DRIVING DEVICE AND PRINTING APPARATUS

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

NAOKI Isoda of Tokyo (JP)

MIZUKI Nagasaki of Kanagawa (JP)

DRIVING DEVICE AND PRINTING APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18348123 titled 'DRIVING DEVICE AND PRINTING APPARATUS

Simplified Explanation

The driving device described in the patent application includes multiple load blocks, each containing a load element. It also includes multiple driving circuits that are designed to drive these load blocks. Additionally, there is a connection circuit that connects each load block to its respective driving circuit. The connection circuit has the ability to switch the connection combination between each load block and each driving circuit.

• The driving device consists of load blocks, driving circuits, and a connection circuit.
• Load blocks contain load elements.
• Driving circuits are responsible for driving the load blocks.
• The connection circuit connects the load blocks to the driving circuits.
• The connection circuit can switch the connection combination between each load block and driving circuit.

Potential Applications:

• Automotive industry: This driving device can be used in vehicles to control various electrical components such as lights, motors, and sensors.
• Industrial automation: The device can be employed in industrial machinery to drive and control different loads and components.
• Consumer electronics: It can be utilized in electronic devices to manage and drive various functions and features.

Problems Solved:

• Efficient load management: The driving device allows for the efficient control and management of multiple load blocks.
• Flexibility in connection: The connection circuit enables the switching of connections between load blocks and driving circuits, providing flexibility in the system design.
• Simplified circuitry: The device simplifies the overall circuitry required for driving multiple load blocks.

Benefits:

• Improved system performance: The driving device ensures efficient and reliable driving of load blocks, leading to enhanced overall system performance.
• Flexibility in design: The ability to switch connections between load blocks and driving circuits offers flexibility in system design and customization.
• Cost-effective solution: The simplified circuitry and efficient load management provided by the device contribute to cost savings in terms of components and energy consumption.

Original Abstract Submitted

A driving device is provided. The driving device includes a plurality of load blocks each including a load element, a plurality of driving circuits configured to drive the plurality of load blocks, and a connection circuit configured to connect the plurality of load blocks to the plurality of driving circuits, respectively. The connection circuit is configured to switch a connection combination of each of the plurality of load blocks and each of the plurality of driving circuits.