Electromagnetic flowmeter
First Claim
1. An electromagnetic flowmeter comprisinga conduit (27);
- a pair of electrodes (28a,28b) disposed in said conduit (27) at diametrically opposing positions;
an electromagnet disposed adjacent said conduit (27) and having an exciting coil (25) for generating a magnetic field within said conduit (27);
a driving means (13 etc) connected to said exciting coil (25) for exciting said electromagnet;
control means (30) connected to said driving means for controlling the driving means; and
detecting means (29) connected to said electrodes in said conduit (27) for detecting a flow rate signal (Va) generated by a fluid flowing through said conduit;
wherein said driving means comprisesa voltage regulator means (13) supplied with a DC voltage obtained by rectifying a voltage from an AC power source (10) having a predetermined frequency and applying a voltage control, for providing a predetermined exciting voltage;
a first switching means (24a) connected between said exciting coil (25) and said voltage regulator means (13) and controlled by a first signal, for applying said exciting voltage at selected polarity to said exciting coil (25);
a second switching means (24b) connected between said exciting coil (25) and said voltage regulator means (13) and controlled by a second signal, for applying said exciting voltage at another polarity to said exciting coil (25);
wherein said control means comprisescurrent detection means (Rs) connected in series between said first and second switching means and said exciting coil, for detecting exciting current (Io) flowing through said exciting coil (25);
absolute value circuit (31) connected to said current detecting means (Rs) for generating an absolute value of the exciting current (Io) detected by said current detection means (Rs);
means for generating a reference voltage;
difference operating means (32) connected to said absolute value circuit (31) for calculating the difference between said absolute value signal and said reference voltage at a predetermined value for determining a constant level of said exciting current (Io);
duty cycle conversion means (33) connected to said difference operating means (32) for converting the output of said difference operating means into a control signal (Sd) having a train of pulses having duty cycles related to said output of said difference operating means (32);
means for switching the reference voltage between a predetermined value of the reference voltage and a zero voltage;
means for generating a timing signal (St); and
arithmetic operating means (34) connected to said duty cycle conversion means (33), and responsive to said control signal (Sd) and said timing signal (St), for switching said exciting current at a predetermined frequency, said arithmetic operating means performing arithmetic operation to generate said first signal (Sf1) and said second signal (Sf2) related to said control signal and said timing signal, and for controlling said first and second switching means, respectively, by said first and said second signals;
and wherein said difference operating means comprises means for generating a tristate excitation by calculating the difference between an output corresponding to the absolute value of said exciting current and an output generated by switching the reference voltage and the zero voltage with a frequency twice as high as the exciting frequency.
2 Assignments
0 Petitions
Accused Products
Abstract
An electromagnetic flowmeter using an exciting current of a rectangular wave form supplied to an exciting coil for excitation, wherein a DC voltage produced by rectifying a frequency power source, is applied by way of a voltage regulating circuit to an exciting circuit, and a switching device is connected in series between the exciting circuit and the voltage regulating circuit and is controlled by a DC reference voltage determining the level of the exciting voltage and a timing signal determining the switching timing for the exciting current. The invention enables accurate and rapid control of the waveform of the exciting current, reduces costs, and can be used for different voltages without any substantial change of circuitry.
23 Citations
17 Claims
-
1. An electromagnetic flowmeter comprising
a conduit (27); -
a pair of electrodes (28a,28b) disposed in said conduit (27) at diametrically opposing positions; an electromagnet disposed adjacent said conduit (27) and having an exciting coil (25) for generating a magnetic field within said conduit (27); a driving means (13 etc) connected to said exciting coil (25) for exciting said electromagnet; control means (30) connected to said driving means for controlling the driving means; and detecting means (29) connected to said electrodes in said conduit (27) for detecting a flow rate signal (Va) generated by a fluid flowing through said conduit; wherein said driving means comprises a voltage regulator means (13) supplied with a DC voltage obtained by rectifying a voltage from an AC power source (10) having a predetermined frequency and applying a voltage control, for providing a predetermined exciting voltage; a first switching means (24a) connected between said exciting coil (25) and said voltage regulator means (13) and controlled by a first signal, for applying said exciting voltage at selected polarity to said exciting coil (25); a second switching means (24b) connected between said exciting coil (25) and said voltage regulator means (13) and controlled by a second signal, for applying said exciting voltage at another polarity to said exciting coil (25); wherein said control means comprises current detection means (Rs) connected in series between said first and second switching means and said exciting coil, for detecting exciting current (Io) flowing through said exciting coil (25); absolute value circuit (31) connected to said current detecting means (Rs) for generating an absolute value of the exciting current (Io) detected by said current detection means (Rs); means for generating a reference voltage; difference operating means (32) connected to said absolute value circuit (31) for calculating the difference between said absolute value signal and said reference voltage at a predetermined value for determining a constant level of said exciting current (Io); duty cycle conversion means (33) connected to said difference operating means (32) for converting the output of said difference operating means into a control signal (Sd) having a train of pulses having duty cycles related to said output of said difference operating means (32); means for switching the reference voltage between a predetermined value of the reference voltage and a zero voltage; means for generating a timing signal (St); and arithmetic operating means (34) connected to said duty cycle conversion means (33), and responsive to said control signal (Sd) and said timing signal (St), for switching said exciting current at a predetermined frequency, said arithmetic operating means performing arithmetic operation to generate said first signal (Sf1) and said second signal (Sf2) related to said control signal and said timing signal, and for controlling said first and second switching means, respectively, by said first and said second signals; and wherein said difference operating means comprises means for generating a tristate excitation by calculating the difference between an output corresponding to the absolute value of said exciting current and an output generated by switching the reference voltage and the zero voltage with a frequency twice as high as the exciting frequency.
