ON NCP300LSN18T1 Voltage detector sery Datasheet

NCP300, NCP301
Voltage Detector Series
The NCP300 and NCP301 series are second generation ultra−low
current voltage detectors. These devices are specifically designed for
use as reset controllers in portable microprocessor based systems
where extended battery life is paramount.
Each series features a highly accurate undervoltage detector with
hysteresis which prevents erratic system reset operation as the
comparator threshold is crossed.
The NCP300 series consists of complementary output devices that
are available with either an active high or active low reset output. The
NCP301 series has an open drain N−Channel output with either an
active high or active low reset output.
The NCP300 and NCP301 device series are available in the
Thin TSOP−5 package with standard undervoltage thresholds.
Additional thresholds that range from 0.9 V to 4.9 V in 100 mV steps
can be manufactured.
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MARKING DIAGRAM
5
5
1
xxx
A
Y
W
G
Features
•
•
•
•
•
•
•
Quiescent Current of 0.5 mA Typical
High Accuracy Undervoltage Threshold of 2.0%
Wide Operating Voltage Range of 0.8 V to 10 V
Complementary or Open Drain Reset Output
Active Low or Active High Reset Output
Specified Over the −40°C to +125°C Temperature Range
(Except for Voltage Options from 0.9 to 1.1 V)
Pb−Free Packages are Available
1
= Specific Device Code
= Assembly Location
= Year
= Work Week
= Pb−Free Package
(Note:Microdot may be in either location)
PIN CONNECTIONS
Reset
Output
1
Input
2
Ground
3
5 N.C.
4 N.C.
(Top View)
Typical Applications
•
•
•
•
xxx AYWG
G
THIN SOT23−5/
TSOP−5/SC59−5
CASE 483
Microprocessor Reset Controller
Low Battery Detection
Power Fail Indicator
Battery Backup Detection
ORDERING INFORMATION
See detailed ordering and shipping information in the ordering
information section on page 21 of this data sheet.
NCP301xSNxxT1
Open Drain Output Configuration
NCP300xSNxxT1
Complementary Output Configuration
2
2
Input
1
Input
*
Vref
Reset Output
*
1
Reset Output
Vref
3
3
GND
GND
* The representative block diagrams depict active low reset output ‘L’ suffix devices. The comparator
inputs are interchanged for the active high output ‘H’ suffix devices.
This device contains 25 active transistors.
Figure 1. Representative Block Diagrams
© Semiconductor Components Industries, LLC, 2007
February, 2007 − Rev. 22
1
Publication Order Number:
NCP300/D
NCP300, NCP301
MAXIMUM RATINGS
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Rating
Input Power Supply Voltage (Pin 2)
Symbol
Value
Unit
Vin
12
V
Output Voltage (Pin 1)
Complementary, NCP300
N−Channel Open Drain, NCP301
VOUT
Output Current (Pin 1) (Note 2)
IOUT
70
mA
Thermal Resistance Junction−to−Air
RqJA
250
°C/W
TJ
+125
+150
°C
TA
TA
−40 to +85
−40 to +125
°C
°C
Storage Temperature Range
Tstg
−55 to +150
°C
Moisture Sensitivity Level
MSL
1
Maximum Junction Temperature
V
−0.3 to Vin +0.3
−0.3 to 12
All NCP Options
All NCV Options
Operating Ambient Temperature Range
All Voltage Options: 0.9 V to 1.1 V
All Voltage Options: 1.2 V to 4.9 V
Latchup Performance (Note 3)
Positive
Negative
ILATCHUP
mA
200
200
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the
Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect
device reliability.
1. This device series contains ESD protection and exceeds the following tests:
Human Body Model 2000 V per MIL−STD−883, Method 3015.
Machine Model Method 200 V.
2. The maximum package power dissipation limit must not be exceeded.
T
*T
J(max)
A
P +
D
R
qJA
3. Maximum ratings per JEDEC standard JESD78.
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2
NCP300, NCP301
ELECTRICAL CHARACTERISTICS (For all values TA = −40°C to +125°C, unless otherwise noted.)
Characteristic
Symbol
Min
Typ
Max
Unit
V
NCP300/1 − 0.9 / NCV300/1 − 0.9 (TA = 255C for voltage options from 0.9 to 1.1 V)
Detector Threshold (Pin 2, Vin Decreasing)
VDET−
0.882
0.900
0.918
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.027
0.045
0.063
Supply Current (Pin 2)
(Vin = 0.8 V)
(Vin = 2.9 V)
V
mA
Iin
−
−
0.20
0.45
0.6
1.2
Maximum Operating Voltage (Pin 2)
Vin(max)
−
−
10
V
Minimum Operating Voltage (Pin 2)
(TA = −40°C to 85°C)
Vin(min)
−
−
0.55
0.65
0.70
0.80
V
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05 V, Vin = 0.70 V)
(VOUT = 0.50 V, Vin = 0.85 V)
0.01
0.05
0.05
0.50
−
−
P−Channel Source Current, NCP300
(VOUT = 2.4 V, Vin = 4.5 V)
1.0
6.0
−
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 1.5 V)
1.05
2.5
−
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 0.8 V)
0.011
0.014
0.04
0.08
−
−
ms
Propagation Delay Input to Output (Figure 2)
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
97
77
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
97
−
−
300
Detector Threshold (Pin 2, Vin Decreasing) (TA = 25°C)
(TA = −40°C to 125°C)
VDET−
1.764
1.746
1.80
−
1.836
1.854
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.054
0.090
0.126
NCP300/1 − 1.8 / NCV300/1 − 1.8
Supply Current (Pin 2)
(Vin = 1.7 V)
(Vin = 3.8 V)
V
V
mA
Iin
−
−
0.23
0.48
0.7
1.3
Maximum Operating Voltage (Pin 2)
Vin(max)
−
−
10
V
Minimum Operating Voltage (Pin 2) (TA = 25°C)
(TA = −40°C to 125°C)
Vin(min)
−
−
0.55
0.65
0.70
0.80
V
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05V, Vin = 0.70 V)
(VOUT = 0.50V, Vin = 1.5 V)
0.01
1.0
0.05
2.0
−
−
P−Channel Source Current, NCP300
(VOUT = 2.4 V, Vin = 4.5 V)
1.0
6.0
−
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 5.0 V)
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 1.5 V)
mA
6.3
11
−
0.011
0.525
0.04
0.6
−
−
ms
Propagation Delay Input to Output (Figure 2)
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NCP300, NCP301
ELECTRICAL CHARACTERISTICS (continued) (For all values TA = −40°C to +125°C, unless otherwise noted.)
