ANALOGUE ELECTRONICS 2000

The Analogue electronics package consists of 8 laboratory cards
which slot into the Base Unit 2000.

The laboratory package gives knowledge of basic analogue electronic connections and their use in different working areas of an electronic system and associated apparatus.

It also enables the student to become proficient in the use of wiring
diagrams, circuit analysis, electronic measurement techniques, trouble shooting and circuit board repair.

The courseware for Analogue electronics consists of a Text book,
Experiment book, Teacher´s book and Exercise book.

Topics Covered
The topics covered make use of laboratory cards where stated in brackets.

The transistor as a voltage amplifier (1, 2)

GE the step with Serial Compensation (1, 2)

dB – the Conception (1, 2)

The Amplifiers amplitude and board width (1, 2)

LP- and HP Filter (1, 2)

GE the step I/O resistance (1, 2)

GB the step (1, 2) and GC the step (1, 2)

RC coupled amplifier (1, 2)

JFET - and MOSFET transistors (1, 2)

Differential Steps (1, 3)

Constant Current Generator (1, 2, 3)

Differential Steps with Emitter Loads (1, 3)

Operational Amplifier (1, 2)

OP as a Non-inverted Amplifier (1, 2)

OP as Voltage Tracker (1, 2)

OP as Differential Amplifier (1, 3)

OP as a Comparator (1, 2)

Active Filter (1, 2)

OP as a Mixer (1, 2)

The Amplifier – the Volume Control (1 ,4)

The Tone Control (1, 4)

Trouble shooting (1, 4)

Power Amplifier (1, 5)

Working Point Adjustment (1, 5)

Integrated Power Amplifier (1,4)

Oscillator with Vienna Bridge (1, 8)

Serial- and Parallel Resonance Circuits (1, 2)

Selective Amplifiers (1, 8)

VCO and PLL (1, 6)

After the course the student should be able to:

Trouble shoot at circuit and component level in low frequency
amplifiers and power supplies.

Perform simple trouble shooting in receiver and transmitter circuits.

Measure transmitter output and antenna standing wave ratios in connection with the installation and function testing of a simple radio station.

Follow signal paths in amplifiers and power supplies and measure the signal with a oscilloscope.

Measure oscillator signal frequencies, amplitude and curve formation and recognize different oscillator connections in an
electronic diagram.

Determine colour codes on resistors and use replacements and
literature on semi-conductors.

Describe the workings of electronic connections as used in power supply and low frequency amplifiers.

Describe the working of fundamental OP amplifier connections.

Explain the function of different blocks and circuits in receivers and transmitters.

Explain parallel and acceptor circuits and MF/HF filters.