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Switching the coils on and off generates some commutation noise. Instead of switching the power to the entire fan on and off, only the power to the drive coils is switched, making the tach information available continuously. In addition to the power, ground, and tach signal, 4-wire fans have a PWM input, which is used to control the speed of the fan. This feature is implemented in a number of Analog Devices fan controllers, such as the ADM1031 and the ADT7460. In order to be sure of a correct fan speed reading under PWM control, it is necessary to periodically switch the fan on long enough to get a complete tach cycle. Tachometer-output waveform in 3-wire fans-ideal, and under PWM control. Thus, while the ideal tach is representative of the actual speed of the fan, the PWM drive in effect “chops” the tach signal output and may produce erroneous readings. Because the tach output is typically from an open drain, it will float high when the PWM drive is off, as shown in Figure 1. When the PWM drive is switched to the off phase, the fan’s internal tach signal-generation circuitry is also off. With low- frequency PWM, however, the tach signal is valid only when power is applied to the fan-that is, during the on phase of the pulse. It is always valid, since power is continuously applied to the fan. The tach signal, when driven by a dc voltage, has a square-wave output closely resembling the “ideal tach” in Figure 1. The tach signal indicates whether the fan is running and its rate of speed. The difference between 2-wire fans and 3-wire fans is the availability of feedback from the fan for closed-loop speed control. This form of speed control is open-loop.Ī 3-wire fan can be controlled using the same kind of drive as for 2-wire fans-variable dc or low-frequency PWM. This means that there is no indication as to how fast the fan is running-or indeed, if it is running at all. However, with only two wires, a tach signal is not readily available. PWM, in brief, uses the relative width of pulses in a train of on-off pulses to adjust the level of power applied to the motor.Ī 2-wire fan is controlled by adjusting either the dc voltage or pulse width in low-frequency PWM. A 4-wire fan has power, ground, a tach output, and a PWM-drive input. A 3-wire fan has power, ground, and a tachometric (“tach”) output, which provides a signal with frequency proportional to speed.
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What these systems all have in common, besides significantly smaller-and still decreasing-size, is that the amount of heat they must dissipate does not decrease often it increases! In the notebook PC, much of the heat is generated by the processor in the projector, most of the heat is generated by the light source. Other examples of this trend include projection systems and set-top boxes. Thin and “Lite,” notebook PCs have shrunk significantly, yet their processing power has been maintained or increased. Consequently, lots of electronic components are being shoehorned into very small form factors. The trend in electronics, particularly consumer electronics, is towards smaller products with enhanced combinations of features.
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This article will describe how and why this evolution has taken place and will suggest some useful approaches for the designer. However, in recent years, the technology of using these fans has evolved significantly. Compact electrical fans are cheap and have been used for cooling electronic equipment for more than half a century. Interest has been growing in integrated circuits for controlling the speed of cooling fans in personal computers and other electronic equipment.