Characteristic
Symbol
Min
Typ
Max
Unit
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
73
94
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
73
−
−
300
Detector Threshold (Pin 2, Vin Decreasing) (TA = 25°C)
(TA = −40°C to 125°C)
VDET−
1.96
1.94
2.00
−
2.04
2.06
V
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.06
0.10
0.14
V
−
−
0.23
0.48
0.8
1.3
NCP300/1 − 1.8 / NCV300/1 − 1.8
NCP300/1 − 2.0 / NCV300/1 − 2.0
Supply Current (Pin 2)
(Vin = 1.9 V)
(Vin = 4.0 V)
mA
Iin
Maximum Operating Voltage (Pin 2)
Vin(max)
−
−
10
V
Minimum Operating Voltage (Pin 2) (TA = 25°C)
(TA = −40°C to 125°C)
Vin(min)
−
−
0.55
0.65
0.70
0.80
V
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05V, Vin = 0.70V)
(VOUT = 0.50V, Vin = 1.5V)
0.01
1.0
0.14
3.5
−
−
P−Channel Source Current, NCP300
(VOUT = 2.4V, Vin = 4.5V)
1.0
9.7
−
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 5.0 V)
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 1.5 V)
mA
6.3
11
−
0.011
0.525
0.04
0.6
−
−
ms
Propagation Delay Input to Output (Figure 2)
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
55
108
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
55
−
−
300
Detector Threshold (Pin 2, Vin Decreasing) (TA = 25°C)
(TA = −40°C to 125°C)
VDET−
2.156
2.134
2.2
−
2.244
2.266
V
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.066
0.110
0.154
V
−
−
0.23
0.48
0.8
1.3
NCP300/1 − 2.2 / NCV300/1 − 2.2
Supply Current (Pin 2)
(Vin = 2.1 V)
(Vin = 4.2 V)
mA
Iin
Maximum Operating Voltage (Pin 2)
Vin(max)
−
−
10
V
Minimum Operating Voltage (Pin 2) (TA = 25°C)
(TA = −40°C to 125°C)
Vin(min)
−
−
0.55
0.65
0.70
0.80
V
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05V, Vin = 0.70V)
(VOUT = 0.50V, Vin = 1.5V)
0.01
1.0
0.14
3.5
−
−
P−Channel Source Current, NCP300
(VOUT = 2.4V, Vin = 4.5V)
1.0
9.7
−
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NCP300, NCP301
ELECTRICAL CHARACTERISTICS (continued) (For all values TA = −40°C to +125°C, unless otherwise noted.)
Characteristic
Symbol
Min
Typ
Max
Unit
NCP300/1 − 2.2 / NCV300/1 − 2.2
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 5.0 V)
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 1.5 V)
mA
6.3
11
−
0.011
0.525
0.04
0.6
−
−
ms
Propagation Delay Input to Output (Figure 2)
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
55
108
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
55
−
−
300
Detector Threshold (Pin 2, Vin Decreasing) (TA = 25°C)
(TA = −40°C to 125°C)
VDET−
2.646
2.619
2.700
−
2.754
2.781
V
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.081
0.135
0.189
V
−
−
0.25
0.50
0.8
1.3
NCP300/1− 2.7 / NCV300/1− 2.7
Supply Current (Pin 2)
(Vin = 2.6 V)
(Vin = 4.7 V)
mA
Iin
Maximum Operating Voltage (Pin 2)
Vin(max)
−
−
10
V
Minimum Operating Voltage (Pin 2) (TA = 25°C)
(TA = −40°C to 125°C)
Vin(min)
−
−
0.55
0.65
0.70
0.80
V
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05V, Vin = 0.70V)
(VOUT = 0.50V, Vin = 1.5V)
0.01
1.0
0.14
3.5
−
−
P−Channel Source Current, NCP300
(VOUT = 2.4V, Vin = 4.5V)
1.0
9.7
−
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 5.0 V)
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 1.5 V)
mA
6.3
11
−
0.011
0.525
0.04
0.6
−
−
ms
Propagation Delay Input to Output (Figure 2)
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
55
115
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
55
−
−
300
Detector Threshold (Pin 2, Vin Decreasing) (TA = 25°C)
(TA = −40°C to 125°C)
VDET−
2.744
2.716
2.8
−
2.856
2.884
V
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.084
0.14
0.196
V
−
−
0.25
0.5
0.8
1.3
−
−
10
NCP300/1− 2.8 / NCV300/1− 2.8
Supply Current (Pin 2)
(Vin = 2.7 V)
(Vin = 4.8 V)
mA
Iin
Maximum Operating Voltage (Pin 2)
Vin(max)
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V
NCP300, NCP301
ELECTRICAL CHARACTERISTICS (continued) (For all values TA = −40°C to +125°C, unless otherwise noted.)
Characteristic
Symbol
Min
Typ
Max
Unit
Vin(min)
−
−
0.55
0.65
0.7
0.8
V
NCP300/1− 2.8 / NCV300/1− 2.8
Minimum Operating Voltage (Pin 2) (TA = 25°C)
(TA = −40°C to 125°C)
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05V, Vin = 0.70V)
(VOUT = 0.50V, Vin = 1.5V)
0.01
1.0
0.14
3.5
−
−
P−Channel Source Current, NCP300
(VOUT = 2.4V, Vin = 4.5V)
1.0
9.7
−
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 5.0 V)
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 1.5 V)
mA
6.3
11
−
0.011
0.525
0.04
0.6
−
−
ms
Propagation Delay Input to Output (Figure 2)
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
55
115
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
55
−
−
300
Detector Threshold (Pin 2, Vin Decreasing) (TA = 25°C)
(TA = −40°C to 125°C)
VDET−
2.94
2.91
3.00
−
3.06
3.09
V
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.09
0.15
0.21
V
−
−
0.25
0.50
0.9
1.3
NCP300/1 − 3.0 / NCV300/1 − 3.0
Supply Current (Pin 2)
(Vin = 2.87 V)
(Vin = 5.0 V)
mA
Iin
Maximum Operating Voltage (Pin 2)
Vin(max)
−
−
10
V
Minimum Operating Voltage (Pin 2) (TA = 25°C)
(TA = −40°C to 125°C)
Vin(min)
−
−
0.55
0.65
0.70
0.80
V
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05V, Vin = 0.70V)
(VOUT = 0.50V, Vin = 1.5V)
0.01
1.0
0.14
3.5
−
−
P−Channel Source Current, NCP300
(VOUT = 2.4V, Vin = 4.5V)
1.0
9.7
−
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 5.0 V)
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 1.5 V)
mA
6.3
11
−
0.011
0.525
0.04
0.6
−
−
ms
Propagation Delay Input to Output (Figure 2)
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
49
115
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
49
−
−
300
NCP300/1 − 4.5 / NCV300/1 − 4.5
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NCP300, NCP301
ELECTRICAL CHARACTERISTICS (continued) (For all values TA = −40°C to +125°C, unless otherwise noted.)
