ATR0110 Analoog- ja digitaaltehnika , 6.0 EAP

Aine sisu peegeldavad kompetentsid, millest igaühega on seotud ainepunktid Iga kompetentsi oskusi mõõdetakse suutlikustasemetega, mis on vahemikus 0..127. Õppimise käigus tehtava (nt ülesannete lahendamise) tulemusi hinnatakse automaatselt ning korrigeeritakse suutlikuse tasemeid ja unustamiskiirust. Otsused (kriitilise piiri 77 ületamise ja hinde kohta) tehaks suutlikkuse tasemetel, mis prognoositud 16 nädalat tulevikku. Õppijal on kogu õppimise ajal näha nii oma tervikpilt kompetentsitasemetest, kui ka konkreetse aine osa nii üksikkompetentside kaardina, kriitilise taseme saavutanud punktide summa,
kontrolltöödes kinnitatud punktide summa ning ainehinde saavutamise graafik , mis iseloomustab saavutatut teljestikus punktid-suutlikkus.

Hinnete tsoonid on kombineeritud punktide-suutlikkuse summana ning näitena toodud joonisel. Vertikaalteljel on edukuse tasemed ning horisontaalteljel ainepunktid.
Kollane joon märgib kinnitatud olekuid ning selle parem otspunkt saadavat hinnet. Must joon näitab mu hetke staatust kui kõik tehtud kompetentsid oleksid kinnitatud.

Aine ATR0110 , mille mille kirjeldus on õppeinfosüsteemi anekaardil, on jagatud järgmisteks mikrokompetentsideks (1EAP=1000mEAP) :
Kompetents mEAP
AC admittance, C60
AC admittance, L60
AC scope- frequency set70
AC scope inputs70
Ammeter is short circuit30
AND30
Assembler90
Average PWL60
Average sine50
Average square50
AVR - Assembler HomeWork800
BJT40
BJT - Amplifier70
BJT - Amplifier Design Homework800
BJT - Common Collector70
BJT - Common Emitter70
BJT - Switch70
Capacitor at high () frequency20
Capacitor at low (0) frequency20
Capacitors in parallel40
Current divider30
Current source and resistor in series50
Current source is open circuit30
Datasheet70
dB/dec60
Decibels70
Diode60
Feedback50
Frequency response, 1st order, amplitude50
Frequency response, 1st order, phase40
Frequency response, 2nd order, amplitude70
Frequency response, 2nd order, phase40
Frequency response, amplitude, CR40
Frequency response, amplitude, CR-CR40
Frequency response, amplitude, LR40
Frequency response, amplitude, LR-LR40
Frequency response, amplitude, RC40
Frequency response, amplitude, RL70
Frequency response, amplitude, RL-LR40
Frequency response, amplitude, R-RC50
Frequency response, constant, amplitude40
Frequency response, constant, phase40
Frequency response, phase, CR-RC40
Frequency response, phase, LR-RL40
Frequency response, phase, RC-CR70
Frequency response, resonance, amplitude40
Frequency response, resonance, phase60
Incoming current equals to outgoing30
Inductor at high () frequency20
Inductor at low (0) frequency20
Inductor energy30
Inductor: voltage advances current by 90 deg40
Inductors in series30
Lab Amplifier90
Lab Corner frequency65
Lab decibels70
Lab Generator90
Lab Measuring phase90
Lab Opamp90
Lab Phase sign70
Lab Resonance frequency, series75
Lab Time constant75
Lab Transfer calculation60
LED60
Log60
Measuring oscilloscope60
Memory manager BF90
Memory manager FF90
Memory manager WF90
NAND30
NOR30
Norton circuit and resistor in series20
Norton circuit and open circuit voltage50
NOT30
OpAmp amplifier50
OR30
Phasors: LC parallel60
Phasors: RC parallel60
Phasors: RL parallel60
Positive feedback70
Resistors in parallel20
Resistors in series20
RMS: rectangular45
RMS: sine60
RMS: triangle55
Signal average value70
Signal RMS value and power60
Sine wave Generator60
Square wave Generator60
Step response r(0)45
Step response r(∞)45
Step response: CR45
Step response: LR45
Step response: RC45
Step response: RCR45
Step response: RL45
Step response: RLR45
Thevenin circuit and open circuit voltage30
Thevenin circuit and resistor in parallel30
Thevenin circuit and short circuit current30
Time constant, RC60
Time constant, RL60
V=Ω*A30
Voltage divider30
Voltage source and resistor in series60
Voltage source is short circuit30
Voltage sources in series30
Voltmeter is open circuit30
XNOR30
XOR30