TI1 LM139-N Lm139/lm239/lm339/lm2901/lm3302 low power low offset voltage quad comparator Datasheet

LM139,LM239,LM2901,LM3302,LM339
LM139/LM239/LM339/LM2901/LM3302 Low Power Low Offset Voltage Quad
Comparators
Literature Number: SNOSBJ3C
LM139/LM239/LM339/LM2901/LM3302
Low Power Low Offset Voltage Quad Comparators
General Description
Features
The LM139 series consists of four independent precision
voltage comparators with an offset voltage specification as
low as 2 mV max for all four comparators. These were
designed specifically to operate from a single power supply
over a wide range of voltages. Operation from split power
supplies is also possible and the low power supply current
drain is independent of the magnitude of the power supply
voltage. These comparators also have a unique characteristic in that the input common-mode voltage range includes
ground, even though operated from a single power supply
voltage.
n
n
n
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Application areas include limit comparators, simple analog to
digital converters; pulse, squarewave and time delay generators; wide range VCO; MOS clock timers; multivibrators
and high voltage digital logic gates. The LM139 series was
designed to directly interface with TTL and CMOS. When
operated from both plus and minus power supplies, they will
directly interface with MOS logic — where the low power
drain of the LM339 is a distinct advantage over standard
comparators.
n
n
n
n
n
n
n
Wide supply voltage range
LM139/139A Series
2 to 36 VDC or ± 1 to ± 18 VDC
LM2901:
2 to 36 VDC or ± 1 to ± 18 VDC
LM3302:
2 to 28 VDC or ± 1 to ± 14 VDC
Very low supply current drain (0.8 mA) — independent
of supply voltage
Low input biasing current:
25 nA
± 5 nA
Low input offset current:
± 3 mV
Offset voltage:
Input common-mode voltage range includes GND
Differential input voltage range equal to the power
supply voltage
Low output saturation voltage:
250 mV at 4 mA
Output voltage compatible with TTL, DTL, ECL, MOS
and CMOS logic systems
Advantages
n
n
n
n
n
n
High precision comparators
Reduced VOS drift over temperature
Eliminates need for dual supplies
Allows sensing near GND
Compatible with all forms of logic
Power drain suitable for battery operation
One-Shot Multivibrator with Input
Lock Out
00570612
© 2004 National Semiconductor Corporation
DS005706
www.national.com
LM139/LM239/LM339/LM2901/LM3302 Low Power Low Offset Voltage Quad Comparators
March 2004
LM139/LM239/LM339/LM2901/LM3302
Distributors for availability and specifications.
Absolute Maximum Ratings (Note 10)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
LM139/LM239/LM339
LM139A/LM239A/LM339A
LM3302
LM2901
Supply Voltage, V+
36 VDC or ± 18 VDC
28 VDC or ± 14 VDC
36 VDC
28 VDC
−0.3 VDC to +36 VDC
−0.3 VDC to +28 VDC
50 mA
50 mA
Molded DIP
1050 mW
1050 mW
Cavity DIP
1190 mW
Small Outline Package
760 mW
Differential Input Voltage (Note 8)
Input Voltage
Input Current (VIN < −0.3 VDC),
(Note 3)
Power Dissipation (Note 1)
Output Short-Circuit to GND,
(Note 2)
Storage Temperature Range
Continuous
Continuous
−65˚C to +150˚C
−65˚C to +150˚C
Lead Temperature
(Soldering, 10 seconds)
260˚C
260˚C
Operating Temperature Range
−40˚C to +85˚C
LM339/LM339A
0˚C to +70˚C
LM239/LM239A
−25˚C to +85˚C
LM2901
−40˚C to +85˚C
LM139/LM139A
−55˚C to +125˚C
Soldering Information
Dual-In-Line Package
Soldering (10 seconds)
260˚C
260˚C
Vapor Phase (60 seconds)
215˚C
215˚C
Infrared (15 seconds)
220˚C
220˚C
Small Outline Package
See AN-450 “Surface Mounting Methods and Their Effect on Product Reliability” for other methods of
soldering surface mount devices.
