NSC LMV7255M5 1.8v low voltage comparator with rail-to-rail input Datasheet

LMV7251/LMV7255
1.8V Low Voltage Comparator with Rail-to-Rail Input
General Description
Features
The LMV7251/LMV7255 are rail-to-rail input low voltage
comparators, which can operate at supply voltage range of
1.8V to 5.0V. The LMV7251/LMV7255 are available in space
saving SC-70 or SOT23-5 packages. These comparators
are ideal for low voltage and space critical designs.
The LMV7251 features a push-pull output stage. This feature
allows operation with minimum power consumption when
driving a load.
The LMV7255 features an open drain output. This allows the
connection of an external resistor at the output. The output of
the comparator can be used as a level shifter.
The IC’s are built with National Semiconductor’s advance
Submicron
Silicon-Gate
BiCMOS
process.
The
LMV7251/LMV7255 have bipolar inputs for improved noise
performance and CMOS outputs for better rail-to-rail output
performance.
(VS = 1.8V, TA = 25˚C, Typical values unless specified).
n Single or Dual Supplies
n Low supply voltage
1.8V to 5.0V
n Ultra low supply current
11µA
n Low input bias current
14nA
n Low input offset current
200pA
n Low input offset voltage
+/−0.3mV
n Response time
670ns (20mV overdrive)
n Input common mode voltage
0.1V beyond rails
Typical Circuit
Connection Diagram
Applications
n
n
n
n
Mobile communications
Laptops and PDA’s
Battery powered electronics
General purpose low voltage applications
DS200057-1
Top View
DS200057-2
FIGURE 1. Threshold Detector
© 2001 National Semiconductor Corporation
DS200057
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LMV7251/LMV7255 1.8V Low Voltage Comparator with Rail-to-Rail Input
January 2001
LMV7251/LMV7255
Absolute Maximum Ratings (Note 1)
Wave Soldering (10 sec.)
Storage Temperature Range
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
ESD Tolerance
Supply Voltage V+
+/−Supply Voltage
V+ +0.1V, V− −0.1V
−40˚C to +85˚C
Package Thermal Resisance (Note 3)
Soldering Information
Infrared or Convection (20
sec.)
1.8V to 5.0V
Junction Temperature Range (Note
3)
5.5V
Voltage at Input/Output pins
+150˚C
Operating Ratings (Note 1)
1KV (Note 2)
Supply Voltage (V+ - V−)
−65˚C to +150˚C
Junction Temperature (Note 4)
200V (Note 6)
VIN Differential
260˚C
SOT23-5
325˚C/W
SC-70
265˚C/W
235˚C
1.8V Electrical Characteristics
Unless otherwise specified, all limits guaranteed for TJ = 25˚C, V+ = 1.8V, V− = 0V. Boldface limits apply at the temperature
extremes.
Symbol
Parameter
VOS
Input Offset Voltage
TC VOS
Input Offset Average Drift
Condition
VCM = 0.9V (Note 7)
Typ
(Note 4)
Limits
(Note 5)
Units
0.3
6
8
mV
max
10
uV/C
nA
IB
Input Bias Current
14
IOS
Input Offset Current
200
IS
Supply Current
11
15
17
ISC
Output Short Circuit Current
8
4
Sinking, VO = 0.9V
11.6
5
Sourcing, VO = 0.9V
(LMV7251 only)
pA
µA
max
mA
min
ILEAKAGE
Output Leakage Current
VO = 1.8V
(LMV7255 only)
300
VOH
Output Voltage High
IO = 1.5mA
(LMV7251 only)
1.72
1.675
V
min
VOL
Output Voltage Low
IO = −1.5mA
65
125
mV
max
VCM
Input Common Voltage Range
CMRR > 45 dB
1.9
V
max
−0.1
V
min
pA
CMRR
Common Mode Rejection Ratio
0 < VCM < 1.8V
72
47
dB
min
PSRR
Power Supply Rejection Ratio
V+ = 1.8V to 5V
79
55
dB
min
1.8V AC Electrical Characteristics
Unless otherwise specified, all limits guaranteed for TJ = 25˚C, V+ = 1.8V, V− = 0V, VCM = 0.5V, VO = V+/2. Boldface limits
apply at the temperature extremes.
