Abstract: The disclosure provides multimode configurable spectrometers, a method of operating a multimode configurable spectrometer, and an optical monitoring system. In one embodiment the multimode configurable spectrometer includes: (1) an optical sensor configured to receive an optical input and convert the optical input to electrical signals, wherein the optical sensor includes multiple active pixel regions for converting the optical input to the electrical signals, (2) conversion circuitry, having multiple selectable converting circuits, that is configured to receive and convert the electrical signals to a digital output according to a selected one of the selectable converting circuits, and (3) a sensor controller configured to set a synchronized operating mode to direct operation of the optical sensor and select, based on the synchronized operating mode, at least one of the selectable converting circuits to provide the digital output.

Abstract: The disclosure provides multimode configurable spectrometers, a method of operating a multimode configurable spectrometer, and an optical monitoring system. In one embodiment the multimode configurable spectrometer includes: (1) an optical sensor configured to receive an optical input and convert the optical input to electrical signals, wherein the optical sensor includes multiple active pixel regions for converting the optical input to the electrical signals, and (2) conversion circuitry, having multiple selectable converting circuits, that is configured to receive and convert the electrical signals to a digital output according to a selected one of the selectable converting circuits.

Abstract: The disclosure provides an optical calibration device for in-chamber calibration of optical signals associated with a processing chamber, a characterization system for plasma processing chambers, methods of characterizing plasma processing chambers, and a chamber characterizer. In one example, the optical calibration device includes: (1) an enclosure, (2) an optical source located within the enclosure and configured to provide a source light having a continuous spectrum, and (3) optical shaping elements located within the enclosure and configured to form the source light into a calibrating light that approximates a plasma emission during an operation within the processing chamber.

Abstract: The disclosure provides multimode configurable spectrometers, a method of operating a multimode configurable spectrometer, and an optical monitoring system. In one embodiment the multimode configurable spectrometer includes: (1) an optical sensor configured to receive an optical input and convert the optical input to electrical signals, wherein the optical sensor includes multiple active pixel regions for converting the optical input to the electrical signals, and (2) conversion circuitry, having multiple selectable converting circuits, that is configured to receive and convert the electrical signals to a digital output according to a selected one of the selectable converting circuits.

Abstract: The disclosure provides an optical calibration device for in-chamber calibration of optical signals associated with a processing chamber, a characterization system for plasma processing chambers, methods of characterizing plasma processing chambers, and a chamber characterizer. In one example, the optical calibration device includes: (1) an enclosure, (2) an optical source located within the enclosure and configured to provide a source light having a continuous spectrum, and (3) optical shaping elements located within the enclosure and configured to form the source light into a calibrating light that approximates a plasma emission during an operation within the processing chamber.

Abstract: A digital flashlamp controller, a flashlamp control system and a method of controlling a flashlamp bulb employing digital control electronics are provided herein. In one embodiment, the digital flashlamp controller includes: (1) a trigger interface configured to provide firing signals to control a trigger element for a flashlamp bulb and (2) digital electronics configured to generate the firing signals and control multiple pulsing of the flashlamp bulb.

Abstract: A referenced and stabilized optical measurement system includes a light source, a plurality of optical elements and optical fiber assemblies and a detector arranged to compensate for the effects of system variation which may affect measurement performance. A non-continuous light source provides a common source light on a common source path. A reference light and a measurement light are derived from the common source light and propagated across separate paths of optically matching optical components in order to produce a common signal variation on both the reference light signal and the measurement light signal. Light paths exposed to air are contained indiscrete volumes for purging gasses from the volumes. Ratios of the reference signal and measurement signal are acquired under various conditions for compensating the measurement signal for system variations.

Abstract: A digital flashlamp controller, a flashlamp control system and a method of controlling a flashlamp bulb employing digital control electronics are provided herein. In one embodiment, the digital flashlamp controller includes: (1) a trigger interface configured to provide firing signals to control a trigger element for a flashlamp bulb and (2) digital electronics configured to generate the firing signals and control multiple pulsing of the flashlamp bulb.

Abstract: A workpiece characterization system for obtaining simultaneous measurement of layer and photoluminescence properties of a workpiece. The workpiece characterization system includes an excitation light and an illumination light each impinging upon a surface of a workpiece whereby the workpiece emits photoluminescent light and encodes light from said illumination source with layer information. The excitation light and the illumination light are generated from a single light source. The light from the single light source is filtered to remove wavelengths of light that correlate to light wavelengths emitted from the workpiece as a result of excitation. Wavelengths that correlate to light reflected from the workpiece that may contain encoded information are not filtered.