-
-
2. An electromagnetic flowmeter comprising
a conduit (27); -
a pair of electrodes (28a,28b) disposed in said conduit (27) at diametrically opposing positions; an electromagnet disposed adjacent said conduit (27) and having an exciting coil (25) for generating a magnetic field within said conduit (27); a driving means (13, etc) connected to said exciting coil (25) for exciting said electromagnet; control means (30) connected to said driving means for controlling the driving means; and detecting means (29) connected to said electrodes in said conduit (27) for detecting a flow rate signal (Va) generated by a fluid flowing through said conduit; wherein said driving means comprises a voltage regulator means (13) supplied with a DC voltage obtained by rectifying a voltage from an AC power source (10) having a predetermined frequency and applying a voltage control, for providing a predetermined exciting voltage; a first switching means (24a) connected between said exciting coil (25) and said voltage regulator means (13) and controlled by a first signal, for applying said exciting voltage at selected polarity to said exciting coil (25); a second switching means (24b) connected between said exciting coil (25) and said voltage regulator means (13) and controlled by a second signal, for applying said exciting voltage at another polarity to said exciting coil (25); wherein said control means comprises current detection means (Rs) connected in series between said first and second switching means and said exciting coil, for detecting exciting current (Io) flowing through said exciting coil (25); absolute value circuit (31) connected to said current detection means (Rs) for generating an absolute value of the exciting current (Io) detected by said current detection means (Rs); means for generating a reference voltage (Es1); difference operating means (32) connected to said absolute value circuit (31) for calculating the difference between said absolute value signal and said reference voltage (Es1) at a predetermined value for determining a constant level of said exciting current (Io); duty cycle conversion means (33) connected to said difference operating means (32) for converting the output of said difference operating means into a control signal (Sd) having a train of pulses having duty cycles related to said output of said difference operating means (32); means for generating a timing signal (St); and arithmetic operating means (34) connected to said duty cycle conversion means (33), and responsive to said control signal (Sd) and said timing signal (St), for switching said exciting current at a predetermined frequency, said arithmetic operating means performing arithmetic operation to generate said first signal (Sf1) and said second signal (Sf2) related to said control signal and said timing signal, and for controlling said first and second switching means, respectively, by said first and second signals; and wherein said voltage regulator means comprises a transformer comprising primary and secondary windings, a rectifier and a Zener diode, and wherein AC voltage produced in the secondary winding of the transformer is rectified in the rectifier and then filtered by the Zener diode.
