1
November 01, 2001
U63716
Preliminary
CapStore 2K x 8 nvSRAM
Pin Configuration
Pin Description
Signal Name
Signal Description
A0 - A10
Address Inputs
DQ0 - DQ7
Data In/Out
E
Chip Enable
G
Output Enable
W
Write Enable
VCC
Power Supply Voltage
VSS
Ground
!
CMOS non- volatile static RAM
2048 x 8 bits
!
70 ns Access Time
!
35 ns Output Enable Access Time
!
I
CC
= 15 mA at 200 ns Cycle Time
!
Unlimited Read and Write Cycles
to SRAM
!
Automatic STORE to EEPROM
on Power Down using charge
stored in an integrated capacitor
!
Software initiated STORE
!
Automatic STORE Timing
!
10
5
STORE cycles to EEPROM
!
10 years data retention in
EEPROM
!
Automatic RECALL on Power Up
!
Software RECALL Initiation
!
Unlimited RECALL cycles from
EEPROM
!
Single 5 V
10 % Operation
!
Operating temperature range:
0 to 70
C
-40 to 85
C
!
QS 9000 Quality Standard
!
ESD protection > 2000 V
(MIL STD 883C M3015.7)
!
Package:
PDIP24 (600 mil)
The U63716 has two separate
modes of operation: SRAM mode
and nonvolatile mode. In SRAM
mode, the memory operates as an
ordinary static RAM. In non-volatile
operation, data is transferred in
parallel from SRAM to EEPROM or
from EEPROM to SRAM. In this
mode SRAM functions are disab-
led.
The U63716 is a static RAM with a
non-volatile electrically erasable
PROM (EEPROM) element incor-
porated in each static memory cell.
The SRAM can be read and written
an unlimited number of times, while
independent nonvolatile data resi-
des in EEPROM. Data transfers
from the SRAM to the EEPROM
(the STORE operation) take place
automatically upon power down
using charge stored in an integra-
ted capacitor. Transfers from the
EEPROM to the SRAM (the
RECALL operation) take place
automatically on power up. The
U63716 combines the ease of use
of an SRAM with nonvolatile data
integrity.
STORE cycles also may be initia-
ted under user control via a soft-
ware sequence.
Once a STORE cycle is initiated,
further input or output are disabled
until the cycle is completed.
Because a sequence of addresses
is used for STORE initiation, it is
important that no other read or
write accesses intervene in the
sequence or the sequence will be
aborted.
RECALL cycles may also be initia-
ted by a software sequence.
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.
The RECALL operation in no way
alters the data in the EEPROM
cells. The nonvolatile data can be
recalled an unlimited number of
times.
The U63716 is pin compatible with
standard SRAMs and standard bat-
tery backed SRAMs.
Top View
2
A6
A8
23
3
A5
A9
22
1
A7
VCC
24
4
A4
W
21
5
A3
G
20
6
A2
A10
19
10
DQ1
DQ5
15
7
A1
E
18
8
A0
DQ7
17
9
DQ0
DQ6
16
11
DQ2
DQ4
14
12
VSS
DQ3
13
PDIP
24
Features
Description
2
November 01, 2001
U63716
Preliminary
Block Diagram
Operating Mode
E
W
G
DQ0 - DQ7
Standby/not selected
H
*
*
High-Z
Internal Read
L
H
H
High-Z
Read
L
H
L
Data Outputs Low-Z
Write
L
L
*
Data Inputs High-Z
Truth Table for SRAM Operations
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 condition above those indicated in the operational sections of this specification is
not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.
Absolute Maximum Ratings
a
Symbol
Min.
Max.
Unit
Power Supply Voltage
V
CC
-0.5
7
V
Input Voltage
V
I
-0.3
V
CC
+0.5
V
Output Voltage
V
O
-0.3
V
CC
+0.5
V
Power Dissipation
P
D
1
W
Operating Temperature
C-Type
K-Type
T
a
0
-40
70
85
C
C
Storage Temperature
T
stg
-65
150
C
Characteristics
All voltages are referenced to V
SS
= 0 V (ground).
All characteristics are valid in the power supply voltage range and in the operating temperature range specified.
Dynamic measurements are based on a rise and fall time of
5 ns, measured between 10 % and 90 % of V
I
, as well as
input levels of V
IL
= 0 V and V
IH
= 3 V. The timing reference level of all input and output signals is 1.5 V,
with the exception of the t
dis
-times and t
en
-times, in which cases transition is measured
200 mV from steady-state voltage.
*
H or L
EEPROM Array
32 x (64 x 8)
STORE
RECALL
SRAM
Array
32 Rows x
64 x 8 Columns
A0 - A10
Store/
Recall
Control
Ro
w De
c
o
d
e
r
V
CC
V
SS
G
E
W
Software
Detect
Power
Control
V
CC
A9
A8
A7
A6
A5
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
Column I/O
Column Decoder
A0 A1
A2
A3
A4 A10
In
p
u
t Bu
ffe
r
s
3
November 01, 2001
U63716
Preliminary
b: I
CC1
and I
CC3
are depedent on output loading and cycle rate. The specified values are obtained with outputs unloaded.
The current I
CC1
is measured for WRITE/READ - ratio of 1/2.
c: I
CC2
is the average current required for the duration of the SoftStore STORE cycle.
d: Bringing E
V
IH
will not produce standby current levels until a software initiated nonvolatile cycle in progress has timed out.
See MODE SELECTION table. The current I
CC(SB)1
is measured for WRITE/READ - ratio of 1/2.
DC Characteristics
Symbol
Conditions
C-Type
K-Type
Unit
Min.
Max.
Min.
Max.
