ETC P4C1982L

P4C1981/P4C1981L, P4C1982/P4C1982L
ULTRA HIGH SPEED 16K x 4
CMOS STATIC RAMS
P4C1981/1981L, P4C1982/1982L
FEATURES
Full CMOS, 6T Cell
5V ± 10% Power Supply
High Speed (Equal Access and Cycle Times)
– 10/12/15/20/25 ns (Commercial)
– 12/15/20/25/35 ns (Industrial)
– 15/20/25/35/45 ns (Military)
Data Retention with 2.0V Supply, 10 µA Typical
Current (P4C1981L/1982L (Military)
Low Power Operation (Commercial/Military)
– 715 mW Active – 12/15
– 550/660 mW Active – 20/25/35/45
– 193/220 mW Standby (TTL Input)
– 83/110 mW Standby (CMOS Input) P4C1981/1981L
– 5.5 mW Standby (CMOS Input)
P4C1981L/82L (Military)
Separate Inputs and Outputs
– P4C1981/L Input Data at Outputs during Write
– P4C1982/L Outputs in High Z during Write
Fully TTL Compatible Inputs and Outputs
Standard Pinout (JEDEC Approved)
– 28-Pin 300 mil DIP, SOJ
– 28-Pin 350 x 550 mil LCC
Output Enable and Dual Chip Enable Functions
DESCRIPTION
CMOS is used to reduce power consumption to a low 715
mW active, 193 mW standby. For the P4C1982L and
P4C1981L, power is only 5.5 mW standby with CMOS
input levels. The P4C1981/L and P4C1982/L are members of a family of PACE RAM™ products offering fast
access times.
The P4C1981/L and P4C1982/L are 65,536-bit (16Kx4)
ultra high-speed static RAMs similar to the P4C198, but
with separate data I/O pins. The P4C1981/L feature a
transparent write operation when OE is low; the outputs of
the P4C1982/L are in high impedance during the write
cycle. All devices have low power standby modes. The
RAMs operate from a single 5V ± 10% tolerance power
supply. With battery backup, data integrity is maintained
for supply voltages down to 2.0V. Current drain is typically
10 µA from 2.0V supply.
The P4C1981/L and P4C1982/L are available in 28-pin
300 mil DIP and SOJ, and in 28-pin 350x550 mil LCC
packages providing excellent board level densities.
Access times as fast as 10 nanoseconds are available,
permitting greatly enhanced system operating speeds.
FUNCTIONAL BLOCK DIAGRAM
I1
I2
I3
I4
INPUT
DATA
CONTROL
COLUMN I/O
O1
O2
O3
O4
COLUMN
SELECT
CE1
A
CE2
WE
OE
(6)
A
P4C1982
28
V CC
2
27
A2
A3
3
26
A13
A 12
4
25
A4
5
24
A5
6
23
A6
7
22
A7
8
21
I4
I3
A8
9
20
O4
I1
10
19
O3
I2
11
18
O2
CE1
12
17
O1
OE
GND
13
16
WE
14
15
CE2
A11
A10
A9
A3
A4
2
28
1
5
27
26
25
A5
A6
6
24
7
23
A7
A8
8
22
9
21
I1
10
20
I2
11
19
CE1
12
13
DIP (P5, D5-2), SOJ (J5)
TOP VIEW
P4C1981/ 1982
P4C1981
3
4
VCC
A 13
1
A1
14 15 16
18
17
A12
A11
A10
A9
I4
I3
O4
O3
O2
WE
O1
A
A0
OE
65,536-BIT
MEMORY
ARRAY
ROW
SELECT
GND
CE2
A
(8)
A2
A1
A0
PIN CONFIGURATIONS
LCC (L5)
TOP VIEW
Means Quality, Service and Speed
1Q97
81
P4C1981/1981L, P4C1982/1982L
MAXIMUM RATINGS(1)
Symbol
Parameter
Value
Unit
VCC
Power Supply Pin with
Respect to GND
–0.5 to +7
V
VTERM
Terminal Voltage with
Respect to GND
(up to 7.0V)
–0.5 to
VCC +0.5
V
TA
Operating Temperature
–55 to +125
°C
Symbol
Ambient
Temperature
Value
Unit
TBIAS
Temperature Under
Bias
–55 to +125
°C
TSTG
Storage Temperature
–65 to +150
°C
PT
Power Dissipation
1.0
W
IOUT
DC Output Current
50
mA
CAPACITANCES(4)
RECOMMENDED OPERATING
TEMPERATURE AND SUPPLY VOLTAGE
Grade(2)
Parameter
VCC = 5.0V, TA = 25°C, f = 1.0MHz
Symbol
Parameter
Conditions Typ. Unit
GND
VCC
0V
5.0V ± 10%
CIN
Input Capacitance
VIN = 0V
5
pF
0V
0V
5.0V ± 10%
5.0V ± 10%
COUT
Output Capacitance VOUT = 0V
7
pF
Military
–55°C to +125°C
–40°C to +85°C
Industrial
0°C to +70°C
Commercial
DC ELECTRICAL CHARACTERISTICS
Over recommended operating temperature and supply voltage(2)
Symbol
Parameter
P4C1981 / 1982
Min
Max
Test Conditions
VIH
Input High Voltage
2.2
VIL
Input Low Voltage
–0.5(3)
VHC
CMOS Input High Voltage
VLC
CMOS Input Low Voltage
VCD
Input Clamp Diode Voltage VCC = Min., IIN = –18 mA
VOL
Output Low Voltage
(TTL Load)
Output High Voltage
(TTL Load)
Input Leakage Current
VOH
ILI
P4C1981L / 82L
Unit
Min
Max
VCC +0.5
2.2
VCC +0.5 V
0.8
–0.5(3)
0.8
VCC –0.2 VCC +0.5 VCC –0.2 VCC +0.5
–0.5(3)
IOL = +8 mA, VCC = Min.
