MSK155(2014) 查看數據表(PDF) - M.S. Kennedy
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MSK155 Datasheet PDF : 6 Pages
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APPLICATION NOTES
CURRENT LIMIT (SEE TYPICAL CONNECTION DIAGRAM)
A value of current limit resistance can be calculated as fol-
lows:
RCL=(0.809V/ICL) - 0.057Ω
Where:
RCL is the current limit resistor value.
ICL is the current limit desired.
0.057Ω is the drop in the current limit path across internal
impedances other than the actual current limit resistor.
0.809Ω volts is the voltage drop that must be developed
across the current limit connections to activate the current
limit circuit at 25°C.
SAFE OPERATING AREA (SOA)
The output stage of this power operational amplifier has three
distinct limitations:
1. The current handling capability of the die metallization.
2. The junction temperature of the output device's.
3. Secondary breakdown.
All applications should be checked against the SOA curves.
NOTE: The output stage is protected against transient flyback.
However, for protection against sustained, high energy flyback,
external fast-recovery reverse biased diodes should be connected
from the output to ground.
It is recommended the user limit output current to a value as
close to the required output current as possible, without clip-
ping output voltage swing. Current limit will vary with case tem-
perature. Refer to the typical performance curves to predict cur-
rent limit drift. If current limit is not required replace the resistor
STABILITY
It is recommended that the parallel sum of the input and feed-
back resistor be 1000 ohms or less to minimize phase shift
caused by the R-C network formed by the input resistor, feed-
back resistor and input capacitance. An effective method of check-
ing amplifier stability is to apply the worst case capacitive load
to the output of the amplifier and drive a small signal square
wave across it. If overshoot is less than 25%, the system will
typically be stable.
INPUT PROTECTION
Input protection circuitry within the MSK155 will clip differ-
ential input voltages greater than VCC. The inputs are also pro-
tected against common mode voltages up to the supply rails as
well as static discharge. There are current limiting resistors in
series with each input. These resistors may become damaged in
the event the input overload is capable of driving currents above
1mA. If severe overload conditions are expected, external input
current limiting resistors are recommended.
POWER SUPPLY DECOUPLING
A 0.1 microfarad ceramic disc and low ESR capacitor with a
value of 10 microfarads per amp of output current should be
placed in parallel from each power supply pin to ground. These
capacitors must be rated for the full power supply voltage. Since
the MSK155 is commonly used in circuits where the loop gain
is greater than 10 V/V, high frequency noise that enters the op-
amp through the power supply lines will be amplified and could
cause the amplifier to break into oscillation. In addition, without
supply bypassing, the inductance of the power supply lines
interacts with capacitive loads to form an oscillatory LC tank
circuit. The power supply decoupling capacitors will minimize
this effect and keep the circuit stable.
3
TYPICAL CONNECTION DIAGRAM
8548-126 Rev. E 6/14
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