LP265,LP365
LP265 LP365 Micropower Programmable Quad Comparator
Literature Number: SNOSBC5A
TL/H/5023
LP265/LP365 Micropower Programmable Quad Comparator
December 1994
LP265/LP365 Micropower Programmable
Quad Comparator
General Description
The LP365 consists of four independent voltage compara-
tors. The comparators can be programmed, four at the
same time, for various supply currents, input currents, re-
sponse times and output current drives. This is accom-
plished by connecting a single resistor between the VCC
and ISET pins.
These comparators can be operated from split power sup-
plies or from a single power supply over a wide range of
voltages. The input can sense signals at ground level even
with single supply operation. The unique output NPN tran-
sistor stages are uncommitted to either power supply. They
can be connected directly to various logic system supplies
so that they are highly flexible to interface with various logic
families.
Application areas include battery power circuits, threshold
detectors, zero crossing detectors, simple serial A/D con-
verters, VCO, multivibrators, voltage converters, power se-
quencers, and high performance V/F converters, and RTD
linearization.
Features
YSingle programming resistor to tailor power consump-
tion, input current, speed and output current drive
capability
YWide single supply voltage range or dual supplies (4
VDC to 36 VDC or g2.0 VDC to g18 VDC)
YLow supply current drain (10 mA) and low power
consumption (10 mW/comparator) @ISET e0.5 mA
VCC e5VDC
YUncommitted output stageÐselectable output levels
YOutput directly compatible with DTL, TTL, CMOS, MOS
or other special logic families
YInput common-mode range includes ground
YDifferential input voltage equal to the power supply
voltage
Typical Connection
TL/H/50231
Programming Equation
ISETe(Va)b(Vb)b1.3V
RSET
ISUPPLY&22cISET
Connection Diagram
Dual-In-Line Package
TL/H/50232
Order Number LP365M, LP365AN or LP365N
See NS Package Numbers M16A or N16A
C1995 National Semiconductor Corporation RRD-B30M115/Printed in U. S. A.
Obsolete
Absolute Maximum Ratings
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Supply Voltage 36 VDC or g18 VDC
Differential Input Voltage g36 VDC
Input Voltage (Note 1) b0.3V to a36 VDC
Output Short Circuit to VE(Note 2) Continuous
VOUT with Respect to VEVEb7VsVOUTsVEa36V
ESD Tolerance (Note 10) 2000V
M Package N Package
Power Dissipation (Note 3) 500 mW 500 mW
TjMax 115§C 115§C
ijA 115§C/W 90§C/W
Lead Temp.
(SolderingÐ10 sec.) 260§C
(Vapor PhaseÐ60 sec.) 215§C
(InfraredÐ15 sec.) 220§C
Operating Temp. Range LP365: 0§CsTAsa70§C
Storage Temp. Range b40§CsTAsa150§C
Electrical Characteristics (Note 4) Low power VSe5V, ISETe10 mA
LP365A LP365
Symbol Parameter Conditions Tested Design Tested Design Units
Typ Limit Limit Typ Limit Limit (Limit)
(Note 5) (Note 6) (Note 5) (Note 6)
VOS Input Offset VCMeOV, 13 636 9mV
Voltage RSe100 (Max)
IOS Input Offset VCMe0V 2 20 50 425 75 nA
Current LP265 425 150 (Max)
IBInput Bias VCMe0V 10 50 125 15 75 200 nA
Current LP265 15 75 300 (Max)
AVOL Large Signal RLe100k 500 50 50 300 25 25 V/mV
Voltage Gain (Min)
VCM Input Common- 0000V
Mode Voltage (Max)
Range
3333V
(Min)
CMRR Common-Mode 0sVCMs3V 85 75 70 80 75 70 dB
Rejection Ratio (Min)
PSRR Supply Voltage g2.5VsVS75 65 65 70 65 65 dB
Rejection Ratio sg3.5V (Min)
ISSupply Current All Inputse0V, 215 250 300 225 275 300 mA
RLe%(Max)
VOH Output Voltage VCe5V, V
High VEe0V, 4.9 4.5 4.9 4.5 (Min)
RLe100k
VOL Output Voltage VEe0V 0.4 0.4 0.4 0.4 V
Low (Max)
ISINK Output Sink VEe0V, 2.4 1.2 0.6 2.0 0.8 0.4 mA
Current VOe0.4V (Min)
ILEAK Output Leakage VCe5V, 2505000 2 100 5000 nA
Current VEe0V (Max)
tRResponse Time VCCe5V,
VEe0V,
RLe5k, 4 4 ms
CLe10 pF
(Note 7)
2
Obsolete
Electrical Characteristics (Continued) (Note 8) High power VSeg15V, ISETe100 mA
LP365A LP365
Symbol Parameter Conditions Tested Design Tested Design Units
Typ Limit Limit Typ Limit Limit (Limit)
(Note 5) (Note 6) (Note 5) (Note 6)
VOS Input Offset VCMe0V, 13 636 9mV
Voltage RSe100 (Max)
IOS Input Offset VCMe0V 5 50 100 10 90 200 nA
Current LP265 10 90 500 (Max)
IBInput Bias VCMe0V 60 200 500 80 300 500 nA
Current LP265 80 300 800 (Max)
AVOL Large Signal RLe15k 500 100 100 500 100 100 V/mV
Voltage Gain (Min)
VCM Input Common- b15 b15 b15 b15 V
Mode Voltage (Max)
Range
13 13 13 13 V
(Min)
CMRR Common-Mode b15VsVCM 85 75 70 80 75 70 dB
Rejection Ratio s13V (Min)
PSRR Supply Voltage g10VsVS80 70 70 75 70 70 dB
Rejection Ratio sg15V (Min)
ISSupply Current All Inputse0V, 2.6 3 3.3 2.8 3.5 3.7 mA
RLe%, LP265 2.8 3.5 4.3 (Max)
VOH Output Voltage VCe5V, V
High VEe0V, 4.9 4.5 4.9 4.5 (Min)
RLe100k
VOL Output Voltage VEe0V 0.4 0.4 0.4 0.4 V
Low (Max)
ISINK Output Sink VEe0V, 10 8 5.5 7.5 6 4mA
Current VOe0.4V (Min)
ILEAK Output Leakage VCe15V, 5505000 5505000 nA
Current VEeb15V (Max)
tRResponse Time VCCe5V,
VEe0V,
RLe5k, 1.0 1.0 ms
CLe10 pF
(Note 7)
Note 1: The input voltage is not allowed to go 0.3V above Vaor b0.3V below Vbas this will turn on a parasitic transistor causing large currents to flow through
the device.
