Add to ORKGIn this paper, we present an embedded chip integration technology that utilizes silicon housings and flexible parylene radio frequency (RF) coils. As a demonstration of this technology, a flexible parylene RF coil has been integrated with an RF identification (RFID) chip. The coil has an inductance of 16 μH, with two layers of metal completely encapsulated in parylene-C. The functionality of the embedded chip is verified using an RFID reader module. Accelerated-lifetime soak testing has been performed in saline, and the results show that the silicon chip is well protected and the lifetime of our parylene-encapsulated RF coil at 37 °C is more than 20 years
This work presents a novel coil fabrication technology to enhance quality factor (Q factor) of micro...
This paper reports a new chip packaging technique for the assembly of retinal prosthesis device. Her...
Nowadays, as aging population increasing yearly, the health care technologies for elder people who c...
In this paper, we present an embedded chip integration technology that utilizes silicon housings an...
This paper presents an embedded chip integration technology that incorporates silicon housings and ...
This paper presents a new 3D bottom-up packing technology for integrating a chip, an induction coil,...
We present a flexible and fully-implantable coil designed for use as a power and data transfer compo...
A microfabricated and fully-implantable coil for use as a power and data transfer component for reti...
Current state-of-the-art technologies for retinal prosthetics suffer greatly from complicated IC pac...
The degeneration of the outer retina usually causes blindness by affecting the photoreceptor cells. ...
We present the design, fabrication and characterization of parylene-packaged flexible pentacene thin...
The retinal prosthesis initiative at the Biomimetic Microelectronic Systems (BMES) center, an Nation...
The recent trend in implantable medical devices, toward being small, lightweight, flexible, and wire...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...
We present the first single metal layer flexible microelectrode arrays designed for intraocular impl...
This work presents a novel coil fabrication technology to enhance quality factor (Q factor) of micro...
This paper reports a new chip packaging technique for the assembly of retinal prosthesis device. Her...
Nowadays, as aging population increasing yearly, the health care technologies for elder people who c...
In this paper, we present an embedded chip integration technology that utilizes silicon housings an...
This paper presents an embedded chip integration technology that incorporates silicon housings and ...
This paper presents a new 3D bottom-up packing technology for integrating a chip, an induction coil,...
We present a flexible and fully-implantable coil designed for use as a power and data transfer compo...
A microfabricated and fully-implantable coil for use as a power and data transfer component for reti...
Current state-of-the-art technologies for retinal prosthetics suffer greatly from complicated IC pac...
The degeneration of the outer retina usually causes blindness by affecting the photoreceptor cells. ...
We present the design, fabrication and characterization of parylene-packaged flexible pentacene thin...
The retinal prosthesis initiative at the Biomimetic Microelectronic Systems (BMES) center, an Nation...
The recent trend in implantable medical devices, toward being small, lightweight, flexible, and wire...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...
We present the first single metal layer flexible microelectrode arrays designed for intraocular impl...
This work presents a novel coil fabrication technology to enhance quality factor (Q factor) of micro...
This paper reports a new chip packaging technique for the assembly of retinal prosthesis device. Her...
Nowadays, as aging population increasing yearly, the health care technologies for elder people who c...