Precision voltage/current/power source
First Claim
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1. A precision a.c. signal source comprising:
- an amplifier for applying an output waveform to a load;
a first memory holding digital reference values representing the relative amplitude of a desired waveform at a succession of phase points;
a first digital to analog converter;
a second memory for storing a set of digital correction values corresponding to respective ones of said reference values;
a second digital to analog converter;
sequencing means for applying successive values read from said first memory to said first digital to analog converter to generate a reference waveform and for synchronously applying successive corresponding values read from said second memory to said second digital to analog converter to generate a correction waveform;
means for combining said reference and correction waveforms and applying the combined waveform to the input of said amplifier, the output of said amplifier being applied to said load resulting in said output waveform;
means for combining said reference waveform and said output waveform to generate an error waveform;
an analog to digital converter for generating a succession of digital error values corresponding to said error waveform; and
processor means responsive to said successive digital error values for repetitively adjusting said correction values in a sense which reduces the difference between said reference waveform and said output waveform.
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Abstract
In the precision source disclosed herein, a reference waveform and a correction waveform are combined and fed to an output amplifier which supplies an output waveform to a load, e.g., a wattmeter under test. The reference and correction waveforms are generated by digital-to-analog conversion of values stored in respective data tables. The output waveform is then combined with the reference waveform to obtain an error signal which is then digitized and utilized to update the data table from which the correction waveform is generated.
46 Citations
8 Claims
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1. A precision a.c. signal source comprising:
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an amplifier for applying an output waveform to a load; a first memory holding digital reference values representing the relative amplitude of a desired waveform at a succession of phase points; a first digital to analog converter; a second memory for storing a set of digital correction values corresponding to respective ones of said reference values; a second digital to analog converter; sequencing means for applying successive values read from said first memory to said first digital to analog converter to generate a reference waveform and for synchronously applying successive corresponding values read from said second memory to said second digital to analog converter to generate a correction waveform; means for combining said reference and correction waveforms and applying the combined waveform to the input of said amplifier, the output of said amplifier being applied to said load resulting in said output waveform; means for combining said reference waveform and said output waveform to generate an error waveform; an analog to digital converter for generating a succession of digital error values corresponding to said error waveform; and processor means responsive to said successive digital error values for repetitively adjusting said correction values in a sense which reduces the difference between said reference waveform and said output waveform. - View Dependent Claims (2, 3, 4, 5)
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6. A precision a.c. signal source comprising:
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an amplifier for applying an output waveform to a load, said amplifier being characterizable by a predetermined delay value; a first memory holding digital reference values representing the relative amplitude of a desired waveform at a succession of phase points, the interval between said phase points being smaller than said delay value; a first digital to analog converter; a second memory for storing a set of digital correction values corresponding to respective ones of said reference values; a second digital to analog converter; sequencing means for applying successive values read from said first memory to said first digital to analog converter to generate a reference waveform and for synchronously applying successive corresponding values read from said second memory to said second digital to analog converter to generate a correction waveform; means for combining said reference and correction waveforms by analog summing and applying the combined waveform to the input of said amplifier, the output of said amplifier being applied to said load resulting in said output waveform; means for combining said reference waveform and said output waveform by analog summing to generate an error waveform; an analog to digital converter for generating a succession of digital error values corresponding to said error waveform, said error values being stored in a third memory; and processor means for repetitively adjusting said correction values as a function of said successive digital error values in a sense which reduces the difference between said reference waveform and said output waveform.
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7. A precision a.c. voltage and current source comprising:
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a voltage channel including an amplifier for applying a voltage waveform to a load; a current channel including an amplifier for applying a current waveform to a load; in each of said channels, a first memory holding digital reference values representing the relative amplitude of a desired waveform at a succession of phase points; a first digital to analog converter; a second memory for storing a set of digital correction values corresponding to respective ones of said reference values; a second digital to analog converter; means for applying successive values read from said first memory to said first digital to analog converter to generate a reference waveform and for synchronously applying successive corresponding values read from said second memory to said second digital to analog converter to generate a correction waveform; means for combining said reference and correction waveforms and applying the combined waveform to the input of the respective amplifier, the output of said amplifier being applied to said load resulting in a respective output waveform; means for combining said reference waveform and said output waveform to generate a respective error waveform; an analog to digital converter for generating a succession of digital error values corresponding to the respective error waveform; and means responsive to said successive digital error values for repetitively adjusting the respective correction values in a sense which reduces the difference between said reference waveform and said output waveform.
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8. A precision multi-phase a.c. voltage and current source comprising:
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for each phase, a voltage channel including an amplifier for applying a voltage waveform to a load; for each phase, a current channel including an amplifier for applying a current waveform to a load; in each of said voltage and current channels, a first memory holding digital reference values representing the relative amplitude of a desired waveform at a succession of phase points; a first digital to analog converter; a second memory for storing a set of digital correction values corresponding to respective ones of said reference values; a second digital to analog converter; means for applying successive values read from said first memory to said first digital to analog converter to generate a reference waveform and for synchronously applying successive corresponding values read from said second memory to said second digital to analog converter to generate a correction waveform; means for combining said reference and correction waveforms by analog summing and applying the combined waveform to the input of the respective amplifier, the output of said amplifier being applied to said load resulting in a respective output waveform; means for combining said reference waveform and said output waveform by analog summing to generate a respective error waveform; an analog to digital converter for generating a succession of digital error values corresponding to the respective error waveform; and means responsive to said successive digital error values for repetitively adjusting the respective correction values in a sense which reduces the difference between said reference waveform and said output waveform, the timing of reading from the memory sections in each of said current channels being adjustable in relation to the timing of reading from the memory sections in the respective voltage channels thereby to vary the relative phasing of the current voltage output waveforms.
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Specification