Electric Coupling for Injection Devices

Organization Name

SANOFI

Inventor(s)

Bernd Kuehn of Frankfurt am Main (DE)

Electric Coupling for Injection Devices - A simplified explanation of the abstract

This abstract first appeared for US patent application 18663525 titled 'Electric Coupling for Injection Devices

Embodiments of the present disclosure focus on conserving energy in an injection device by electrically decoupling the electronic component from the energy source until a trigger is generated by the priming component. The mechanism then responds to the trigger by coupling the energy source to the electronic component.

• Energy conservation in an injection device
• Electronic component decoupled from energy source
• Priming component generates trigger
• Mechanism couples energy source to electronic component in response to trigger

Potential Applications: - Medical devices - Industrial equipment - Consumer electronics

Problems Solved: - Energy efficiency in devices - Improved battery life - Enhanced performance

Benefits: - Extended battery life - Reduced energy consumption - Enhanced device reliability

Commercial Applications: Title: Energy-Efficient Injection Devices for Various Industries This technology can be applied in medical devices, industrial equipment, and consumer electronics to improve energy efficiency and device performance, leading to cost savings and enhanced reliability in various industries.

Questions about Energy-Efficient Injection Devices: 1. How does decoupling the electronic component from the energy source help conserve energy in injection devices? 2. What are the potential benefits of using this technology in medical devices and consumer electronics?

Frequently Updated Research: Stay updated on the latest advancements in energy-efficient technologies for injection devices to ensure optimal performance and energy conservation in various applications.

Original Abstract Submitted

Embodiments of the present disclosure are directed to conserving energy of an injection device that includes an energy source, an electronic component configured to be electrically decoupled from the energy source, a priming component configured to generate a trigger, and a mechanism attached to the priming component and configured to perform operations comprising in response to receiving the trigger, electrically coupling the energy source to the electronic component.