ESD rating (1.5 kΩ in series with 100 pF)
600V
600V
Electrical Characteristics
(V+=5 VDC, TA = 25˚C, unless otherwise stated)
Parameter
Conditions
LM139A
Min Typ
LM239A, LM339A
Max
Min
Typ
LM139
Max
Min Typ
Units
Max
Input Offset Voltage
(Note 9)
1.0
2.0
1.0
2.0
2.0
5.0
mVDC
Input Bias Current
IIN(+) or IIN(−) with Output in
25
100
25
250
25
100
nADC
25
5.0
50
3.0
25
nADC
Linear Range, (Note 5), VCM=0V
Input Offset Current
Input Common-Mode
Voltage Range
Supply Current
IIN(+)−IIN(−), VCM=0V
+
V =30 VDC (LM3302,
3.0
+
0
V −1.5
+
0
V −1.5
+
0
V −1.5
VDC
V+ = 28 VDC) (Note 6)
RL = ∞ on all Comparators,
0.8
2.0
RL = ∞, V+ = 36V,
0.8
2.0
0.8
2.0
mADC
1.0
2.5
1.0
2.5
mADC
(LM3302, V+ = 28 VDC)
Voltage Gain
RL≥15 kΩ, V+ = 15 VDC
50
200
50
200
50
200
V/mV
300
ns
VO = 1 VDC to 11 VDC
Large Signal
Response Time
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VIN = TTL Logic Swing, VREF =
300
1.4 VDC, VRL = 5 VDC,
2
300
(Continued)
(V+=5 VDC, TA = 25˚C, unless otherwise stated)
Parameter
Conditions
LM139A
Min Typ
LM239A, LM339A
Max
Min
Typ
Max
LM139
Min Typ
Units
Max
RL = 5.1 kΩ
Response Time
VRL = 5 VDC, RL = 5.1 kΩ,
Output Sink Current
VIN(−) = 1 VDC, VIN(+) = 0,
1.3
1.3
1.3
µs
16
mADC
(Note 7)
6.0
16
6.0
16
6.0
VO ≤ 1.5 VDC
Saturation Voltage
VIN(−) = 1 VDC, VIN(+) = 0,
250
400
250
400
250
400
mVDC
ISINK ≤ 4 mA
Output Leakage
Current
VIN(+) = 1 VDC,VIN(−) = 0,
0.1
0.1
0.1
nADC
VO = 5 VDC
Electrical Characteristics
(V+ = 5 VDC, TA = 25˚C, unless otherwise stated)
Parameter
Conditions
LM239, LM339
Min
Typ
LM2901
Max
Min Typ
LM3302
Max
Min Typ
Units
Max
Input Offset Voltage
(Note 9)
2.0
5.0
2.0
7.0
3
20
mVDC
Input Bias Current
IIN(+) or IIN(−) with Output in
25
250
25
250
25
500
nADC
Input Offset Current
IIN(+)−IIN(−), VCM = 0V
Input Common-Mode
V+ = 30 VDC (LM3302,
Linear Range, (Note 5), VCM=0V
Voltage Range
Supply Current
5.0
50
V+−1.5
0
5
50
V+−1.5
0
3
0
100
nADC
V+−1.5
VDC
+
V = 28 VDC) (Note 6)
RL = ∞ on all Comparators,
0.8
2.0
0.8
2.0
0.8
2.0
mADC
RL = ∞, V+ = 36V,
1.0
2.5
1.0
2.5
1.0
2.5
mADC
(LM3302, V+ = 28 VDC)
Voltage Gain
RL ≥ 15 kΩ, V+ = 15 VDC
50
200
25
100
2
30
V/mV
VO = 1 VDC to 11 VDC
Large Signal
Response Time
VIN = TTL Logic Swing, VREF =
300
300
300
ns
1.3
1.3
1.3
µs
16
mADC
1.4 VDC, VRL = 5 VDC,
RL = 5.1 kΩ,
Response Time
VRL = 5 VDC, RL = 5.1 kΩ,
Output Sink Current
VIN(−)= 1 VDC, VIN(+) = 0,
(Note 7)
6.0
16
6.0
16
6.0
VO ≤ 1.5 VDC
Saturation Voltage
VIN(−) = 1 VDC, VIN(+) = 0,
Output Leakage
VIN(+) = 1 VDC,VIN(−) = 0,
250
400
250
400
250
500
mVDC
ISINK ≤ 4 mA
Current
0.1
0.1
0.1
nADC
LM139
Units
VO = 5 VDC
Electrical Characteristics
(V+ = 5.0 VDC, (Note 4))
Parameter
Conditions
LM139A
Min Typ
Max
LM239A, LM339A
Min Typ
Max
Min Typ
Max
Input Offset Voltage
(Note 9)
4.0
4.0
9.0
Input Offset Current
IIN(+)−IIN(−), VCM = 0V
100
150
100
mVDC
nADC
Input Bias Current
IIN(+) or IIN(−) with Output in
300
400
300
nADC
Input Common-Mode
V+=30 VDC (LM3302,
V+−2.0
VDC
Voltage Range
V+ = 28 VDC) (Note 6)
Linear Range, VCM = 0V (Note 5)
0
3
V+−2.0
0
V+−2.0
0
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LM139/LM239/LM339/LM2901/LM3302
Electrical Characteristics
LM139/LM239/LM339/LM2901/LM3302
Electrical Characteristics
(Continued)
(V+ = 5.0 VDC, (Note 4))
Parameter
Conditions
LM139A
Min Typ
Saturation Voltage
VIN(−)=1 VDC, VIN(+) = 0,
LM239A, LM339A
Max
Min Typ
Max
LM139
Min Typ
Units
Max
700
700
700
mVDC
1.0
1.0
1.0
µADC
36
36
36
VDC
