LT1011/LT1011A
U
W U U
APPLICATIONS INFORMATION
8
7
6
5
C8 TO C6 = 0.003µF
of the comparator, but require a minimum input signal
slew rate to be effective. DC hysteresis works for all
input slew rates, but creates a shift in offset voltage
dependent on the previous condition of the input sig-
nal. The circuit shown in Figure 1 is an excellent
compromise between AC and DC hysteresis.
4
3
2
1
OUTPUT “LO” TO “HI”
15V
0
OUTPUT “HI” TO “LO”
(5kHz)
+
–1
–2
2µF
(50kHz)
10
C1
R
TANT
L
R2
15M
0.003µF
8
1
100
1000
–
+
3
2
6
TIME/FREQUENCY (µs)
5
7
1011 F02
OUTPUT
INPUTS
LT1011
1
Figure 2. Input Offset Voltage vs Time to Last Transition
4
–15V
0.1µF
error is created by the AC hysteresis. The high
frequency error can be reduced by reducing CH, but
lower values may not provide clean switching with
very low slew rate input signals.
1011 F01
Figure 1. Comparator with Hysteresis
This circuit is especially useful for general purpose
comparator applications because it does not force any
signals directly back onto the input signal source.
Instead, it takes advantage of the unique properties of
the BALANCE pins to provide extremely fast, clean
output switching even with low frequency input sig-
nals in the millivolt range. The 0.003µF capacitor from
Pin 6 to Pin 8 generates AC hysteresis because the
voltage on the BALANCE pins shifts slightly, depend-
ing on the state of the output. Both pins move about
4mV. If one pin (6) is bypassed, AC hysteresis is
created. It is only a few millivolts referred to the in-
puts, but is sufficient to switch the output at nearly the
maximum speed of which the comparator is capable.
To prevent problems from low values of input slew
rate, a slight amount of DC hysteresis is also used. The
sensitivity of the BALANCE pins to current is about
0.5mV input referred offset for each microampere of
BALANCE pin current. The 15M resistor tied from
OUTPUT to Pin 5 generates 0.5mV DC hysteresis. The
combination of AC and DC hysteresis creates clean
oscillation-free switching with very small input errors.
Figure 2 plots input referred error versus switching
frequency for the circuit as shown.
Input Protection
The inputs to the LT1011 are particularly suited to general
purpose comparator applications because large differen-
tial and/or common mode voltages can be tolerated with-
out damage to the comparator. Either or both inputs can
be raised 40V above the negative supply, independent of
thepositivesupplyvoltage.Internalforwardbiaseddiodes
will conduct when the inputs are taken below the negative
supply. In this condition, input current must be limited to
1mA. If very large (fault) input voltages must be accom-
modated, series resistors and clamp diodes should be
used (see Figure 3).
+
V
R3*
D1
D3
D2
R1**
R2**
300Ω
3
2
8
LT1011
4
–
+
R4*
300Ω
INPUTS
D4
D1 TO D4: 1N4148
*MAY BE ELIMINATED FOR I
**SELECT ACCORDING TO ALLOWABLE
FAULT CURRENT AND POWER DISSIPATION
–
V
≤ 1mA
FAULT
1011 F03
Note that at low frequencies, the error is simply the DC
hysteresis, while at high frequencies, an additional
Figure 3. Limiting Fault Input Currents
7
Linear [ Linear ]