IOH = –4 mA, VCC = Min.
VCC = Max.
V
0.2
V
–1.2
–1.2
V
0.4
0.4
V
0.2
2.4
2.4
V
+10
+5
–5
n/a
+5
n/a
µA
Com’l.
–10
–5
Mil.
VIN = GND to VCC
–0.5(3)
V
ILO
Output Leakage Current
Mil.
Ind./Com’l.
–10
–5
+10
+5
–5
n/a
+5
n/a
µA
ISB
Standby Power Supply
CE1, CE2 ≥ VIH,
Mil.
Current (TTL Input Levels) VCC = Max.,
Ind./Com’l.
f = Max., Outputs Open
___
___
40
35
___
___
40
n/a
mA
ISB1
Standby Power Supply
Current
(CMOS Input Levels)
CE1, CE2 ≥ VHC,
Mil.
VCC = Max.,
Ind./Com’l.
f = 0, Outputs Open
VIN ≤ VLC or VIN ≥ VHC
___
___
20
15
___
___
1.0
n/a
mA
VCC = Max.,
CE1, CE2 = VIH
VOUT = GND to VCC
n/a = Not Applicable
Notes:
1. Stresses greater than those listed under MAXIMUM RATINGS may
cause permanent damage to the device. This is a stress rating only
and functional operation of the device at these or any other conditions
above those indicated in the operational sections of this specification
is not implied. Exposure to MAXIMUM ratingconditions for extended
periods may affect reliability.
2. Extended temperature operation guaranteed with 400 linear feet per
minute of air flow.
3. Transient inputs with VIL and IIL not more negative than –3.0V and
–100mA, respectively, are permissible for pulse widths up to 20 ns.
4. This parameter is sampled and not 100% tested.
82
P4C1981/1981L, P4C1982/1982L
POWER DISSIPATION CHARACTERISTICS VS. SPEED
Symbol
Parameter
Dynamic Operating Current*
ICC
Temperature
Range
Commercial
–10
–12
–15
–20
–25
–35
–45
180
170
160
155
150
N/A
N/A
mA
Industrial
N/A
180
170
160
155
150
N/A
mA
Military
N/A
N/A
170
160
155
150
145
mA
Unit
*VCC = 5.5V. Tested with outputs open. f = Max. Switching inputs are 0V and 3V.
CE1 = VIL, CE2 = VIL, OE = VIH
DATA RETENTION CHARACTERISTICS (P4C1981L/P4C1982L Military Temperature Only)
Symbol
Parameter
Test Condition
VDR
VCC for Data Retention
ICCDR
Data Retention Current
tCDR
Chip Deselect to
Data Retention Time
tR†
Operation Recovery Time
Min
Typ.*
VCC=
2.0V
3.0V
Max
VCC=
2.0V
3.0V
2.0
V
10
CE1 or CE2 ≥ VCC – 0.2V,
VIN ≥ VCC – 0.2V or
VIN ≤ 0.2V
15
600
tRC = Read Cycle Time
†
This parameter is guaranteed but not tested.
tRC§
ns
DATA RETENTION WAVEFORM
DATA RETENTION MODE
4.5V
VDR ≥ 2V
4.5V
t CDR
CE1 or CE2
tR
VDR
VIH
VIH
1348 07
83
µA
ns
DATA RETENTION WAVEFORM
VCC
900
0
*TA = +25°C
§
Unit
P4C1981/1981L, P4C1982/1982L
AC CHARACTERISTICS—READ CYCLE
(VCC = 5V ± 10%, All Temperature Ranges)(2)
Sym.
