Unregulated state, Unwanted signals, Unregulated state 145 – Agilent Technologies E3632A User Manual

Chapter 7 Tutorial

Output Characteristics

145

7

Unregulated State

If the power supply should go into a mode of operation that is neither CV or

CC, the power supply is

unregulated

. In this mode the output is not predictable.

The unregulated condition may be the result of the ac line voltage below the

specifications. The unregulated condition may occur momentarily. For

example when the output is programmed for a large voltage step; the output

capacitor or a large capacitive load will charge up at the current limit setting.

During the ramp up of the output voltage the power supply will be in the

unregulated mode. During the transition from CV to CC as when the output is

shorted, the unregulated state may occur briefly during the transition.

Unwanted Signals

An ideal power supply has a perfect dc output with no signals across the

terminals or from the terminals to earth ground. The actual power supply has

finite noise across the output terminals, and a finite current will flow through

any impedance connected from either terminal to earth ground. The first is

called

normal mode voltage noise

and the second

common mode

current

noise

.

Normal mode voltage noise is in the form of ripple related to the line frequency

plus some random noise. Both of these are of very low value in the Agilent

E3632A. Careful lead layout and keeping the power supply circuitry away from

power devices and other noise sources will keep these values low.

Common mode noise can be a problem for very sensitive circuitry that is

referenced to earth ground. When a circuit is referenced to earth ground, a low

level line—related ac current will flow from the output terminals to earth

ground. Any impedance to earth ground will create a voltage drop equal to the

current flow multiplied by the impedance. To minimize this effect, the output

terminal can be grounded at the output terminal. Alternately, any impedances

to earth ground should have a complementary impedance to earth ground to

cancel any generated voltages. If the circuit is not referenced to earth ground,

common mode power line noise is typically not a problem.

The output will also change due to changes in the load. As the load increases

the output current will cause a small drop in the output voltage of the power

supply due to the output impedance R. Any resistance in the connecting wire

will add to this resistance and increase the voltage drop. Using the largest

possible hook up wire will minimize the voltage drop. Using the remote sense

leads at the load will compensate for lead resistance in the load leads.