ANWENDUNGSBEISPIEL
Introduction
This application note shows how the Pulsed Flow Sensor (PFS) can be used to measure the strong pulsating flow from a piezo-membrane micro pump.
Used Material
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Pulsed Flow Sensor V3
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PFS controller with User Interface
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Bartels mp6 pump and controller ( www.bartels-mikrotechnik.de )
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Water container 50 ml
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Silicone Tubing
Experiment setup
The PFS was connected to a Bartels mp6 with a silicone tubing of about 6 cm in length. The tubing was then connected to a distilled water reservoir to build a pumping circuit.
The pump was actuated with different pulse forms and frequencies. The measurement mode of the PFS was set to “Droplet Mode” to produce measurement sequences at very high sampling rates of 20 kHz.
Pulse measurements
To measure single pumping pulses, a pumping frequency of 15 Hz was chosen, and the PFS was triggered with a sampling time of 140 milliseconds to capture three consecutive pulses.
Even with the rather flexible tube of 60 mm between the pump and the sensor, the pulses are detected very sharply with a high resolution of 10 kHz.
The pulse volume of 1.63 microliters can easily be evaluated from the integral of three measured pulses. Between the pulses the flow rate goes down to zero (negative flow rates are not measured).
Voltage modulation
To characterize the influence of the pulse Voltage, the pump was run at 100 Hz. In 4 consecutive measurements, the voltage was raised from 100 to 250 Volts. An overlay of the sequences (140 ms) shows how the voltage influences the volume flow.
