Chapter 7 Tutorial
Overview of Agilent E3633A and Agilent E3634A Operation
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Overview of Agilent E3633A and Agilent E3634A Operation
The basic design technique, which has not changed over the years, consists of placing
a control element in series with the rectifier and load device. Figure
7-1 shows a simplified schematic of a series regulated supply with the
phase-controlled pre-regulator described as a power switch and the series element
depicted as a variable resistor. The phase-controlled pre-regulator minimizes the
power dissipated at the series element by maintaining the voltage drop across the
series element at a low and constant. Feedback control circuits continuously monitor
the output and adjust the series resistance to maintain a constant output voltage.
Because the variable resistance of Figure 7-1 is actually one or more power transistor
operating in the linear (class A) mode, supplies with this type of regulator are often
called linear power supplies. Linear power supplies have many advantages and usually
provide the simplest most effective means of satisfying high performance and low
power requirements.
Figure 7-1. Diagram of Simple Series Power Supply
This power supply has two ranges, allowing more voltage at a lower current. To
maintain the voltage across the pre-regulator efficient in accordance with the demands
imposed by the dc output voltage and current of the supply, this power supply also
uses the pre-regulator which is controlled by transformer tap switching before the
rectifier bridge in the Figure 7-1. This is one of several techniques using
semiconductors for preregulation to reduce the power dissipated across the series
element.
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