Fairchild NC7SP57L6X Tinylogic. ulp universal configurable 2-input logic gate Datasheet

Revised March 2003
NC7SP57 • NC7SP58
TinyLogic ULP Universal Configurable
2-Input Logic Gates
General Description
Features
The NC7SP57 and the NC7SP58 are Universal Configurable 2-Input Logic Gates from Fairchild’s Ultra Low
Power (ULP) Series of TinyLogic. Ideal for applications
where battery life is critical, this product is designed for
ultra low power consumption within the VCC operating
range of 0.9V to 3.6V. Each device is capable of being configured for 1 of 5 unique 2-input logic functions. Any possible 2-input combinatorial logic function can be
implemented as shown in the Function Selection Table.
Device functionality is selected by how the device is wired
at the board level. Figure 1 through Figure 10 illustrate how
to connect the NC7SP57 and NC7SP58 respectively for
the desired logic function. All inputs have been implemented with hysteresis.
The internal circuit is composed of a minimum of inverter
stages including the output buffer, to enable ultra low
dynamic power.
The NC7SP57 and NC7SP58, for lower drive requirements, are uniquely designed for optimized power and
speed, and are fabricated with an advanced CMOS technology to achieve best in class operation while maintaining
extremely low CMOS power dissipation.
■ 0.9V to 3.6V VCC supply operation
■ 3.6V overvoltage tolerant I/O’s at VCC from 0.9V to 3.6V
■ tPD
5 ns typ for 3.0V to 3.6V VCC
6 ns typ for 2.3V to 2.7V VCC
8 ns typ for 1.65V to 1.95V VCC
10 ns typ for 1.40V to 1.60V VCC
14 ns typ for 1.10V to 1.30V VCC
40 ns typ for 0.90V VCC
■ Power-Off high impedance inputs and outputs
■ Static Drive (IOH/IOL)
±2.6 mA @ 3.00V VCC
±2.1 mA @ 2.30V VCC
±1.5 mA @ 1.65V VCC
±1.0 mA @ 1.40V VCC
±0.5 mA @ 1.10V VCC
±20 µA @ 0.9V VCC
■ Uses patented Quiet Series noise/EMI reduction
circuitry
■ Ultra small MicroPak leadfree package
■ Ultra low dynamic power
Ordering Code:
Package
Product Code
Number
Top Mark
NC7SP57P6X
MAA06A
P57
6-Lead SC70, EIAJ SC88, 1.25mm Wide
3k Units on Tape and Reel
NC7SP57L6X
MAC06A
K9
6-Lead MicroPak, 1.0mm Wide
5k Units on Tape and Reel
NC7SP58P6X
MAA06A
P58
6-Lead SC70, EIAJ SC88, 1.25mm Wide
3k Units on Tape and Reel
NC7SP58L6X
MAC06A
L3
6-Lead MicroPak, 1.0mm Wide
5k Units on Tape and Reel
Order Number
Package Description
Supplied As
TinyLogic is a registered trademark of Fairchild Semiconductor Corporation.
Quiet Series and MicroPak are trademarks of Fairchild Semiconductor Corporation.
© 2003 Fairchild Semiconductor Corporation
DS500701
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NC7SP57 • NC7SP58 TinyLogic ULP Universal Configurable 2-Input Logic Gates
October 2001
NC7SP57 • NC7SP58
Battery Life vs. VCC Supply Voltage
TinyLogic ULP and ULP-A with up to 50% less power consumption can
extend your battery life significantly.
Battery Life = (Vbattery *Ibattery*.9)/(Pdevice)/24hrs/day
Where, Pdevice = (ICC * VCC) + (CPD + CL)* VCC2 * f
Assumes ideal 3.6V Lithium Ion battery with current rating of 900mAH and
derated 90% and device frequency at 10MHz, with CL = 15 pF load
Connection Diagrams
Pin Descriptions
Pin Assignments for SC70
Pin Name
Description
I0, I1, I2
Data Input
Y
Output
Function Table
Input
(Top View)
NC7SP57 and NC7SP58
Pin One Orientation Diagram
NC7SP57
Note: Orientation of Top Mark determines Pin One location. Read the top
product code mark left to right, Pin One is the lower left pin (see diagram).
