Use thermoelectric coolers with real-world heat sinks
When using a Peltier thermoelectric cooler with a less-than-perfect heat sink, you must derate the maximum voltage and current applied to the cooler.
W Stephen Woodward, Chapel Hill, NC; Edited by Charles H Small and Fran Granville -- EDN, April 17, 2008
Peltier devices, also known as solid-state refrigerators, or TECs (thermoelectric coolers), actively cool temperature-sensitive electronic components, such as optical detectors and solid-state lasers. A glance at any TEC data sheet reveals that some primary and fairly easily understood parameters characterize a TEC: The maximum current is the TEC’s current drive for maximum cooling, the maximum differential temperature is the no-load cooling temperature at maximum current and with no heat load. The maximum voltage is the TEC’s voltage drop at the maximum-current drive, and the maximum heat transfer (QMAX) is the maximum cooling-heat load at a maximum current and differential temperature of zero.
However, one TEC data sheet proviso that designers sometimes miss is that you always measure these parameters with the TEC mounted on an effectively zero-thermal-impedance—that is, perfect—heat sink. This point is an important one and deserving of the designer’s rapt attention because heat sinks always have at least some thermal impedance, and all the primary TEC parameters change—sometimes dramatically—when the TEC must make do with an imperfect sink.
The family of impedance-versus-current curves in Figure 1 illustrates this effect. Each curve corresponds to a different heat-sink thermal impedance, normalized to one for 11 values from zero to two.
Although the maximum current is, by definition, the optimal current for maximum cooling at a heat-sink impedance of zero, the situation changes radically with increasing impedance until there’s no net cooling whatsoever. Further, for impedance greater than one, instead of cooling, the maximum TEC drive actually heats rather than cools. Figure 2 shows the simple solution for this problem: You must replace the data sheet’s maximum current and voltage values with new, lower maximum-drive values corresponding to the optimal numbers you need to achieve maximum cooling whenever impedance is greater than zero.
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Steven,
Please note the comment just above the Fig. 1 caption. The unit of heatsink impedance I used is DTmax/Qmax, where:
DTmax = max rated TEC no-load cooling-mode Delta T.
Qmax = max TEC heat transfer at DT = 0.
Qualitatively, this scaling reflects the intuitively obvious fact that big TECs need big heatsinks to perform to anything near their rated capacity.
Hope that helps,
Steve Woodward
Steve Wooward - 2008-29-4 16:46:00 PDT -
What does a normalized heat sink impedance of 1 represent if 0 is perfect?
Steven Wilcox - 2008-25-4 18:13:00 PDT
