Why do conventional line-voltage thermostats lack precise temperature control?

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Multiple Choice

Why do conventional line-voltage thermostats lack precise temperature control?

Explanation:
Conventional line-voltage thermostats rely on a bimetal strip to sense temperature and snap the circuit open or closed. That strip has significant mass, so it has thermal inertia: it heats up and cools slowly as room temperature changes. Because of this slow response, the switch can’t track small fluctuations in temperature, leading to a noticeable lag and a wider on/off swing (deadband). The result is less precise temperature control. These devices aren’t using digital sensing or fast electronic feedback, and calibration isn’t the main limiting factor—the mechanical inertia of the bimetal is.

Conventional line-voltage thermostats rely on a bimetal strip to sense temperature and snap the circuit open or closed. That strip has significant mass, so it has thermal inertia: it heats up and cools slowly as room temperature changes. Because of this slow response, the switch can’t track small fluctuations in temperature, leading to a noticeable lag and a wider on/off swing (deadband). The result is less precise temperature control. These devices aren’t using digital sensing or fast electronic feedback, and calibration isn’t the main limiting factor—the mechanical inertia of the bimetal is.

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