is42g32256 ETC-unknow, is42g32256 Datasheet - Page 11
is42g32256
Manufacturer Part Number
is42g32256
Description
256k 16-mbit Synchronous Graphics
Manufacturer
ETC-unknow
Datasheet
1.IS42G32256.pdf
(52 pages)
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IS42G32256
The minimum number of clock cycles required to complete
row precharge is calculated by dividing “t
cycle time and rounding up to the next higher integer. Care
should be taken to make sure that burst write is completed
or DQM is used to inhibit writing before precharge command
is asserted. The maximum time any bank can be active is
specified by t
precharged within t
command. At the end of precharge, the bank enters the
idle state and is ready to be activated again.
Entry to Power Down, Auto refresh, Self refresh and Mode
register Set etc. is possible only when both banks are in
idle state.
Auto Precharge
The precharge operation can also be performed by using
auto precharge. The SGRAM internally generates the
timing to satisfy t
burst length and
command is issued at the same time as burst write by
asserting high on A9. If burst read or burst write command
is issued with low on A9, the bank is left active until a new
command is asserted. Once auto precharge command is
given, no new command are possible to that particular
bank until the bank achieves idle state.
Both Banks Precharge
Both banks can be precharged at the same time by using
Precharge all command. Asserting low on
WE
requirement, performs precharge on both banks. At the
end of t
idle state.
Auto Refresh
The storage cells of SGRAM need to be refreshed every
32 ms to maintain data. An auto refresh cycle accomplishes
refresh of a single row of storage cells. The internal counter
increments automatically on every auto refresh cycle to
refresh all the rows. An auto refresh command is issued by
asserting low on
WE
both banks being in idle state and the device is not in power
down mode (CKE is high in the previous cycle). The time
required to complete the auto refresh operation is specified
by t
can be calculated by driving t
them rounding up to the next higher integer. The auto
refresh command must be followed by NOPs until the auto
refresh operation is completed. Both banks will be in the
idle state at the end of auto refresh operation. The auto
Integrated Silicon Solution, Inc.
ADVANCE INFORMATION SR037-0C
09/10/98
. The auto refresh command can only be asserted with
RC
with high on A9 after all banks have satisfied t
(min). The minimum number of clock cycles required
RP
after performing precharge all, all banks are in
RAS
CS
RAS
(max). Therefore, each bank has to be
CAS
,
RAS
RAS
(min) and “t
(max) from the bank activate
latency. The auto precharge
and
RC
CAS
with clock cycle time and
RP
” for the programmed
with high on CKE and
RP
CS
” with clock
,
RAS
RAS
(min)
and
refresh is the preferred refresh mode when the SGRAM is
being used for normal data transactions. The auto refresh
cycle can be performed once in 15.6 s or the burst of 2048
auto refresh cycles in 32 ms.
Self Refresh
The self refresh is another refresh mode available in the
SGRAM. The self refresh is the preferred refresh mode for
data retention and low power operation of SGRAM. In self
refresh mode, the SGRAM disables the internal clock and
all the input buffers except CKE. The refresh addressing
and timing is internally generated to reduce power
consumption.
The self refresh mode is entered from all banks idle state
by asserting low on
WE
being low matters, all the other inputs including clock are
ignored to remain in the refresh.
The self refresh is exited by restarting the external clock
and then asserting high on CKE. This must be followed by
NOP’s for a minimum time of tRC before the SGRAM
reaches idle state to begin normal operation. If the system
uses burst auto refresh during normal operation, it is
recommended to use burst 2048 auto refresh cycles
immediately after exiting self refresh.
Define Special Function (DSF)
The DSF controls the graphic applications of SGRAM. If
DSF is tied to low, SGRAM functions as 256K x 32 x 2 Bank
SGRAM. SGRAM can be used as an unified memory by
the appropriate DSF command. All the graphic function
mode can be entered only by setting DSF high when
issuing commands which otherwise would be normal
SGRAM commands.
SGRAM functions such as
change to SGRAM functions such as
WPB, Block Write and SWCBR respectively that DSF
controls.
Special Mode Register Set (SMRS)
There are two kinds of special mode registers in SGRAM.
One is color register and the other is mask register. Those
usage will be explained at “Write Per Bit” and “Block Write”
session. When A5 and DSF goes high in the same cycle
as
filled with color data for associated DQ’s through the DQ
pins. If both A5 and A6 are high at SMRS, data of mask and
color cycle is required to complete the write in the mask
register and the color register at LMR and LCR respectively.
The next color of LMR and LCR, a new commands can be
CS
. Once the self refresh mode is entered, only CKE state
,
RAS
,
CAS
and
CS
WE
,
RAS
going low, load color register is
RAS
,
CAS
Active, Write and WCBR
and CKE with high on
RAS
Active with
ISSI
11
®
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