Characteristic
Symbol
Min
Typ
Max
Unit
Detector Threshold (Pin 2, Vin Decreasing) (TA = 25°C)
(TA = −40°C to 125°C)
VDET−
4.410
4.365
4.500
−
4.590
4.635
V
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.135
0.225
0.315
V
−
−
0.33
0.52
1.0
1.4
NCP300/1 − 4.5 / NCV300/1 − 4.5
Supply Current (Pin 2)
(Vin = 4.34 V)
(Vin = 6.5 V)
mA
Iin
Maximum Operating Voltage (Pin 2)
Vin(max)
−
−
10
V
Minimum Operating Voltage (Pin 2) (TA = 25°C)
(TA = −40°C to 125°C)
Vin(min)
−
−
0.55
0.65
0.70
0.80
V
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05V, Vin = 0.70V)
(VOUT = 0.50V, Vin = 1.5V)
0.01
1.0
0.05
2.0
−
−
P−Channel Source Current, NCP300
(VOUT = 5.9V, Vin = 8.0V)
1.5
10.5
−
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 5.0 V)
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 1.5 V)
mA
6.3
11
−
0.011
0.525
0.04
0.6
−
−
ms
Propagation Delay Input to Output (Figure 2)
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
49
130
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
49
−
−
300
Detector Threshold (Pin 2, Vin Decreasing) (TA = 25°C)
(TA = −40°C to 125°C)
VDET−
4.606
4.559
4.700
−
4.794
4.841
V
Detector Threshold Hysteresis (Pin 2, Vin Increasing)
VHYS
0.141
0.235
0.329
V
−
−
0.34
0.53
1.0
1.4
NCP300/1 − 4.7 / NCV300/1 − 4.7
Supply Current (Pin 2)
(Vin = 4.54 V)
(Vin = 6.7 V)
mA
Iin
Maximum Operating Voltage (Pin 2)
Vin(max)
−
−
10
V
Minimum Operating Voltage (Pin 2) (TA = 25°C)
(TA = −40°C to 125°C)
Vin(min)
−
−
0.55
0.65
0.70
0.80
V
Reset Output Current (Pin 1, Active Low ‘L’ Suffix Devices)
IOUT
mA
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.05V, Vin = 0.70V)
(VOUT = 0.50V, Vin = 1.5V)
0.01
1.0
0.05
2.0
−
−
P−Channel Source Current, NCP300
(VOUT = 5.9V, Vin = 8.0V)
1.5
10.5
−
Reset Output Current (Pin 1, Active High ‘H’ Suffix Devices)
IOUT
N−Channel Sink Current, NCP300, NCP301
(VOUT = 0.5 V, Vin = 5.0 V)
P−Channel Source Current, NCP300
(VOUT = 0.4 V, Vin = 0.7 V)
(VOUT = GND, Vin = 1.5 V)
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mA
6.3
11
−
0.011
0.525
0.04
0.6
−
−
NCP300, NCP301
ELECTRICAL CHARACTERISTICS (continued) (For all values TA = −40°C to +125°C, unless otherwise noted.)
Characteristic
Symbol
Min
Typ
Max
Unit
NCP300/1 − 4.7 / NCV300/1 − 4.7
ms
Propagation Delay Input to Output (Figure 2)
Complementary Output NCP300 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
45
130
−
300
N−Channel Open Drain NCP301 Series
Output Transition, High to Low
Output Transition, Low to High
tpHL
tpLH
−
−
45
−
−
300
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NCP300, NCP301
VDET+ + 2
Input Voltage, Pin 2
0.7
0V
5V
Reset Output Voltage, Pin 1
2.5 V
NCP301L
Open Drain
0.5 V
0V
VDET+ + 2
Reset Output Voltage, Pin 1
VDET+ + 2
2
0V
NCP300L
Complementary
0.1 V
tpLH
tpHL
NCP300 and NCP301 series are measured with a 10 pF capacitive load. NCP301 has an additional 470 k pull−up resistor connected from the reset output to +5.0 V. The reset output voltage waveforms are shown for the active low ‘L’ devices. The upper
detector threshold, VDET+ is the sum of the lower detector threshold, VDET− plus the input hysteresis, VHYS.
Figure 2. Propagation Delay Measurement Conditions
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NCP300, NCP301
Table 1. ELECTRICAL CHARACTERISTIC TABLE FOR 0.9 − 4.9 V
NCP300 Series
Supply Current
Nch Sink Current
Detector Threshold
Detector Threshold
Hysteresis
Vin Low
Vin High
Vin Low
Vin High
Pch Source
Current
VDET− (V) (Note 4)
VHYS (V)
Iin (mA)
(Note 5)
Iin (mA)
(Note 6)
IOUT (mA)
(Note 7)
IOUT (mA)
(Note 8)
IOUT (mA)
(Note 9)
Min
Typ
Max
Min
Typ
Max
Typ
Typ
Typ
Typ
Typ
NCP300LSN09T1
0.882
0.9
0.918
0.027
0.045
0.063
0.20
0.45
0.05
0.5
2.0
NCP300LSN18T1
1.764
1.8
1.836
0.054
0.090
0.126
0.23
0.48
NCP300LSN185T1
1.813
1.85
1.887
0.056
0.093
0.130
NCP300LSN20T1
1.960
2.0
2.040
0.060
0.100
0.140
NCP300LSN27T1
2.646
2.7
2.754
0.081
0.135
0.189
0.25
0.50
NCP300LSN28T1
2.744
2.8
2.856
0.084
0.140
0.196
NCP300LSN30T1
2.940
3.0
3.060
0.090
0.150
0.210
NCP300LSN33T1
3.234
3.3
3.366
0.099
0.165
0.231
NCP300LSN34T1
3.332
3.4
3.468
0.102
0.170
0.238
NCP300LSN44T1
4.312
4.4
4.488
0.132
0.220
0.308
NCP300LSN45T1
4.410
4.5
4.590
0.135
0.225
0.315
0.33
0.52
NCP300LSN46T1
4.508
4.6
4.692
0.138
0.230
0.322
NCP300LSN47T1
4.606
4.7
4.794
0.141
0.235
0.329
0.34
0.53
Part Number
4. Values shown apply at +25°C only. For voltage options greater than 1.1 V, VDET− limits over operating temperature range (−40°C to +125°C)
are VNOM ±3%. For voltage options < 1.2 V, VDET− is guaranteed only at +25°C.
