US2015101086A1PendingUtilityA1
Frequency measuring and control apparatus with integrated parallel synchronized oscillators
Est. expiryMar 19, 2030(~3.7 yrs left)· nominal 20-yr term from priority
Inventors:Steffen Porthun
G01Q 30/00H03L 7/0991H03L 7/085G01R 23/02G01Q 10/06G01Q 10/065G01R 23/06G01R 23/155H03L 7/099H03L 2207/50G01R 23/12H03L 7/0805G01Q 30/04B82Y 35/00
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Claims
Abstract
A frequency measuring and control apparatus includes a plurality of synchronized oscillators integrated in parallel into one programmable logic device.
Claims
exact text as granted — not AI-modified1 . An electronic frequency measuring and control apparatus, comprising a phase locked loop and a plurality of oscillators disposed in parallel on a single programmable logic device configured to apply a plurality of channel-specific synchronization factors to a digital phase difference signal upstream of phase accumulators.
2 . The apparatus of claim 1 , further comprising:
an oscillating element; an oscillation sensor to sense oscillation of the oscillating element and generate an analog oscillation signal corresponding to the sensed oscillation of the oscillating element; and an analog-to-digital converter in communication with the oscillation sensor to convert the analog oscillation signal to a digital oscillation signal; wherein the phase locked loop compares the digital oscillation signal from the analog-to-digital converter with a digital reference oscillation signal and generate a digital phase difference signal, and wherein the plurality of oscillators is in downstream communication with the phase locked loop to receive the digital phase difference signal, wherein the oscillators include a plurality of phase accumulators to generate a plurality of digital phase signals for a corresponding plurality of channels and a plurality of phase-to-amplitude converters downstream of the phase accumulators to convert the plurality of digital phase signals into a plurality of digital amplitude signals for the corresponding plurality of channels.
3 . The apparatus of claim 2 , wherein the programmable logic device is also configured to apply a plurality of channel-specific frequency offsets to the digital phase difference signal upstream of the phase accumulators and downstream of the application of the plurality of synchronization factors.
4 . The apparatus of claim 2 , wherein the programmable logic device is also configured to apply a plurality of channel-specific phase offsets downstream of the phase accumulators and upstream of the phase-to-amplitude converters.
5 . The apparatus of claim 2 , wherein the plurality of phase accumulators includes a reference phase accumulator for a reference channel and the plurality of phase-to-amplitude converters includes a reference phase-to-amplitude converter to generate the digital reference oscillation signal for the reference channel.
6 . The apparatus of claim 5 , wherein the plurality of phase accumulators includes a drive phase accumulator for a drive channel and the plurality of phase-to-amplitude converters includes a drive phase-to-amplitude converter to generate a digital drive oscillation signal for the drive channel.
7 . The apparatus of claim 6 , further comprising a digital-to-analog converter in communication with the programmable logic device to convert the digital drive oscillation signal into an analog drive oscillation signal.
8 . The apparatus of claim 7 , further comprising a mixer in communication with the digital-to-analog converter to mix the analog drive oscillation signal with an analog drive amplitude signal to generate a mixed analog drive oscillation signal.
9 . The apparatus of claim 8 , further comprising an actuator in communication with the oscillating element to oscillate the oscillating element, and an attenuator coupled in downstream communication with the mixer and in upstream communication with the actuator to attenuate the mixed analog drive oscillation signal.
10 . A computer-controlled SPM system, comprising:
equipment to carry out scanning probe microscopy, and including:
a probe;
an actuator in communication with the probe to oscillate the probe; and
an oscillation sensor to sense oscillation of the oscillating probe and generate an analog oscillation signal corresponding to the sensed oscillation of the oscillating probe;
instrumentation in communication with the equipment to transmit excitations to the equipment and receive responses produced by the equipment, and including a phase locked loop and a plurality of oscillators disposed in parallel on a single programmable logic device configured to apply a plurality of channel-specific synchronization factors to a digital phase difference signal upstream of phase accumulators; and a computer in communication with the instrumentation and including at least one input device to receive from a user the plurality of channel-specific synchronization factors.
11 . The system of claim 10 , wherein the instrumentation also includes:
an analog-to-digital converter in communication with the oscillation sensor to convert the analog oscillation signal to a digital oscillation signal; wherein the phase locked loop compares the digital oscillation signal from the analog-to-digital converter with a digital reference oscillation signal and generate a digital phase difference signal, and wherein the plurality of oscillators is in downstream communication with the phase locked loop to receive the digital phase difference signal, wherein the oscillators include a plurality of phase accumulators to generate a plurality of digital phase signals for a corresponding plurality of channels and a plurality of phase-to-amplitude converters downstream of the phase accumulators to convert the plurality of digital phase signals into a plurality of digital amplitude signals for the corresponding plurality of channels.
12 . The system of claim 11 , wherein the programmable logic device is also configured to apply a plurality of channel-specific frequency offsets to the digital phase difference signal upstream of the phase accumulators and downstream of the application of the plurality of synchronization factors.
13 . The system of claim 11 , wherein the plurality of phase accumulators includes a reference phase accumulator for a reference channel and the plurality of phase-to-amplitude converters includes a reference phase-to-amplitude converter to generate the digital reference oscillation signal for the reference channel.
14 . The system of claim 12 , wherein the plurality of phase accumulators includes a drive phase accumulator for a drive channel and the plurality of phase-to-amplitude converters includes a drive phase-to-amplitude converter to generate a digital drive oscillation signal for the drive channel.
15 . The system of claim 14 , further comprising a digital-to-analog converter in communication with the programmable logic device to convert the digital drive oscillation signal into an analog drive oscillation signal.
16 . The system of claim 15 , further comprising a mixer in communication with the digital-to-analog converter to mix the analog drive oscillation signal with an analog drive amplitude signal to generate a mixed analog drive oscillation signal.
17 . The system of claim 16 , further comprising an actuator in communication with the oscillating element to oscillate the oscillating element, and an attenuator coupled in downstream communication with the mixer and in upstream communication with the actuator to attenuate the mixed analog drive oscillation signal.
18 . An electronic frequency measuring and control apparatus, comprising a plurality of synchronized oscillators integrated in parallel into one programmable logic device.
19 . The apparatus of claim 18 , further comprising:
an analog-to-digital converter to convert an analog oscillation signal to a digital oscillation signal; and a phase locked loop to compare the digital oscillation signal from the analog-to-digital converter with a digital reference oscillation signal, and generate a digital phase difference signal.
20 . The apparatus of claim 19 , wherein the plurality of oscillators is in downstream communication with the phase locked loop to receive the digital phase difference signal and to apply a plurality of channel-specific synchronization factors to the digital phase difference signal, wherein the plurality of oscillators includes a plurality of phase accumulators to generate a plurality of digital phase signals for a corresponding plurality of channels and a plurality of phase-to-amplitude converters downstream of the phase accumulators to convert the plurality of digital phase signals into a plurality of digital amplitude signals for the corresponding plurality of channels.Cited by (0)
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