DATA SHEET
www.onsemi.com
TinyLogic ULP-A Universal
Configurable Logic Gates
MARKING
DIAGRAM
NC7SV57, NC7SV58
SIP6 1.45X1.0
MicroPak
CASE 127EB
Pin 1
The NC7SV57 and NC7SV58 are universal configurable logic gates
in tiny footprint packages. The devices are designed to operate
for VCC = 0.9 V to 3.6 V.
UDFN6 1.0X1.0, 0.35P
MicroPak2t
CASE 517DP
Features
•
•
•
•
•
•
•
Designed for 0.9 V to 3.6 V VCC Operation
2.4 ns tPD at 3.3 V (Typ)
Inputs/Outputs Over−Voltage Tolerant up to 3.6 V
IOFF Supports Partial Power Down Protection
Source/Sink 24 mA at 3.3 V
Available in SC−88 and MicroPak™ Packages
These Devices are Pb−Free, Halogen Free/BFR Free and are RoHS
Compliant
I1
1
6
I2
GND
2
5
VCC
I0
3
4
Y
I1
1
6
I2
GND
2
5
VCC
3
4
CCKK
XYZ
CCKK
XYZ
Pin 1
CC
KK
XY
Z
= Specific Device Code
= 2−Digit Lot Run Traceability Code
= 2−Digit Date Code
= Assembly Plant Code
SC−88
CASE 419B−02
XXXMG
G
XXX = Specific Device Code
M
= Date Code
G
= Pb−Free Package
ORDERING INFORMATION
I0
SC−88
Y
See detailed ordering, marking and shipping information on
page 9 of this data sheet.
MicroPak
Figure 1. Pinout Diagrams (Top Views)
PIN ASSIGNMENT
Pin
SC−88
MicroPak
1
I1
I1
2
GND
GND
3
I0
I0
4
Y
Y
5
VCC
VCC
6
I2
I2
© Semiconductor Components Industries, LLC, 2002
August, 2021 − Rev. 3
1
Publication Order Number:
NC7SV58/D
NC7SV57, NC7SV58
FUNCTION TABLE
NC7SV57
NC7SV58
I2
Inputs
I1
I0
Y = (I0) w (I2) + (I1) w (I2)
Y = (I0) w (I2) + (I1) w (I2)
L
L
L
H
L
L
L
H
L
H
L
H
L
H
L
L
H
H
L
H
H
L
L
L
H
H
L
H
L
H
H
H
L
H
L
H
H
H
H
L
FUNCTION SELECTION TABLE
2−Input Logic Function
Device Selection
Connection Configuration
2−Input AND
NC7SV57
Figure 2
2−Input AND with inverted input
NC7SV58
Figure 8, 9
2−Input AND with both inputs inverted
NC7SV57
Figure 5
2−Input NAND
NC7SV58
Figure 7
2−Input NAND with inverted input
NC7SV57
Figure 3, 4
2−Input NAND with both inputs inverted
NC7SV58
Figure 10
2−Input OR
NC7SV58
Figure 10
2−Input OR with inverted input
NC7SV57
Figure 3, 4
2−Input OR with both inputs inverted
NC7SV58
Figure 7
2−Input NOR
NC7SV57
Figure 5
2−Input NOR with inverted input
NC7SV58
Figure 8, 9
2−Input NOR with both inputs inverted
NC7SV57
Figure 2
2−Input XOR
NC7SV58
Figure 11
2−Input XNOR
NC7SV57
Figure 6
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2
NC7SV57, NC7SV58
Logic Configurations NC7SV57
Figure 2. 2−Input AND Gate
Figure 3. 2−Input NAND with Inverted A Input
Figure 4. 2−Input NAND with Inverted B Input
Figure 5. 2−Input NOR Gate
Figure 6. 2−Input XNOR Gate
NOTE:
Figure 2 through Figure 6 show the logical functions that can be implemented using the NC7SV57. The diagrams show the
DeMorgan’s equivalent logic duals for a given 2−input function. Next to the logical implementation is the board level physical
implementation of how the pins of the function should be connected.
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3
NC7SV57, NC7SV58
Logic Configurations NC7SV58
Figure 8. 2−Input AND with Inverted A Input
Figure 7. 2−Input NAND Gate
Figure 10. 2−Input OR Gate
Figure 9. 2−Input AND with Inverted B Input
Figure 11. 2−Input XOR Gate
NOTE:
Figure 7 through Figure 11 show the logical functions that can be implemented using the NC7SV58. The diagrams show the
DeMorgan’s equivalent logic duals for a given 2−input function. Next to the logical implementation is the board level physical
implementation of how the pins of the function should be connected.