5. Condition 1: 0.9 − 2.9 V, Vin = VDET− − 0.10 V; 3.0 − 3.9 V, Vin = VDET− − 0.13 V; 4.0 − 4.9 V, Vin = VDET− − 0.16 V
6. Condition 2: 0.9 − 4.9 V, Vin = VDET− + 2.0 V
7. Condition 3: 0.9 − 4.9 V, Vin = 0.7 V, VOUT = 0.05 V, Active Low ‘L’ Suffix Devices
8. Condition 4: 0.9 − 1.0 V, Vin = 0.85 V, VOUT = 0.5 V; 1.1 − 1.5 V, Vin = 1.0 V, VOUT = 0.5 V; 1.6 − 4.9 V, Vin = 1.5 V, VOUT = 0.5 V,
Active Low ‘L’ Suffix Devices
9. Condition 5: 0.9 − 3.9 V, Vin = 4.5 V, VOUT = 2.4 V; 4.0 − 4.9 V, Vin = 8.0 V, VOUT = 5.9 V, Active Low ‘L’ Suffix Devices
Table 2. ELECTRICAL CHARACTERISTIC TABLE FOR 0.9 − 4.9 V
NCP300 Series
Supply Current
Detector Threshold
Detector Threshold
Hysteresis
Vin Low
VDET− (V) (Note 10)
VHYS (V)
Iin (mA)
(Note 11)
Pch Source Current
Vin High
Nch Sink
Current
Vin Low
Vin High
Iin (mA)
(Note 12)
IOUT (mA)
(Note 13)
IOUT (mA)
(Note 14)
IOUT (mA)
(Note 15)
Min
Typ
Max
Min
Typ
Max
Typ
Typ
Typ
Typ
Typ
NCP300HSN09T1
0.882
0.9
0.918
0.027
0.045
0.063
0.20
0.45
2.5
0.04
0.08
NCP300HSN18T1
1.764
1.8
1.836
0.054
0.090
0.126
0.23
0.48
NCP300HSN27T1
2.646
2.7
2.754
0.081
0.135
0.189
0.25
0.50
NCP300HSN30T1
2.940
3.0
3.060
0.090
0.150
0.210
NCP300HSN45T1
4.410
4.5
4.590
0.135
0.225
0.315
0.33
0.52
NCP300HSN47T1
4.606
4.7
4.794
0.141
0.235
0.329
0.34
0.53
Part Number
10. Values shown apply at +25°C only. For voltage options greater than 1.1 V, VDET− limits over operating temperature range (−40°C to +125°C)
are VNOM ±3%. For voltage options < 1.2 V, VDET− is guaranteed only at +25°C.
11. Condition 1: 0.9 − 2.9 V, Vin = VDET− − 0.10 V; 3.0 − 3.9 V, Vin = VDET− − 0.13 V; 4.0 − 4.9 V, Vin = VDET− − 0.16 V
12. Condition 2: 0.9 − 4.9 V, Vin = VDET− + 2.0 V
13. Condition 3: 0.9 − 1.4 V, Vin = 1.5 V, VOUT = 0.5 V; 1.5 − 4.9 V, Vin = 5.0 V, VOUT = 0.5 V, Active High ‘H’ Suffix Devices
14. Condition 4: 0.9 − 4.9 V, Vin = 0.7 V, VOUT = 0.4 V, Active High ‘H’ Suffix Devices
15. Condition 5: 0.9 − 1.0 V, Vin = 0.8 V, VOUT = GND; 1.1 − 1.5 V, Vin = 1.0 V, VOUT = GND; 1.6 − 4.9 V, Vin = 1.5 V, VOUT = GND,
Active High ‘H’ Suffix Devices
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NCP300, NCP301
Table 3. ELECTRICAL CHARACTERISTIC TABLE FOR 0.9 − 4.9 V
NCP301 Series
Supply Current
Nch Sink Current
Detector Threshold
Detector Threshold
Hysteresis
Vin Low
Vin High
Vin Low
Vin High
VDET− (V) (Note 16)
VHYS (V)
Iin (mA)
(Note 16)
Iin (mA)
(Note 18)
IOUT (mA)
(Note 19)
IOUT (mA)
(Note 20)
Min
Typ
Max
Min
Typ
Max
Typ
Typ
Typ
Typ
NCP301LSN09T1
0.882
0.9
0.918
0.027
0.045
0.063
0.20
0.45
0.05
0.5
NCP301LSN12T1
1.176
1.2
1.224
0.036
0.060
0.084
NCP301LSN16T1
1.568
1.6
1.632
0.048
0.080
0.112
NCP301LSN18T1
1.764
1.8
1.836
0.054
0.090
0.126
0.23
0.48
NCP301LSN20T1
1.960
2.0
2.040
0.060
0.100
0.140
NCP301LSN22T1
2.156
2.2
2.244
0.066
0.110
0.154
NCP301LSN25T1
2.450
2.5
2.550
0.075
0.125
0.175
NCP301LSN26T1
2.548
2.6
2.652
0.078
0.130
0.182
NCP301LSN27T1
2.646
2.7
2.754
0.081
0.135
0.189
0.25
0.50
NCP301LSN28T1
2.744
2.8
2.856
0.084
0.140
0.196
NCP301LSN30T1
2.940
3.0
3.060
0.090
0.150
0.210
NCP301LSN31T1
3.038
3.1
3.162
0.093
0.155
0.217
NCP301LSN32T1
3.136
3.2
3.264
0.096
0.160
0.224
NCP301LSN33T1
3.234
3.3
3.366
0.099
0.165
0.231
NCP301LSN34T1
3.332
3.4
3.468
0.102
0.170
0.238
NCP301LSN40T1
3.920
4.0
4.080
0.120
0.200
0.280
NCP301LSN42T1
4.116
4.2
4.284
0.126
0.210
0.294
NCP301LSN45T1
4.410
4.5
4.590
0.135
0.225
0.315
0.33
0.52
NCP301LSN46T1
4.508
4.6
4.692
0.138
0.230
0.322
NCP301LSN47T1
4.606
4.7
4.794
0.141
0.235
0.329
0.34
0.53
Part Number
2.0
16. Values shown apply at +25°C only. For voltage options greater than 1.1 V, VDET− limits over operating temperature range (−40°C to +125°C)
are VNOM ±3%. For voltage options < 1.2 V, VDET− is guaranteed only at +25°C.
17. Condition 1: 0.9 − 2.9 V, Vin = VDET− − 0.10 V; 3.0 − 3.9 V, Vin = VDET− − 0.13 V; 4.0 − 4.9 V, Vin = VDET− − 0.16 V
18. Condition 2: 0.9 − 4.9 V, Vin = VDET− + 2.0 V
19. Condition 3: 0.9 − 4.9 V, Vin = 0.7 V, VOUT = 0.05 V, Active Low ‘L’ Suffix Devices
20. Condition 4: 0.9 − 1.0 V, Vin = 0.85 V, VOUT = 0.5 V; 1.1 − 1.5 V, Vin = 1.0 V, VOUT = 0.5 V; 1.6 − 4.9 V, Vin = 1.5 V, VOUT = 0.5 V,
Condition 4: Active Low ‘L’ Suffix Devices
Table 4. ELECTRICAL CHARACTERISTIC TABLE FOR 0.9 − 4.9 V
NCP301 Series
Supply Current
Detector Threshold
Detector Threshold
Hysteresis
Vin Low
Vin High
Nch
Sink Current
VDET− (V) (Note 21)
VHYS (V)
Iin (mA)
(Note 22)
Iin (mA)
(Note 23)
IOUT (mA)
(Note 24)
Min
Typ
Max
Min
Typ
Max
Typ
Typ
Typ
NCP301HSN09T1
0.882
0.9
0.918
0.027
0.045
0.063
0.20
0.45
2.5
NCP301HSN18T1
1.764
1.8
1.836
0.054
0.090
0.126
NCP301HSN22T1
2.156
2.2
2.244
0.066
0.110
0.154
NCP301HSN27T1
2.646
2.7
2.754
0.081
0.135
0.189
0.25
0.50
NCP301HSN30T1
2.940
3.0
3.060
0.090
0.150
0.210
NCP301HSN45T1
4.410
4.5
4.590
0.135
0.225
0.315
0.33
0.52
Part Number
21. Values shown apply at +25°C only. For voltage options greater than 1.1 V, VDET− limits over operating temperature range (−40°C to
+125°C) are VNOM ±3%. For voltage options < 1.2 V, VDET− is guaranteed only at +25°C.
