Compact and Scalable Voltage-Controlled Resistors: Programmable Optically Variable Resistors for Enhanced Circuit Precision

• Published in: Devices for Integrated Circuit pp. 117 - 121
• Main Authors: Ray, Sneha, Das, Abhigyan, Nandi, Soumen, Chowdhury, Showmith, Adhikary, Priyankar, Mazumdar, Atanu, Mondal, Purba, Mahata, Puja Rani, Bhattacheryya, Kanta, Sarkar, Angsuman, Das, Palash, Acharyya, Aritra
• Format: Conference Proceeding
• Language: English
• Published: IEEE 05.04.2025
• Subjects: Circuit stability; light dependent resistors; Light emitting diodes; programmable optically variable resistor; Resistance; resistance-voltage characteristics; Resistors; Stability analysis; Stimulated emission; Thermal stability; Thermal variables control; Transistors; Voltage control
• ISSN: 2996-3044
• DOI: 10.1109/DevIC63749.2025.11012244

This paper presents a novel Programmable Optically Variable Resistor (POVR) that provides a wide, continuously adjustable resistance range using an LED-LDR (Light Emitting Diode-Light Dependent Resistor) pair, controlled by varying the LED's forward bias voltage. The POVR addresses limitations of fixed-value resistors, offering greater precision, compactness, and cost-effectiveness over digital potentiometers and motorized rheostats. Experimental results confirm its wide resistance range, low parasitic capacitance, and scalability. Thermal stability and temperature dependence were also investigated, highlighting the need for heat-sinking. The POVR is ideal for applications like transistor biasing and RC circuits, with future improvements aimed at enhancing stability and integrating predictive models.