-10
Parameter
-12
Min Max Min
-20
-25
-35
-45
Unit
Max Min Max Min Max Min Max Min Max Min Max
tRC
Read Cycle Time
tAA
Address Access
Time
10
12
15
20
25
35
45
ns
tAC
Chip Enable
Access Time
10
12
15
20
25
35
45
ns
tOH
Output Hold from
Address Change
2
2
2
2
2
2
2
ns
tLZ
Chip Enable to
Output in Low Z
2
2
2
2
2
2
2
ns
tHZ
Chip Disable to
Output in High Z
6
7
8
10
10
15
15
ns
tOE
Output Enable
Low to Data Valid
6
7
8
12
15
21
27
ns
tOLZ Output Enable to
Output in Low Z
10
-15
2
tOHZ Output Disable to
Output in High Z
tPU
Chip Enable to
Power Up Time
tPD
Chip Disable to
Power Down Time
12
15
2
2
6
7
0
20
0
2
9
12
0
15
35
2
9
0
10
25
2
10
0
20
45
2
14
0
25
ns
ns
15
0
25
ns
30
OE controlled)(5)
READ CYCLE NO.1 (OE
t RC
(10)
ADDRESS
t AA
OE
t OE
t OLZ
CE1, CE2
t OH
(9)
t OHZ(9)
t AC
t LZ (9)
t HZ(9)
DATA OUT
Notes:
5. WE is HIGH for READ cycle.
6. CE1, CE2 and OE are LOW for READ Cycle.
7. OE is LOW for the cycle.
8. ADDRESS must be valid prior to or coincident with, CE1, and
CE2 transition LOW.
9. Transition is measured ±200mV from steady state voltage
prior to change, with loading as specified in Figure 1.
10. Read Cycle Time is measured from the last valid address to
the first transitioning address.
84
ns
ns
P4C1981/1981L, P4C1982/1982L
READ CYCLE NO. 2 (ADDRESS Controlled)(5,6)
t RC
(10)
ADDRESS
t AA
t OH
PREVIOUS DATA VALID
DATA OUT
DATA VALID
1520 05
CE1, CE2 Controlled)(5,7,8)
READ CYCLE NO. 3 (CE
tRC
CE 1, CE 2
(9,11)
(11)
t HZ
t AC
(9,11)
t LZ
DATA OUT
DATA VALID
I
V
CC
t
CC
(11)
HIGH IMPEDANCE
t
PU
(11)
PD
SUPPLY
CURRENT
I
SB
Note:
11. Transitions caused by a chip enable control have similar delays irrespective of whether CE1 or CE2 causes them.
85
P4C1981/1981L, P4C1982/1982L
AC CHARACTERISTICS—WRITE CYCLE
(VCC = 5V ± 10%, All Temperature Ranges)(2)
Symbol
Parameter
–10
–12
–15
–20
–35
–25
–45
Min Max Min Max Min Max Min Max Min Max Min Max Min Max
Unit
tWC
Write Cycle Time
10
12
13
15
20
30
40
ns
tCW
Chip Enable Time
to End of Write
7
8
10
15
20
30
35
ns
tAW
Address Valid to
End of Write
7
8
10
15
20
25
35
ns
tAS
Address Set-up
Time
Write Pulse Width
0
0
0
0
0
0
0
ns
8
9
10
15
20
25
35
ns
tAH
Address Hold Time
from End of Write
0
0
0
0
0
0
0
ns
tDW
Data Valid to End
of Write
5
6
7
10
13
15
20
ns
tDH
Data Hold Time
0
0
0
0
0
0
0
ns
tWZ
Write Enable to
Output in High Z
tOW
Output Active from
End of Write
tAWE
Write Enable to
Data-out Valid
(P4C1981)
Data-in Valid to
Data-out Valid
(P4C1981)
tWP
tADV
5
2
6
2
7
2
8
2
10
10
2
2
2
ns
ns
10
12
13
18
20
30
35
ns
10
12
13
18
20
30
35
ns
WRITE CYCLE NO. 1 (WITH OE HIGH)
tWC (15)
ADDRESS
tAH
OE
tCW
CE 1, CE 2
tAS
15
tAW
WE
t WP
t OHZ
t DW
DATA IN
DATA OUT
86
tDH
P4C1981/1981L, P4C1982/1982L
WE CONTROLLED)(13,14)
WRITE CYCLE NO. 2 (WE
t WC
(15)
ADDRESS
t CW
CE1, CE2
t AW
t WP
t AH
WE
t AS
t DW
DATA IN
t DH
DATA VALID
(9,14)
(9)
t OW
t WZ
DATA OUT
P4C1982
DATA UNDEFINED
HIGH IMPEDANCE
t ADV
t AWE
DATA OUT
P4C1981
DATA VALID
1520 08
CE1, CE2 CONTROLLED)(11,12)
WRITE CYCLE NO. 3 (CE
t WC
(15)
ADDRESS
t AS
t CW
CE 1, CE 2
t AH
t WR
t AW
t WP
WE
t DW
DATA IN
DATA OUT
P4C1982
t DH
DATA VALID
HIGH IMPEDANCE
DATA OUT
P4C1981
tADV
DATA VALID
Notes:
12. CE (CE1, CE2and WE must be LOW for WRITE cycle.
13. OE is LOW for WRITE cycle.
14. If CE1 or CE2 goes HIGH simultaneously with WE HIGH,
theoutput remains in a high impedance state.