22. Condition 1: 0.9 − 2.9 V, Vin = VDET− − 0.10 V; 3.0 − 3.9 V, Vin = VDET− − 0.13 V; 4.0 − 4.9 V, Vin = VDET− − 0.16 V
23. Condition 2: 0.9 − 4.9 V, Vin = VDET− + 2.0 V
24. Condition 3: 0.9 − 1.4 V, Vin = 1.5 V, VOUT = 0.5 V; 1.5 − 4.9 V, Vin = 5.0 V, VOUT = 0.5 V, Active High ‘H’ Suffix Devices
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NCP300, NCP301
1.0
10.5
0.8
Iin, INPUT CURRENT (mA)
Iin, INPUT CURRENT (mA)
TA = 25°C
TA = 25°C
0.9
0.7
0.6
0.5
0.4
0.3
0.2
2.5
2.0
1.5
1.0
0.5
0.1
0
0
0
2.0
4.0
6.0
8.0
10
12
0
6.0
4.0
8.0
Vin, INPUT VOLTAGE (V)
2.0
Vin, INPUT VOLTAGE (V)
Figure 3. NCP300/1 Series 0.9 V
Input Current versus Input Voltage
VDET, DETECTOR THRESHOLD VOLTAGE (V)
Iin, INPUT CURRENT (mA)
TA = 25°C
2.5
2.0
1.5
1.0
0.5
0
2.0
4.0
8.0
6.0
10
12
Vin, INPUT VOLTAGE (V)
1.00
0.95
VDET−
0.85
0.80
−50
VDET+
2.75
2.70
VDET−
−25
0
25
50
75
100
125
TA, AMBIENT TEMPERATURE (°C)
VDET, DETECTOR THRESHOLD VOLTAGE (V)
VDET, DETECTOR THRESHOLD VOLTAGE (V)
2.85
2.60
−50
0
−25
25
50
75
100
TA, AMBIENT TEMPERATURE (°C)
Figure 6. NCP300/1 Series 0.9 V
Detector Threshold Voltage versus Temperature
2.90
2.65
VDET+
0.90
Figure 5. NCP300/1 Series 4.5 V
Input Current versus Input Voltage
2.80
12
Figure 4. NCP300/1 Series 2.7 V
Input Current versus Input Voltage
17.2
0
10
4.9
4.8
VDET+
4.7
4.6
4.5
VDET−
4.4
4.3
−50
−25
0
25
50
75
100
125
TA, AMBIENT TEMPERATURE (°C)
Figure 8. NCP300/1 Series 4.5 V
Detector Threshold Voltage versus Temperature
Figure 7. NCP300/1 Series 2.7 V
Detector Threshold Voltage versus Temperature
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NCP300, NCP301
3.5
VOUT, OUTPUT VOLTAGE (V)
VOUT, OUTPUT VOLTAGE (V)
1.0
0.8
0.6
TA = −40°C (301L only)
0.4
TA = 25°C (301L only)
0.2
3.0
2.5
2.0
1.5
TA = 125°C (301L only)
1.0
TA = −40°C (301L only)
0.5
TA = 25°C (301L only)
0
0
0
0.4
0.6
Vin, INPUT VOLTAGE (V)
0.2
0.8
1.0
0
Figure 9. NCP300L/1L Series 0.9 V
Reset Output Voltage versus Input Voltage
3.5
1.6
IOUT, OUTPUT SINK CURRENT (mA)
VOUT, OUTPUT VOLTAGE (V)
3.0
1.5
2.5
1.0
2.0
Vin, INPUT VOLTAGE (V)
Figure 10. NCP300L/1L Series 2.7 V
Reset Output Voltage versus Input Voltage
6.0
5.0
4.0
3.0
TA = −40°C (301L only)
2.0
TA = 25°C (301L only)
1.0
0
0
1.0
2.0
4.0
3.0
Vin, INPUT VOLTAGE (V)
5.0
VOUT = 0.5 V
1.4
TA = −40°C
1.2
1.0
0.8
0.6
TA = 25°C
0.4
TA = 85°C
0.2
0
6.0
0
0.4
0.2
0.6
0.8
1.0
Vin, INPUT VOLTAGE (V)
Figure 11. NCP300L/1L Series 4.5 V
Reset Output Voltage versus Input Voltage
Figure 12. NCP300H/1L Series 0.9 V
Reset Output Sink Current versus Input Voltage
12
20
VOUT = 0.5 V
IOUT, OUTPUT SINK CURRENT (mA)
IOUT, OUTPUT SINK CURRENT (mA)
0.5
10
TA = −40°C
8.0
6.0
TA = 25°C
4.0
TA = 125°C
2.0
0
0
0.5
1.0
1.5
2.0
2.5
3.0
VOUT = 0.5 V
TA = −40°C
15
10
TA = 25°C
TA = 125°C
5.0
0
0
1.0
2.0
3.0
4.0
5.0
Vin, INPUT VOLTAGE (V)
Vin, INPUT VOLTAGE (V)
Figure 13. NCP300H/1L Series 2.7 V
Reset Output Sink Current versus Input Voltage
Figure 14. NCP300H/1L Series 4.5 V
Reset Output Sink Current versus Input Voltage
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20
IOUT, OUTPUT SOURCE CURRENT (mA)
IOUT, OUTPUT SOURCE CURRENT (mA)
NCP300, NCP301
VOUT = Vin −2.1 V
TA = 25°C
15
Vin −1.5 V
10
Vin −1.0 V
5.0
Vin −0.5 V
0
0
2.0
4.0
8.0
6.0
10
20
VOUT = Vin −2.1 V
TA = 25°C
15
Vin −1.5 V
Vin −1.0 V
10
Vin −0.5 V
5.0
0
0
4.0
2.0
20
VOUT = Vin −2.1 V
15
Vin −1.5 V
10
Vin −1.0 V
5.0
Vin −0.5 V
0
0
2.0
4.0
8.0
6.0
1.5
TA = 25°C
1.0
Vin = 0.85 V
0.5
Vin = 0.7 V
0
10
0
0.4
0.2
Vin, INPUT VOLTAGE (V)
0.6
0.8
1.0
VOUT, OUTPUT VOLTAGE (V)
Figure 17. NCP300L Series 4.5 V
Reset Output Source Current versus Input Voltage
Figure 18. NCP300H/1L Series 0.9 V
Reset Output Sink Current versus Output Voltage
15
35
TA = 25°C
IOUT, OUTPUT SINK CURRENT (mA)
IOUT, OUTPUT SINK CURRENT (mA)
10
Figure 16. NCP300L Series 2.7 V
Reset Output Source Current versus Input Voltage
IOUT, OUTPUT SINK CURRENT (mA)
IOUT, OUTPUT SOURCE CURRENT (mA)
Figure 15. NCP300L Series 0.9 V
Reset Output Source Current versus Input Voltage
TA = 25°C
8.0
6.0
Vin, INPUT VOLTAGE (V)
Vin, INPUT VOLTAGE (V)
Vin = 2.5 V
10
Vin = 2.0 V
5.0
Vin = 1.5 V
0
0
0.5
1.0
1.5
2.0
TA = 25°C
30
Vin = 4.0 V
25
Vin = 3.5 V
20
Vin = 3.0 V
15
Vin = 2.5 V
10
Vin = 2.0 V
5.0
Vin = 1.5 V
0
0
2.5
1.0
2.0
3.0
4.0
VOUT, OUTPUT VOLTAGE (V)
VOUT, OUTPUT VOLTAGE (V)
Figure 19. NCP300H/1L Series 2.7 V
Reset Output Sink Current versus Output Voltage
Figure 20. NCP300H/1L Series 4.5 V
Reset Output Sink Current versus Output Voltage
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NCP300, NCP301
OPERATING DESCRIPTION
The NCP300 and NCP301 series devices are second
generation ultra−low current voltage detectors. Figures 20
and 21 show a timing diagram and a typical application.
