18526554. H-BRIDGE CIRCUIT FOR ENERGIZING AN INDUCTOR simplified abstract (Robert Bosch GmbH)
Contents
H-BRIDGE CIRCUIT FOR ENERGIZING AN INDUCTOR
Organization Name
Inventor(s)
Matthias Schneider of Korntal-Muenchingen (DE)
H-BRIDGE CIRCUIT FOR ENERGIZING AN INDUCTOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 18526554 titled 'H-BRIDGE CIRCUIT FOR ENERGIZING AN INDUCTOR
The abstract describes an H-bridge circuit for energizing an inductor, consisting of four switches with a freewheeling diode connected in parallel with each switch.
- Simplified Explanation:
- H-bridge circuit for inductor energization - Four switches with freewheeling diodes - Efficient energy transfer to inductor
- Key Features and Innovation:
- Utilizes H-bridge configuration for inductor control - Freewheeling diodes prevent voltage spikes - Enables precise and efficient energization of inductor
- Potential Applications:
- Motor control systems - Power electronics - Renewable energy systems
- Problems Solved:
- Voltage spikes in inductor circuits - Control and efficiency issues in inductor energization
- Benefits:
- Improved energy transfer efficiency - Enhanced control over inductor operation - Reduction of voltage spikes
- Commercial Applications:
- Power electronics industry - Renewable energy sector - Electric vehicle technology
- Prior Art:
- Prior research on H-bridge circuits for inductor control - Studies on freewheeling diodes in power electronics
- Frequently Updated Research:
- Latest advancements in H-bridge circuit design - New applications of freewheeling diodes in power electronics
Questions about H-bridge circuits: 1. How does the freewheeling diode prevent voltage spikes in the circuit? 2. What are the main advantages of using an H-bridge configuration for inductor control?
Original Abstract Submitted
An H-bridge circuit for energizing an inductor. The H-bridge circuit has four switches. A freewheeling diode is connected in parallel with each switch.