MAX954 データシートの表示(PDF) - Maxim Integrated
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MAX954 Datasheet PDF : 13 Pages
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MAX951–MAX954
Ultra-Low-Power, Single-Supply
Op Amp + Comparator + Reference
R1
VIN
R2
COMPOUT
RA
VS
R2
COMPOUT
REF
RB
REF
Figure 2. External Hysteresis
glitches that commonly occur when changing logic states,
minimizing parasitic feedback and making them easier to
use. In addition, they include internal hysteresis (±3mV)
to ensure clean output switching, even with slow-moving
input signals. The inputs can be taken above and below
the supply rails up to 300mV without damage. Input
voltages beyond this range can forward bias the ESD-
protection diodes and should be avoided.
The MAX951–MAX954 comparator outputs swing rail-to-
rail (from VDD to VSS). TTL compatibility is assured by
using a 5V ±10% supply.
The MAX951–MAX954 comparators continuously output
source currents as high as 40mA and sink currents of
over 5mA, while keeping quiescent currents in the micro-
ampere range. The output can source 100mA (at VDD =
5V) for short pulses, as long as the package’s maximum
power dissipation is not exceeded. The output stage does
not generate crowbar switching currents during transi-
tions; this minimizes feedback through the supplies and
helps ensure stability without bypassing.
Reference
The internal reference in the MAX951/MAX952 has an
output of 1.20V with respect to VSS. Its accuracy is ±2%
in the -40°C to +85°C temperature range. It is comprised
of a trimmed bandgap reference fed by a proportional-to-
absolute-temperature (PTAT) current source and buffered
by a micropower unity-gain amplifier. The REF output is
typically capable of sourcing and sinking 20μA. Do not
bypass the reference output. The reference is stable for
capacitive loads less than 100pF.
Applications Information
The micropower MAX951–MAX954 are designed to
extend battery life in portable instruments and add func-
tionality in power-limited industrial controls. Following are
some practical considerations for circuit design and layout.
Comparator Hysteresis
Hysteresis increases the comparator’s noise immunity by
increasing the upper threshold and decreasing the lower
threshold. The comparator in these devices contain a
±3mV wide internal hysteresis band to ensure clean out-
put switching, even with slow-moving signals.
When necessary, hysteresis can be increased by using
external resistors to add positive feedback, as shown in
Figure 2. This circuit increases hysteresis at the expense
of more supply current and a slower response. The
design procedure is as follows:
1) Set R2. The leakage current in COMPIN+ is less than
5nA (up to +85°C), so current through R2 can be as
little as 500nA and still maintain good accuracy. If R2
= 2.4MΩ, the current through R2 at the upper trip point
is VREF/R2 or 500nA.
2) Choose the width of the hysteresis band. In this exam-
ple choose VEHYST = 50mV
R1
=
R2V(EVHDYDST+
− 2VIHYST
2VIHYST )
where the internal hysteresis is VIHYST = 3mV.
3) Determine R1. If the supply voltage is 5V, then R1 =
24kΩ.
4) Check the hysteresis trip points. The upper trip point is
VIN(H)
=
(R1 + R2)
R2
(VREF
+
VIHYST )
or 1.22V in our example. The lower trip point is 50mV
less, or 1.17V in our example.
If a resistor divider is used for R1, the calculations
should be modified using a Thevenin equivalent
model.
5) Determine RA:
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