ISC0100 Cyber-Electronics , 6.0 ECU

The content of the course is reflected by competencies of which anyone is associated with amount of credit units. Each competency skills are measured by ability levels in the range 0..127. During studying results of every action (e.g. solving tasks) are automatically evaluated and ability levels and forgetting speed levels are adjusted. Decisions (concering grade and crossing the critical threshold of 77) are based on ability levels which are predicted for 16 weeks into the future.
A learner has all the time full picture about ability levels in the form of a competence map , for particular course, sum of credit units for abilities that have reached the critical level 77, the amount of credit units confirmed in class tests and a graph representing achieving final grade as a plot in coordinates credit units vs ability levels.

Grade zones combined from credits and ability levels are shown as an example in Figure. Vertical axis represents ability levels and credit units are on horizontal axis.
Yellow line — shows confirmed states and its right end marks available grade. Black line — shows my current state if all the competences done would be confirmed.

Course ISC0100 , having description in ois is divided into following competences: (1ECU=1000mECU)
Competence mECU
µ (micro)30
AC admittance, C100
AC admittance, L100
AC scope- frequency set80
ADC100
Ammeter is short circuit60
AND60
Average PWL90
Average sine90
Average square90
BJT100
Capacitor energy 50
Capacitors in parallel50
Current divider80
Current measurement50
Current mirror50
Current sign50
Current source and resistor in series60
Current source is open circuit80
Current unit40
Darlington transistor50
dB/dec50
DC transmittance, current60
DC transmittance, voltage60
Decibels80
Digilogic - Flip-flop50
Digilogic - Flip-flop - Counter 50
Digilogic - Flip-flop - JK 50
Digilogic - Flip-flop - RS 50
Digilogic - Flip-flop - T 50
Digilogic - HomeWork500
Diode60
Diode forward voltage40
Diodes in series80
Forward bias70
Frequency response, 1st order, amplitude50
Frequency response, 1st order, phase50
Frequency response, 2nd order, amplitude50
Frequency response, constant, amplitude50
Frequency response, constant, phase50
I=V/R70
Incoming current equals to outgoing80
Inductor energy50
Inductors in series70
k (kilo) 20
Lab AC voltage measurement30
Lab Amplifier60
Lab Comparator30
Lab Conductance unit30
Lab Corner frequency100
Lab Current divider100
Lab Current measurement30
Lab Current sign30
Lab Current unit30
Lab decibels60
Lab Generator30
Lab Incoming current equals to outgoing50
Lab Measuring amplitude50
Lab Measuring phase70
Lab Measuring resistance30
Lab Measuring, Digital meter30
Lab Multimeter, AC voltage30
Lab Multimeter, DC current30
Lab Multimeter, DC voltage60
Lab Multimeter, range selection30
Lab Opamp70
Lab Phase sign60
Lab Resistance unit30
Lab Resistors in series50
Lab Resonance frequency, series70
Lab Sum of incoming currents is zero30
Lab Time constant80
Lab Time constant, RC50
Lab Transfer calculation60
Lab Voltage divider100
Lab Voltage measurement30
Lab Voltage sign30
Lab Voltage sum in loop is zero100
Lab Voltage unit30
LED60
Log70
M (mega)20
m (milli)20
Measuring amplitude50
Measuring oscilloscope60
Measuring resistance30
Multimeter, AC voltage60
Multimeter, DC current60
Multimeter, DC voltage60
Multimeter, resistance60
NAND60
NOR60
Norton circuit and resistor in series80
Norton circuit and open circuit voltage60
NOT60
OpAmp amplifier80
OpAmp, finite gain50
Open circuit equals zero current40
OR60
Phasors: LC parallel90
Phasors: RC parallel90
Phasors: RL parallel90
Power40
Resistance unit30
Resistors in parallel80
Resistors in series80
RMS: combined60
RMS: rectangular85
RMS: sine85
RMS: triangle85
Signal average value90
Signal RMS value and power100
Step response: CR75
Step response: LR75
Step response: RC75
Step response: RCR75
Step response: RL75
Step response: RLR75
Sum of incoming currents is zero40
Sum of outgoing currents is zero40
Thevenin circuit50
Thevenin circuit and short circuit current50
Time constant80
Time constant, RC60
Transformer60
Twopole, linear50
V=R*I60
V=Ω*A70
Voltage divider80
Voltage divider, loaded30
Voltage measurement40
Voltage sign80
Voltage source and resistor in parallel60
Voltage source and resistor in series60
Voltage source is short circuit80
Voltage sources in series60
Voltage unit50
Voltmeter and resistor in series50
Voltmeter is open circuit60
W (watt)40
XNOR60
XOR60
Zero current implies zero voltage80