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4
NC7SV57, NC7SV58
MAXIMUM RATINGS
Symbol
Value
Unit
VCC
DC Supply Voltage
−0.5 to +4.3
V
VIN
DC Input Voltage
−0.5 to +4.3
V
−0.5 to VCC + 0.5
−0.5 to +4.3
−0.5 to +4.3
V
VIN < GND
−50
mA
VOUT < GND
−50
mA
VOUT
Characteristics
DC Output Voltage
Active−Mode (High or Low State)
Tri−State Mode (Note 1)
Power−Down Mode (VCC = 0 V)
IIK
DC Input Diode Current
IOK
DC Output Diode Current
IOUT
DC Output Source/Sink Current
±50
mA
DC Supply Current per Supply Pin or Ground Pin
±50
mA
ICC or IGND
TSTG
−65 to +150
°C
TL
Storage Temperature Range
Lead Temperature, 1 mm from Case for 10 Seconds
260
°C
TJ
Junction Temperature Under Bias
+150
°C
qJA
Thermal Resistance (Note 2)
SC−88
MicroPak
377
154
°C/W
PD
Power Dissipation in Still Air
SC−88
MicroPak
332
812
mW
MSL
Moisture Sensitivity
FR
Flammability Rating
Oxygen Index: 28 to 34
UL 94 V−0 @ 0.125 in
ESD Withstand Voltage (Note 3)
Human Body Model
Charged Device Model
2000
1000
V
±100
mA
VESD
ILatchup
Level 1
Latchup Performance (Note 4)
Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality
should not be assumed, damage may occur and reliability may be affected.
1. Applicable to devices with outputs that may be tri−stated.
2. Measured with minimum pad spacing on an FR4 board, using 10 mm−by−1 inch, 2 ounce copper trace no air flow per JESD51−7.
3. HBM tested to EIA / JESD22−A114−A. CDM tested to JESD22−C101−A. JEDEC recommends that ESD qualification to EIA/JESD22−A115A
(Machine Model) be discontinued.
4. Tested to EIA/JESD78 Class II.
RECOMMENDED OPERATING CONDITIONS
Symbol
Parameter
VCC
Positive DC Supply Voltage
VIN
DC Input Voltage
VOUT
TA
tr , tf
DC Output Voltage
Active−Mode (High or Low State)
Tri−State Mode (Note 5)
Power−Down Mode (VCC = 0 V)
Operating Temperature Range
Input Transition Rise and Fall Time
Min
Max
Unit
0.9
3.6
V
0
3.6
V
0
0
0
VCC
3.6
3.6
V
−40
+85
°C
0
No Limit
ns/V
Functional operation above the stresses listed in the Recommended Operating Ranges is not implied. Extended exposure to stresses beyond
the Recommended Operating Ranges limits may affect device reliability.
5. Applicable to devices with outputs that may be tri−stated.
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5
NC7SV57, NC7SV58
DC ELECTRICAL CHARACTERISTICS
TA = 255C
Symbol
Parameter
VP
Positive
Threshold Voltage
VN
VH
VOH
Condition
Negative
Threshold Voltage
Hysteresis
Voltage
High−Level
Output Voltage
TA = −405C to +855C
VCC (V)
Min
Typ
Max
Min
Max
Unit
0.9
−
0.62
−
−
−
V
1.1
−
−
1.0
−
1.0
1.4
−
−
1.25
−
1.25
1.65
−
−
1.5
−
1.5
2.3
−
−
1.8
−
1.8
2.7
−
−
2.2
−
2.2
0.9
−
0.34
−
−
−
1.1
0.15
−
−
0.15
−
1.4
0.2
−
−
0.2
−
1.65
0.25
−
−
0.25
−
2.3
0.4
−
−
0.4
−
2.7
0.6
−
−
0.6
−
0.9
−
0.29
−
−
−
1.1
0.08
−
0.6
0.08
0.6
1.4
0.09
−
0.8
0.09
0.8
1.65
0.15
−
1.0
0.15
1.0
2.3
0.25
−
1.1
0.25
1.1
2.7
0.6
−
1.2
0.6
1.2
VIN = VIH or VIL
0.9
−
VCC – 0.1
−
−
−
VCC – 0.1
−
−
VCC – 0.1
−
1.4 to 1.6
VCC – 0.1
−
−
VCC – 0.1
−
1.65 to
1.95
VCC – 0.2
−
−
VCC – 0.2
−
2.3 to
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