Datasheet
LPV7215
SNOSAI6I –SEPTEMBER 2005–REVISED APRIL 2013
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APPLICATION INFORMATION
Low supply current and fast propagation delay distinguish the LPV7215Q from other low power comparators.
INPUT STAGE
The LPV7215Q has rail-to-rail input common mode voltage range. It can operate at any differential input voltage
within this limit as long as the differential voltage is greater than zero. A differential input of zero volts may result
in oscillation.
The differential input stage of the comparator is a pair of PMOS and NMOS transistors, therefore, no current
flows into the device. The input bias current measured is the leakage current in the MOS transistors and input
protection diodes. This low bias current allows the comparator to interface with a variety of circuitry and devices
with minimal concern about matching the input resistances.
The input to the comparator is protected from excessive voltage by internal ESD diodes connected to both supply
rails. This protects the circuit from both ESD events, as well as signals that significantly exceed the supply
voltages. When this occurs the ESD protection diodes will become forward biased and will draw current into
these structures, resulting in no input current to the terminals of the comparator. Until this occurs, there is
essentially no input current to the diodes. As a result, placing a large resistor in series with an input that may be
exposed to large voltages, will limit the input current but have no other noticeable effect.
OUTPUT STAGE
The LPV7215Q has a MOS push-pull rail-to-rail output stage. The push-pull transistor configuration of the output
keeps the total system power consumption to a minimum. The only current consumed by the LPV7215Q is the
less than 1 µA supply current and the current going directly into the load. No power is wasted through the pull-up
resistor when the output is low. The output stage is specifically designed with deadtime between the time when
one transistor is turned off and the other is turned on (break-before-make) in order to minimize shoot through
currents. The internal logic controls the break-before-make timing of the output transistors. The break-before-
make delay varies with temperature and power condition.
OUTPUT CURRENT
Even though the LPV7215Q uses less than 1 µA supply current, the outputs are able to drive very large currents.
The LPV7215Q can source up to 17 mA and can sink up to 19 mA, when operated at 5V supply. This large
current handling capability allows driving heavy loads directly.
RESPONSE TIME
Depending upon the amount of overdrive, the propagation delay will be typically 6 to 30 µs. The curves showing
propagation delay vs. overdrive in the TYPICAL PERFORMANCE CHARACTERISTICS section shows the delay
time when the input is preset with 100 mV across the inputs and then is driven the other way by 10 mV to 500
mV.
The output signal can show a step during switching depending on the load. A fast RC time constant due to both
small capacitive and resistive loads will show a significant step in the output signal. A slow RC time constant due
to either a large resistive or capacitive load will have a clipped corner on the output signal. The step is observed
more prominently during a falling transition from high to low.
The plot in Figure 32 shows the output for single 5V supply with a 100 kΩ resistor. The step is at 1.3V.
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