RECORDING DEVICE

Organization Name

seiko epson corporation

Inventor(s)

Takashi Gokuden of AZUMINO-SHI (JP)

Hiroki Nishioka of SUWA-SHI (JP)

RECORDING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240326466 titled 'RECORDING DEVICE

The patent application describes a recording device that utilizes a laser element to emit laser light, a light reception element, a moving mechanism to adjust the position of the laser element relative to the recording target object and the light reception element, and a control unit to manage the laser element and the moving mechanism.

• Laser element emits laser light
• Moving mechanism changes relative positions of laser element and recording target object
• Control unit manages laser element and moving mechanism
• First process irradiates light reception element with laser light
• Second process irradiates recording target object with laser light based on detection value of light reception element

Potential Applications: - High precision recording devices - Data storage systems - Optical communication devices

Problems Solved: - Ensures accurate and controlled laser light irradiation - Facilitates precise recording on target objects

Benefits: - Improved recording accuracy - Enhanced data storage capabilities - Increased efficiency in optical communication

Commercial Applications: Title: Advanced Laser Recording Devices for Data Storage Systems This technology can be utilized in industries such as data storage, optical communication, and high-precision manufacturing, leading to improved efficiency and accuracy in various processes.

Questions about Laser Recording Devices: 1. How does the control unit manage the laser element and moving mechanism? The control unit controls the laser element and moving mechanism to ensure precise laser light irradiation on the recording target object. 2. What are the potential applications of this laser recording technology? This technology can be applied in data storage systems, optical communication devices, and high-precision manufacturing processes.

Original Abstract Submitted

a recording device includes a laser element configured to emit laser light, a light reception element, a moving mechanism configured to change a relative position of the laser element and a recording target object and a relative position of the laser element and the light reception element, and a control unit configured to control the laser element and the moving mechanism. the control unit performs a first process of controlling the laser element and the moving mechanism to irradiate the light reception element with laser light in a state where the laser element and the light reception element face each other, and a second process of controlling the laser element and the moving mechanism to irradiate the recording target object with laser light based on a detection value of the light reception element in a state where the laser element and the recording target object face each other.