1 / 20

The V.P. P.D.R. (Vibrating Probe)

The V.P. P.D.R. (Vibrating Probe). Presented by Zac Eichmeyer And BEMSS ( BioElectromagnetic Student Society). What's a Vibrating Probe. The Vibrating Probe is a device which detects current densities by Vibrating a Probe about a micron in amplitude

camdyn
Télécharger la présentation

The V.P. P.D.R. (Vibrating Probe)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The V.P. P.D.R.(Vibrating Probe) Presented by ZacEichmeyer And BEMSS (BioElectromagnetic Student Society)

  2. What's a Vibrating Probe • The Vibrating Probe is a device which detects current densities by • Vibrating a Probe about a micron in amplitude • Using a Piezo-Electric bender/oscillator • The Probe is fed into a lock in amplifier which allows the probe to be sampled at the same frequency as the bender • Reducing Noise, and giving a voltage reading at the max of its amplitude

  3. The Vibrating Probe

  4. Why build a Vibrating Probe • The Vibrating Probe is an instrument capable of measuring current densities up to 10 nA/cm2 • It is most commonly used to detect Current densities in biological mediums • Will be used in conjunction with other research that BEMSS is doing • Best way of getting sensitive data with out disturbing the cell

  5. Project Definition • This Project will consist of designing, building, implementing and testing of a Vibrating Probe • This will consist of • Design the Probe • Finding the appropriate Oscillator • Piezo-electric is most applicable • Interfacing the Osillator with the probe • Pre amp in series with a Lock-in amplifier • Building the appropriate structure for implemention • Making a data Acquisition systems=

  6. Project Goals • To be able to measure current densities <100 mA/cm2 • To eliminate/control extraneous noise • To build the appropriate test setup to implement the probe with a microscope • Implement into current BEMSS research • Measure current densities in other biological samples

  7. Project Overview (Top Down) • The V.P. Overview(subsystems) • Probes • Amplifiers • Oscillator • Bender • DAQ • Mechanical Manipulator

  8. V.P. Subsystems and DiversThe Probes • Two Probes • Ref Probe • Used to find a Common to measure off of • Placement is the most important Driver • Sensing Probe • Used to find the Potential in a given medium • Drivers • Length to mass ratio • directly influences what you can detect • Impedance of the probe • Lower the impedance the higher the resolution • Material • Directly influences

  9. V.P. Subsystems and DiversThe Probes Con't • Sensing Probe • Currently available probes • MicroProbes, inc. • Stainless steel • Platinum • Custom

  10. V.P. Subsystems and DiversThe Amplifiers • Two Types of Amplifiers • Pre-Amp • This conditions the signal to feed it into the Lock-in Amp • The main driver is low noise • Lock-in Amplifier • Needs to lock the signal from the probes to the oscillator • So to read the probe at its max amplitude • Needs to be able to output out to a DAQ system • Lock-in Amplifiers are expensive, might institute a PLL circuit instead

  11. V.P. Subsystems and DiversThe Oscillator • The Oscillator needs to provide a stable signal in the range of 150 Hz to 1 kHz at 10 Vpp • This covers the frequency range of available probes • Can use the Wave Generators availble

  12. V.P. Subsystems and DiversThe Bender • The Bender needs to be able to take an electrical signal and convert it to a mechanical force • Piezoelectric actuators are best suited for this • Allow a high degree of control • Many currently available to buy commercially • Drivers • Needs to be precise • Deflection of more than 1 mm

  13. V.P. Subsystems and DiversDAQ and Test setup • The Data Acquisition System drivers • A/D conversion (Measure voltage) • Data logging capabilities • Needs to sample at least every 50 ms • Test Setup Drivers • Needs to be mechanically stable • Any vibration will be detected as extraneous noise • Needs to be precise • We are measuring Currents/Voltages on cells that are on the scale of 10mm • Needs to mount to a microscope setup • To be implemented with the BEMSS group later

  14. V.P. Subsystems and DiversThe Interconnections • Mechanical • Between the bender and the probe • Needs to be sufficiently rigid to translate the bender’s vibration to the probe • Mechanical Manipulator • To move the Probe around on a sample • Needs to be rigid and thermally/electircally isolated • Electrical • NOISE!!! • Noise is the greatest problem/driver here • Keep connections short, don’t make loops • Connection from VP to Pre-Amp is the most vulnerable

  15. Budget

  16. Schedule

  17. Expandability and the Future • Expand it into two or three dimensions • Computer controlled • Mechanically threw the computer • Improve sampling rate • Min>50ms • Integrate into BEMSS reasearch

  18. Conclusion • The VP is an instrument capable of measuring current densities as low as 10 mA/cm2 • Used primarily for measurements in biological mediums • Consists of 5 main subsystems • Probes • Amplifiers • Oscillator • Bender • DAQ

  19. References • Pictures: Nuccitelli, Jaffe, “AN ULTRASENSITIVE VIBRATING PROBE FOR MEASURING, STEADY EXTRACELLULAR CURRENTS”, www.jcb.org • UMASS Vibrating Probe Facility- http://marlin.bio.umass.edu/biology/kunkel/conte/polarized-probes.html • Information, background and resource • Nuccitelli, Jaffe, “AN ULTRASENSITIVE VIBRATING PROBE FOR MEASURING, STEADY EXTRACELLULAR CURRENTS”, www.jcb.org • “A simple method for preparing a Vibrating Probe” T Nakagawa, http://pcp.oxfordjournals.org

  20. Any Questions?

More Related