Abstract
A novel impedance sensor based on a microfluidic chip is presented. The sensor consists of two single-layer coils and a straight micro-channel, and can detect, not only ferromagnetic and non-ferromagnetic particles in oil as an inductive sensor, but also, water droplets and air bubbles in oil as a capacitive sensor. The experiments are carried out at different excitation frequencies, number of coil turns and particle sizes. For the inductance detection, the inductance signals are found to increase with the excitation frequency and the noise is constant; both the inductance signals and the noise increase with the number of coil turns, but because the noise increases at a faster rate than the signal, the signal-to-noise ratio decreases with the number of coil turns. We demonstrate the successful detection of 40 μm iron particles and 110 μm copper particles using the coil with 20 turns at the excitation frequency of 2 MHz. For the capacitance detection, capacitance signals decrease with the excitation frequency and the noise is constant; the capacitance signals decrease with the number of coil turns, while the noise increases, thus, the signal-to-noise ratio decreases with the number of coil turns. We can detect 100 μm water droplets and 180 μm bubbles successfully using the coil with 20 turns at the excitation frequency of 0.3 MHz.
Highlights
The hydraulic system has become an important part of large mechanical equipment
The excitation frequency was varied in the range of 1.2 to 2 MHz for iron particle detection and in the range of 1.6 to 2 MHz for copper particle detection
The inductance signals were found to increase with the excitation frequency and the noise is constant at different frequencies; both the inductance signals and the noise increase with the number of coil turns, but because the noise increases at a faster rate than the signal, the SNR decreases with the number of coil turns
Summary
The hydraulic system has become an important part of large mechanical equipment. With the development of hydraulic technology towards high speed, high pressure and small size, many kinds of control elements with high sensitivity and complicated structure are introduced into hydraulic systems. To fabricate the detection chip, a model of two coils and a straight micro-channel was made first. The two single-layer coils were each made of enamel copper wire and winded by a winding machine (Shili SRDZ23-1B, Zhongshan ShiLi Wire Winder Equipment Co., Ltd., Zhongshan, China); the winding direction of the two coils was the same and the number of turns is varied according to different experiments. The straight micro-channel model was made of a copper rod with a diameter of 300 μm and a length of 7 cm It was put into the coil inner hole close to the inner wall (see Figure 1c). The diameter of the micro-channel model equals to the diameter of the straight micro-channel
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