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AHVOA1500V100MAHS中文資料ANALOGTECHNOLOGIES數據手冊PDF規(guī)格書
AHVOA1500V100MAHS規(guī)格書詳情
FEATURES
? Maximum Input Voltage: 1500V
? Output Voltage Swing: 50~1450V
? Gain Bandwidth Product: 50MHz
? Peak Output Current: 180mA
? Max. Average Output Current: 100mA
? Slew Rate: 200V/μs
? Programmable Current Limit
? Over Temperature Protection
? Wide Temperature Range: ?40°C~85°C
? Two Type Packages: with/without heat sink
? Package Heatsink Dissipation Power: 5W
? 100 % Lead (Pb)-free and RoHS Compliant
APPLICATIONS
? Semiconductor Test
? High Voltage Instrumentation
? Mass Spectrometer
? Optical Module
DESCRIPTION
The high voltage operational amplifier provides up to 1500V
input voltage and 100mA load current without any additional
circuit. The input port has over voltage protection and the
output port has short-circuit protection. When the product gets
overheated, the temperature sensing circuit will shut down by
itself to prevent the amplifier from being damaged by the
excessive heat.
The high voltage operational amplifier has a low noise, high
precision and wide output swing, there is no reverse phase
problem encountered in the same kind of products. The output
can be stopped by the on/off (E/D) pin, which is in the loop
pin and can be connected with the low voltage logic circuit,
thus realizing non-interference input signal. It not only saves
power, but also protects the load.
External compensation provides flexibility in choosing
bandwidth and slew rate for the application. The power supply
is independent and takes up very little space, so a high density
board can be used.
With an appropriate current limiting resistor, the internal
power consumption can be selected under any load. The
product is suitable for a wide range of power supply voltage
and achieves good power supply voltage control. The output
stage can be biased into a linear operational amplifier.
A class H amplifier circuit includes a Buck converter and a
charge pump, and the latter is used to generate voltages for
powering an output driver in turn. A feedback path controls
the loop. The circuit is particularly suitable as a high
efficiency circuit for driving headphones or loudspeakers.
The pin names and locations are shown in Figure 2. The pin
function description is shown in Table 1.