STK14CA8 查看數據表(PDF) - Simtek Corporation
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STK14CA8 Datasheet PDF : 17 Pages
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STK14CA8
HARDWARE STORE ( HSB )
OPERATION
The STK14CA8 provides the HSB pin for controlling
and acknowledging the STORE operations. The
HSB pin can be used to request a hardware STORE
cycle. When the HSB pin is driven low, the
STK14CA8 will conditionally initiate a STORE
operation after tDELAY. An actual STORE cycle will
only begin if a WRITE to the SRAM took place since
the last STORE or RECALL cycle. The HSB pin also
acts as an open drain driver that is internally driven
low to indicate a busy condition while the STORE
(initiated by any means) is in progress.
SRAM READ and WRITE operations that are in
progress when HSB is driven low by any means are
given time to complete before the STORE operation
is initiated. After HSB goes low, the STK14CA8 will
continue SRAM operations for tDELAY. During tDELAY,
multiple SRAM READ operations may take place. If a
WRITE is in progress when HSB is pulled low it will
be allowed a time, tDELAY, to complete. However, any
SRAM WRITE cycles requested after HSB goes low
will be inhibited until HSB returns high.
During any STORE operation, regardless of how it
was initiated, the STK14CA8 will continue to drive
the HSB pin low, releasing it only when the STORE
is complete. Upon completion of the STORE
operation the STK14CA8 will remain disabled until
the HSB pin returns high.
If HSB is not used, it should be left unconnected.
HARDWARE RECALL (POWER-UP)
During power up, or after any low-power condition
(VCC < VSWITCH), an internal RECALL request will be
latched. When VCC once again exceeds the sense
voltage of VSWITCH, a RECALL cycle will automatically
be initiated and will take tHRECALL to complete.
SOFTWARE STORE
Data can be transferred from the SRAM to the
nonvolatile memory by a software address sequence.
The STK14CA8 software STORE cycle is initiated by
executing sequential E controlled READ cycles from
six specific address locations in exact order. During
the STORE cycle an erase of the previous nonvolatile
data is first performed, followed by a program of the
nonvolatile elements. Once a STORE cycle is
initiated, further input and output are disabled until the
cycle is completed.
Because a sequence of READs from specific
addresses is used for STORE initiation, it is important
that no other READ or WRITE accesses intervene in
the sequence, or the sequence will be aborted and no
STORE or RECALL will take place.
To initiate the software STORE cycle, the following
READ sequence must be performed:
1. Read address
2. Read address
3. Read address
4. Read address
5. Read address
6. Read address
0x4E38
0xB1C7
0x83E0
0x7C1F
0x703F
0x8FC0
Valid READ
Valid READ
Valid READ
Valid READ
Valid READ
Initiate STORE cycle
The software sequence may be clocked with E
controlled READs or G controlled READs.
Once the sixth address in the sequence has been
entered, the STORE cycle will commence and the
chip will be disabled. It is important that READ cycles
and not WRITE cycles be used in the sequence,
although it is not necessary that G be low for the
sequence to be valid. After the tSTORE cycle time has
been fulfilled, the SRAM will again be activated for
READ and WRITE operation.
SOFTWARE RECALL
Data can be transferred from the nonvolatile memory
to the SRAM by a software address sequence. A
software RECALL cycle is initiated with a sequence of
READ operations in a manner similar to the software
STORE initiation. To initiate the RECALL cycle, the
following sequence of E controlled READ operations
must be performed:
1. Read address
2. Read address
3. Read address
4. Read address
5. Read address
6. Read address
0x4E38
0xB1C7
0x83E0
0x7C1F
0x703F
0x4C63
Valid READ
Valid READ
Valid READ
Valid READ
Valid READ
Initiate RECALL cycle
December 2005
12
Document Control #ML0022 rev 1.3
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