STK22C48
nvSRAM OPERATION
The STK22C48 has two separate modes of opera-
tion:
SRAM
mode and nonvolatile mode. In
SRAM
mode, the memory operates as a standard fast static
RAM
. In nonvolatile mode, data is transferred from
SRAM
to Nonvolatile Elements (the
STORE
opera-
tion) or from Nonvolatile Elements to
SRAM
(the
RECALL
operation). In this mode
SRAM
functions are
disabled.
POWER-UP
RECALL
During power up, or after any low-power condition
(V
CAP
< V
RESET
), an internal
RECALL
request will be
latched. When V
CAP
once again exceeds the sense
voltage of V
SWITCH
, a
RECALL
cycle will automatically
be initiated and will take t
RESTORE
to complete.
If the STK22C48 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
V
CC
or between E and system V
CC
.
NOISE CONSIDERATIONS
The STK22C48 is a high-speed memory and so
must have a high-frequency bypass capacitor of
approximately 0.1μF connected between V
CAP
and
V
SS
, using leads and traces that are as short as pos-
sible. As with all high-speed
CMOS
ICs, normal care-
ful routing of power, ground and signals will help
prevent noise problems.
AutoStore OPERATION
The STK22C48 can be powered in one of three
modes.
During normal AutoStore operation, the STK22C48
will draw current from V
CCX
to charge a capacitor
connected to the V
CAP
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 V
CAP
pin drops below V
SWITCH
, the part will automatically
disconnect the V
CAP
pin from V
CCX
and initiate a
STORE
operation.
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 6V should be provided.
In system power mode (Figure 3), both V
CCX
and
V
CAP
are connected to the + 5V power supply without
the 68μF capacitor. In this mode the AutoStore func-
tion of the STK22C48 will operate on the stored sys-
tem charge as power goes down. The user must,
however, guarantee that V
CCX
does not drop below
3.6V during the 10ms
STORE
cycle.
If an automatic
STORE
on power loss is not required,
then V
CCX
can be tied to ground and + 5V applied to
V
CAP
(Figure 4). This is the AutoStore Inhibit mode,
in which the AutoStore function is disabled. If the
STK22C48 is operated in this configuration, refer-
ences to V
CCX
should be changed to V
CAP
throughout
this data sheet. In this mode,
STORE
operations may
be triggered with the HSB pin. It is not permissible to
change between these three options “on the fly.”
In order to prevent unneeded
STORE
operations,
automatic
STORE
s as well as those initiated by
externally driving HSB low will be ignored unless at
SRAM READ
The STK22C48 performs a
READ
cycle whenever E
and G are low and W and HSB are high. The
address specified on pins A
0-10
determines which of
the 2,048 data bytes will be accessed. When the
READ
is initiated by an address transition, the out-
puts will be valid after a delay of t
AVQV
(
READ
cycle
#1). If the
READ
is initiated by E or G, the outputs will
be valid at t
ELQV
or at t
GLQV
, whichever is later (
READ
cycle #2). The data outputs will repeatedly respond to
address changes within the t
AVQV
access time without
the need for transitions on any control input pins, and
will remain valid until another address change or until
E or G is brought high, or W or HSB is brought low.
SRAM WRITE
A
WRITE
cycle is performed whenever E and W are
low and HSB is high. The address inputs must be
stable prior to entering the
WRITE
cycle and must
remain stable until either E or W goes high at the
end of the cycle. The data on the common I/O pins
DQ
0-7
will be written into the memory if it is valid t
DVWH
before the end of a W controlled
WRITE
or t
DVEH
before the end of an E controlled
WRITE
.
It is recommended that G be kept high during the
entire
WRITE
cycle to avoid data bus contention on
common I/O lines. If G is left low, internal circuitry
will turn off the output buffers t
WLQZ
after W goes low.
Document Control #ML0004 Rev 0.3
February 2007
8
SIMTEK [ SIMTEK CORPORATION ]
