Reduce Power Dissipation With Dropping Capacitors: A Smart Use of Capacitive Reactance
Connecting dropping resistors in series with resistive loads often leads to significant energy dissipation. In AC circuits, using dropping capacitors can greatly minimize this energy loss. For low-power supplies, these capacitors can even serve as a viable alternative to transformers.
Connecting dropping resistors in series with resistive loads often leads to significant energy dissipation. In AC circuits, using dropping capacitors can greatly minimize this energy loss. For low-power supplies, these capacitors can even serve as a viable alternative to transformers.
In electronic design, the problem of voltage drop occurs frequently. A common-sense practice is to avoid high dropout values on resistors or linear regulators, just due to the large amount of energy (and heat) that would be dissipated — and wasted.
Figure 1: Starting from relatively low input voltages, in some cases the use of dropping resistors is still
simple and cost-effective, even from an energy point of view.
A First Practical Example
In AC circuits, the component most commonly employed to induce a large voltage drop is the transformer, but it is bulky, heavy and relatively expensive. To look for a possible solution, let’s start from the practical example shown in Figure 1. It’s a vacu...