Teaching experimental device of magnetic coupling resonant wireless power transmission

The utility model provides a teaching experimental device of electromagnetic hybrid magnetic suspension. A transmitting circuit coil bracket is fixed on an experimental bedplate of the device and is provided with a transmitting circuit coil. The experimental bedplate is provided with a guide rail wh...

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Hauptverfasser:	ZHAO HAIFA, LIU JIANLONG, LIU SHIGANG
Format:	Patent
Sprache:	eng
Schlagworte:	ADVERTISING APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND,DEAF OR MUTE CRYPTOGRAPHY DIAGRAMS DISPLAY EDUCATION EDUCATIONAL OR DEMONSTRATION APPLIANCES GLOBES PHYSICS PLANETARIA SEALS
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creator	ZHAO HAIFA LIU JIANLONG LIU SHIGANG
description	The utility model provides a teaching experimental device of electromagnetic hybrid magnetic suspension. A transmitting circuit coil bracket is fixed on an experimental bedplate of the device and is provided with a transmitting circuit coil. The experimental bedplate is provided with a guide rail which is slidingly provided with a receiving circuit coil bracket which is provided with a receiving circuit coil. The transmitting circuit coil is connected between two ends of a capacitor C1 through wires to form a transmitting circuit. One end of the capacitor C1 is also connected to the cathode of a DC power supply E. One end of the capacitor C1 is also connected to a resistor R3. The anode of the DC power supply E is connected to the drain electrode of a field effect switch tube P through a shunt resistor R1. The gate electrode of the field effect switch tube P is respectively connected to a resistor R2 and the resistor R3. The resistor R2 is connected to the output end of an oscillation circuit. The source electrode of the field effect switch tube P is grounded. Two ends of the capacitor C2 are also connected to a load such as a high brightness light-emitting diode or a small lamp. The teaching experimental device has the advantages of simple structure, reasonable design and high practicability and convenience, and the smooth development of an experimental course is facilitated.
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A transmitting circuit coil bracket is fixed on an experimental bedplate of the device and is provided with a transmitting circuit coil. The experimental bedplate is provided with a guide rail which is slidingly provided with a receiving circuit coil bracket which is provided with a receiving circuit coil. The transmitting circuit coil is connected between two ends of a capacitor C1 through wires to form a transmitting circuit. One end of the capacitor C1 is also connected to the cathode of a DC power supply E. One end of the capacitor C1 is also connected to a resistor R3. The anode of the DC power supply E is connected to the drain electrode of a field effect switch tube P through a shunt resistor R1. The gate electrode of the field effect switch tube P is respectively connected to a resistor R2 and the resistor R3. The resistor R2 is connected to the output end of an oscillation circuit. The source electrode of the field effect switch tube P is grounded. Two ends of the capacitor C2 are also connected to a load such as a high brightness light-emitting diode or a small lamp. 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A transmitting circuit coil bracket is fixed on an experimental bedplate of the device and is provided with a transmitting circuit coil. The experimental bedplate is provided with a guide rail which is slidingly provided with a receiving circuit coil bracket which is provided with a receiving circuit coil. The transmitting circuit coil is connected between two ends of a capacitor C1 through wires to form a transmitting circuit. One end of the capacitor C1 is also connected to the cathode of a DC power supply E. One end of the capacitor C1 is also connected to a resistor R3. The anode of the DC power supply E is connected to the drain electrode of a field effect switch tube P through a shunt resistor R1. The gate electrode of the field effect switch tube P is respectively connected to a resistor R2 and the resistor R3. The resistor R2 is connected to the output end of an oscillation circuit. The source electrode of the field effect switch tube P is grounded. Two ends of the capacitor C2 are also connected to a load such as a high brightness light-emitting diode or a small lamp. 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A transmitting circuit coil bracket is fixed on an experimental bedplate of the device and is provided with a transmitting circuit coil. The experimental bedplate is provided with a guide rail which is slidingly provided with a receiving circuit coil bracket which is provided with a receiving circuit coil. The transmitting circuit coil is connected between two ends of a capacitor C1 through wires to form a transmitting circuit. One end of the capacitor C1 is also connected to the cathode of a DC power supply E. One end of the capacitor C1 is also connected to a resistor R3. The anode of the DC power supply E is connected to the drain electrode of a field effect switch tube P through a shunt resistor R1. The gate electrode of the field effect switch tube P is respectively connected to a resistor R2 and the resistor R3. The resistor R2 is connected to the output end of an oscillation circuit. The source electrode of the field effect switch tube P is grounded. Two ends of the capacitor C2 are also connected to a load such as a high brightness light-emitting diode or a small lamp. The teaching experimental device has the advantages of simple structure, reasonable design and high practicability and convenience, and the smooth development of an experimental course is facilitated.</abstract><oa>free_for_read</oa></addata></record>
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subjects	ADVERTISING APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND,DEAF OR MUTE CRYPTOGRAPHY DIAGRAMS DISPLAY EDUCATION EDUCATIONAL OR DEMONSTRATION APPLIANCES GLOBES PHYSICS PLANETARIA SEALS
title	Teaching experimental device of magnetic coupling resonant wireless power transmission
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