Operating Supply Current
b
I
CC1
V
CC
V
IL
V
IH
t
c
= 5.5 V
= 0.8 V
= 2.2 V
= 70 ns
60
65
mA
Average Supply Current during
c
STORE
I
CC2
V
CC
E
W
V
IL
V
IH
= 5.5 V
0.2 V
V
CC
-0.2 V
0.2 V
V
CC
-0.2 V
6
7
mA
Operating Supply Current
b
at t
cR
= 200 ns
(Cycling CMOS Input Levels)
I
CC3
V
CC
W
V
IL
V
IH
= 5.5 V
V
CC
-0.2 V
0.2 V
V
CC
-0.2 V
15
15
mA
Standby Supply Current
d
(Cycling TTL Input Levels)
I
CC(SB)1
V
CC
E
t
c
= 5.5 V
= V
IH
= 70 ns
20
22
mA
Standby Supply Curent
d
(Stable CMOS Input Levels)
I
CC(SB)
V
CC
E
V
IL
V
IH
= 5.5 V
V
CC
-0.2 V
0.2 V
V
CC
-0.2 V
3
3
mA
Recommended
Operating Conditions
Symbol
Conditions
Min.
Max.
Unit
Power Supply Voltage
V
CC
4.5
5.5
V
Input Low Voltage
V
IL
-2 V at Pulse Width
10 ns permitted
-0.3
0.8
V
Input High Voltage
V
IH
2.2
V
CC
+0.3
V
4
November 01, 2001
U63716
Preliminary
DC Characteristics
Symbol
Conditions
C-Type
K-Type
Unit
Min.
Max.
Min.
Max.
Output High Voltage
Output Low Voltage
V
OH
V
OL
V
CC
I
OH
I
OL
= 4.5 V
=-4 mA
= 8 mA
2.4
0.4
2.4
0.4
V
V
Output High Current
Output Low Current
I
OH
I
OL
V
CC
V
OH
V
OL
= 4.5 V
= 2.4 V
= 0.4 V
8
-4
8
-4
mA
mA
Input Leakage Current
High
Low
I
IH
I
IL
V
CC
V
IH
V
IL
= 5.5 V
= 5.5 V
= 0 V
-1
1
-1
1
A
A
Output Leakage Current
High at Three-State- Output
Low at Three-State- Output
I
OHZ
I
OLZ
V
CC
V
OH
V
OL
= 5.5 V
= 5.5 V
= 0 V
-1
1
-1
1
A
A
SRAM Memory Operations
No.
Switching Characteristics
Read Cycle
Symbol
Min.
Max.
Unit
Alt.
IEC
1
Read Cycle Time
f
t
AVAV
t
cR
70
ns
2
Address Access Time to Data Valid
g
t
AVQV
t
a(A)
70
ns
3
Chip Enable Access Time to Data Valid
t
ELQV
t
a(E)
70
ns
4
Output Enable Access Time to Data Valid
t
GLQV
t
a(G)
35
ns
5
E HIGH to Output in High-Z
h
t
EHQZ
t
dis(E)
25
ns
6
G HIGH to Output in High-Z
h
t
GHQZ
t
dis(G)
25
ns
7
E LOW to Output in Low-Z
t
ELQX
t
en(E)
5
ns
8
G LOW to Output in Low-Z
t
GLQX
t
en(G)
0
ns
9
Output Hold Time after Address Change
t
AXQX
t
v(A)
3
ns
10 Chip Enable to Power Active
e
t
ELICCH
t
PU
0
ns
11 Chip Disable to Power Standby
d, e
t
EHICCL
t
PD
70
ns
e: Parameter guaranteed but not tested.
f:
Device is continuously selected with E and G both Low.
g: Address valid prior to or coincident with E transition LOW.
h: Measured
200 mV from steady state output voltage.
5
November 01, 2001
U63716
Preliminary
High Impedance
Read Cycle 1: Ai-controlled (during Read cycle: E = G = V
IL
, W = V
IH
)
f
Read Cycle 2: G-, E-controlled (during Read cycle: W = V
IH
)
g
No.
Switching Characteristics
Write Cycle
Symbol
Min.
Max.
Unit
Alt. #1 Alt. #2
IEC
12 Write Cycle Time
t
AVAV
t
AVAV
t
cW
70
ns
13 Write Pulse Width
t
WLWH
t
w(W)
55
ns
14 Write Pulse Width Setup Time
t
WLEH
t
su(W)
55
ns
15 Address Setup Time
t
AVWL
t
AVEL
t
su(A)
0
ns
16 Address Valid to End of Write
t
AVWH
t
AVEH
t
su(A-WH)
55
ns
17 Chip Enable Setup Time
t
ELWH
t
su(E)
55
ns
18 Chip Enable to End of Write
t
ELEH
t
w(E)
55
ns
19 Data Setup Time to End of Write
t
DVWH
t
DVEH
t
su(D)
30
ns
20 Data Hold Time after End of Write
t
WHDX
t
EHDX
t
h(D)
0
ns
21 Address Hold after End of Write
t
WHAX
t
EHAX
t
h(A)
0
ns
22 W LOW to Output in High-Z
h, i
t
WLQZ
t
dis(W)
25
ns
23 W HIGH to Output in Low-Z
t
WHQX
t
en(W)
5
ns
t
a(A)
Previous Data Valid
Output Data Valid
t
cR
Address Valid
t
v(A)
Ai
DQi
Output
(1)
(2)
(9)
Ai
E
G
t
dis(E)
t
cR
t
a(E)
t
en(E)
t
en(G)
t
a(G)
t
dis(G)
Address Valid
Output Data Valid
I
CC
ACTIVE
STANDBY
t
PD
t
PU
(1)
(3)
(4)
(5)
(7)
(6)
(8)
(10)
(11)
t
a(A)
(2)
DQi
Output
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