Symbol
tPHL
Parameter
Propagation Delay
(High to Low)
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Condition
Typ
(Note 5)
Limits
(Note 6)
Units
Input Overdrive = 20mV
Load = 50pF//5kΩ
720
ns
Input Overdrive = 50mV
Load = 50pF//5kΩ
380
ns
2
(Continued)
Unless otherwise specified, all limits guaranteed for TJ = 25˚C, V+ = 1.8V, V− = 0V, VCM = 0.5V, VO = V+/2. Boldface limits
apply at the temperature extremes.
Symbol
tPLH
Parameter
Propagation Delay
(Low to High)
Condition
Typ
(Note 5)
Limits
(Note 6)
Units
Input Overdrive = 20mV
Load = 50pF//5kΩ
670
ns
Input Overdrive = 50mV
Load = 50pF//5kΩ
400
ns
2.7V Electrical Characteristics
Unless otherwise specified, all limits guaranteed for TJ = 25˚C, V+ = 2.7V, V− = 0V. Boldface limits apply at the temperature
extremes.
Symbol
Parameter
VOS
Input Offset Voltage
TC VOS
Input Offset Average Drift
Conditions
VCM = 1.35V (Note 7)
Typ
(Note 5)
Limits
(Note 6)
Units
0.03
6
8
mV
max
10
µV/C
nA
IB
Input Bias Current
15
IOS
Input offset Current
210
IS
Supply Current
11
18
22
ISC
Output Short Circuit Current
Sourcing, VO = 1.35V
(LMV7251 only)
28
15
Sinking, VO = 1.35V
28
15
pA
µA
max
mA
ILEAKAGE
Output Leakage Current
VO = 2.7V,
(LMV7255 only)
320
VOH
Output Voltage High
IO = 2mA
(LMV7251 only)
2.63
2.575
V
min
VOL
Output Voltage Low
IO = −2mA
61
125
mV
max
VCM
Input Common Voltage Range
CMRR > 45dB
2.8
V
max
−0.1
V
min
pA
CMRR
Common Mode Rejection Ratio
0 < VCM < 2.7V
75
46
dB
min
PSRR
Power Supply Rejection Ratio
V+ = 1.8V to 5V
79
55
dB
min
2.7V AC Electrical Characteristics
Unless otherwise specified, all limits guaranteed for TJ = 25˚C, V+ = 2.7V, V− = 0V.Boldface limits apply at the temperature
extremes.
Symbol
tPHL
tPLH
Parameter
Propagation Delay
(High to Low)
Propagation Delay
(Low to High)
Condition
Typ
(Note 5)
Limits
(Note 6)
Units
Input Overdrive = 20mV
Load = 50pF//5kΩ
830
ns
Input Overdrive = 50mV
Load = 50pF//5kΩ
430
ns
Input Overdrive = 20mV
Load = 50pF//5kΩ
730
ns
Input Overdrive = 50mV
Load = 50pF//5kΩ
410
ns
3
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LMV7251/LMV7255
1.8V AC Electrical Characteristics
LMV7251/LMV7255
5V Electrical Characteristics
Unless otherwise specified, all limits guaranteed for TJ = 25˚C, V+ = 5V, V− = 0V. Boldface limits apply at the temperature extremes.