ISINK ≤ 4 mA
Output Leakage Current
VIN(+)
=
1 VDC, VIN(−) = 0,
VO = 30 VDC, (LM3302,
VO = 28 VDC)
Keep all VIN’s ≥ 0 VDC (or V−,
Differential Input Voltage
if used), (Note 8)
Electrical Characteristics
(V+ = 5.0 VDC, (Note 4))
Parameter
Conditions
LM239, LM339
Min Typ
Max
LM2901
Min Typ
LM3302
Max
Min Typ
Units
Max
Input Offset Voltage
(Note 9)
9.0
9
15
40
Input Offset Current
IIN(+)−IIN(−), VCM = 0V
150
50
200
300
mVDC
nADC
Input Bias Current
IIN(+) or IIN(−) with Output in
400
200
500
1000
nADC
V+−2.0
VDC
700
700
mVDC
1.0
1.0
1.0
µADC
36
36
28
VDC
Linear Range, VCM = 0V (Note 5)
Input Common-Mode
V+ = 30 VDC (LM3302, V+ = 28 VDC)
Voltage Range
(Note 6)
Saturation Voltage
VIN(−) = 1 VDC, VIN(+) = 0,
V+−2.0
700
V+−2.0
0
400
0
ISINK ≤ 4 mA
Output Leakage Current VIN(+)
=
1 VDC, VIN(−) = 0,
VO = 30 VDC, (LM3302, V
O
= 28 VDC)
Differential Input Voltage Keep all VIN’s ≥ 0 VDC (or V−,
if used), (Note 8)
Note 1: For operating at high temperatures, the LM339/LM339A, LM2901, LM3302 must be derated based on a 125˚C maximum junction temperature and a
thermal resistance of 95˚C/W which applies for the device soldered in a printed circuit board, operating in a still air ambient. The LM239 and LM139 must be derated
based on a 150˚C maximum junction temperature. The low bias dissipation and the “ON-OFF” characteristic of the outputs keeps the chip dissipation very small
(PD≤100 mW), provided the output transistors are allowed to saturate.
Note 2: Short circuits from the output to V+ can cause excessive heating and eventual destruction. When considering short circuits to ground, the maximum output
current is approximately 20 mA independent of the magnitude of V+.
Note 3: This input current will only exist when the voltage at any of the input leads is driven negative. It is due to the collector-base junction of the input PNP
transistors becoming forward biased and thereby acting as input diode clamps. In addition to this diode action, there is also lateral NPN parasitic transistor action
on the IC chip. This transistor action can cause the output voltages of the comparators to go to the V+ voltage level (or to ground for a large overdrive) for the time
duration that an input is driven negative. This is not destructive and normal output states will re-establish when the input voltage, which was negative, again returns
to a value greater than −0.3 VDC (at 25˚)C.
Note 4: These specifications are limited to −55˚C ≤ TA ≤ +125˚C, for the LM139/LM139A. With the LM239/LM239A, all temperature specifications are limited to
−25˚C ≤ TA ≤ +85˚C, the LM339/LM339A temperature specifications are limited to 0˚C ≤ TA ≤ +70˚C, and the LM2901, LM3302 temperature range is −40˚C ≤ TA
≤ +85˚C.
Note 5: The direction of the input current is out of the IC due to the PNP input stage. This current is essentially constant, independent of the state of the output so
no loading change exists on the reference or input lines.
Note 6: The input common-mode voltage or either input signal voltage should not be allowed to go negative by more than 0.3V. The upper end of the common-mode
voltage range is V+ −1.5V at 25˚C, but either or both inputs can go to +30 VDC without damage (25V for LM3302), independent of the magnitude of V+.
Note 7: The response time specified is a 100 mV input step with 5 mV overdrive. For larger overdrive signals 300 ns can be obtained, see typical performance
characteristics section.
