20240047892. 3D PRINTED RADIO FREQUENCY ABSORBER simplified abstract (Unknown Organization)
Contents
3D PRINTED RADIO FREQUENCY ABSORBER
Organization Name
Inventor(s)
Frederick Matthew Espiau of Topanga CA (US)
Gregory Peter Le Sage of Redwood City CA (US)
3D PRINTED RADIO FREQUENCY ABSORBER - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240047892 titled '3D PRINTED RADIO FREQUENCY ABSORBER
Simplified Explanation
The abstract describes a system for producing a 3D printed radio frequency (RF) absorber. The system includes a computer that generates a computer model and a 3D printer. The 3D printer has an extruder controlled by a motor, which is directed by the computer to deposit melted plastic filament loaded with an RF absorber material in computer-controlled patterns based on the computer model. This process creates an RF absorber with a custom profile of desired RF absorption properties and desired dielectric properties.
- The system includes a computer and a 3D printer.
- The computer generates a computer model.
- The 3D printer has an extruder controlled by a motor.
- The computer directs the motor to deposit melted plastic filament loaded with an RF absorber material.
- The plastic filament is deposited in computer-controlled patterns based on the computer model.
- The resulting RF absorber has a custom profile of desired RF absorption properties and desired dielectric properties.
Potential Applications:
- RF shielding in electronic devices
- Antenna design and optimization
- Electromagnetic compatibility testing
Problems Solved:
- Traditional RF absorbers are often limited in terms of shape and customization.
- Producing RF absorbers with desired properties can be time-consuming and expensive.
- The system allows for the production of RF absorbers with custom profiles and desired properties in a more efficient and cost-effective manner.
Benefits:
- Customizable RF absorbers for specific applications
- Faster and more cost-effective production of RF absorbers
- Improved performance and efficiency of electronic devices with RF shielding
Original Abstract Submitted
described is a system for producing a three-dimensional (3d) printed radio frequency (rf) absorber. the system includes a computer configured to produce a computer model and a 3d printer. the 3d printer has an extruder controlled by a motor directed by the computer to deposit melted plastic filament loaded with a rf absorber material in computer controlled patterns according to the computer model to produce a rf absorber having a custom profile of desired rf absorption properties and desired dielectric properties.