Chapter 3 menus – SIGMA SQC-122c User Manual
Page 39
Chapter 3
Menus
3-6
Quick Setup parameters are described below:
Initial Rate: The beginning rate of deposition for this layer.
Final Thickness: The desired final thickness of this layer. The deposition phase of this
layer will end when this thickness is reached.
P Term: Sets the gain of the control loop. High gains yield more responsive (but
potentially unstable) loops. Try a value of 50, then gradually increase/decrease the
value to respond to step changes in rate setpoint.
I Term: The integral term controls the time constant of the loop response. A small I
term, say .5 to 1 seconds, will smooth the response of most loops.
D Term: The differential term causes the loop to respond quickly to changes. Use 0 or
a very small value to avoid oscillations.
Sensor 1: Allows quartz crystal Sensor 1 to be turned on or off for the selected layer. If
more than one sensor is assigned to a layer, their readings are averaged. If multiple
sensors are assigned to a layer, and one fails, it is excluded from measurements.
Sensor 2-6: Allows quartz crystal Sensor 2 to be turned on or off. If the four sensor
option card is installed, Sensor 3 to 6 are also visible.
Output: Selects the control voltage output that is active for the selected layer.
Max Power: The maximum output power allowed for the selected output. The Scale
output voltage is a function of the deposition power supply input specifications, and is
set in the System Parameters menu. Max Power controls the maximum power that can
be used by this process layer.
Slew Rate: The maximum power change allowed on an output, per second. If power or
rate ramps exceed this value, an error will occur.
Material: Selects a material assigned to this film. As materials change, their density
and Z-Factor are updated.
Density: Sets the density for this material. Material density has a significant impact on
deposition calculations.
Z-Factor: Sets the Z-factor, an empirically determined measure of a material’s effect on
quartz crystal frequency change. Z-Factor is the ratio of the acoustic impedance of the
sensor to that of the deposited material. It is used to match the acoustic (oscillation)
properties of the material to the quartz sensor. If you know the “acoustic impedance” of
your material, divide it by 8.83 (the acoustic impedance of SiO
2
) to obtain the material’s
Z-Factor.