HIGH
IMPEDANCE
15. Write Cycle Time is measured from the last valid address to the
first transitioning address.
87
P4C1981/1981L, P4C1982/1982L
TRUTH TABLE
AC TEST CONDITIONS
P4C1981/L (P4C1982/L)
GND to 3.0V
CE1
CE2
WE
OE
Input Rise and Fall Times
3ns
H
X
X
X
Standby
High Z
Input Timing Reference Level
1.5V
X
H
X
X
Standby
High Z
Output Timing Reference Level
1.5V
L
L
H
H
Output Inhibit
High Z
See Figures 1 and 2
L
L
H
L
READ
DOUT
L
L
L
H
WRITE
High Z
L
L
L
L
WRITE
DIN (High Z)
Input Pulse Levels
Output Load
Mode
Output
+5V
RTH = 166.5Ω
480Ω
DOUT
DOUT
255Ω
V TH = 1.73V
30pF* (5pF* for tHZ, tLZ, tOHZ, tOLZ ,
tWZ and tOW)
30pF* (5pF*
for tHZ
, t,LZ
30pF*
(5pF*
tLZ
t , tOHZ, tOLZ,
HZ,for
t
and
t
)
)
WZ
tWZ
andOW
tOW
Figure 2. Thevenin Equivalent
Figure 1. Output Load
* including scope and test fixture.
Note:
Because of the ultra-high speed of the P4C1981/L and P4C1982/L, care
must be taken when testing this device; an inadequate setup can cause
a normal functioning part to be rejected as faulty. Long high-inductance
leads that cause supply bounce must be avoided by bringing the VCC and
ground planes directly up to the contactor fingers. A 0.01 µF high
frequency capacitor is also required between VCC and ground. To avoid
signal reflections, proper termination must be used; for example, a 50Ω
test environment should be terminated into a 50Ω load with 1.73V
(Thevenin Voltage) at the comparator input, and a 116Ω resistor must be
used in series with DOUT to match 166Ω (Thevenin Resistance).
88
P4C1981/1981L, P4C1982/1982L
PACKAGE SUFFIX
Package
Suffix
TEMPERATURE RANGE SUFFIX
Temperature
Range Suffix
Description
P
J
L
D
Plastic DIP, 300 mil wide standard
Plastic SOJ, 300 mil wide standard
Leadless Chip Carrier (ceramic)
CERDIP, 300 mil wide standard
Description
Commercial Temperature Range,
0°C to +70°C.
Industrial Temperature Range,
–40°C to +85°C.
Military Temperature Range,
–55°C to +125°C.
Mil. Temp. with MIL-STD-883
Class B compliance.
C
I
M
MB
ORDERING INFORMATION
P4C
P4C
1981
1982
l
—
ss
p
t
Temperature Range
Package Code
Speed (Access/Cycle Time)
Low Power Designator: Blank = None, L = Low Power
Device Number
Static RAM Prefix
l = Ultra-low standby power designator L, if needed.
ss = Speed (access/cycle time in ns), e.g., 25, 35
p = Package code, i.e., P, J, L, D.
t = Temperature range, i.e., C, M, MB.
SELECTION GUIDE
The P4C1981 and P4C1982 are available in the following temperature, speed and package options.
Temperature
Range
Commercial
Industrial
Military Temp.
Military
Processed*
Speed (ns)
Package
Plastic DIP
Plastic SOJ
Plastic DIP
Plastic SOJ
CERDIP
LCC
CERDIP
LCC
10
12
15
20
25
35
45
-10PC
-10JC
N/A
N/A
N/A
N/A
-12PC
-12JC
-12PI
-12JI
N/A
N/A
-15PC
-15JC
-15PI
-15JI
-15DM
-15LM
-20PC
-20JC
-20PI
-20JI
-20DM
-20LM
-25PC
-25JC
-25PI
-25JI
-25DM
-25LM
N/A
N/A
-35PI
-35JI
-35DM
-35LM
N/A
N/A
N/A
N/A
-45DM
-45LM
N/A
N/A
N/A
N/A
* Military temperature range with MIL-STD-883, Class B processing.
N/A = Not available
89
-15DMB -20DMB -25DMB
-15LMB -20LMB -25LMB
-35DMB -45DMB
-35LMB -45LMB
P4C1981/1981L, P4C1982/1982L
90