EE 211 Lecture 5 T. H. Ortmeyer Spring, 2006. This week’s labs Aliasing and Pulse Measurements 555 Timers Important Note: Next weeks schedule.

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EE 211 Lecture 5 T. H. Ortmeyer Spring, 2006

This week’s labs Aliasing and Pulse Measurements 555 Timers Important Note: Next weeks schedule

Comments on WA#2 Tables were much improved Those who didn’t get all three data points– what do you do? Discussion point– don’t just talk about the error Relate back to the predictive equation Lead resistance is a stretch in this case

Sampling Theorem

Aliasing If the sampling theorem is violated, aliasing occurs— An illustrated on the web site

Labview “canned” programs Acquire Waveform.vi –Investigate aliasing

Pulse waveform qualities Amplitude Maximum Rise time Fall time Pulse width

The ideal pulse train

The actual pulse train

Most circuits

Response to a step input

where

Goal We will measure the effect of varying frequencies on rise times, overshoot, damping, etc. Rules of thumb for strays— –Inductance ~10 nanohenries/inch –Capacitance– in the pfd range The effect of frequency—hz and mH, khz and uH, Mhz and nH have similar effects

555 Timers

Astable mode

Cap voltage and output voltage

Capacitor charging

Capacitor Discharge

Astable mode Charge from Vcc/3 to 2Vcc/3– this takes t1 = (RA + RB)*C Discharging from 2Vcc/3 to Vcc/3 this takes t2 = RB*C The period is T=t1+t2

Labs 10 and 11 We will investigate the astable and monostable modes with Labview modules in Lab 10. We will build the astable mode in Lab 11.