Hi, My project involves using sensors to collect data in a shock tube that employs an automotive (>35kV, 175mJ of energy sparks) and capacitive discharge (2kV, 2Joules of energy arcs) ignition system to initiate combustion of fuel+O2. However, the signals collected by the NI DAQ is overwhelmed by noise caused by the ignition sparks/arcs, as high as 5V or perhaps more because the noise signal is saturated and cut off at 5V.
Background: The DAQ consists of a PXI-1042 chassis with two PXI 6133 cards. The DAQ is connected to a PC located in another room by a 30m fiber optic cable (MXI-4 cards). The sensors are connected to the PXI-6133 cards by means of BNC 2110 panels using the BNC coaxial Analog Input sockets. Pressure transducers (piezo type) output is connected through a signal conditioner to the BNC2110. Other sensors include a load cell and accelerometer (also piezo type, through the signal conditioner) and type K thermocouples connected directly to the BNC2110 panel.
The igntion sparks are discharged at varying rates from 10 to 50 Hz as desired. The required signals from the sensors also vary at these frequencies. Therefore a Low pass filter is out of the question. The sensors when connected to a digital oscilloscope did not show any noise.
All cables (sensor wires, coaxial data cables, and the power cables of the ignition) have been shielded and grounded. The BNC2110 sockets are set to "Grounded Source". However, the noise is still very strong at 5V. Even the channels that are unplugged on the BNC2110 show the same noise pattern up to 5V, which correspond exactly with the firing of the sparks/arcs. We tried putting the DAQ within a grounded metallic box and moving it outside the room, but still the noise is not alleviated.
The only thing that worked is to reduce the current in the ignition by connecting a series resistor thereby reducing the power of the sparks. This way we are able to get good sensor readings. However, the capacitive discharge delivers currents as high as 2000A, again causing a noise deluge. Also higher igntion energy yields better combustion, so we would really like to use higher ignition currents.
Does anyone have any insights as to what we can do to cut down the noise, if I am doing anything wrong or can you just point me in the right direction?
Thank you very much
Philip Panicker
GTA
Aerospace Engineering
University of Texas at Arlington
