Flite OLS-1000 Analogue Overlay Learning System

Find this product exclusively at Flite Electronics International

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Electronics could be taught straight from a book if students were able to visualise the function of an experimental circuit. Unfortunately this is rarely the case and until now it has been necessary to laboriously assemble every experiment to be examined.

The assembly of each circuit has no didactic value whatsoever other than to provide the student with a circuit on which to perform the experiment. Now, this can be dramatically improved with the OLS-1000 Analogue Electronics Overlay Learning System.

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Features

The OLS-1000 overlay learning system allows the student to assemble even the most involved circuit in less than five minutes, thus leaving enough time for fruitful experimentation.

The OLS-1000 system features wiring templates which fit over a breadboard and guide students to an immediate and rational experimental layout whilst the experiment book relates to the traditional circuit diagram.

The OLS-1000 is ideal for use with our IDL-600 Analogue Lab and ETS-7000 Analogue and Digital Lab.

No add-ons are required. All the necessary equipment including a standardised set of components is included. The thoroughly researched courseware was designed by educators with over 20 years practical teaching experience, with the aim to enforce theory and not confuse students. The professionally produced manuals are referenced to the most widely used theory books, and the schematic diagrams, component listings, and experiment procedure are clearly listed. Each experiment was tested for typical student reaction prior to final editing.

No prerequisites are demanded other than basic arithmetic. The emphasis is on an instrumental understanding rather than a mathematical one. The continuous hands-on exposure ensures the transfer of marketable technological skills in the minimum amount of time.

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Experiments

1. Semiconductor silicon diodes in DC circuits
2. Light emitting diode in DC circuits
3. Silicon diodes in AC circuits: half wave rectification
4. Silicon diodes in AC circuits: full wave rectification
5. The use of a diode bridge in DC circuits
6. The use of a diode bridge in AC circuits
7. Filtering and regulation of a pulsating DC Voltage
8. An experimental power supply using a 'PI' filter
9. Voltage multiplying using diodes and capacitors: Voltage doubling
10. DC current gain of a common emitter transistor configuration
11. The common emitter as an AC amplifying stage
12. Cascaded stages of amplification
13. Class A single-ended loaudspeaker driven audio amplifier
14. The class A push-pull audio amplifier
15. Complementary-symmetrical push-pull output circuits
16. The field effect transistor (FET): the common-source amplifier
17. Oscillator circuits: the zero phase-shift oscillator
18. Oscillator circuits: the phase-shift oscillator
19. Oscillator circuits: the Armstrong oscillator
20. Oscillator circuits: the Hartley oscillator
21. Oscillator circuits: the Colpitts oscillator
22. Digital integrated circuits: the AND gate
23. Digital integrated circuits: the OR gate
24. Digital integrated circuits: the AND-OR function
25. Digital integrated circuits: the inverting gate
26. Digital integrated circuits: the NAND gate
27. Digital integrated circuits: the NOR gate
28. Digital integrated circuits: the full adder

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Package Contents

• Wiring templates (28 pieces)
• Experiment manual
• Component pack
• Breadboard (type RM-203)