STK14C88
32K x 8
AutoStore™
nvSRAM
QuantumTrap™
CMOS
Nonvolatile Static RAM
FEATURES
• 25ns, 35ns and 45ns Access Times
• “Hands-off” Automatic
STORE
with External
68µF Capacitor on Power Down
•
STORE
to nonvolatile elements Initiated by
Hardware, Software or
AutoStore™
•
RECALL
to SRAM Initiated by Software or
Power Restore
• 10mA Typical I
CC
at 200ns Cycle Time
• Unlimited READ, WRITE and
RECALL
Cycles
• 1,000,000
STORE
Cycles to nonvolatile ele-
ments (Commercial/Industrial)
• 100-Year Data Retention in nonvolatile ele-
ments (Commercial/Industrial)
• Single 5V + 10% Operation
• Commercial, Industrial and Military Tempera-
tures
• 32-Pin SOIC, DIP and LCC Packages
DESCRIPTION
The Simtek STK14C88 is a fast static
RAM
with a
nonvolatile element incorporated in each static
memory cell. The
SRAM
can be read and written an
unlimited number of times, while independent, non-
volatile data resides in the nonvolatile elements.
Data transfers from the
SRAM
to the nonvolatile ele-
ments (the
STORE
operation) can take place auto-
matically on power down. A 68µF or larger capacitor
tied from V
CAP
to ground guarantees the
STORE
operation, regardless of power-down slew rate or
loss of power from “hot swapping”. Transfers from
the nonvolatile elements to the
SRAM
(the
RECALL
operation) take place automatically on restoration of
power. Initiation of
STORE
and
RECALL
cycles can
also be software controlled by entering specific read
sequences. A hardware
STORE
may be initiated with
the HSB pin.
BLOCK DIAGRAM
V
CCX
Quantum Trap
512 x 512
V
CAP
PIN CONFIGURATIONS
V
CAP
A
14
A
12
A
7
A
6
A
5
A
4
A
3
NC
A
2
A
1
A
0
DQ
0
DQ
1
DQ
2
V
SS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
A
5
A
6
A
7
A
8
A
9
A
11
A
12
A
13
A
14
DQ
0
DQ
1
DQ
2
DQ
3
DQ
4
DQ
5
DQ
6
DQ
7
POWER
CONTROL
ROW DECODER
STORE
STATIC RAM
ARRAY
512 x 512
RECALL
STORE/
RECALL
CONTROL
HSB
V
CCX
HSB
W
A
13
A
8
A
9
A
11
G
NC
A
10
E
DQ
7
DQ
6
DQ
5
DQ
4
DQ
3
32 - LCC
COLUMN I/O
COLUMN DEC
SOFTWARE
DETECT
A
0
- A
13
32 - DIP
32 - SOIC
INPUT BUFFERS
PIN NAMES
A
0
- A
14
DQ
0
-DQ
7
E
Address Inputs
Data In/Out
Chip Enable
Write Enable
Output Enable
Hardware Store Busy (I/O)
Power (+ 5V)
Capacitor
Ground
A
0
A
1
A
2
A
3
A
4
A
10
G
E
W
W
G
HSB
V
CCX
V
CAP
V
SS
September 2003
1
Document Control # ML0014 rev 0.1
STK14C88
ABSOLUTE MAXIMUM RATINGS
a
Voltage on Input Relative to Ground . . . . . . . . . . . . . –0.5V to 7.0V
Voltage on Input Relative to V
SS
. . . . . . . . . .–0.6V to (V
CC
+ 0.5V)
Voltage on DQ
0-7
or HSB . . . . . . . . . . . . . . . .–0.5V to (V
CC
+ 0.5V)
Temperature under Bias. . . . . . . . . . . . . . . . . . . . . .–55°C to 125°C
Storage Temperature . . . . . . . . . . . . . . . . . . . . . . . .–65°C to 150°C
Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1W
DC Output Current (1 output at a time, 1s duration) . . . . . . . 15mA
Note a: Stresses greater than those listed under “Absolute Maximum
Ratings” may cause permanent damage to the device. This is a
stress rating only, and functional operation of the device at con-
ditions above those indicated in the operational sections of this
specification is not implied. Exposure to absolute maximum rat-
ing conditions for extended periods may affect reliability.
