STK15C88-3
Internally, RECALL is a two-step procedure. First,
the SRAM data is cleared, and second, the nonvola-
tile information is transferred into the SRAM cells.
After the tRECALL cycle time the SRAM will once again
be ready for READ and WRITE operations. The
RECALL operation in no way alters the data in the
EEPROM cells. The nonvolatile data can be recalled
an unlimited number of times.
If the STK15C88-3 is in a WRITE state at the end of
power-up RECALL, the SRAM data will be corrupted.
To help avoid this situation, a 10K Ohm resistor
should be connected either between W and system
VCC or between E and system VCC.
HARDWARE PROTECT
The STK15C88-3 offers hardware protection
against inadvertent STORE operation and SRAM
AutoStoreTM OPERATION
WRITEs during low-voltage conditions. When VCC
<
The STK15C88-3 uses the intrinsic system capaci-
tance to perform an automatic STORE on power
down. As long as the system power supply takes at
least tSTORE to decay from VSWITCH down to 2.6V, the
STK15C88-3 will safely and automatically store the
SRAM data in EEPROM on power down.
VSWITCH, all software STORE operations and SRAM
WRITEs are inhibited.
LOW AVERAGE ACTIVE POWER
The STK15C88-3 draws significantly less current
when it is cycled at times longer than 50ns. Figure 2
shows the relationship between ICC and READ cycle
time. Worst-case current consumption is shown for
both CMOS and TTL input levels (commercial tem-
perature range, VCC = 3.6V, 100% duty cycle on chip
enable). Figure 3 shows the same relationship for
WRITE cycles. If the chip enable duty cycle is less
than 100%, only standby current is drawn when the
chip is disabled. The overall average current drawn
by the STK15C88-3 depends on the following
items: 1) CMOS vs. TTL input levels; 2) the duty
cycle of chip enable; 3) the overall cycle rate for
accesses; 4) the ratio of READs to WRITEs; 5) the
operating temperature; 6) the VCC level; and 7) I/O
loading.
In order to prevent unneeded STORE operations,
automatic STOREs will be ignored unless at least
one WRITE operation has taken place since the
most recent STORE or RECALL cycle. Software-
initiated STORE cycles are performed regardless of
whether a WRITE operation has taken place.
POWER-UP RECALL
During power up, or after any low-power condition
(VCC < VRESET), 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 tRESTORE to complete.
50
40
30
20
50
40
30
TTL
CMOS
20
TTL
10
10
CMOS
0
0
50
100
150
200
50
100
150
200
Cycle Time (ns)
Cycle Time (ns)
Figure 2: ICC (max) Reads
Figure 3: ICC (max) Writes
September 2002
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