ISC0100 Küberelektroonika , 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 ISC0100 , mille mille kirjeldus on õppeinfosüsteemi anekaardil, on jagatud järgmisteks mikrokompetentsideks (1EAP=1000mEAP) :
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 ISC0100 , mille mille kirjeldus on õppeinfosüsteemi anekaardil, on jagatud järgmisteks mikrokompetentsideks (1EAP=1000mEAP) :
| Kompetents | mEAP |
|---|---|
| µ (micro) | 30 |
| AC admittance, C | 100 |
| AC admittance, L | 100 |
| AC scope- frequency set | 80 |
| ADC | 100 |
| Ammeter is short circuit | 60 |
| AND | 60 |
| Average PWL | 90 |
| Average sine | 90 |
| Average square | 90 |
| BJT | 100 |
| Capacitor energy | 50 |
| Capacitors in parallel | 50 |
| Current divider | 80 |
| Current measurement | 50 |
| Current mirror | 50 |
| Current sign | 50 |
| Current source and resistor in series | 60 |
| Current source is open circuit | 80 |
| Current unit | 40 |
| Darlington transistor | 50 |
| dB/dec | 50 |
| DC transmittance, current | 60 |
| DC transmittance, voltage | 60 |
| Decibels | 80 |
| Digilogic - Flip-flop | 50 |
| Digilogic - Flip-flop - Counter | 50 |
| Digilogic - Flip-flop - JK | 50 |
| Digilogic - Flip-flop - RS | 50 |
| Digilogic - Flip-flop - T | 50 |
| Digilogic - HomeWork | 500 |
| Diode | 60 |
| Diode forward voltage | 40 |
| Diodes in series | 80 |
| Forward bias | 70 |
| Frequency response, 1st order, amplitude | 50 |
| Frequency response, 1st order, phase | 50 |
| Frequency response, 2nd order, amplitude | 50 |
| Frequency response, constant, amplitude | 50 |
| Frequency response, constant, phase | 50 |
| I=V/R | 70 |
| Incoming current equals to outgoing | 80 |
| Inductor energy | 50 |
| Inductors in series | 70 |
| k (kilo) | 20 |
| Lab AC voltage measurement | 30 |
| Lab Amplifier | 60 |
| Lab Comparator | 30 |
| Lab Conductance unit | 30 |
| Lab Corner frequency | 100 |
| Lab Current divider | 100 |
| Lab Current measurement | 30 |
| Lab Current sign | 30 |
| Lab Current unit | 30 |
| Lab decibels | 60 |
| Lab Generator | 30 |
| Lab Incoming current equals to outgoing | 50 |
| Lab Measuring amplitude | 50 |
| Lab Measuring phase | 70 |
| Lab Measuring resistance | 30 |
| Lab Measuring, Digital meter | 30 |
| Lab Multimeter, AC voltage | 30 |
| Lab Multimeter, DC current | 30 |
| Lab Multimeter, DC voltage | 60 |
| Lab Multimeter, range selection | 30 |
| Lab Opamp | 70 |
| Lab Phase sign | 60 |
| Lab Resistance unit | 30 |
| Lab Resistors in series | 50 |
| Lab Resonance frequency, series | 70 |
| Lab Sum of incoming currents is zero | 30 |
| Lab Time constant | 80 |
| Lab Time constant, RC | 50 |
| Lab Transfer calculation | 60 |
| Lab Voltage divider | 100 |
| Lab Voltage measurement | 30 |
| Lab Voltage sign | 30 |
| Lab Voltage sum in loop is zero | 100 |
| Lab Voltage unit | 30 |
| LED | 60 |
| Log | 70 |
| M (mega) | 20 |
| m (milli) | 20 |
| Measuring amplitude | 50 |
| Measuring oscilloscope | 60 |
| Measuring resistance | 30 |
| Multimeter, AC voltage | 60 |
| Multimeter, DC current | 60 |
| Multimeter, DC voltage | 60 |
| Multimeter, resistance | 60 |
| NAND | 60 |
| NOR | 60 |
| Norton circuit and resistor in series | 80 |
| Norton circuit and open circuit voltage | 60 |
| NOT | 60 |
| OpAmp amplifier | 80 |
| OpAmp, finite gain | 50 |
| Open circuit equals zero current | 40 |
| OR | 60 |
| Phasors: LC parallel | 90 |
| Phasors: RC parallel | 90 |
| Phasors: RL parallel | 90 |
| Power | 40 |
| Resistance unit | 30 |
| Resistors in parallel | 80 |
| Resistors in series | 80 |
| RMS: combined | 60 |
| RMS: rectangular | 85 |
| RMS: sine | 85 |
| RMS: triangle | 85 |
| Signal average value | 90 |
| Signal RMS value and power | 100 |
| Step response: CR | 75 |
| Step response: LR | 75 |
| Step response: RC | 75 |
| Step response: RCR | 75 |
| Step response: RL | 75 |
| Step response: RLR | 75 |
| Sum of incoming currents is zero | 40 |
| Sum of outgoing currents is zero | 40 |
| Thevenin circuit | 50 |
| Thevenin circuit and short circuit current | 50 |
| Time constant | 80 |
| Time constant, RC | 60 |
| Transformer | 60 |
| Twopole, linear | 50 |
| V=R*I | 60 |
| V=Ω*A | 70 |
| Voltage divider | 80 |
| Voltage divider, loaded | 30 |
| Voltage measurement | 40 |
| Voltage sign | 80 |
| Voltage source and resistor in parallel | 60 |
| Voltage source and resistor in series | 60 |
| Voltage source is short circuit | 80 |
| Voltage sources in series | 60 |
| Voltage unit | 50 |
| Voltmeter and resistor in series | 50 |
| Voltmeter is open circuit | 60 |
| W (watt) | 40 |
| XNOR | 60 |
| XOR | 60 |
| Zero current implies zero voltage | 80 |