DC CHARACTERISTICS
SYMBOL
b
(V
CC
= 5.0V
±
10%)
e
INDUSTRIAL/
Military
MIN
MAX
100
85
70
3
10
2
31
26
23
1.5
±1
±5
2.2
V
SS
– .5
2.4
V
CC
+ .5
0.8
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
µA
µA
V
V
V
0.4
0.4
–40/-55
85/125
V
V
°C
t
AVAV
= 25ns
t
AVAV
= 35ns
t
AVAV
= 45ns
All Inputs Don’t Care, V
CC
= max
W
≥
(V
CC
– 0.2V)
All Others Cycling, CMOS Levels
All Inputs Don’t Care
t
AVAV
= 25ns, E
≥
V
IH
t
AVAV
= 35ns, E
≥
V
IH
t
AVAV
= 45ns, E
≥
V
IH
E
≥
(V
CC
– 0.2V)
All Others V
IN
≤
0.2V or
≥
(V
CC
– 0.2V)
V
CC
= max
V
IN
= V
SS
to V
CC
V
CC
= max
V
IN
= V
SS
to V
CC
, E or G
≥
V
IH
All Inputs
All Inputs
I
OUT
= – 4mA except HSB
I
OUT
= 8mA except HSB
I
OUT
= 3mA
UNITS
NOTES
PARAMETER
COMMERCIAL
MIN
MAX
97
80
70
3
10
2
30
25
22
1.5
±1
±5
2.2
V
SS
– .5
2.4
0.4
0.4
0
70
V
CC
+ .5
0.8
I
CC
1
Average V
CC
Current
I
CC c
2
3
Average V
CC
Current during
STORE
Average V
CC
Current at t
AVAV
= 200ns
5V, 25°C, Typical
Average V
CAP
Current during
AutoStore™
Cycle
Average V
CC
Current
(Standby, Cycling TTL Input Levels)
V
CC
Standby Current
(Standby, Stable CMOS Input Levels)
Input Leakage Current
Off-State Output Leakage Current
Input Logic “1” Voltage
Input Logic “0” Voltage
Output Logic “1” Voltage
Output Logic “0” Voltage
Logic “0” Voltage on HSB Output
Operating Temperature
I
CC
b
I
CC c
4
I
SB d
1
I
SB d
2
I
ILK
I
OLK
V
IH
V
IL
V
OH
V
OL
V
BL
T
A
Note b:
Note c:
Note d:
Note e:
I
CC
and I
CC
are dependent on output loading and cycle rate. The specified values are obtained with outputs unloaded.
1
3
I
CC
and I
CC
are the average currents required for the duration of the respective
STORE
cycles (t
STORE
) .
2
4
E
≥
V
IH
will not produce standby current levels until any nonvolatile cycle in progress has timed out.
V
CC
reference levels throughout this datasheet refer to V
CCX
if that is where the power supply connection is made, or V
CAP
if V
CCX
is con-
nected to ground.
AC TEST CONDITIONS
Input Pulse Levels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0V to 3V
Input Rise and Fall Times.
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ≤
5ns
Input and Output Timing Reference Levels . . . . . . . . . . . . . . . 1.5V
Output Load . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Figure 1
5.0V
480 Ohms
OUTPUT
255 Ohms
30 pF
INCLUDING
SCOPE AND
FIXTURE
CAPACITANCE
f
SYMBOL
C
IN
C
OUT
PARAMETER
Input Capacitance
Output Capacitance
(T
A
= 25°C, f = 1.0MHz)
MAX
5
7
UNITS
pF
pF
CONDITIONS
∆V
= 0 to 3V
∆V
= 0 to 3V
Note f:
These parameters are guaranteed but not tested.
Figure 1
:
AC Output Loading
September 2003
2
Document Control # ML0014 rev 0.1
STK14C88
SRAM READ CYCLES #1 & #2
NO.
1
2
3
4
5
6
7
8
9
10
11
SYMBOLS
#1, #2
t
ELQV
t
AVAVg
t
AVQVh
t
GLQV
t
AXQXh
t
ELQX
t
EHQZ
i
(V
CC
= 5.0V
±
10%)
e
PARAMETER
STK14C88-25
MIN
MAX
25
25
25
10
5
5
10
0
10
0
25
0
35
0
13
0
45
5
5
13
0
15
35
35
15
5
5
15
STK14C88-35
MIN
MAX
35
45
45
20
STK14C88-45
MIN
MAX
45
UNITS
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Alt.
t
ACS
t
RC
t
AA
t
OE
t
OH
t
LZ
t
HZ
t
OLZ
t
OHZ
f
Chip Enable Access Time
Read Cycle Time
Address Access Time
Output Enable to Data Valid
Output Hold after Address Change
Chip Enable to Output Active
Chip Disable to Output Inactive
Output Enable to Output Active
Output Disable to Output Inactive
Chip Enable to Power Active
Chip Disable to Power Standby
t
GLQX
t
GHQZi
t
ELICCH
t
EHICCLf
t
PA
t
PS
Note g: W and HSB must be high during SRAM READ cycles and low during SRAM WRITE cycles.
Note h: I/O state assumes E and G <
V
IL
and
W >
V
IH
; device is continuously selected.
Note i: Measured
±
200mV from steady state output voltage.