Note 8: Positive excursions of input voltage may exceed the power supply level. As long as the other voltage remains within the common-mode range, the
comparator will provide a proper output state. The low input voltage state must not be less than −0.3 VDC (or 0.3 VDCbelow the magnitude of the negative power
supply, if used) (at 25˚C).
Note 9: At output switch point, VO.1.4 VDC, RS = 0Ω with V+ from 5 VDC to 30 VDC; and over the full input common-mode range (0 VDC to V+ −1.5 VDC), at 25˚C.
For LM3302, V+ from 5 VDC to 28 VDC.
Note 10: Refer to RETS139AX for LM139A military specifications and to RETS139X for LM139 military specifications.
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4
LM139/LM239/LM339, LM139A/LM239A/LM339A, LM3302
Supply Current
Input Current
00570634
00570635
Response Time for Various Input Overdrives
— Negative Transition
Output Saturation Voltage
00570637
00570636
Response Time for Various Input Overdrives
— Positive Transition
00570638
5
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LM139/LM239/LM339/LM2901/LM3302
Typical Performance Characteristics
LM139/LM239/LM339/LM2901/LM3302
Typical Performance Characteristics
LM2901
Supply Current
Input Current
00570640
00570639
Response Time for Various Input Overdrives
— Negative Transition
Output Saturation Voltage
00570642
00570641
Response Time for Various Input Overdrives
— Positive Transition
00570643
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6
Driving CMOS
The LM139 series are high gain, wide bandwidth devices
which, like most comparators, can easily oscillate if the
output lead is inadvertently allowed to capacitively couple to
the inputs via stray capacitance. This shows up only during
the output voltage transition intervals as the comparator
changes states. Power supply bypassing is not required to
solve this problem. Standard PC board layout is helpful as it
reduces stray input-output coupling. Reducing this input resistors to < 10 kΩ reduces the feedback signal levels and
finally, adding even a small amount (1 to 10 mV) of positive
feedback (hysteresis) causes such a rapid transition that
oscillations due to stray feedback are not possible. Simply
socketing the IC and attaching resistors to the pins will cause
input-output oscillations during the small transition intervals
unless hysteresis is used. If the input signal is a pulse
waveform, with relatively fast rise and fall times, hysteresis is
not required.
All pins of any unused comparators should be tied to the
negative supply.
The bias network of the LM139 series establishes a drain
current which is independent of the magnitude of the power
supply voltage over the range of from 2 VDC to 30 VDC.
It is usually unnecessary to use a bypass capacitor across
the power supply line.
The differential input voltage may be larger than V+ without
damaging the device. Protection should be provided to prevent the input voltages from going negative more than −0.3
VDC (at 25˚C). An input clamp diode can be used as shown
in the applications section.
The output of the LM139 series is the uncommitted collector
of a grounded-emitter NPN output transistor. Many collectors
can be tied together to provide an output OR’ing function. An
output pull-up resistor can be connected to any available
power supply voltage within the permitted supply voltage
range and there is no restriction on this voltage due to the
magnitude of the voltage which is applied to the V+ terminal
of the LM139A package. The output can also be used as a
simple SPST switch to ground (when a pull-up resistor is not
used). The amount of current which the output device can
sink is limited by the drive available (which is independent of
V+) and the β of this device. When the maximum current limit
is reached (approximately 16 mA), the output transistor will
come out of saturation and the output voltage will rise very
rapidly. The output saturation voltage is limited by the approximately 60Ω RSAT of the output transistor. The low offset
voltage of the output transistor (1 mV) allows the output to
clamp essentially to ground level for small load currents.