Initially consider that input voltage Vin is at a nominal level
and it is greater than the voltage detector upper threshold
(VDET+), and the reset output (Pin 1) will be in the high state
for active low devices, or in the low state for active high
devices. If there is a power interruption and Vin becomes
significantly deficient, it will fall below the lower detector
threshold (VDET−). This sequence of events causes the Reset
output to be in the low state for active low devices, or in the
Input Voltage, Pin 2
Reset Output (Active Low), Pin 1
high state for active high devices. After completion of the
power interruption, Vin will again return to its nominal level
and become greater than the VDET+. The voltage detector
has built−in hysteresis to prevent erratic reset operation as
the comparator threshold is crossed.
Although these device series are specifically designed for
use as reset controllers in portable microprocessor based
systems, they offer a cost−effective solution in numerous
applications where precise voltage monitoring is required.
Figure 25 through Figure 32 shows various application
examples.
Vin
VDET+
VDET−
Vin
VDET+
VDET−
0V
Reset Output (Active High), Pin 1
Vin
VDET+
VDET−
0V
Figure 21. Timing Waveforms
http://onsemi.com
15
NCP300, NCP301
VCC TRANSIENT REJECTION
The NCP300 and NCP301 series provides accurate VCC
monitoring and reset timing during power−up,
power−down, and brownout/sag conditions, and rejects
negative glitches on the power supply line. Figure 22 shows
the maximum transient duration vs. maximum negative
excursion (overdrive) for glitch rejection. Any combination
of duration and overdrive which lies under the curve will not
generate a reset signal. A below−VCC condition (on the
right) is detected as a brownout or power−down. Typically,
any transient that goes 100 mV below the reset threshold and
lasts 5.0 ms or less will not cause a reset pulse.
Transient immunity can be improved by adding a
capacitor in close proximity to the VCC pin of the NCP30x.
PROPAGATION DELAY VARIATION
On the other hand (see above paragraph), a minimum
overdrive value from Vthreshold to VCC must be respected.
That means Vin (minimum value of VCC) must be higher
enough than VDET+ (VDET− + hysteresis) at the risk of
significantly increasing propagation delay. (Figure 24) This
propagation delay is temperature sensitive.
To avoid acceptable time response, a minimum 100 mV
difference between Vin and VDET+ must be selected.
VDET+
600
TIME DELAY (ms)
500
VCC
VTH
Overdrive
400
300
tpHL
200
tpLH
Duration
100
Figure 22. Max Transient Duration vs. Max Overdrive
0
3.0
TRANSIENT DURATION
250
4.0
4.5
5.0
Figure 24. tpLH and tpHL vs. Input Voltage
for the NCP301SNT1
200
VTH = 4.90 V
150
VTH = 3.10 V
VTH = 1.60 V
50
0
10
3.5
Vin, PULSE HIGH INPUT VOLTAGE (V)
300
100
3.168
30
50
70
90
110
130
RESET COMPARATOR OVERDRIVE
150
Figure 23.
http://onsemi.com
16
5.5
NCP300, NCP301
APPLICATION CIRCUIT INFORMATION
VDD
VDD
2
Input
NCP300
Series
3
*
1
Microprocessor
Reset
Reset Output
* Required for
GND
GND
NCP301
Figure 25. Microprocessor Reset Circuit
2.85 V
2.70 V
Vin < 2.7 ON
2
Input
NCP300
LSN27T1
1
To Additional Circuitry
Reset Output
Vin > 2.835 ON
3
GND
Figure 26. Battery Charge Indicator
Vsupply
Fault
10 V
Active High
Device Thresholds
2
UV
NCP301
LSN23T1
Active Low
Device Thresholds
1.0 V
Input
UV
Fault
OK
OV
Fault
OV
Fault
OK
UV
Fault
3
GND
2
Input
1
Reset Output
Input
The above circuit combines an active high and an active low reset output device to form
a window detector for monitoring battery or power supply voltages. When the input
voltage falls outside of the window established by the upper and lower device
thresholds, the LED will turn on indicating a fault. As the input voltage falls within the
window, increasing from 1.0 V and exceeding the active low device’s hysteresis
threshold, or decreasing from the peak towards 1.0 V and falling below the active high
device’s undervoltage threshold, the LED will turn off. The device thresholds shown can
be used for a single cell lithium−ion battery charge detector.
Figure 27. Window Voltage Detector
http://onsemi.com
17
OV
NCP301
HSN43T1
3
GND
1
Reset Output
Output
NCP300, NCP301
APPLICATION CIRCUIT INFORMATION
Vsupply
5.0 V
2
Input
1
NCP301
LSN45T1
Reset Output
3
GND
2
Input
3.3 V
1
NCP301
LSN30T1
3
Low state output if either power
supply is below the respective
undervoltage detector threshold
but greater than 1.0 V.
Reset Output
GND
Figure 28. Dual Power Supply Undervoltage Supervision
VDD
RH
2
VDD
Input
RL
NCP301
LSN27T1
3
1
Microprocessor
Reset
Reset Output
GND
GND
Figure 29. Microprocessor Reset Circuit with Additional Hysteresis
Comparator hysteresis can be increased with the addition of
resistor RH. The hysteresis equations have been simplified and
do not account for the change of input current Iin as Vin crosses
the comparator threshold. The internal resistance, Rin is simply
calculated using Iin = 0.26 mA at 2.6 V.
