Frequency to Voltage Converter as a Phase Controller in Phase Shifting Interference Microscopy

Abstract: A new system for the control of a piezoelectric device is introduced. It works as a phase shifter in an interference optical microscope. This circuit translates controllable constant frequency signals, generated with a standard sound card, to electrical signals with constant voltage through a frequency-to-voltage converter; this full analog conversion allows for producing voltage steps of 16 lv, which is a better resolution than a commercial digital to analog converter working (in the desired voltage range), a… Show more

“…The control of the piezoelectric system is carried out by means of a frequency-to-voltage circuit converter, connected to a conventional PC sound card. The performance of this homemade controller to drive phase shifting is equal or superior to than obtained with a 16 bit analogic-digital converter 26 . The phase reconstructions are performed introducing an arbitrary optical phase in five steps of α i = π/2 rad.…”

Quantitative phase microscopy for the study of bone cells on multiple roughness surfaces

“…The control of the piezoelectric system is carried out by means of a frequency-to-voltage circuit converter, connected to a conventional PC sound card. The performance of this homemade controller to drive phase shifting is equal or superior to than obtained with a 16 bit analogic-digital converter 26 . The phase reconstructions are performed introducing an arbitrary optical phase in five steps of α i = π/2 rad.…”

Quantitative phase microscopy for the study of bone cells on multiple roughness surfaces

Does the existing liquid level measurement system cater the requirement of future generation?

A novel helical electrode type capacitance level sensor for liquid level measurement