lc16m4a2tg
Manufacturer Part Number
mt48lc16m4a2tg
Description
64mb X4, X8, X16 Sdram
Manufacturer
Micron Semiconductor Products
Datasheet
1.MT48LC16M4A2TG.pdf
(55 pages)
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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
64Mb: x4, x8, x16 SDRAM
64MSDRAM_F.p65 – Rev. F; Pub. 1/03
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
DQ
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.
T0
BANK,
COL n
READ
READ to WRITE
TRANSITIONING DATA
Figure 9
T1
NOP
T2
NOP
T3
NOP
D
t HZ
OUT
t CK
n
DON’T CARE
T4
BANK,
COL b
WRITE
D
IN
b
t
DS
18
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
DQ
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
T0
READ
READ to WRITE With
Extra Clock Cycle
T1
NOP
Figure 10
64Mb: x4, x8, x16
T2
TRANSITIONING DATA
NOP
T3
NOP
t HZ
D
OUT
n
T4
©2003, Micron Technology, Inc.
NOP
SDRAM
DON’T CARE
T5
BANK,
COL b
WRITE
D
IN
b
t
DS
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