Vin Decreasing:
V th +
Vin Increasing:
V th +
ǒ
ǒRR
H
Ǔ
) 1 ǒV DET*Ǔ
in
Ǔ
RH
) 1 ǒV DET* ) V HYSǓ
R in ø R L
VHYS = Vin Increasing − Vin Decreasing
Test Data
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁ
Vth Decreasing
(V)
Vth Increasing
(V)
VHYS
(V)
RH
(W)
RL
(kW)
2.70
2.70
2.70
2.70
2.70
2.70
2.70
2.70
2.70
2.70
2.84
2.87
2.88
2.91
2.90
2.94
2.98
2.70
3.04
3.15
0.135
0.17
0.19
0.21
0.20
0.24
0.28
0.27
0.34
0.35
0
100
100
100
220
220
220
470
470
470
−
10
6.8
4.3
10
6.8
4.3
10
6.8
4.3
http://onsemi.com
18
NCP300, NCP301
5.0 V
Test Data
R2 = 82 kW
R1 = 100 kW
2
Input
R2 (See table)
C
NCP301
NCP300
HSN27T1
LSN27T1
3
R2 = 8.2 kW
C (nF)
fOSC (kHz)
IQ (mA)
fOSC (kHz)
IQ (mA)
0.01
10.4
18
6.0
30
0.068
9.8
18
5.7
30
1.0
6.18
21
3.6
29
1
10
1.41
21
1.34
25
Reset Output
100
0.27
22
0.356
23
1000
0.045
22
0.077
22
GND
Table values are for information only.
Figure 30. Simple Clock Oscillator
Vsupply
This circuit monitors the current at the load. As
current flows through the load, a voltage drop with
respect to ground appears across Rsense where
Vsense = Iload * Rsense. The following conditions apply:
Load
VDD
Rsense
2
If:
ILoad t VDET − /Rsense
ILoad w (VDET −+VHYS)/Rsense
Input
50 k
NCP301
LSN09T1
LSN27T1
3
GND
1
Microcontroller
Reset Output
GND
Figure 31. Microcontroller System Load Sensing
http://onsemi.com
19
Then:
Reset Output = 0 V
Reset Output = VDD
NCP300, NCP301
Vsupply
2
Input
NCP301
LSN27T1
LSN45T1
3
GND
2
Input
NCP301
LSN27T1
3
GND
2
Input
1
Reset
Output
1
Reset
Output
Vin = 1.0 V to 10 V
NCP301
LSN27T1
LSN18T1
3
1
Reset
Output
GND
A simple voltage monitor can be constructed by connecting several voltage detectors as shown above. Each LED will
sequentially turn on when the respective voltage detector threshold (VDET− +VHYS) is exceeded. Note that detector
thresholds (VDET−) that range from 0.9 V to 4.9 V in 100 mV steps can be manufactured.
Figure 32. LED Bar Graph Voltage Monitor
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20
NCP300, NCP301
ORDERING INFORMATION
Device
Threshold Voltage
NCP300LSN09T1
NCP300LSN09T1G
Output Type
Reset
Marking
Package
0.9
0.9
SEJ
SEJ
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN18T1
NCP300LSN18T1G
1.8
1.8
SFK
SFK
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN20T1
NCP300LSN20T1G
2.0
2.0
SHE
SHE
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN27T1
NCP300LSN27T1G
2.7
2.7
SEE
SEE
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN28T1
NCP300LSN28T1G
2.8
2.8
SED
SED
TSOP−5
TSOP−5
(Pb−Free)
NCV300LSN28T1*
NCV300LSN28T1G*
2.8
2.8
SSL
SSL
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN30T1
NCP300LSN30T1G
3.0
3.0
SEC
SEC
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN33T1
NCP300LSN33T1G
3.3
3.3
SKV
SKV
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN34T1
NCP300LSN34T1G
3.4
3.4
SKU
SKU
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN44T1
NCP300LSN44T1G
4.4
4.4
SKK
SKK
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN45T1
NCP300LSN45T1G
4.5
4.5
SEA
SEA
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN46T1
NCP300LSN46T1G
4.6
4.6
SKJ
SKJ
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN47T1
NCP300LSN47T1G
4.7
4.7
SDZ
SDZ
TSOP−5
TSOP−5
(Pb−Free)
NCP300LSN185T1
NCP300LSN185T1G
1.815
1.815
SRA
SRA
TSOP−5
TSOP−5
(Pb−Free)
Active
Low
CMOS
NOTE:
Shipping †
3000 / Tape & Reel
(7 in. Reel)
The ordering information lists standard undervoltage thresholds with active low outputs. Additional active low threshold devices,
ranging from 0.9 V to 4.9 V in 100 mV increments and NCP300/NCP301 active high output devices, ranging from 0.9 V to 4.9 V
in 100 mV increments can be manufactured. Contact your ON Semiconductor representative for availability. The electrical
characteristics of these additional devices are shown in Tables 1 through 4.
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D.
*NCV prefix for automotive and other applications requiring site and control changes.
NCVxxx: Tlow = −40°C, Thigh = +125°C. Guaranteed by design.
http://onsemi.com
21
NCP300, NCP301
ORDERING INFORMATION
Device
Threshold Voltage
NCP300HSN09T1
NCP300HSN09T1G
Output Type
Reset
Marking
Package
0.9
0.9
SDY
SDY
TSOP−5
TSOP−5
(Pb−Free)
NCP300HSN18T1
NCP300HSN18T1G
1.8
1.8
SFJ
SFJ
TSOP−5
TSOP−5
(Pb−Free)
NCP300HSN27T1
NCP300HSN27T1G
2.7
2.7
SDU
SDU
TSOP−5
TSOP−5
(Pb−Free)
NCP300HSN30T1
NCP300HSN30T1G
3.0
3.0
SDS
SDS
TSOP−5
TSOP−5
(Pb−Free)
NCP300HSN45T1
NCP300HSN45T1G
4.5
4.5
SDQ
SDQ
TSOP−5
TSOP−5
(Pb−Free)
NCP300HSN47T1
NCP300HSN47T1G
4.7
4.7
SDP
SDP
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN09T1
NCP301LSN09T1G
0.9
0.9
SFF
SFF
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN12T1
NCP301LSN12T1G
1.2
1.2
SNN
SNN
TSOP−5
TSOP−5
(Pb−Free)
NCV301LSN12T1*
NCV301LSN12T1G*
1.2
1.2
SRK
SRK
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN16T1
NCP301LSN16T1G
1.6
1.6
SNJ
SNJ
TSOP−5
TSOP−5
(Pb−Free)
NCV301LSN16T1*
NCV301LSN16T1G*
1.6
1.6
SRL
SRL
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN18T1
NCP301LSN18T1G
1.8
1.8
SFN
SFN
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN20T1
NCP301LSN20T1G
2.0
2.0
SFD
SFD
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN22T1
NCP301LSN22T1G
2.2
2.2
SNG
SNG
TSOP−5
TSOP−5
(Pb−Free)
NCV301LSN22T1*
NCP301LSN25T1
NCP301LSN25T1G
2.2
2.5
2.5
SUA
SNF
SNF
TSOP−5
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN26T1
NCP301LSN26T1G
2.6
2.6
SNE
SNE
TSOP−5
TSOP−5
(Pb−Free)
Active
High
CMOS
Open
Drain
Active
Low
NOTE:
Shipping †
3000 / Tape & Reel
(7 in. Reel)
3000 / Tape & Reel
(7 in. Reel)
The ordering information lists standard undervoltage thresholds with active low outputs. Additional active low threshold devices,
ranging from 0.9 V to 4.9 V in 100 mV increments and NCP300/NCP301 active high output devices, ranging from 0.9 V to 4.9 V
in 100 mV increments can be manufactured. Contact your ON Semiconductor representative for availability. The electrical
characteristics of these additional devices are shown in Tables 1 through 4.