Symbol
Parameter
Conditions
Typ
(Note 5)
Limits
(Note 6)
Units
0.03
6
8
mV
max
VOS
Input Offset Voltage
TC VOS
Input Offset Average Drift
10
µV/C
IB
Input Bias Current
16
nA
IOS
Input Offset Current
220
pA
IS
Supply Current
12
20
25
ISC
Output Short Circuit Current
Sourcing, VO = 2.5V
(LMV7251 only)
82
50
Sinking, VO = 2.5V
78
50
ILEAKAGE
Output Leakage Current
VO = 5V,
(LMV7255 only)
375
VOH
Output Voltage High
IO = 4mA
4.9
4.82
V
min
VOL
Output Voltage Low
IO = −4mA
90
180
mV
max
VCM = 2.5V (Note 7)
µA
max
mA
min
pA
Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is
intended to be functional, but specific performance is not guaranteed. For guaranteed specifications and the test conditions, see the Electrical Characteristics.
Note 2: Human body model, 1.5kΩ in series with 100pF.
Note 3: The maximum power dissipation is a function of TJ(max), θJA, and TA. The maximum allowable power dissipation at any ambient temperature is
PD = (TJ(max) - TA)/θJA. All numbers apply for packages soldered directly into a PC board.
Note 4: Typical values represent the most likely parametric norm.
Note 5: All limits are guaranteed by testing or statistical analysis.
Note 6: Machine Model, 0Ω in series with 200pF.
Note 7: Offset Voltage average drift determined by dividing the change in VOS at temperature extremes into the total temperature change.
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4
(TA = 25˚C, Unless otherwise specified).
Short Circuit Current vs. Supply Voltage
Supply Current vs. Supply Voltage
DS200057-4
DS200057-3
Output Voltage vs. Supply Voltage
LMV7251/LMV7255
Typical Performance Characteristics
Output Voltage vs. Supply Voltage
DS200057-5
Output Voltage vs. Output Current @1.8V Supply
Voltage
DS200057-6
Output Voltage vs. Output Current @1.8V Supply
Voltage
DS200057-7
DS200057-8
5
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LMV7251/LMV7255
Typical Performance Characteristics
Output Voltage vs. Output Current @2.7V Supply
Voltage
(TA = 25˚C, Unless otherwise specified). (Continued)
Output Voltage vs. Output Current @2.7V Supply
Voltage
DS200057-9
DS200057-10
Response Time for Various Input Overdrives - tPLH
Response Time for Various Input Overdrives - tPHL
DS200057-11
Response Time for Various Input Overdrives - tPLH
DS200057-12
Response Time for Various Input Overdrives - tPHL
DS200057-13
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DS200057-14
6
Basic Comparators
A comparator is quite often used to convert an analog signal
to a digital signal. The comparator compares an input voltage (VIN) at the non-inverting pin to the reference voltage
(VREF) at the inverting pin. If VIN is less than VREF the output
(VO) is low (VOL). However, if VIN is greater than VREF, the
output voltage (VO) is high (VOH).
Hysteresis can easily be added to a comparator in a
non-inverting configuration with two resistors and positive
feedback Figure 3. The output will switch from low to high
when VIN rises up to VIN1, where VIN1 is calculated by
VIN1 = (VREF (R1 + R2))/ R2
The output will switch from high to low when VIN falls to VIN2,
where VIN2 is calculated by
VIN2 = (VREF (R1 + R2) - VCC R1) / R2
LMV7251
The Hysteresis is the difference between VIN1 and VIN2.
∆VIN = VIN1- VIN2 = ((VREF (R1 + R2)) / R2) - ((VREF (R1 +
R2) - VCC R1) / R2) = VCC R1/ R2.
DS200057-15
LMV7255
DS200057-18
DS200057-16
Input/Output
DS200057-19
FIGURE 3. Non-Inverting Comparator Configuration —
LMV7251
For an inverting configured comparator, hysteresis can be
added with a three resistor network and positive feedback.
