Semiconductors, ICs and Digital Fundamentals. The Diode The semiconductor phenomena. Diode performance with ac and dc currents. Diode types: –General.

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Presentation transcript:

Semiconductors, ICs and Digital Fundamentals

The Diode The semiconductor phenomena. Diode performance with ac and dc currents. Diode types: –General purpose –LED –Zener

The Diode The semiconductor phenomena Atoms in a metal allow a “sea” of electrons that are relatively free to move about. Semiconducting materials like silicon and germanium have fewer free electrons. Impurities added to semiconductor material can either add free electrons or create an absence of free electrons (holes).

The Diode The semiconductor phenomena Consider the bar of silicon. –One side of the bar is doped with negative material (excess electrons). The cathode. –The other side is doped with positive material (excess holes). The anode –In between is a no man’s land called the P-N junction.

The Diode The semiconductor phenomena Consider now applying a negative voltage to the anode and positive voltage to the cathode. The electrons are attracted away from the junction. This diode is reverse biased, meaning no current will flow.

The Diode The semi-conductor phenomena Consider now applying a positive voltage to the anode and a negative voltage to the cathode. The electrons are forced to the junction. This diode is forward biased, meaning current will flow.

The Diode Set up the illustrated circuit on the proto board. Note the cathode (banded end) of the diode. The 330 ohm resistor in the circuit is a current limiting resistor (to avoid excessive diode current). 330

The Diode Use the same circuit, but reverse the diode. Measure and record the current. 330

The Diode with AC Current If ac is applied to a diode: –During one half of the cycle, the diode is forward biased and current flows. –During the other half of the cycle, the diode is reversed biased and current stops. This is the process of rectification, allowing current to flow in only one direction. This is used to convert ac into pulsating dc.

The Diode with AC Current Input AC Voltage Output Pulsed DC Voltage Diode conducts Diode off

The Light Emitting Diode (LED) In normal diodes, when electrons combine with holes current flows and heat is produced. With some materials, when electrons combine with holes, photons of light are emitted. This forms an LED. LEDs are generally used as indicators, but they have the same properties as a regular diode.

The Light Emitting Diode Build the illustrated circuit on the proto board. The longer LED lead is the anode (positive end). Observe the diode response Reverse the LED and observe what happens. The current limiting resistor not only limits the current but also controls LED brightness. 330

Zener Diode A Zener diode is designed through appropriate doping so that it conducts at a predetermined reverse voltage. –The diode begins to conduct and then maintains that predetermined voltage. The over-voltage and associated current must be dissipated by the diode as heat. 9 V4.7 V

The Transistor (Electronic Valves) How they work, an inside look. Basic types –NPN –PNP The basic transistor circuits –Switch –Amplifier

The Transistor base collector emitter

The Transistor The base-emitter current controls the collector-base current.

The Transistor

There are two basic types of transistors depending of the arrangement of the material. –PNP –NPN An easy phrase to help remember the appropriate symbol is to look at the arrow. –PNP – pointing in proudly. –NPN – not pointing in. The only operational difference is the source polarity. PNP NPN

The Transistor Switch During the next two activities you will build a transistor switch and a transistor amplifier. The pin-out of the 2N3904 transistor is indicated here. C B E

The Transistor Switch Build the circuit on the proto board. Use hook up wire to serve as “switches” to connect the current to the transistor base. What happens when you first apply power when the base is left floating (not connected)? 9 V

The Transistor Switch Make the illustrated adjustment to the circuit. Connect one end of some hook-up wire to the positive side of the 9 volt battery. Touch the other end (supply 9 volts) to the resistor in the base line and observe what happens. 9 V

The Transistor Switch Now replace the hook-up wire connection with a connection to a 1.5 volt battery as shown. What happens when +1.5 volts is applied to the base? What happens when the battery is reversed and –1.5 volts is applied to the base?

The Transistor Switch When does the transistor start to turn on? Build up the illustrated circuit with the variable resistor in the base circuit to find out.

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