TY  - BOOK
AU  - Czech, J.
TI  - Oscilloscope measuring technique: principles and applications of modern cathode ray oscilloscopes
PY  - 1965///
CY  - Eindhoven
PB  - N. V. Philips
N1  - La obra está organizada en cuatro partes: I) The catode ray oscilloscope; II) General measuring technique; III) Practical examples; IV) Photographic recording and large picture projection of oscilograms.; Conclusiones, bibliografía e índice analítico p. 587-620.; Construction of cathode ray oscilloscopes.; The cathode ray tube.; Power supply unit.; Time base unit.; Deflection amplifiers.; Operating the oscilloscope. Setting up and preliminary adjustments.; Amplitude measurements.; Null-indication in AC bridge circuits.; The electronic switch.; Phase measurements.; Frequency measurements.; Representation of the rising flank of pulse shaped voltages with oscilloscopes without delaying elements in the vertical amplifier.; Recording the waveforms of luminous flux, current and voltage of fluorescent lamps.; Switching phenoma with electric light bulbs.; The display of hysteresis loops.; Recording the characteristics of crystal diodes, transistors and electronic valves.; Recording the passband   curves of HF circuits, radio and television receivers.; Investigation in television engineering.; Investigating matching conditions and measuring. Impedances in the ultra-short wave band by means of a long transmission line.; Measuring transit time and investigating matching conditions in cables by means of pulse voltages.; Determining the characteristic qualities of resonant circuits and bandpass filters from the pattern of the dacaying oscillation after shock excitation.; Some methods of measuring the amplitude modulation of HF voltages.; Representation of the frequency spectrum of modulated HF voltages and of the frequency panorama of transmitters.; Adjustment of high impedance wideband voltage dividers by square pulses or symmetrical square voltages.; Recording low-frequency characteristic curves.; Some examples from electro-acoustic practice.; Measuring the action of between-lens shuters of cameras.; Recording de waveforms of the luminous flux and ignition current of flashbulbs and investigating the working of synchronous contacts.; Study of dynamic strain processes and observation of mechanical oscillations by means of strain gauges.; Photographic recording of the spot trace.; Large-picture projection of oscillograms.
ER  -