Add to ORKGDigital-to-analog converts utilizing neuron MOS-transistors were designed. A 8-bit version is implemented with only one neuron MOS-transistor and 8 capacitors. The silicon area of the D/A converter is only 0.04 mm 2 and the power consumption is 7.5 mW at 200 MS/s. The measured DNL is 0.23 LSB and INL 0.47 LSB. An enhanced version is also proposed. The silicon area of the enhanced circuit is smaller while the number of the bits can be increased to 10. A method to increase the linearity of the proposed D/A converters is presented
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
Neuromorphic circuits aim at emulating biological spiking neurons in silicon hardware. Neurons can b...
A digital system is proposed for low power 100- channel neural recording system in this paper, which...
Digital-to-analog converts utilizing neuron MOS-transistors were designed. Different DACs were imple...
The neuron MOS transistor is a recently discovered device which is capable of executing a weighted s...
Analog to digital converter (ADC) is an important building block for modern electronic design. There...
This paper deals with an improved neural based analog to digital converter. New architecture is prop...
Abstract — The paper presents experimental demonstration of 6-bit digital-to-analog (DAC) and 4-bit ...
A design of low-power 32-channel neural recording system with on-chip high-resolution A/D converters...
Improved structures for neuron MOSFETs, which can execute a weighted summation of multiple input sig...
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
In this paper, a new A D converter architecture is proposed which includes the benefits of the neura...
The neuron-MOS (neu-MOS) transistor, recently discovered by Shibata and Ohmi in 1991 [T. Shibata, T....
Abstract—We report the design of an ultra-low-power 32-channel neural-recording integrated circuit (...
In this paper, a new A/D converter architecture is proposed which includes the benefits of the neura...
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
Neuromorphic circuits aim at emulating biological spiking neurons in silicon hardware. Neurons can b...
A digital system is proposed for low power 100- channel neural recording system in this paper, which...
Digital-to-analog converts utilizing neuron MOS-transistors were designed. Different DACs were imple...
The neuron MOS transistor is a recently discovered device which is capable of executing a weighted s...
Analog to digital converter (ADC) is an important building block for modern electronic design. There...
This paper deals with an improved neural based analog to digital converter. New architecture is prop...
Abstract — The paper presents experimental demonstration of 6-bit digital-to-analog (DAC) and 4-bit ...
A design of low-power 32-channel neural recording system with on-chip high-resolution A/D converters...
Improved structures for neuron MOSFETs, which can execute a weighted summation of multiple input sig...
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
In this paper, a new A D converter architecture is proposed which includes the benefits of the neura...
The neuron-MOS (neu-MOS) transistor, recently discovered by Shibata and Ohmi in 1991 [T. Shibata, T....
Abstract—We report the design of an ultra-low-power 32-channel neural-recording integrated circuit (...
In this paper, a new A/D converter architecture is proposed which includes the benefits of the neura...
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
Neuromorphic circuits aim at emulating biological spiking neurons in silicon hardware. Neurons can b...
A digital system is proposed for low power 100- channel neural recording system in this paper, which...