Electric circuit and transmission method for telemetric transmission
First Claim
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1. An electric circuit for an inductively implemented low-frequency telemetric transmission, the electric circuit comprising:
- a direct current source for supplying electric power to the electric circuit;
a resonance circuit for telemetric transmission; and
a quenching circuit coupled to the resonance circuit and comprising a semiconductor transistor switch, the semiconductor transistor switch being configured to switch the quenching circuit into an electrically conductive state to prevent oscillation of the resonance circuit, and the semiconductor transistor switch being configured to switch the quenching circuit into a state preventing the passage of electric current to enable oscillation of the resonance circuit, wherein the quenching circuit comprises at least one electric restriction component for preventing the passage of a base current of the semiconductor transistor switch when the semiconductor transistor switch is switched open, wherein at least one electric restriction component comprised by the quenching circuit is a diode coupled between one pole of the resonance circuit and the semiconductor transistor switch in a non-conducting direction to prevent the passage of current from a collector to a base of the semiconductor transistor switch.
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Abstract
The invention relates to an electric circuit for a telemetric transmission. A semiconductor transistor switch switches a quenching circuit into an electrically conductive state to prevent oscillation of a resonance circuit. The semiconductor transistor switch switches the quenching circuit into a state preventing the passage of electric current to enable oscillation of the resonance circuit. The quenching circuit comprises at least one restriction component for preventing the passage of a base current of the semiconductor transistor switch when the semiconductor transistor switch is switched open.
12 Citations
14 Claims
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1. An electric circuit for an inductively implemented low-frequency telemetric transmission, the electric circuit comprising:
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a direct current source for supplying electric power to the electric circuit; a resonance circuit for telemetric transmission; and a quenching circuit coupled to the resonance circuit and comprising a semiconductor transistor switch, the semiconductor transistor switch being configured to switch the quenching circuit into an electrically conductive state to prevent oscillation of the resonance circuit, and the semiconductor transistor switch being configured to switch the quenching circuit into a state preventing the passage of electric current to enable oscillation of the resonance circuit, wherein the quenching circuit comprises at least one electric restriction component for preventing the passage of a base current of the semiconductor transistor switch when the semiconductor transistor switch is switched open, wherein at least one electric restriction component comprised by the quenching circuit is a diode coupled between one pole of the resonance circuit and the semiconductor transistor switch in a non-conducting direction to prevent the passage of current from a collector to a base of the semiconductor transistor switch. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A telemetric, inductive and low-frequency transmission method comprising:
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switching a quenching circuit, coupled with a semiconductor transistor switch to a resonance circuit, into an electrically conductive state to prevent oscillation of the resonance circuit; switching the quenching circuit with the semiconductor transistor switch into a state preventing the passage of electric current to enable oscillation of the resonance circuit; preventing the passage of electric current on a base of the semiconductor transistor switch when the semiconductor transistor switch is switched open with at least one electric restriction component comprised by the quenching circuit; and preventing the passage of electric current from a collector to the base of the semiconductor transistor switch with at least one electric restriction component comprised by the quenching circuit comprises a diode coupled between one pole of the resonance circuit and the semiconductor transistor switch in a non-conducting direction.
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8. An electric circuit for an inductively implemented low-frequency telemetric transmission, the electric circuit comprising:
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a direct current source for supplying electric power to the electric circuit; a resonance circuit for telemetric transmission; and a quenching circuit coupled to the resonance circuit and comprising a semiconductor transistor switch, the semiconductor transistor switch being configured to switch the quenching circuit into an electrically conductive state to prevent oscillation of the resonance circuit, and the semiconductor transistor switch being configured to switch the quenching circuit into a state preventing the passage of electric current to enable oscillation of the resonance circuit, wherein the quenching circuit comprises at least one electric restriction component for preventing the passage of a base current of the semiconductor transistor switch when the semiconductor transistor switch is switched open, wherein at least one electric restriction component is placed in the quenching circuit on a stretch from the semiconductor transistor switch and to a pole of the resonance circuit, the pole being farther from a positive pole of the direct current source when propagating from the positive pole of the direct current source towards a negative pole of the direct current source. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A telemetric, inductive and low-frequency transmission method comprising:
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switching a quenching circuit, coupled with a semiconductor transistor switch to a resonance circuit, into an electrically conductive state to prevent oscillation of the resonance circuit; switching the quenching circuit with the semiconductor transistor switch into a state preventing the passage of electric current to enable oscillation of the resonance circuit; preventing the passage of electric current on a base of the semiconductor transistor switch when the semiconductor transistor switch is switched open with at least one electric restriction component comprised by the quenching circuit; and placing at least one electric restriction component in the quenching circuit on a stretch from the semiconductor transistor switch and to a pole of the resonance circuit, the pole being farther from a positive pole of the direct current source when propagating from the positive pole of the direct current source towards a negative pole of the direct current source.
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Specification