-
-
3. An electromagnetic flowmeter comprising
a conduit (27); -
a pair of electrodes (28a,28b) disposed at diametrically opposite positions in said conduit (27); an electromagnet disposed adjacent said conduit (27) and having an exciting coil (25) for generating a magnetic field within said conduit (27); a driving means (13, etc) for exciting said exciting coil (25) of said electromagnet; detecting means (29) connected to said electrodes in said conduit (27) for detecting a flow rate signal (Va) generated by a fluid flowing through said conduit; and control means connected to said driving means for controlling the driving means; wherein said control means comprises means for providing a timing signal (St); current detection means (Rs) for detecting current (Io) flowing through said exciting coil (25); absolute value circuit (35) connected to said current detection means (Rs) for generating an absolute value signal (eA) of the exciting current; means for generating a reference voltage (Es1); difference operating means (32) connected to said absolute value circuit (35) for calculating the difference between said absolute value signal (eA) and said reference voltage (Es1) at a predetermined value for determining a constant level of said exciting current (Io); duty cycle conversion means (36) connected to said difference operating means (32) for converting the output from said difference operating means (32) into a control signal (eP) having a train of pulses having a duty cycle proportional to the output from said difference operating means; and arithmetic means (37) connected to said duty cycle conversion means (36) and responsive to said control signal (eP) and said timing signal (St), for switching said exciting current (Io) at a predetermined frequency, and for generating a first signal (Sf1) and a second signal (Sf2) related to said control signal (eP) and said timing signal (St) and for controlling first (SW1) and second (SW2) switching means by said first and second signals; and wherein said driving means comprises a voltage regulation means (13) for producing a predetermined exciting voltage from a DC voltage obtained from an AC power source (10) having a predetermined frequency and being rectified by a rectifier (11) and subjected to voltage control; said first switching means (SW1) connected between said exciting coil (25) and said voltage regulation means (13) and opened and closed by said first signal (Sf1) having a train of pulses with a duty cycle determined by the level of the exciting current corresponding to an exciting period and turned ON and OFF synchronous with the exciting period; said second switching means (SW2) connected between said exciting coil (25) and said voltage regulation means (13) and opened and closed by said second signal (Sf2) having a phase corresponding to said exciting period opposite to that of said first signal; a pair of diodes (26a,26b) connected in parallel with said first (SW1) and second (SW2) switching means, respectively, with the polarity being opposite to the flowing direction of said exciting current; first switching circuit (SW3) connected in parallel with said exciting coil (25) and rendered conductive during the ON period in which said train pulses rendered non-conductive during the OFF period of said first signal; and second switching circuit (SW4) connected in parallel with said exciting coil (25) and rendered conductive during the ON period in which said train of pulses of said second signal continues to turn ON and OFF, and being rendered non-conductive during the OFF period of said second signal. - View Dependent Claims (4, 5, 6, 7, 8, 9)
-
-
10. An electromagnetic flowmeter comprising a conduit having a pair of electrodes disposed at diametrically opposing positions, an electromagnet having an exciting coil for generating a magnetic field within said conduit, a driving means for exciting said electromagnet, and means for outputting a flow rate signal generated by a fluid flowing through said conduit, wherein said driving means comprises
A. a switching regulation means for stabilizing a supply voltage so that a circuit voltage is outputted and insulated from said supply voltage, and an exciting voltage is outputted according to a set voltage; -
B. a first switching means connected between said exciting coil and said switching regulation means for applying said exciting voltage at one of two polarities to said exciting coil; C. a second switching means connected between said exciting coil and said switching regulation means for applying said exciting voltage at the other of said polarities to said exciting coil; D. a current detection means connected in series between said switching regulation means and said exciting coil for detecting an exciting current flowing through said exciting coil and for producing an output voltage; means for supplying a reference voltage; means for supplying a timing signal; and E. a switching control means for controlling said first and second switching means, said switching control means comprising means for computing the difference between the absolute value of the output voltage from said current detection means and the reference voltage, said difference used for determining the magnitude of said exciting current, means for producing a duty cycle signal corresponding to said difference, and means for obtaining the product of said duty cycle signal and the timing signal, said product used for switching said exciting current at a frequency which is lower than the frequency of the power supply. - View Dependent Claims (11, 12, 13)
-
-
14. an electromagnetic flowmeter comprising a concuit having a pair of electrodes disposed at diametrically opposing positions, an electromagnet having an exciting coil for generating a magnetic field within said conduit, and a driving means for exciting said electromagnet, and means for outputting a flow rate signal generated by a fluid flowing through said conduit, wherein said driving means comprises
A. a switching regulation means for stabilizing a supply voltage so that a circuit voltage is outputted and insulated from said supply voltage, and an exciting voltage is outputted according to a set voltage through a capacitor connected in parallel with an output end; -
B. a current detection means for detecting an exciting current flowing through said exciting coil connected in series between said switching regulation means and said exciting coil; C. a difference computing means for computing the difference between the absolute value of an output voltage detected by said current detection means and a reference voltage for determining the magnitude of said exciting current; means for supplying said reference voltage; means for supplying a duty cycle signal corresponding to said difference; D. a computing means for receiving the duty cycle signal corresponding to said difference and the frequency of the power supply, and for computing and outputting timing signals corresponding to a positive exciting period during which positive exciting current is applied and a negative exciting period during which the negative exciting current is applied, a first control signal containing number of said duty cycle signals within its positive exciting period and having the OFF period corresponding to said negative exciting period, and a second control signal containing number of said duty cycle signals within its negative exciting period and having the OFF period corresponding to said positive exciting period; E. a first switching means connected in series between said exciting coil and said switching regulation means and opened and closed by said first control signal; F. a second switching means connected in series between said exciting coil and said switching regulation means and opened and closed by said second control signal; G. a first switching circuit connected in parallel with said exciting coil, being rendered conductive during OFF periods contained by said positive exciting period of said first control signal, and being rendered non-conductive during said negative exciting period of said first control signal; and H. a second switching circuit connected in parallel with said exciting coil, being rendered conductive during OFF periods contained by said negative exciting period of said second control signal, and being rendered non-conductive during said positive exciting period of said second control signal. - View Dependent Claims (15, 16, 17)
-
Specification