This paper describes a novel cell used in circuits with Floating Gate MOS transistors (FGMOS) to compensate variations in the device effective threshold voltages caused by the trapped charge at the floating gate. The performance of the circuit is illustrated with experimental results showing a residual error below 1%. This coarse compensation makes possible to reduce charge effects to the same order of magnitude than the conventional mismatching in normal MOS transistors
A novel square root circuit using floating gate MOS (FGMOS) transistors operating in the saturation ...
A second-order gm-C filter based on the Floating-Gate MOS (FGMOS) technique is presented. It uses a ...
This paper presents the rationale for vMOS-based realizations of digital circuits when logic design ...
This paper presents the ability of floating gate MOSFET (FGMOS) threshold voltage to be programmed o...
We extend a class of analog CMOS circuits that can be used to perform many analog computational task...
This paper proposes a new floating gate MOSFET (FGMOS) based voltage-controlled grounded resistor. I...
Floating-gate MOS transistor (FGMOS) has proved to be suitable for low-voltage analog applications, ...
Journal ArticleThe exponential behavior of MOSFETs in subthreshold operation has recently been expl...
This paper presents a new low voltage/low power filter design based on Floating-Gate MOS (FGMOS) tra...
A novel 4-quadrant analog multiplier using Floating Gate MOS (FGMOS) transistors operating in satura...
To reduce power consumption in electronic designs, new techniques for circuit design must always be ...
The programmability property of floating-gate transistors is exploited in this work to compensate fo...
Journal ArticleThe complexity of analog VLSI systems is often limited by the number of pins on a ch...
This dissertation describes using theory, computer simulations and laboratory measurements a new cla...
A computer simulated substrate response of an n-channel MOS floating gate transistor to a positive l...
A novel square root circuit using floating gate MOS (FGMOS) transistors operating in the saturation ...
A second-order gm-C filter based on the Floating-Gate MOS (FGMOS) technique is presented. It uses a ...
This paper presents the rationale for vMOS-based realizations of digital circuits when logic design ...
This paper presents the ability of floating gate MOSFET (FGMOS) threshold voltage to be programmed o...
We extend a class of analog CMOS circuits that can be used to perform many analog computational task...
This paper proposes a new floating gate MOSFET (FGMOS) based voltage-controlled grounded resistor. I...
Floating-gate MOS transistor (FGMOS) has proved to be suitable for low-voltage analog applications, ...
Journal ArticleThe exponential behavior of MOSFETs in subthreshold operation has recently been expl...
This paper presents a new low voltage/low power filter design based on Floating-Gate MOS (FGMOS) tra...
A novel 4-quadrant analog multiplier using Floating Gate MOS (FGMOS) transistors operating in satura...
To reduce power consumption in electronic designs, new techniques for circuit design must always be ...
The programmability property of floating-gate transistors is exploited in this work to compensate fo...
Journal ArticleThe complexity of analog VLSI systems is often limited by the number of pins on a ch...
This dissertation describes using theory, computer simulations and laboratory measurements a new cla...
A computer simulated substrate response of an n-channel MOS floating gate transistor to a positive l...
A novel square root circuit using floating gate MOS (FGMOS) transistors operating in the saturation ...
A second-order gm-C filter based on the Floating-Gate MOS (FGMOS) technique is presented. It uses a ...
This paper presents the rationale for vMOS-based realizations of digital circuits when logic design ...