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[光电电路] 微型温度监视器控制3速风扇

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admin 发表于 2013-1-17 07:50:39 | 显示全部楼层 |阅读模式

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微型温度监视器控制3速风扇-Miniature Temperature Monitors Drive 3-Speed Fan Controller
  Combining a switch-mode DC-DC controller with two low-cost temperature-monitor ICs produces a 3-speed fan controller (Figure 1). Useful in many applications, this circuit cuts noise and power consumption in computers, temperature controllers, and alARM systems.
  
   ET292152010072112512012011060912362012306.gif
  Figure 1. Controlled by the temperature monitors IC1 and IC2, this switch-mode DC-DC controller (IC3) applies either 0V, 8V, or 12V to the fan.
  
  The idea is made possible by IC3's pin-selectable shutdown and output-voltage capabilities. The logic levels applied to those inputs (active-low 3/5 and SHDN), along with properly valued feedback resistors (R2 and R3) set the output-voltage levels (available one at a time) at 0V, 8V, and 12V. In general, the lower voltage (VOUT1, which equals 8V in this case) is determined by the R2 / R3 divider, and the higher voltage (VOUT2) (which equals 12V in this case) is determined by the product of VOUT1 and an internal rati
  
  VOUT1 = 3.3 [(R2+R3) / R3]
  
  VOUT2 = VOUT1(5 / 3.3)
  
  The temperature monitors (IC1 and IC2) have open-drain outputs (active-low TOVER) that are pulled low when the ambient temperature exceeds a factory-programmed internal threshold. The monitors come in tiny SOT23-5 packages, with dedicated thresholds in the +35°C to +115°C range. When the temperature exceeds the threshold of IC2 (+45°C in this example), that device turns on IC3 by pulling its SHDN terminal low. IC3's active-low 3/5 input remains low, producing 3.3V at OUT (and 8V at the fan), until the temperature rises to +65°C. At that time, the IC1 output pulls low, turning off Q2 and allowing R6 to pull the active-low 3/5 input high, which applies 12V to the fan. Q2 is necessary for signal inversion and for meeting the active-low 3/5 input's logic-high threshold (V+ - 0.5V).
  
  IC3's ability to produce 100° duty cycles enables a very low dropout voltage for this application—about 150mV at 1A load. The conversion efficiency is independent of output voltage but varies with output current, ranging from 85° and 96° for currents between 10mA and 1A. The average efficiency is 90°. At low temperatures for which a fan is not required (below +45°C), the switching regulator shuts down and lowers the supply current in this circuit to about 100µA.
  
  A similar idea appeared in the 2/22/ issue of Electronic Design.
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