Pad Assignments for MicroPak
(Top Thru View)
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2
Y = (I0)•(I2)+(I1)•(I2) Y = (I0)•(I2)+(I1)•(I2)
I2
I1
I0
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
H = HIGH Logic Level
AAA = Product Code Top Mark - see ordering code
NC7SP58
L = LOW Logic Level
2-Input Logic Function
Device
Connection
Selection
Configuration
2-Input AND
NC7SP57
Figure 1
2-Input AND with inverted input
NC7SP58
Figures 7, 8
2-Input AND with both inputs inverted
NC7SP57
Figure 4
2-Input NAND
NC7SP58
Figure 6
2-Input NAND with inverted input
NC7SP57
Figures 2, 3
2-Input NAND with both inputs inverted
NC7SP58
Figure 9
2-Input OR
NC7SP58
Figure 9
2-Input OR with inverted input
NC7SP57
Figures 2, 3
2-Input OR with both inputs inverted
NC7SP58
Figure 6
2-Input NOR
NC7SP57
Figure 4
2-Input NOR with inverted input
NC7SP58
Figures 7, 8
2-Input NOR with both inputs inverted
NC7SP57
Figure 1
2-Input XOR
NC7SP58
Figure 10
2-Input XNOR
NC7SP57
Figure 5
Logic Configurations NC7SP57
Figure 1 through Figure 5 show the logical functions that can be implemented using the NC7SP57. 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.
FIGURE 1. 2-Input AND Gate
FIGURE 2. 2-Input NAND with Inverted A Input
FIGURE 3. 2-Input NAND with Inverted B Input
FIGURE 4. 2-Input NOR Gate
FIGURE 5. 2-Input XNOR Gate
3
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NC7SP57 • NC7SP58
Function Selection Table
NC7SP57 • NC7SP58
Logic Configurations NC7SP58
Figure 6 through Figure 10 show the logical functions that can be implemented using the NC7SP58. 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.
FIGURE 6. 2-Input NAND Gate
FIGURE 7. 2-Input AND with Inverted A Input
FIGURE 8. 2-Input AND with Inverted B Input
FIGURE 9. 2-Input OR Gate
FIGURE 10. 2-Input XOR Gate
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4
Supply Voltage (VCC)
−0.5V to +4.6V
DC Input Voltage (VIN)
−0.5V to +4.6V
Recommended Operating
Conditions (Note 3)
Supply Voltage
DC Output Voltage (VOUT)
0.9V to 3.6V
Input Voltage (VIN)
−0.5V to VCC +0.5V
HIGH or LOW State (Note 2)
VCC = 0V
−0.5V to 4.6V
DC Input Diode Current (IIK) VIN < 0V
0V to 3.6V
Output Voltage (VOUT)
±50 mA
DC Output Diode Current (IOK)
HIGH or LOW State
0V to VCC
VCC = 0V
0V to 3.6V
Output Current in IOH/IOL
VOUT < 0V
−50 mA
VCC = 3.0V to 3.6V
±2.6 mA
VOUT > VCC
+50 mA
VCC = 2.3V to 2.7V
± 2.1 mA
± 50 mA
VCC = 1.65V to 1.95V
± 1.5 mA
DC Output Source/Sink Current (IOH/IOL)
DC VCC or Ground Current per
± 50 mA
Supply Pin (ICC or Ground)
−65°C to +150 °C
Storage Temperature Range (TSTG)
VCC = 1.40V to 1.60V
± 1 mA
VCC = 1.10V to 1.30V
±0.5 mA
VCC = 0.9V
±20 µA
Free Air Operating Temperature (TA)
−40°C to +85°C
Minimum Input Edge Rate (∆t/∆V)
VIN = 0.8V to 2.0V, VCC = 3.0V
10 ns/V
Note 1: Absolute Maximum Ratings: are those values beyond which the
safety of the device cannot be guaranteed. The device should not be operated at these limits. The parametric values defined in the Electrical Characteristics tables are not guaranteed at the absolute maximum ratings. The
“Recommended Operating Conditions” table will define the conditions for
actual device operation.
Note 2: IO Absolute Maximum Rating must be observed.
Note 3: Unused inputs must be held HIGH or LOW. They may not float.
