In this work, high-voltage monolithic 3D capacitors operating at 100 V (6 MV/cm) are fabricated by the use of a through silicon-via-based technology. Electric characteristics of the monolithic 3D capacitors exhibit a capacitance density of 17 times larger than that of the planar capacitors with an equal contact area and identical dielectric thicknesses. The impact of the 3D architecture of capacitors on their electrical properties is studied for various patterns and geometries. TSV-based capacitors with a hexagonal arrangement of the holes and 20 μm hole diameters exhibit a capacitance deviation of 0.8% at 150 °C in accumulation, justifying the capability of TSV-based capacitors to operate even at high-temperatures. Furthermore, a high diel...
International audienceThis paper presents the state of the art technologies currently used to produc...
Capacitors are the most critical passive components of future in-package and on-chip electronic syst...
This paper presents a novel technique for the fabrication of ultrahigh capacitance structures based ...
In this work, we introduce a high voltage 3D-capacitor as a novel passive power device for a 400 V a...
In this work, we introduce a high voltage 3D-capacitor as a novel passive power device for a 400V ap...
The concept of 3D capacitor embedded in TSV has been proposed recently to achieve ultrahigh capacita...
The through-silicon via (TSV) structure with enhanced capacitance is proposed for the power distribu...
In this work, a new design of 3-D MIM capacitor embedded in partially-filled TSV is proposed and eva...
Performance of deep-sub micrometer Very Large Scale Integrated (VLSI) circuits is being increasingly...
This paper focuses on the scaling and optimization of metal-isolator-metal capacitors integrated in ...
Performance of deep-sub micrometer Very Large Scale Integrated (VLSI) circuits is being increasingly...
Abstract. As the technology of three dimension integrated circuit (3D IC) develop quickly, through s...
A new approach to implement integrated capacitors with an excellent capacitance density, called the ...
In this thesis, a novel integrated capacitor, called “three-dimensional (3-D) embedded capacitor” is...
The increasing request of on-chip energy storage devices is driven by the augmented connectivity bet...
International audienceThis paper presents the state of the art technologies currently used to produc...
Capacitors are the most critical passive components of future in-package and on-chip electronic syst...
This paper presents a novel technique for the fabrication of ultrahigh capacitance structures based ...
In this work, we introduce a high voltage 3D-capacitor as a novel passive power device for a 400 V a...
In this work, we introduce a high voltage 3D-capacitor as a novel passive power device for a 400V ap...
The concept of 3D capacitor embedded in TSV has been proposed recently to achieve ultrahigh capacita...
The through-silicon via (TSV) structure with enhanced capacitance is proposed for the power distribu...
In this work, a new design of 3-D MIM capacitor embedded in partially-filled TSV is proposed and eva...
Performance of deep-sub micrometer Very Large Scale Integrated (VLSI) circuits is being increasingly...
This paper focuses on the scaling and optimization of metal-isolator-metal capacitors integrated in ...
Performance of deep-sub micrometer Very Large Scale Integrated (VLSI) circuits is being increasingly...
Abstract. As the technology of three dimension integrated circuit (3D IC) develop quickly, through s...
A new approach to implement integrated capacitors with an excellent capacitance density, called the ...
In this thesis, a novel integrated capacitor, called “three-dimensional (3-D) embedded capacitor” is...
The increasing request of on-chip energy storage devices is driven by the augmented connectivity bet...
International audienceThis paper presents the state of the art technologies currently used to produc...
Capacitors are the most critical passive components of future in-package and on-chip electronic syst...
This paper presents a novel technique for the fabrication of ultrahigh capacitance structures based ...