Given the high cost of electrical power, replacing a conventional on/off temperature control with a proportional controller can often save energy and money. Figure 1 shows a low-cost, high-efficiency, time-proportional temperature controller for a residential water heater. An Analog Devices ADT14, IC₁, serves multiple functions as a temperature sensor, quad-setpoint, programmable analog temperature monitor and controller. Resistors R₁, R₂, R₃, R₄, and R₅ adjust desired temperature at setpoints SETP1, SETP2, SETP3, and SETP4, which IC₁ compares with the actual temperature from its internal sensor. The ADT14's active-low open-collector outputs drive Input Port A of IC₂, an 8-bit Motorola/Freescale 68HC908QT4 microcontroller that provides 4 kbytes of flash memory, 128 bytes of RAM, and an on-chip clock oscillator.

Click here for a zip file that contains, Listing 1, which in turn contains commented assembly-language software. When you load it into the microcontroller's flash memory, the software provides the time-proportional control algorithm. When IC₁'s OUT1, OUT2, OUT3, and OUT4 outputs are inactive, IC₂ switches its output PTA4 to a totally on-state, 100% duty cycle for maximum heating. Also in the zip file, Listing 2 contains an assembled version of the software, and Listing 3 presents the hex code for programming IC₂.

When IC₁'s OUT1 output is active, IC₂ produces a 75%-duty-cycle output on PTA4. In similar fashion, when IC₁'s OUT2 output goes active, IC₂ produces a 50%-duty-cycle output on PTA4, and when IC₁'s OUT3 output goes active, IC₂ produces a 25%-duty-cycle output on PTA4. When IC₁'s OUT4 output goes active, IC₁ disables the output on PTA4 to produce a totally off state (0% duty cycle). Table 1 summarizes the relationship of IC₂'s inputs and output duty cycle.

To minimize component count, IC₂'s internal oscillator generates a 12.8-MHz clock that divides to produce a sample pulse whose basic width is 0.1 sec for each 1% of output on-time. One cycle of output comprises 100 samples for a total duration of 10 sec. Thus, for a 25% duty cycle, IC₂'s output PTA4 generates a 2.5-sec on interval followed by a 7.5-sec off interval. One section of an open-collector hex inverter, IC_3A, a 74LS06, drives optocoupler IC₄, an MOC3043, which features an internal zero-crossing circuit and pilot triac. Power triac Q₁, a TIC263M rated for 600V and 25A, controls application of power to the water heater's 2-kW resistive heating element. For best results, place IC₁ in close thermal contact with the water heater's inner tank.

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