DC Electrical Characteristics
Symbol
Parameter
VCC
(V)
VP
VN
VH
Positive Threshold Voltage
Negative Threshold Voltage
Hysteresis Voltage
TA = +25°C
Min
Max
TA = −40°C to +85°C
Min
0.90
0.3
0.6
0.3
0.6
1.10
0.4
1.0
0.4
1.0
1.40
0.5
1.2
0.5
1.2
1.65
0.7
1.5
0.7
1.5
2.30
1.0
1.9
1.0
1.9
2.6
3.0
1.5
2.6
1.5
0.90
0.10
0.6
0.10
0.6
1.10
0.15
0.7
0.15
0.7
1.40
0.20
0.8
0.20
0.8
1.65
0.25
0.9
0.25
0.9
2.30
0.4
1.15
0.4
1.15
3.0
0.6
1.5
0.6
1.5
0.90
0.07
0.5
0.07
0.5
1.10
0.08
0.6
0.08
0.6
1.40
0.09
0.8
0.09
0.8
1.65
0.10
1.0
0.10
1.0
2.30
0.25
1.1
0.25
1.1
3.0
0.60
1.8
0.60
1.8
5
Units
Conditions
Max
V
V
V
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NC7SP57 • NC7SP58
Absolute Maximum Ratings(Note 1)
NC7SP57 • NC7SP58
DC Electrical Characteristics
Symbol
TA = +25°C
VCC
Parameter
(V)
VOH
VOL
IIN
Input Leakage Current
IOFF
Power Off Leakage Current
ICC
Quiescent Supply Current
TA = −40°C to +85°C
Max
Min
0.90
VCC − 0.1
VCC − 0.1
VCC − 0.1
VCC − 0.1
1.40 ≤ VCC ≤ 1.60
VCC − 0.1
VCC − 0.1
1.65 ≤ VCC ≤ 1.95
VCC − 0.1
VCC − 0.1
2.30 ≤ VCC ≤ 2.70
VCC − 0.1
VCC − 0.1
3.00 ≤ VCC ≤ 3.60
VCC − 0.1
VCC − 0.1
1.10 ≤ VCC ≤ 1.30 0.75 x VCC
0.70 x VCC
Units
Conditions
Max
IOH = −20 µA
V
IOH = −0.5 mA
1.40 ≤ VCC ≤ 1.60
1.07
0.99
IOH = −1 mA
1.65 ≤ VCC ≤ 1.95
1.24
1.22
IOH = −1.5 mA
2.30 ≤ VCC ≤ 2.70
1.95
1.87
IOH = −2.1 mA
3.00 ≤ VCC ≤ 3.60
2.61
2.55
LOW Level
Output Voltage
Min
1.10 ≤ VCC ≤ 1.30
HIGH Level
Output Voltage
(Continued)
IOH = −2.6 mA
0.90
0.1
0.1
1.10 ≤ VCC ≤ 1.30
0.1
0.1
1.40 ≤ VCC ≤ 1.60
0.1
0.1
1.65 ≤ VCC ≤ 1.95
0.1
0.1
2.30 ≤ VCC ≤ 2.70
0.1
0.1
3.00 ≤ VCC ≤ 3.60
0.1
0.1
1.10 ≤ VCC ≤ 1.30
0.30 x VCC
0.30 x VCC
1.40 ≤ VCC ≤ 1.60
0.31
0.37
IOL = 1 mA
1.65 ≤ VCC ≤ 1.95
0.31
0.35
IOL = 1.5 mA
2.30 ≤ VCC ≤ 2.70
0.31
0.33
IOL = 2.1 mA
3.00 ≤ VCC ≤ 3.60
0.31
0.33
0.90 to 3.60
±0.1
±0.9
µA
0 ≤ VI ≤ 3.6V
0
1
5
µA
0 ≤ (VI, VO) ≤ 3.6V
0.90 to 3.60
0.5
5.0
µA
VI = VCC or GND
IOL = 20 µA
V
IOL = 0.5 mA
IOL = 2.6 mA
AC Electrical Characteristics
Symbol
tPHL,
Parameter
Propagation Delay
tPLH
tPHL,
Propagation Delay
tPLH
tPHL,
Propagation Delay
tPLH
TA = +25°C
VCC
(V)
Min
Typ
1.10 ≤ VCC ≤ 1.30
5.5
1.40 ≤ VCC ≤ 1.60
1.65 ≤ VCC ≤ 1.95
TA = −40°C to +85°C
Max
Min
Max
14
28.0
5.0
51.0
4.5
10
17.0
4.0
21.0
3.5
8
14.0
3.0
17.0
0.90
Units
2.30 ≤ VCC ≤ 2.70
2.5
6
10.0
2.0
13.0
3.00 ≤ VCC ≤ 3.60
1.5
5
8.0
1.0
12.0
0.90
ns
CL = 10 pF
RL = 1 MΩ
Figures
11, 12
41
1.10 ≤ VCC ≤ 1.30
6.5
15
29.0
6.0
52.0
1.40 ≤ VCC ≤ 1.60
5.0
10
18.0
4.5
22.0
1.65 ≤ VCC ≤ 1.95
4.0
8
15.0
3.5
18.0
2.30 ≤ VCC ≤ 2.70
3.0
6
11.0
2.5
14.0
3.00 ≤ VCC ≤ 3.60
2.0
5
9.0
1.5
12.0
1.10 ≤ VCC ≤ 1.30
7.0
17
32.0
6.5
55.0
1.40 ≤ VCC ≤ 1.60
5.5
11
20.0
5.0
24.0
1.65 ≤ VCC ≤ 1.95
4.5
9
17.0
4.0
20.0
2.30 ≤ VCC ≤ 2.70
3.5
7
12.0
3.0
15.0
3.00 ≤ VCC ≤ 3.60
2.5
6
11.0
2.0
14.0
0.90
ns
CL = 15 pF
RL = 1 MΩ
Figures
11, 12
46
ns
Input Capacitance
0
2.0
pF
COUT
Output Capacitance
0
4.0
pF
CPD
