STK14C88-3
SOFTWARE NONVOLATILE RECALL
10kO*
1
A software RECALL cycle is initiated with a sequence
of READ operations in a manner similar to the soft-
ware STORE initiation. To initiate the RECALL cycle,
the following sequence of E controlled READ opera-
tions must be performed:
32
31
30
1. Read address
2. Read address
3. Read address
4. Read address
5. Read address
6. Read address
0E38 (hex)
31C7 (hex)
03E0 (hex)
3C1F (hex)
303F (hex)
0C63 (hex)
Valid READ
Valid READ
Valid READ
Valid READ
Valid READ
Initiate RECALL cycle
+
Internally, RECALL is a two-step procedure. First, the
SRAM data is cleared, and second, the nonvolatile
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 nonvolatile
elements. The nonvolatile data can be recalled an
unlimited number of times.
17
16
Figure 2: AutoStore Mode
*If HSB is not used, it should be left unconnected.
HSB OPERATION
The STK14C88-3 provides the HSB pin for control-
ling 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
STK14C88-3 will conditionally initiate a STORE oper-
ation 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 (initi-
ated by any means) is in progress. Pull up this pin
AutoStore OPERATION
The STK14C88-3 can be powered in one of three
modes.
During normal AutoStore operation, the STK14C88-
3 will draw current from VCCX to charge a capacitor
connected to the VCAP pin. This stored charge will be
used by the chip to perform a single STORE opera-
tion. After power up, when the voltage on the VCAP
pin drops below VSWITCH, the part will automatically
disconnect the VCAP pin from VCCX and initiate a
STORE operation.
with an external 10K ohm resistor to V
used as a driver.
if HSB is
CAP
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 STK14C88-3
Figure 2 shows the proper connection of capacitors
for automatic store operation. A charge storage
capacitor having a capacity of between 68μF and
220μF ( 20%) rated at 4.7V should be provided.
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.
In order to prevent unneeded STORE operations,
automatic STOREs as well as those initiated by
externally driving HSB low 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.
The HSB pin can be used to synchronize multiple
STK14C88-3s while using a single larger capacitor.
To operate in this mode the HSB pin should be con-
nected together to the HSB pins from the other
STK14C88-3s. An external pull-up resistor to +3.3V
is required since HSB acts as an open drain pull-
down. The VCAP pins from the other STK14C88-3
If the power supply drops faster than 20 μs/volt
before VCCX reaches VSWITCH, then a 1 ohm resistor
should be inserted between VCCX and the system
supply to avoid momentary excess of current
between Vccx and Vcap.
Rev 0.6
Document Control #ML0015
February 2007
11