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D.
*NCV prefix for automotive and other applications requiring site and control changes.
NCVxxx: Tlow = −40°C, Thigh = +125°C. Guaranteed by design.
http://onsemi.com
22
NCP300, NCP301
ORDERING INFORMATION
Device
Threshold Voltage
NCP301LSN27T1
NCP301LSN27T1G
Output Type
Reset
Marking
Package
2.7
2.7
SFA
SFA
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN28T1
NCP301LSN28T1G
2.8
2.8
SEZ
SEZ
TSOP−5
TSOP−5
(Pb−Free)
NCV301LSN28T1*
NCV301LSN28T1G*
2.8
2.8
SRO
SRO
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN30T1
NCP301LSN30T1G
3.0
3.0
SEY
SEY
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN31T1
NCP301LSN31T1G
3.1
3.1
SEW
SEW
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN32T1
NCP301LSN32T1G
3.2
3.2
SNC
SNC
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN33T1
NCP301LSN33T1G
3.3
3.3
SNB
SNB
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN34T1
NCP301LSN34T1G
3.4
3.4
SNA
SNA
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN39T1G
3.4
SNA
TSOP−5
(Pb−Free)
NCP301LSN40T1
NCP301LSN40T1G
4.0
4.0
SMU
SMU
TSOP−5
TSOP−5
(Pb−Free)
NCV301LSN40T1*
NCV301LSN40T1G*
4.0
4.0
SRP
SRP
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN42T1
NCP301LSN42T1G
4.2
4.2
SMS
SMS
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN45T1
NCP301LSN45T1G
4.5
4.5
SEV
SEV
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN46T1
NCP301LSN46T1G
4.6
4.6
SMP
SMP
TSOP−5
TSOP−5
(Pb−Free)
NCP301LSN47T1
NCP301LSN47T1G
4.7
4.7
SEU
SEU
TSOP−5
TSOP−5
(Pb−Free)
Open
Drain
Active
Low
NOTE:
Shipping †
3000 / Tape & Reel
(7 in. Reel)
The ordering information lists standard undervoltage thresholds with active low outputs. Additional active low threshold devices,
ranging from 0.9 V to 4.9 V in 100 mV increments and NCP300/NCP301 active high output devices, ranging from 0.9 V to 4.9 V
in 100 mV increments can be manufactured. Contact your ON Semiconductor representative for availability. The electrical
characteristics of these additional devices are shown in Tables 1 through 4.
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D.
*NCV prefix for automotive and other applications requiring site and control changes.
NCVxxx: Tlow = −40°C, Thigh = +125°C. Guaranteed by design.
http://onsemi.com
23
NCP300, NCP301
ORDERING INFORMATION
Device
Threshold Voltage
Output Type
Reset
Marking
Package
NCP301HSN09T1
0.9
SET
TSOP−5
NCP301HSN09T1G
0.9
SET
TSOP−5
(Pb−Free)
NCP301HSN18T1
1.8
SFM
TSOP−5
NCP301HSN18T1G
1.8
SFM
TSOP−5
(Pb−Free)
NCP301HSN22T1
2.2
SMD
TSOP−5
NCP301HSN22T1G
2.2
SMD
TSOP−5
(Pb−Free)
SEP
TSOP−5
Open
Drain
Active
High
NCP301HSN27T1
2.7
NCP301HSN27T1G
2.7
SEP
TSOP−5
(Pb−Free)
NCP301HSN30T1
3.0
SEN
TSOP−5
NCP301HSN30T1G
3.0
SEN
TSOP−5
(Pb−Free)
NCP301HSN45T1
4.5
SEL
TSOP−5
NCP301HSN45T1G
4.5
SEL
TSOP−5
(Pb−Free)
NOTE:
Shipping †
3000 / Tape & Reel
(7 in. Reel)
The ordering information lists standard undervoltage thresholds with active low outputs. Additional active low threshold devices,
ranging from 0.9 V to 4.9 V in 100 mV increments and NCP300/NCP301 active high output devices, ranging from 0.9 V to 4.9 V
in 100 mV increments can be manufactured. Contact your ON Semiconductor representative for availability. The electrical
characteristics of these additional devices are shown in Tables 1 through 4.
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D.
*NCV prefix for automotive and other applications requiring site and control changes.
NCVxxx: Tlow = −40°C, Thigh = +125°C. Guaranteed by design.
http://onsemi.com
24
NCP300, NCP301
PACKAGE DIMENSIONS
TSOP−5
CASE 483−02
ISSUE F
NOTE 5
2X
0.10 T
2X
0.20 T
NOTES:
1. DIMENSIONING AND TOLERANCING PER
ASME Y14.5M, 1994.
2. CONTROLLING DIMENSION: MILLIMETERS.
3. MAXIMUM LEAD THICKNESS INCLUDES
LEAD FINISH THICKNESS. MINIMUM LEAD
THICKNESS IS THE MINIMUM THICKNESS
OF BASE MATERIAL.
4. DIMENSIONS A AND B DO NOT INCLUDE
MOLD FLASH, PROTRUSIONS, OR GATE
BURRS.
5. OPTIONAL CONSTRUCTION: AN
ADDITIONAL TRIMMED LEAD IS ALLOWED
IN THIS LOCATION. TRIMMED LEAD NOT TO
EXTEND MORE THAN 0.2 FROM BODY.
D 5X
0.20 C A B
5
1
4
2
3
M
B
S
K
L
DETAIL Z
G
A
DIM
A
B
C
D
G
H
J
K
L
M
S
DETAIL Z
J
C
0.05
SEATING
PLANE
H
T
SOLDERING FOOTPRINT*
0.95
0.037
MILLIMETERS
MIN
MAX
3.00 BSC
1.50 BSC
0.90
1.10
0.25
0.50
0.95 BSC
0.01
0.10
0.10
0.26
0.20
0.60
1.25
1.55
0_
10 _
2.50
3.00
1.9
0.074
2.4
0.094
1.0
0.039
0.7
0.028
SCALE 10:1
mm Ǔ
ǒinches
*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.
“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights
nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications
intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should
Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,
and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death
associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal
Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.
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