Tallinn University of Technology Department of Electrical Drives and Power Electronics Report on Exercises 3 on Electronics and Semiconductor Engineering Diode circuits Student AAVB-41 Tallinn 2008 Exercise 3.1. Diode characteristics Fig. 3.1. Circuit diagram Timing diagram Output characteristic (forward bias only) Forward Bias Reverse Bias Umax, V UAC, Vrms Measured Calculated IA, Arms IA, Arms 0,5 0,35 0,006 0 1 0,64 0,1 0 2 1,05 4,71 4 4 1,84
Tallinn University of Technology Department of Electrical Drives and Power Electronics Report on Exercises 1 on Electronics and Semiconductor Engineering Linear Circuits Student AAVB-41 Tallinn 2008 Exercise 1.1. RL circuit Quantity Calculated Experimental value value Umax, V 14,14 14,14 I, mA 983 983 UR, V 9,82 9,81 UL, V 1,85 1,85 -10,7 -10,6 -2,0 -1,7 -0,15 -0,15 Comparative data table Conclusion Calculated and experimental results are very similar. Maximum distinction does not ex
Tallinn University of Technology Department of Electrical Drives and Power Electronics Report on Exercises 5 On Electronics and Semiconductor Engineering Op amps AAVB-41 Tallinn 2008 Exercise 5.1. Non-Inverting Voltage Amplifier Fig. 5.2. Diagrams of bandwidth versus gain Data table R1,k Measur ed Calculated Uin,V R2,k K Uout,V fc,kHz K Uout,V fc,kHz 1 90 50 2,80 1,98 530,31 2,8 1,96 535,71 1 90 40 3,25 2,30 457,55 3,25 2,28 461,54 1 90 30 4,00 2,83 372,40 4 2,80 375,00 1 90 20 5,50
TMT 0050 Harjutustöö nr 2 Töökeskkond ja ergonoomika Üliõpilase eesnimi ja prk nimi Aprahimov Rühma nr. XXXX11 Õppejõud Virve Siirak Ülesanne: Leida Euroopa Liidu töötajate kaitset (protection of workers) käsitlevates direktiivides iga direktiivi kohta tööandja (employer) kohustused: Ülesanne: lahendamiseks kasutada linki:http://europe.osha.eu.int/legislation/ Vaadata üle direktiivid A. 1 1.2.15. Mitte tõlkida. Kuna infot on palju, siis kirjutada kõige olulisem. · Töö vormistada ja saata mulle elektrooniliselt vsiirak@staff.ttu.ee · Töö lõppu lisada oma isiklik arvamus tööandja osast töötajate kaitsel Euroopa Liidu direktiivides Direktiivi number Tööandja kohustused ja nimetus Council Directive 1. Employers shall be obliged to perform an analysis of workstations in 90/270/EEC order to evaluate the safety and health conditions to which they give rise for their workers, particularly as
Tallinn University of Technology Department of Electrical Drives and Power Electronics Report on Electronics and Semiconductor Engineering OP AMPS Student AAAB-41 Tallinn 2011 Exercise 5.1. Non.Inverting Voltage Amplifier Fig . Circuit diagram Fig . Diagrams of bandwidth versus gain. Data table Measur Calculated ed Uin R1, k R2, k KU Uout, V fc, kHz KU Uout, V fc, kHz 0,7 2 18,57 9,63 6,74 146 10,29 7,2 150 0,7
Tallinn University of Technology Department of Electrical Engineering Filters Report on Exercise 5 in AAR3320 Electronics and Semiconductor Engineering Student: Student Code: Study Group: Instructor: Prof. Valery Vodovozov Tallinn 1. RC filter R
8 14 24 32 What is the current gain of a bipolar transistor? IC/IB IE/IB IC/IE IE/IC Ticket No10 1)Left one:Frequency response of passive low-pass filters;Second:Frequency response of passive high-pass filters;Third:Frequency response of passive band-pass filters;Right:Frequency response of passive band-stop filters.2)Filters. 3)Circuit diagram for Low-pass filters:RC&LC:Passive high-pass filters: Passive band-pass filter:Passive band-stop filter: 4) 5)Low-pass filter reduces high-frequency particles of a signal and passes its low frequency part.High-pass filter is open for high frequencies and attenuates the low-frequency signals.Band-pass filter:at very low frequencies, the series capacitor looks open to the input signal and there is no output signal.At very high frequencies,the shunt capacitor looks short circuited,and there is no ouput also
Tallinn University of Technology Department of Electrical Drives and Power Electronics Report on Exercises 2 Diodes Student ******* Code ****96 Group AAVB41 Tallinn 2012 2.1. Diode rectifier VD f = 9 kHz U=6V U = 19.7 V R = 96 k Figure 1. Circuit diagram Figure 2. Timing diagram VD + R = 96 k -
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