PA69 데이터 시트보기 (PDF) - Apex Microtechnology
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PA69 Datasheet PDF : 9 Pages
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PA69
Product Innova tionFrom
GENERAL
Please read Application note 1 “General operating considerations” which covers stability, power supplies, heat
sinking, mounting, current limit, SOA interpretation, and specification interpretation. Visit www.cirrus.com for design
tools that help automate tasks such as calculations for stability, internal power dissipation, and current limit. There
you will also find a complete application notes library, technical seminar workbook, and evaluation kits.
Theory of Operation
The PA69 is designed specifically as a high speed pulse amplifier. In order to achieve high slew rates with low idle
current, the internal design is quite different from traditional voltage feedback amplifiers. Basic op amp behaviors
like high input impedance and high open loop gain still apply. But there are some notable differences, such as signal
dependent supply current, bandwidth and output impedance, among others. The impact of these differences varies
depending on application performance requirements and circumstances. These different behaviors are ideal for
some applications but can make designs more challenging in other circumstances.
Supply Current and Bypass Capacitance
A traditional voltage feedback amplifier relies on fixed current sources in each stage to drive the parasitic capaci-
tances of the next stage. These currents combine to define the idle or quiescent current of the amplifier. By design,
these fixed currents are often the limiting parameter for slew rate and bandwidth of the amplifier. Amplifiers which
are high voltage and have fast slew rates typically have high idle currents and dissipate notable power with no sig-
nal applied to the load. At the heart of the PA69 design is a signal dependent current source which strikes a new
balance between supply current and dynamic performance. With small input signals, the supply current of the PA69
is very low, idling at less than 1 mA. With large transient input signals, the supply currents increase dramatically to
allow the amplifier stages to respond quickly. The Pulse Response plot in the typical performance section of this
datasheet describes the dynamic nature of the supply current with various input transients.
Choosing proper bypass capacitance requires careful consideration of the dynamic supply currents. High frequency
ceramic capacitors of 0.1µF or more should be placed as close as possible to the amplifier supply pins. The in-
ductance of the routing from the supply pins to these ceramic capacitors will limit the supply of peak current during
transients, thus reducing the slew rate of the PA69. The high frequency capacitance should be supplemented by
additional bypass capacitance not more than a few centimeters from the amplifier. This additional bypass can be
a slower capacitor technology, such as electrolytic, and is necessary to keep the supplies stable during sustained
output currents. Generally, a few microfarad is sufficient.
Small Signal Performance
The small signal performance plots in the typical performance section of this datasheet describe the behavior when
the dynamic current sources described previously are near the idle state. The selection of compensation capacitor
directly affects the open loop gain and phase performance.
Depending on the configuration of the amplifier, these plots show that the phase margin can diminish to very low
levels when left uncompensated. This is due to the amount of bias current in the input stage when the part is in
standby. An increase in the idle current in the output stage of the amplifier will improve phase margin for small
signals although will increase the overall supply current.
Current can be injected into the output stage by adding a resistor, Rbias, between CC- and VS+. The size of Rbias
will depend upon the application but 500µA of added bias current shows significant improvement in the small signal
phase plots. Adding this resistor has little to no impact on small signal gain or large signal performance as under
these conditions the current in the input stage is elevated over its idle value. It should also be noted that connecting
a resistor to the upper supply only injects a fixed current and if the upper supply is fixed and well bypassed. If the
application includes variable or adjustable supplies, a current source diode could also be used. These two terminal
components combine a JFET and resistor connected within the package to behave like a current source.
As a second stability measure, the PA69 is externally compensated and performance can be optimized to the ap-
plication. Unlike the Rbias technique, external phase compensation maintains the low idle current but does affect
the large signal response of the amplifier. Refer to the small and large signal response plots as a guide in making
the tradeoffs between bandwidth and stability. Due to the unique design of the PA69, two symmetric compensation
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PA69U
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