Note 2: Short circuits from the output to Vamay cause excessive heating and eventual destruction. The current in the output leads and the VElead should not be
allowed to exceed 30 mA. The output should not be shorted to Vbif VEs(Vb)a7V.
Note 3: For operating at elevated temperatures, these devices must be derated based on a thermal resistance of ijA and Tjmax. TjeTAaijAPD.
Note 4: Boldface numbers apply at temperature extremes. All other numbers apply at TAeTje25§C. Vae5V, Vbe0V, ISETe10 mA, RLe100k, and
VCe5V as shown in the Typical Connection diagram.
Note 5: Guaranteed and 100% production tested.
Note 6: Guaranteed (but not 100% production tested) over the operating temperature and supply voltage ranges. These limits are not used to calculate out-going
quality levels.
Note 7: The response time specified is for a 100 mV input step with 5 mV overdrive.
Note 8: Boldface numbers apply at temperature extremes. All other numbers apply at TAeTje25§C. Vaea15V, Vbeb15V, ISETe100 mA, RLe100k, and
VCe5V as shown in the Typical Connection diagram.
Note 9: See AN-450 ‘‘Surface Mounting Methods and Their Effect on Product Reliability’’ for other methods of soldering surface mount devices.
Note 10: Human body model, 1.5 kXin series with 100 pF.
3
Obsolete
Typical Performance Characteristics
Supply Current vs ISET
Supply Current vs Supply
Voltage
Supply Current vs
Temperature
Input Bias Current vs ISET Output Saturation Voltage Voltage Gain vs ISET
Response Time
Negative Transition
Response Time
Positive Transition
Response Time
Negative Transition
Response Time
Positive Transition
TL/H/50233
4
Obsolete
Typical Applications
Gated 4-Phase Oscillator
TL/H/50234
fe20 kHz
fe1
1.6#Rt#Ct
All four phases run when X is low. When X is high, oscillation stops and
power drain is zero.
‘‘Voting’’ Comparator
TL/H/50235
If VEe0.25V, then VOUT will be low if 1 of the 3 other outputs are low.
Choice of VEe0.50V causes VOUT to be low if 2 of the 3 other outputs are
low; VEe0.75V will cause VOUT to be low if all 3 other outputs are low.
5
Obsolete
Typical Applications (Continued)
Ordinary Hysteresis
TL/H/50236
It is a good practice to add a few millivolts of positive feedback to prevent
oscillation when the input voltage is near the threshold.
Hysteresis from Emitter
TL/H/50237
Positive feedback from the emitter can also prevent oscillations when VIN is
near the threshold.
Bar-Graph Display
TL/H/50238
The positive feedback from pin 16 provides hysteresis.
Level-Sensitive Strobe
TL/H/50239
Comparators B, C, and D do not respond until activated by the signal applied
to comparator A.
6
Obsolete
Typical Applications (Continued)
Slow Op Amp (Inverter)
TL/H/502310
RBeVa/20 mA
Unlike most comparators, the LP365 can be used as an op amp, if suitable
R-C damping networks are used.
Slow Op Amp (Unity-Gain Follower)
TL/H/502311
RBeVa/20 mA
The LP365 can also be used as a high-input-impedance follower-amplifier
with the damping components shown.
Chopping Outputs
TL/H/502312
Chopping the outputs by modulating the ISET current allows data to be trans-
mitted via opto-couplers, transformers, etc.
Low Battery Detector
TL/H/502313
IS@6V e45 mA
IS@3.8V e1mA
fe3 kHz
Comparator A detects when the supply voltage drops to 4V and enables
comparator B to drive a piezoelectric alarm.
7
Obsolete
Simplified Schematic
TL/H/502314
Current sources are programmed by ISET
VEis common to all 4 comparators
8
Obsolete
Physical Dimensions inches (millimeters)
Plastic Surface-Mount Package (M)
Order Number LP365M
NS Package Number M16A
9
Obsolete
LP265/LP365 Micropower Programmable Quad Comparator
Physical Dimensions inches (millimeters) (Continued)
Molded Dual-In-Line Package (N)
Order Number LP365AN or LP365N
NS Package Number N16A
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Obsolete
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