STK14C88-3
SOFTWARE STORE/RECALL MODE SELECTION
E
W
A
- A (hex)
MODE
I/O
POWER
NOTES
13
0
0E38
31C7
03E0
3C1F
303F
0FC0
Read SRAM
Read SRAM
Output Data
Output Data
Output Data
Output Data
Output Data
Output High Z
Read SRAM
Active
L
H
r, s, t
Read SRAM
Read SRAM
Nonvolatile STORE
l
CC
2
0E38
31C7
03E0
3C1F
303F
0C63
Read SRAM
Read SRAM
Output Data
Output Data
Output Data
Output Data
Output Data
Output High Z
Read SRAM
r, s, t
L
H
Active
Read SRAM
Read SRAM
Nonvolatile RECALL
SOFTWARE-CONTROLLED STORE/RECALL CYCLEv
(VCC = 3.0V-3.6V)e
SYMBOLS
STK14C88-3-25 STK14C88-3-35 STK14C88-3-45
NO.
PARAMETER
UNITS NOTES
Standard Alternate
MIN
35
0
MAX
MIN
45
0
MAX
MIN
MAX
33
34
35
36
37
t
t
t
t
t
t
t
t
STORE/RECALL Initiation Cycle Time
Address Set-up Time
Clock Pulse Width
55
0
ns
ns
ns
ns
µs
n
u
u
u
AVAV
RC
AS
AVEL
25
20
30
20
45
20
ELEH
ELAX
RECALL
CW
Address Hold Time
RECALL Duration
20
20
20
Note r: The six consecutive addresses must be in the order listed. W must be high during all six consecutive cycles to enable a nonvolatile cycle.
Note s: While there are 15 addresses on the STK14C88-3, only the lower 14 are used to control software modes.
Note t: I/O state assumes G < VIL. Activation of nonvolatile cycles does not depend on state of G.
Note u: The software sequence is clocked with E controlled READs.
Note v: The six consecutive addresses must be in the order listed in the Hardware Mode Selection Table: (0E38, 31C7, 03E0, 3C1F, 303F, 0FC0) for
a STORE cycle or (0E38, 31C7, 03E0, 3C1F, 303F, 0C63) for a RECALL cycle. W must be high during all six consecutive cycles.
SOFTWARE STORE/RECALL CYCLE: E CONTROLLEDv
33
AVAV
33
AVAV
t
t
ADDRESS #1
ADDRESS #6
ADDRESS
34
AVEL
35
ELEH
t
t
E
36
ELAX
t
28
37
RECALL
t
STORE / t
HIGH IMPEDANCE
DATA VALID
DATA VALID
DQ (DATA
November 2003
7
Document Control # ML0015 rev 0.3