EL5281CS 데이터 시트보기 (PDF) - Intersil
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EL5281CS Datasheet PDF : 9 Pages
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EL5281
These two methods will generate hysteresis of up to a few
hundred millivolts. Beyond that, the impedance of R3 is low
enough to affect the bias string and adjustment of R1 may be
required.
Power Dissipation
When switching at high speeds, the comparator's drive
capability is limited by the rise in junction temperature
caused by the internal power dissipation. For reliable
operation, the junction temperature must be kept below
TJMAX (125°C).
An approximate equation for the device power dissipation is
as follows. Assume the power dissipation in the load is very
small:
PDISS = (VS × IS + VSD × ISD ) × N
where:
VS is the analog supply voltage from VS+ to VS-
IS is the analog quiescent supply current per comparator
VSD is the digital supply voltage from VSD to ground
ISD is the digital supply current per comparator
N is the number of comparators in the package
ISD strongly depends on the input switching frequency.
Please refer to the performance curve to choose the input
driving frequency. Having obtained the power dissipation,
the maximum junction temperature can be determined as
follows:
TJMAX = TMAX + ΘJA × PDISS
changes state. The non-inverting and inverting inputs may
be reversed.
VIN
+
VREF
-
VOUT
Crystal Oscillator
A simple crystal oscillator using one comparator of an
EL5281 is shown below. The resistors R1 and R2 set the
bias point at the comparator's non-inverting input. Resistors
R3, R4, and C1 set the inverting input node at an appropriate
DC average voltage based on the output. The crystal's path
provides resonant positive feedback and stable oscillation
occurs. Although the EL5281 will give the correct logic
output when an input is outside the common mode range,
additional delays may occur when it is so operated.
Therefore, the DC bias voltages at the inputs are set about
500mV below the center of the common mode range and the
200Ω resistor attenuates the feedback to the non-inverting
input. The circuit will operate with most AT-cut crystal from
1MHz to 8MHz over a 2V to 7V supply range. The output
duty cycle for this circuit is roughly 50% at 5V VCC, but it is
affected by the tolerances of the resistors. The duty cycle
can be adjusted by changing VCC value.
5V
R1 5kΩ
R2 1.5kΩ
200Ω
+
-
C1
R4
0.01µF
2kΩ
1MHz to
8MHz
R3
2kΩ
VOUT
where:
TMAX is the maximum ambient temperature
θJA is the thermal resistance of the package
Threshold Detector
The inverting input is connected to a reference voltage and
the non-inverting input is connected to the input. As the input
passes the VREF threshold, the comparator's output
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