Crystal health calculation, Crystal health calculation -3 – INFICON MDC-360 Thin Film Deposition Controller User Manual

MDC-360 DEPOSITION CONTROLLER

10-3

THEORY OF OPERATION

in the material. Note that if the acoustic impedance ratio is equal to one, quartz

a number of simplifying assumptions,

predict the film thickness of most commonly deposited

The basic measurement is period, which can be thought of as a measurement of

or

ted film mass from the total corrected film mass.

e

.

als the crystal health may never get below 90%.

In o

l should be changed, several trial

runs should be made to determine the point at which the crystal fails and

d well in advance of this point.

on quartz, equation 3 reduces to equation 2.

Although the above equation still involves
its ability to accurately
materials has been demonstrated.

The use of microprocessors allows an equation as complex as equation 3 to be
solved economically and the above equation is implemented in the MDC-360.

equivalent quartz mass.

The actual film mass on the crystal is then found by applying the acoustic
impedance correction factor.

At the beginning of the deposit, or when the thickness indication is zeroed, the
initial equivalent quartz mass and the initial corrected film mass are stored. F
each subsequent measurement the new corrected total film mass is calculated, and
the film mass deposited since the start of deposit is determined by subtracting the
initial correc

The film thickness on the crystal is calculated by dividing by the film mass by th
film density.

The film thickness on the substrates is then calculated by multiplying the film
thickness on the crystal by a tooling factor.

If the acoustic impedance parameter is changed following a deposition both the
total and the initial film masses are recalculated. This allows the effect of the
changed parameter value to be immediately displayed and provides a relatively
straightforward method of empirically determining the acoustic impedance if it is
not available. See section: 10.6.3.

10.3 CRYSTAL

HEALTH

CALCULATION

Crystal Health decreases from a value of 100% for an uncoated crystal blank to 0
at a total deposited aerial mass of 25 mg/cm

2

. This value corresponds to a crystal

frequency shift of approximately 1.5 MHz, or an aluminum thickness of 925 KÅ

Very few materials can be deposited to this thickness without producing a crystal
failure, so that a crystal health of zero will not normally be achieved and indeed
for some materi

rder to establish the point at which the crysta

subsequent crystals should then be replace

Because the crystal health is determined from the calculated film mass, the
Acoustic Impedance parameter will effect the displayed crystal health.