Digital filter for fluid scale
First Claim
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1. A scale system for measuring the weight of a fluid receptacle capable of containing a volume of fluid, comprising:
- a support for holding the fluid receptacle with a bottom of the fluid receptacle being unconstrained from moving and free to oscillate in periodic motion;
a transducer coupled to said support for converting a force exerted thereon by the fluid receptacle into an electrical signal having noise which is produced in response to the periodic motion of the fluid receptacle and which is in ranges of characteristic frequencies associated with the frequency of the periodic motion of the fluid receptacle;
a digital computer;
an analog-to-digital converter interposed between said transducer and said digital computer; and
a digital filter for receiving said electrical signal from said transducer and suppressing noise in said electrical signal at selected frequencies, said digital filter defined by a program which is loadable into said digital computer, said digital filter including an infinite input response filter cascading into a finite input response filter, and said digital filter being selected to have rejection notches at at least one frequency in common with the frequencies of the noise in said electrical signal.
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Abstract
A device for weighing fluid includes a scale from which a fluid receptacle is suspended. Oscillations in the weight reading due to the pendulous motion of the receptacle are suppressed by a digital filter selected to have rejection notches at the frequencies of weight oscillation.
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Citations
10 Claims
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1. A scale system for measuring the weight of a fluid receptacle capable of containing a volume of fluid, comprising:
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a support for holding the fluid receptacle with a bottom of the fluid receptacle being unconstrained from moving and free to oscillate in periodic motion;
a transducer coupled to said support for converting a force exerted thereon by the fluid receptacle into an electrical signal having noise which is produced in response to the periodic motion of the fluid receptacle and which is in ranges of characteristic frequencies associated with the frequency of the periodic motion of the fluid receptacle;
a digital computer;
an analog-to-digital converter interposed between said transducer and said digital computer; and
a digital filter for receiving said electrical signal from said transducer and suppressing noise in said electrical signal at selected frequencies, said digital filter defined by a program which is loadable into said digital computer, said digital filter including an infinite input response filter cascading into a finite input response filter, and said digital filter being selected to have rejection notches at at least one frequency in common with the frequencies of the noise in said electrical signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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5. The scale system of claim 1, wherein said digital filter has a rejection notch at a frequency of approximately 0.8 Hz.
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6. The scale system of claim 1, wherein said digital filter has a rejection notch at a frequency of approximately 1.6 Hz.
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7. The scale stem of claim 1, wherein said digital filter has two rejection notches, a first at a frequency of approximately 0.8 Hz and a second at a frequency of approximately 1.6 Hz.
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8. The scale system of claim 1, wherein said signal is capable of being utilized to calculate at least one of the fluid volume inflow and outflow rates into and out of said receptacle.
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9. A method of weighing a suspended object moving in periodic motion causing oscillations in the measured weight with a scale system having a support for holding the object to be weighed and a transducer coupled to said support for converting weighting force exerted thereon by said object into an electrical signal, comprising the steps of:
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(a) suspending the object on the support;
(b) setting the object moving in periodic motion;
(c) determining at least one frequency of oscillation in the electrical signal;
(d) selecting a plurality of digital filters and arranging them in cascaded relationship, said plurality of digital filters having at least two rejection notches located in two associated frequency ranges approximating a plurality of said at least one frequency of oscillation in the electrical signal observed in step (c);
(e) programming a computer with instructions implementing said plurality of digital filters;
(f) processing the electrical signal from the transducer with said computer; and
(g) suppressing oscillations in the electrical signal at said at least one frequency determined in step (c). - View Dependent Claims (10)
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Specification