Power Dissipation
0.9 to 3.60
8
pF
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Figure
Number
40
CIN
Capacitance
Conditions
6
CL = 30 pF
RL = 1 MΩ
VI = 0V or VCC,
f = 10 MHz
Figures
11, 12
NC7SP57 • NC7SP58
AC Loading and Waveforms
FIGURE 11. AC Test Circuit
FIGURE 12. AC Waveforms
Symbol
VCC
3.3V ± 0.3V
2.5V ± 0.2V
1.8V ± 0.15V
1.5V ± 0.10V
1.2V ± 0.10V
0.9V
Vmi
1.5V
VCC/2
VCC/2
VCC/2
VCC/2
VCC/2
Vmo
1.5V
VCC/2
VCC/2
VCC/2
VCC/2
VCC/2
7
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NC7SP57 • NC7SP58
Tape and Reel Specification
TAPE FORMAT for SC70
Package
Designator
P6X
Tape
Number
Cavity
Section
Cavities
Status
Cover Tape
Status
Leader (Start End)
125 (typ)
Empty
Sealed
Carrier
3000
Filled
Sealed
Trailer (Hub End)
75 (typ)
Empty
Sealed
TAPE DIMENSIONS inches (millimeters)
Package
SC70-6
Tape Size
8 mm
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DIM A
DIM B
0.093
0.096
(2.35)
(2.45)
DIM F
DIM Ko
0.138 ± 0.004 0.053 ± 0.004
(3.5 ± 0.10)
8
(1.35 ± 0.10)
DIM P1
DIM W
0.157
0.315 ± 0.004
(4)
(8 ± 0.1)
TAPE FORMAT for MicroPak
Package
(Continued)
Tape
Number
Cavity
Section
Cavities
Status
Status
Leader (Start End)
125 (typ)
Empty
Sealed
Designator
L6X
Cover Tape
Carrier
5000
Filled
Sealed
Trailer (Hub End)
75 (typ)
Empty
Sealed
REEL DIMENSIONS inches (millimeters)
Tape
Size
8 mm
A
B
C
D
N
W1
W2
W3
7.0
0.059
0.512
0.795
2.165
0.331 + 0.059/−0.000
0.567
W1 + 0.078/−0.039
(177.8)
(1.50)
(13.00)
(20.20)
(55.00)
(8.40 + 1.50/−0.00)
(14.40)
(W1 + 2.00/−1.00)
9
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NC7SP57 • NC7SP58
Tape and Reel Specification
NC7SP57 • NC7SP58
Physical Dimensions inches (millimeters) unless otherwise noted
6-Lead SC70, EIAJ SC88, 1.25mm Wide
Package Number MAA06A
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10
NC7SP57 • NC7SP58 TinyLogic ULP Universal Configurable 2-Input Logic Gates
Physical Dimensions inches (millimeters) unless otherwise noted (Continued)
6-Lead MicroPak, 1.0mm Wide
Package Number MAC06A
Fairchild does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and
Fairchild reserves the right at any time without notice to change said circuitry and specifications.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD
SEMICONDUCTOR CORPORATION. As used herein:
2. A critical component in any component of a life support
device or system whose failure to perform can be reasonably expected to cause the failure of the life support
device or system, or to affect its safety or effectiveness.
1. Life support devices or systems are devices or systems
which, (a) are intended for surgical implant into the
body, or (b) support or sustain life, and (c) whose failure
to perform when properly used in accordance with
instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the
user.
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11
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