High-grade transistor bistable multivibrator kit designed for precise electronic switching applications. Durable components ensure stable performance in lab setups.
Original price was: ₹3,000.00.₹2,100.00Current price is: ₹2,100.00.
Product Material – High-quality transistors, resistors, capacitors, and PCB
Grade – Laboratory/Educational Grade
Application – Digital switching, memory circuits, flip-flop experiments
The Bistable Multivibrator Using Transistors is a fundamental electronic circuit kit designed for reliable digital switching and memory applications. Built with high-quality transistors, precision resistors, and durable capacitors, this kit ensures stable performance in laboratory environments. The circuit operates as a flip-flop, maintaining one of two stable states until triggered by an external input, making it ideal for experiments requiring binary state retention. The included PCB provides a robust platform for assembly, reducing noise interference and ensuring consistent results. This kit is engineered for educational purposes, offering hands-on experience in understanding bistable circuits, transistor behavior, and digital logic fundamentals. The components are selected for longevity and accuracy, ensuring repeatable experiments and reliable data collection. Whether used in academic labs or research setups, this bistable multivibrator delivers consistent performance, making it a valuable addition to any electronics workbench.
This kit includes transistors, resistors, capacitors, and a pre-designed PCB for easy assembly and reliable operation.
This kit is optimized for educational and low-to-moderate frequency switching experiments, not for high-speed industrial applications.
Alternatives include IC-based flip-flop kits like the 74LS74 or CMOS 4013, but this transistor-based kit offers deeper insight into fundamental circuit behavior.
Store the kit in a dry, dust-free environment at room temperature, preferably in an anti-static bag to protect the components.
Yes, it operates within the typical 5V–12V DC range, making it compatible with most standard laboratory power supplies.
This high-quality, laboratory-grade transformer ensures stable and reliable power for Sodium Vapour Lamps. Ideal for various lab applications, providing consistent performance for critical experiments and educational demonstrations.
Our friction boards are designed for physics laboratories to demonstrate the laws of static and kinetic friction on an inclined plane.
Our Zener diodes are designed for precise voltage regulation, breakdown voltage testing, and electronics experiments. Widely used in physics labs, engineering colleges, and electronics servicing, these components ensure consistent performance in a variety of applications.
Our Welch Type tuning forks are precision instruments designed for physics experiments, medical diagnostics, and acoustic research. Made from high-grade steel for consistent frequency output, they are available individually or as complete tuning fork sets, making them ideal for schools, colleges, and research labs.
Our potentiometers are high-quality variable resistors used widely in electronics labs, educational institutes, and industrial applications across India.
Original price was: ₹3,000.00.₹2,100.00Current price is: ₹2,100.00.
High-grade transistor bistable multivibrator kit designed for precise electronic switching applications. Durable components ensure stable performance in lab setups.
Product Material – High-quality transistors, resistors, capacitors, and PCB
Grade – Laboratory/Educational Grade
Application – Digital switching, memory circuits, flip-flop experiments
The Bistable Multivibrator Using Transistors is a fundamental electronic circuit kit designed for reliable digital switching and memory applications. Built with high-quality transistors, precision resistors, and durable capacitors, this kit ensures stable performance in laboratory environments. The circuit operates as a flip-flop, maintaining one of two stable states until triggered by an external input, making it ideal for experiments requiring binary state retention. The included PCB provides a robust platform for assembly, reducing noise interference and ensuring consistent results. This kit is engineered for educational purposes, offering hands-on experience in understanding bistable circuits, transistor behavior, and digital logic fundamentals. The components are selected for longevity and accuracy, ensuring repeatable experiments and reliable data collection. Whether used in academic labs or research setups, this bistable multivibrator delivers consistent performance, making it a valuable addition to any electronics workbench.
This kit includes transistors, resistors, capacitors, and a pre-designed PCB for easy assembly and reliable operation.
This kit is optimized for educational and low-to-moderate frequency switching experiments, not for high-speed industrial applications.
Alternatives include IC-based flip-flop kits like the 74LS74 or CMOS 4013, but this transistor-based kit offers deeper insight into fundamental circuit behavior.
Store the kit in a dry, dust-free environment at room temperature, preferably in an anti-static bag to protect the components.
Yes, it operates within the typical 5V–12V DC range, making it compatible with most standard laboratory power supplies.
High-capacity Step Down Transformer providing robust and adjustable AC power for demanding laboratory applications. Ensures consistent voltage for higher current needs, enhancing precision and safety in advanced experiments.
Our resistance boxes provide a reliable and adjustable source of resistance for electrical experiments, calibration, and testing.
Our insect nets are specially designed to protect your crops and plants from harmful insects and pests. Made from high-quality nylon mesh, these nets ensure optimal airflow while keeping pests out, making them ideal for greenhouses, polyhouses, and open-field cultivation.
Our rheostats are designed for precise control of current in electrical circuits, making them ideal for physics experiments, electrical training, and industrial testing.
Our Maxwell needle apparatus is designed for physics laboratories to perform the Maxwell needle experiment, helping students and researchers determine the modulus of rigidity of materials.
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