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UNIT 1: ELECTRICITY AND ELECTRONICS 3rd YEAR SUMMARY TECHNOLOGIES ESO 4 1. WHAT IS ELECTRIC CURRENT? Electric current is the flow of electrons around a circuit. Electrons have to “scape” from the nucleus of the atom to flow, the electrical conductivity depends on the atomic structure of material. Pay attention to these atoms: What are the differences in the atomic structure of this elements ? 2. ELECTRICAL PROPERTIES CONDUCTORS allow electric currents to pass through ____________ them. All metals belong to this group: copper, iron, silver… INSULATORS ___________don’t allow electric currents to pass through them. Plastic, wood and glass are examples of this group. SEMI-CONDUCTORS have properties which are _________________ intermediate between previous groups. The most important examples are silicon and germanium. 3. COMPONENTS OF AN ELECTRICAL CIRCUIT 3.1 GENERATORS Generators provide the energy for electrons to circulate. The power for many electrics an electronics circuits comes from batteries. A battery stores electric energy and, when connected to a circuit, it provides the force to the electrons to run along the wires. Dynamos and alternators are used for large scale power generation and industry. 3. COMPONENTS OF AN ELECTRICAL CIRCUIT 3.2 RECEIVERS They transform electrical energy into another form of energy. For example, light bulbs, lamps or LEDs transform electrical energy into light, motors transform electrical energy into movement, buzzers transform electrical energy into sound. 3. COMPONENTS OF AN ELECTRICAL CIRCUIT 3.3 CONTROL ELEMENTS These are elements used to control the flow of electrons through the circuit. Switches are mechanical devices that can make (connect), break (disconnect) a circuit or divert the current from one conductor to another (circuit switch or crossover switch). A push button allows the current to flow only when pressure is mantained. 3. COMPONENTS OF AN ELECTRICAL CIRCUIT 3.4 PROTECTION ELEMENTS These are elements used to protect the circuit against excessive current, voltage or current leakage. The most important elements in this group are fuses (that cuts the circuit by melting when the current is too high), breaker switches (automatic fuses) and differential switches (than protect against current leakage). 4. REPRESENTATION AND SYMBOLS BATTERIES: LIGHT BULB/LAMP: RESISTORS: MOTOR: BUZZER/BELL: LED: SWITCH: PUSH BUTTON: CIRCUIT SWITCH: INTERESTING WEB: http://www.clarvis.co.uk/version2/symbols.html 5. ELECTRIC QUANTITIES 5.1 VOLTAGE Voltage or tension is the energy that a battery or generator can provide for each electron. Voltage is measured in volts (V). 5.2 ELECTRIC CURRENT Electric current is the charge, or number of electrons, that flows through a conductor per second. I = Q/t Electric current is measured in amperes o amps (A). 5.3 RESISTANCE Resistance is a measure of how easily (or with what difficulty) electrons will flow through the device. Copper wire has a very low resistance, so a small voltage will allow a large current to flow. Likewise, the plastic insulation has a very high resistance, and prevents current from flowing from one wire to those adjacent. 5. ELECTRIC QUANTITIES 5.4 OHM´S LAW Voltage, current and resistance are quantities related. Current flowing through a circuit is increased in relation to the voltage and may also change depending on the material used. Ohm’s law expresses these relations as follows: I = V/R 5.5 ELECTRIC POWER AND ENERGY Electric power is measured in watts (W) and also kilowatt (kW) Energy in SI units is measured in joules (J), calories (cal) and kilowatt-hour (kWh) 1 J = 0,24 cal P = V·I E = V·I·t = P·t 1 kWh = 3,6 · 106 J 6. SI UNITS Mega kilo Units milli micro nano Pico 1000,000 1000 1x106 1x103 M k Ohms Ohms 0.001 0.000,001 0.000,000,001 0.000,000,000,001 1x10-3 1x10-6 1x10-9 1x10-12 m μ n p Amps Farads Farads Farads p n μ m 1 k M -12 -9 -6 -3 +3 +6 0 am x an = am+n am / an = am-n 7. SOLVING CIRCUITS 7.1 SERIES AND PARALLEL RESISTANCES Resistors can be wired in parallel or in series, or any combination there of, so that values greater or smaller than normal or with higher power or voltage can be obtained. This also allows us to create new values, not catered for in the standard values. Some Resistor Combinations Series: When wired in series, the values simply add together. A 100 ohm and a 2k2 resistor in series will have a value of 2k3. R = R1 + R2 (+ R3, etc.) Parallel: In parallel, the value is lower than either of the resistors. A formula is needed to calculate the final value 1/R = 1/R1 + 1/R2 (+ 1/R3 etc) 7. SOLVING CIRCUITS 7.2 MIXED CIRCUITS Some elements are connected in series and some in parallel: RT = RP + RS; 1/Rp= 1/10 + 1/7; RP = 4,1k; RT = 5k + 4,1k = 9,1k IT = VT/RT; IT = 9V/9,1k= 0,98 mA V5k=IT·R5k = 0,98 mA·5k= 4,9 V ; V7k=V10k = 9V-4,9V = 4,1 V I7k = V7k/R7k = 4,1V / 7k = 0,58 mA ; I10k= 4,1V/10k = 0,41 mA (IT = I7k + I10k = 0,58mA+0,41mA=0,99mA) Rs = 250+1000=1250Ω; 1/RT= 1/Rp= 1/100 + 1/1250; RT = 92,6Ω IT = VT/RT; IT = 9V/92,6Ω = 0,097A; V100= 9V; I100=V100/R100 = =9V/100Ω=0,09A; IT=I100+I1250; I1250=0,097A-0,09A=0,007A; V250=0,007A·250=1,75V; V1k = 9-1,75V = 7,25V Rs = 10k+10k=20k; 1/RT= 1/Rp= 1/20 + 1/10; RT = 6,7k IT = VT/RT; IT = 9V/6,7k = 1,34mA; V10k= 9V; I10k=V10k/R10k = =9V/10k=0,9mA; IT=I10k+I20k; I20k=1,34-0,9=0,44mA; V10k-10k=0,44mA·10k=4,4V