SRAM READ CYCLE #1:
Address Controlled
g, h
2
t
AVAV
ADDRESS
5
3
t
AVQV
DATA VALID
t
AXQX
DQ (DATA OUT)
SRAM READ CYCLE #2:
E Controlled
g
2
t
AVAV
ADDRESS
6
1
t
ELQV
1
1
t
EHICCL
7
t
EHQZ
E
t
ELQX
G
8
t
GLQX
DQ (DATA OUT)
t
ELICCH
ACTIVE
t
GLQV
4
9
t
GHQZ
DATA VALID
10
I
CC
STANDBY
September 2003
3
Document Control # ML0014 rev 0.1
STK14C88
SRAM WRITE CYCLES #1 & #2
NO.
12
13
14
15
16
17
18
19
20
21
SYMBOLS
#1
t
AVAV
t
WLWH
t
ELWH
t
DVWH
t
WHDX
t
AVWH
t
AVWL
t
WHAX
t
WLQZ i, j
t
WHQX
#2
t
AVAV
t
WLEH
t
ELEH
t
DVEH
t
EHDX
t
AVEH
t
AVEL
t
EHAX
Alt.
t
WC
t
WP
t
CW
t
DW
t
DH
t
AW
t
AS
t
WR
t
WZ
t
OW
Write Cycle Time
Write Pulse Width
Chip Enable to End of Write
Data Set-up to End of Write
Data Hold after End of Write
Address Set-up to End of Write
Address Set-up to Start of Write
Address Hold after End of Write
Write Enable to Output Disable
Output Active after End of Write
5
PARAMETER
STK14C88-25
MIN
25
20
20
10
0
20
0
0
10
5
MAX
(V
CC
= 5.0V
±
10%)
e
STK14C88-35
MIN
35
25
25
12
0
25
0
0
13
5
MAX
STK14C88-45
MIN
45
30
30
15
0
30
0
0
15
MAX
UNITS
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Note j: If W is low when E goes low, the outputs remain in the high-impedance state.
Note k: E or W must be
≥
V
IH
during address transitions.
Note l: HSB must be high during SRAM WRITE cycles.
SRAM WRITE CYCLE #1:
W Controlled
k, l
12
t
AVAV
ADDRESS
14
t
ELWH
E
17
t
AVWH
13
t
WLWH
15
t
DVWH
DATA IN
t
WLQZ
DATA OUT
PREVIOUS DATA
HIGH IMPEDANCE
DATA VALID
19
t
WHAX
18
t
AVWL
W
16
t
WHDX
20
21
t
WHQX
SRAM WRITE CYCLE #2:
E Controlled
k, l
12
t
AVAV
ADDRESS
18
t
AVEL
E
14
t
ELEH
19
t
EHAX
17
t
AVEH
W
13
t
WLEH
15
t
DVEH
16
t
EHDX
DATA VALID
HIGH IMPEDANCE
DATA IN
DATA OUT
September 2003
4
Document Control # ML0014 rev 0.1
STK14C88
HARDWARE MODE SELECTION
E
H
L
L
X
W
X
H
L
X
HSB
H
H
H
L
A
13
- A
0
(hex)
X
X
X
X
MODE
Not Selected
Read SRAM
Write SRAM
Nonvolatile
STORE
I/O
Output High Z
Output Data
Input Data
Output High Z
POWER
Standby
Active
Active
l
CC
2
NOTES
t
m
Note m: HSB
STORE
operation occurs only if an SRAM WRITE has been done since the last nonvolatile cycle. After the
STORE
(if any) completes,
the part will go into standby mode, inhibiting all operations until HSB rises.
HARDWARE
STORE
CYCLE
NO.
22
23
24
25
26
SYMBOLS
Standard
t
STORE
t
DELAY
t
RECOVER
t
HLHX
t
HLBL
Alternate
t
HLHZ
t
HLQZ
t
HHQX
STORE
Cycle Duration
Time Allowed to Complete SRAM Cycle
Hardware
STORE
High to Inhibit Off
Hardware
STORE
Pulse Width
Hardware
STORE
Low to
STORE
Busy
PARAMETER
(V
CC
= 5.0V
±
10%)
e
STK14C88
MIN
MAX
10
1
700
15
300
UNITS
ms
µs
ns
ns
ns
NOTES
i, n
i, n
n, o
Note n: E and G low and W high for output behavior.
Note o: t
RECOVER
is only applicable after t
STORE
is complete.
HARDWARE
STORE
CYCLE
25
t
HLHX
HSB (IN)
24
t
RECOVER
22
t
STORE
HSB (OUT)
26
t
HLBL
HIGH IMPEDANCE
HIGH IMPEDANCE
23
t
DELAY
DQ (DATA OUT)
DATA VALID
DATA VALID
September 2003
5
Document Control # ML0014 rev 0.1