Typical Applications
LM139/LM239/LM339/LM2901/LM3302
Application Hints
00570604
Driving TTL
00570605
AND Gate
00570608
OR Gate
(V+ = 5.0 VDC)
Basic Comparator
00570603
00570609
7
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LM139/LM239/LM339/LM2901/LM3302
Typical Applications
(V+= 15 VDC)
One-Shot Multivibrator
00570610
Bi-Stable Multivibrator
00570611
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8
LM139/LM239/LM339/LM2901/LM3302
Typical Applications (V+= 15 VDC)
(Continued)
One-Shot Multivibrator with Input Lock Out
00570612
Pulse Generator
00570617
9
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LM139/LM239/LM339/LM2901/LM3302
Typical Applications (V+= 15
ORing the Outputs
VDC) (Continued)
Large Fan-In AND Gate
00570613
00570615
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10
LM139/LM239/LM339/LM2901/LM3302
Typical Applications (V+= 15 VDC)
(Continued)
Time Delay Generator
00570614
Non-Inverting Comparator with Hysteresis
Inverting Comparator with Hysteresis
00570618
00570619
11
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LM139/LM239/LM339/LM2901/LM3302
Typical Applications (V+= 15
Comparing Input Voltages
of Opposite Polarity
VDC) (Continued)
Squarewave Oscillator
00570620
Output Strobing
00570616
Basic Comparator
00570622
* Or open-collector logic gate without pull-up resistor
Crystal Controlled Oscillator
00570621
Limit Comparator
00570625
00570624
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12
700 Hz ≤ fO ≤ 100 kHz
V+ = +30 VDC
250 mVDC ≤ VC ≤ +50 VDC
Typical Applications (V+= 15 VDC)
(Continued)
Two-Decade High-Frequency VCO
00570623
LM139/LM239/LM339/LM2901/LM3302
13
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LM139/LM239/LM339/LM2901/LM3302
Typical Applications (V+= 15
Zero Crossing Detector (Single Power Supply)
VDC) (Continued)
Transducer Amplifier
00570630
Split-Supply Applications
(V+ = +15
VDC and V− = −15 VDC)
00570628
MOS Clock Driver
00570631
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14
Comparator With a Negative Reference
and V− = −15 VDC) (Continued)
Zero Crossing Detector
00570633
Schematic Diagram
00570632
00570601
15
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LM139/LM239/LM339/LM2901/LM3302
Split-Supply Applications (V+ = +15 VDC
LM139/LM239/LM339/LM2901/LM3302
Connection Diagrams
Dual-In-Line Package
00570602
Order Number LM139J, LM139J/883 (Note 11), LM139AJ,
LM139AJ/883 (Note 12), LM239J, LM239AJ, LM339J
See NS Package Number J14A
Order Number LM339AM, LM339AMX, LM339M, LM339MX or LM2901M
See NS Package Number M14A
Order Number LM339N, LM339AN, LM2901N or LM3302N
See NS Package Number N14A
00570627
Order Number LM139AW/883 or LM139W/883 (Note 11)
See NS Package Number W14B,
LM139AWGRQMLV (Note 13)
See NS Package Number WG14A
Note 11: Available per JM38510/11201
Note 12: Available per SMD# 5962-8873901
Note 13: See STD Mil Dwg 5962R96738 for Radiation Tolerant Device
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16
LM139/LM239/LM339/LM2901/LM3302
Physical Dimensions
inches (millimeters)
unless otherwise noted
Ceramic Dual-In-Line Package (J)
Order Number LM139J, LM139J/883, LM139AJ,
LM139AJ/883, LM239J, LM239AJ, LM339J
NS Package Number J14A
S.O. Package (M)
Order Number LM339AM, LM339AMX, LM339M, LM339MX, LM2901M or LM2901MX
NS Package Number M14A
17
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LM139/LM239/LM339/LM2901/LM3302
Physical Dimensions
inches (millimeters) unless otherwise noted (Continued)
Molded Dual-In-Line Package (N)
Order Number LM339N, LM339AN, LM2901N or LM3302N
NS Package Number N14A
Order Number LM139AW/883, LM139W/883
NS Package Number W14B
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18
inches (millimeters) unless otherwise noted (Continued)
Order Number LM139AWG/883, LM139WG/883
NS Package Number WG14A
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LM139/LM239/LM339/LM2901/LM3302 Low Power Low Offset Voltage Quad Comparators
Physical Dimensions
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Following are URLs where you can obtain information on other Texas Instruments products and application solutions:
Products
Applications
Audio
www.ti.com/audio
Communications and Telecom www.ti.com/communications
Amplifiers
amplifier.ti.com
Computers and Peripherals
www.ti.com/computers
Data Converters
dataconverter.ti.com
Consumer Electronics
www.ti.com/consumer-apps
DLP® Products
www.dlp.com
Energy and Lighting
www.ti.com/energy
DSP
dsp.ti.com
Industrial
www.ti.com/industrial
Clocks and Timers
www.ti.com/clocks
Medical
www.ti.com/medical
Interface
interface.ti.com
Security
www.ti.com/security
Logic
logic.ti.com
Space, Avionics and Defense
www.ti.com/space-avionics-defense
Power Mgmt
power.ti.com
Transportation and Automotive www.ti.com/automotive
Microcontrollers
microcontroller.ti.com
Video and Imaging
RFID
www.ti-rfid.com
OMAP Mobile Processors
www.ti.com/omap
Wireless Connectivity
www.ti.com/wirelessconnectivity
TI E2E Community Home Page
www.ti.com/video
e2e.ti.com
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