Abstract: Emitted light from a pulsed plasma system is detected, amplified and digitized over a plurality of pulse modulation cycles to produce a digitized signal over the plurality of RF modulation periods, each of which contains an amount of random intensity variations. The individual signal periods are then mathematically combined to produce a stable local reference waveform signal that has decreased random intensity variations. One mechanism for creating a stable local reference waveform signal is by subdividing each of the individual signal periods into a plurality of subunits and the mathematically averaging the respective subunits within the modulation period to produce the stable local reference waveform signal for the modulation period. The stable local reference waveform signal can then be compared to other instantaneous waveform signals from the pulsed plasma system, or waveform parameters can be derived using various signal processing techniques such as Fourier analysis.

Abstract: A flashlamp control system is provided with a capacitor that is statically electrically connected to the high voltage power supply, and a current sensing component is then electrically connected to the static capacitor and digital control electronics to monitor the charge current and/or the discharge current to static capacitor. A dynamically switchable capacitor electrically may also be connected to the high voltage power supply and digital control electronics for isolating the dynamically switchable capacitor from the high voltage power supply based on the monitored charge current and/or discharge current. One or more homogenizing element, comprise of an air gap, diffusing homogenizing element, imaging element, non-imaging element or light pipe homogenizing element, may be disposed in the light path proximate to the flashlamp, such as a multichannel distributor if present, to decrease the coefficient of variation of the optical signal, either temporally and spectrally, or both.

Abstract: A referenced and stabilized optical measurement system includes a light source, a plurality of optical elements and optical fiber assemblies and a detector arranged to compensate for the effects of system variation which may affect measurement performance. A non-continuous light source provides a common source light on a common source path. A reference light and a measurement light are derived from the common source light and propagated across separate paths of optically matching optical components in order to produce a common signal variation on both the reference light signal and the measurement light signal. Light paths exposed to air are contained indiscrete volumes for purging gasses from the volumes. Ratios of the reference signal and measurement signal are acquired under various conditions for compensating the measurement signal for system variations.

Abstract: A configurable hybrid superheterodyne spectrum analyzer for deriving process state parameters from detected modulated light emitted by a plasma receives and conditions the electric signals converted from the modulated light for subsequent superheterodyne mixing at a specific intermediate frequency (IF) that is lower than the frequency of the modulated light. Signal conditioning includes filtering noise, aliasing and DC and/or amplifying or de-amplifying the signal. Once mixed, the superheterodyne signal is further filtered by an IF filter to define the signal bandwidth characteristics relevant to the process state parameters. The IF filter may configurably employ multiple filter functions such as Gaussian filtering of increasing widths and/or comb filtering for multiple passbands in the frequency spectrum. Finally, the IF mixed and filtered signal is digitized with respect to the specific intermediate frequency using an IF digitizer.

Abstract: A workpiece characterization system for measurement of photoluminescence and/or layer properties of a workpiece. The workpiece characterization system includes an excitation light impinging upon a surface of a workpiece whereby the workpiece emits photoluminescent light. The emitted photoluminescent light may be characterized and correlated for determination of workpiece parameters such as dopant concentrations and LED performance characteristics. Additionally, the workpiece characterization system may also include an illumination impinging upon a surface of said workpiece whereby the illumination source is encoded with layer information from said workpiece. One or both of the lights are selectively collected, and each collected light is angularly and spatially sampled. Layer properties and/or photoluminescence properties of said workpiece may be measured from the selectively collected, and angularly and spatially sampled lights.

Abstract: A workpiece characterization system for obtaining simultaneous measurement of layer and photoluminescence properties of a workpiece. The workpiece characterization system includes an excitation light and an illumination light each impinging upon a surface of a workpiece whereby the workpiece emits photoluminescent light and encodes light from said illumination source with layer information. The excitation light and the illumination light are generated from a single light source. The light from the single light source is filtered to remove wavelengths of light that correlate to light wavelengths emitted from the workpiece as a result of excitation. Wavelengths that correlate to light reflected from the workpiece that may contain encoded information are not filtered.

Abstract: A workpiece characterization system for obtaining simultaneous measurement of layer and photoluminescence properties of a workpiece. The workpiece characterization system includes an excitation light and an illumination light each impinging upon a surface of a workpiece whereby the workpiece emits photoluminescent light and encodes light from said illumination source with layer information. The excitation light and the illumination light are generated from a single light source. The light from the single light source is filtered to remove wavelengths of light that correlate to light wavelengths emitted from the workpiece as a result of excitation. Wavelengths that correlate to light reflected from the workpiece that may contain encoded information are not filtered.