Principle of operation – Monroe Electronics Electrostatic Fieldmeter - Static Monitor - model 177A User Manual

10

Section 5

PRINCIPLE OF OPERATION

Refer to Figure 9 for the following discussion.

The probe is placed to “view” the target surface, which is assumed to be charged. In this instance,
the gradient cap containing the aperture faces the target surface.

A sensitive electrode behind the aperture is vibrated perpendicular to the electric field by means of a
drive coil (vibrated toward and away from the target surface). An A.C. signal is induced onto the
sensitive electrode due to the motion of the vibrating electrode in the electric field, which is created
by the charges on the target surface. The modulation amplitude of the A.C. signal, relative to the
drive coil signal, is related to the polarity of the charge on the target surface.

This A.C. signal, conditioned by a preamplifier, filter, and signal amplifier, is fed into a phase-
sensitive demodulator. This signal from this demodulator feeds an integrating amplifier. A fraction of
the integrator’s output signal is fed back to the sensing electrode to null the signal from the external
electric field.

The voltage signal from the integrator is thus directly proportional to the field intensity at the sensing
electrode of the probe. The output signal from the integrator drives a meter for direct readout.

Figure 9

V

Integrator

Phase

sensitive

detector

Reference

oscillator

Signal

amplifier

Meter

(output)

Cable

High input

impedance

preamplifier

Sensitive electrode

Sensitive aperture

PROBE

MAIN METER ASSEMBLY

SIMPLIFIED FUNCTIONAL BLOCK DIAGRAM

Electrostatic Fieldmeter

Chassis

ground

Earth

ground

Driving

coil

Feedback

Probe housing

Surface-under-test