When input voltage (VIN) at the inverting node is less than
non-inverting node (VT), the output is high. The equivalent
circuit for the three resistor network is R1 in parallel with R3
and in series with R2. The lower threshold voltage VT1 is
calculated by:
VT1 = ((VCC R2) / ((R1 R3) / (R1+ R3)) + R2)
DS200057-17
FIGURE 2. Basic Comparator
Hysteresis
The basic comparator configuration may oscillate or produce
a noisy output if the applied differential input is near the
comparator’s input offset voltage. This tends to occur when
the voltage on the input is equal or very close to the other
input voltage. Adding hysteresis can prevent this problem.
Hysteresis creates two switching thresholds (one for the
rising input voltage and the other for the falling input voltage). Hysteresis is the voltage difference between the two
switching thresholds. When both inputs are nearly equal,
When VIN is greater than VT, the output voltage is low. The
equivalent circuit for the three resistor network is R2 in
parallel with R3 and in series with R1. The upper threshold
voltage VT2 is calculated by:
VT2 = VCC ((R2 R3) / (R2 + R3)) / ((R1 + ((R2 R3) / (R2 +
R3))
The hysteresis is defined as
∆VIN = VT1 - VT2 = ((VCC R2) / ((R1 R3) / (R1+ R3)) + R2) –
(VCC ((R2 R3) / (R2 + R3)) / ((R1 + ((R2 R3) / (R2 + R3)))
7
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LMV7251/LMV7255
hysteresis causes one input to effectively move quickly pass
the other. Thus, effectively moving the input out of region that
oscillation may occur.
Application Info
LMV7251/LMV7255
Application Info
Power supply decoupling is critical and improves stability.
Place decoupling capacitors 0.1µF as close as possible to
the V+ pin. For split supply applications, place decoupling
capacitors 0.1µF on both the V+ and V− pins. The decoupling
capacitors will help keep the comparator from oscillating
under various load conditions.
(Continued)
DS200057-20
DS200057-21
FIGURE 4. Inverting Configured Comparator —
LMV7255
Input Stage
The LMV7251 and LMV7255 have rail-to-rail input stages.
The input common mode voltage range is from −100mV to
(VCC + 100mV).
Output Stage
The LMV7251 has a push-pull CMOS output stage. Large
push-pull output drivers allows rail-to-rail output swings with
load currents in the miliampere range.
The LMV7255 has a open drain CMOS output stage. This
requires an external pull-up resistor connected between the
positive supply voltage and the output. The external pull-up
resistor should be high enough resistance so to avoid excessive power dissipation. In addition, the pull-up resistor
should be low enough resistance to enable the comparator
to switch with the load circuitry connected.
Power Supply Considerations
The LMV7251/LMV7255 are well suited for many batterypowered applications. The LMV7251/LMV7255 can operate
from single power supply of +1.8V to +5V. The device typically consumes only 11µA with a 2.7V supply. With a high
power supply rejection ratio (PSRR) of 79 dB (typical), the
comparator is well suited for operating under conditions of a
decaying battery voltage.
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8
Package
Ordering Info
Pkg Marking
Supplied As
NSC Drawing
5-Pin SOT23-5
LMV7251M5
C16A
1k Units Tape and Reel
MF05A
LMV7251M5X
C16A
3k units Tape and Reel
LMV7255M5
C18A
1k Units Tape and Reel
LMV7255M5X
C18A
3k units Tape and Reel
LMV7251M7
C17
1k Units Tape and Reel
LMV7251M7X
C17
3k units Tape and Reel
LMV7255M7
C19
1k Units Tape and Reel
LMV7255M7X
C19
3k units Tape and Reel
5-Pin SC-70
9
MAA05A
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LMV7251/LMV7255
Ordering Information
LMV7251/LMV7255
Physical Dimensions
inches (millimeters) unless otherwise noted
5-Pin SC70-5
NS Package Number MAA05A
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10
LMV7251/LMV7255 1.8V Low Voltage Comparator with Rail-to-Rail Input
Physical Dimensions
inches (millimeters) unless otherwise noted
5-Pin SOT23-5
NS Package Number MF05A
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