INVERTER_AND_PULSE_STRETCHER
The circuit samples the output of a multiplexer and provides the necessary current for driving a transfluxor in an analog-to-digital converter that generates a six-bit binary Gray code. -N. Aron and C. Granger, Analog-To-Digital Converter Uses Transfluxors, Electronics, 35:20, p 62-66.
The described circuit operates by utilizing a multiplexer to sample input signals, which are subsequently processed to generate the required output for a transfluxor. A transfluxor is a specialized component used in analog-to-digital converters (ADCs) that converts analog signals into a digital format, specifically producing a six-bit binary Gray code. This code is advantageous in digital systems due to its property of changing only one bit at a time during transitions, which minimizes errors and enhances reliability in digital communication.
In this circuit, the multiplexer selects among multiple input signals based on control signals, allowing for efficient sampling of the desired analog input. The output from the multiplexer is then directed to the transfluxor, which requires a specific current to operate effectively. The design must ensure that the current supplied is stable and meets the operational requirements of the transfluxor to achieve accurate analog-to-digital conversion.
The integration of these components in the circuit is crucial for achieving the desired performance in ADC applications. The design considerations include the selection of the multiplexer, the characteristics of the transfluxor, and the current-driving capability of the circuit to ensure optimal operation and fidelity in the conversion process. Overall, this circuit exemplifies an effective approach to analog-to-digital conversion utilizing advanced components and techniques.Circuit likes sampled output of multiplexer and provides current required for driving transfluxor in analog-digital converter that produces six-bit binary Gray code. -N. Aron and C. Granger, Analog-To-Digital Converter Uses Transfluxors, Electronics, 35:20, p 62-66. 🔗 External reference
The described circuit operates by utilizing a multiplexer to sample input signals, which are subsequently processed to generate the required output for a transfluxor. A transfluxor is a specialized component used in analog-to-digital converters (ADCs) that converts analog signals into a digital format, specifically producing a six-bit binary Gray code. This code is advantageous in digital systems due to its property of changing only one bit at a time during transitions, which minimizes errors and enhances reliability in digital communication.
In this circuit, the multiplexer selects among multiple input signals based on control signals, allowing for efficient sampling of the desired analog input. The output from the multiplexer is then directed to the transfluxor, which requires a specific current to operate effectively. The design must ensure that the current supplied is stable and meets the operational requirements of the transfluxor to achieve accurate analog-to-digital conversion.
The integration of these components in the circuit is crucial for achieving the desired performance in ADC applications. The design considerations include the selection of the multiplexer, the characteristics of the transfluxor, and the current-driving capability of the circuit to ensure optimal operation and fidelity in the conversion process. Overall, this circuit exemplifies an effective approach to analog-to-digital conversion utilizing advanced components and techniques.Circuit likes sampled output of multiplexer and provides current required for driving transfluxor in analog-digital converter that produces six-bit binary Gray code. -N. Aron and C. Granger, Analog-To-Digital Converter Uses Transfluxors, Electronics, 35:20, p 62-66. 🔗 External reference