Abstract
Steering motor is of vital importance in UAV’s health-monitoring system, to which its supply current is the most critical characteristic representing health statue of UAV. In order to conduct continuous measuring on the steering motor’s current of large dynamic range, in this paper, a current measurement method is therefore proposed on the basis of twin nonlinear shunt. The proposed method adopts the twin diode as the current sampling device, which not only realizes measurement range and relative constant resolution, but also ensures continuity of the measurement due to the eliminated operation of range switching. The associated diode is used to compensate the temperature of core temperature of the shunt diode, and to make the nonlinear-shunt more adaptive for the case of junction being heated under larger current. The working principle, real-time compensation method and circuit implementation of our method are discussed in detail. Experimental test results suggest that the measurement error of the proposed method is less than 4.5% when the measurement current varies between 10 mA to 10 A, maintaining the relative resolution at an almost constant level, while preventing the conventional method of frequent range switching from generating glitches. In addition to the ensured continuity, information-rich details of the current are sustained, contributing to the UAV’s health-monitoring system. The proposal can also be applied to other applications concerning large dynamic current detection, including, but not limited to, industrial control, motor control, etc.
Highlights
Intelligentization and autonomy are the evolution trend in the future of the UAV industry; its electrical system develops complicatedly and quantitatively [1]
RealizesInthe continuous measuring multi-range of a large dynamic current existsproposed in the UAV’s steering contrast to conventional current range current that exists in the UAV's steering motor
In contrast to conventional multi-range measurement, the proposed method prevents frequent range switching from generating outliers
Summary
Intelligentization and autonomy are the evolution trend in the future of the UAV industry; its electrical system develops complicatedly and quantitatively [1]. The real-time temperature inside the diode core is hard to obtain Another reason is that the the above method cannot be directly performed in measuring a large current. The method of using twin device to perform internal temperature drop across body resistance cannot be ignored under the condition of large current. The method of using twin device to perform internal temperature compensation at monitoring of the large dynamic current ofenables the UAV’s motor. The errors are induced by temperature rise processing of the twin diode; sharing the same substrate enables an approximation of junction that is causedTherefore, by a largethe current, as well as by the voltage drop on branch body resistance, and can be temperature.
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