* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Zener Diode
Electronic engineering wikipedia , lookup
Electric power system wikipedia , lookup
Electrification wikipedia , lookup
Ground (electricity) wikipedia , lookup
Stepper motor wikipedia , lookup
Mercury-arc valve wikipedia , lookup
Power inverter wikipedia , lookup
Pulse-width modulation wikipedia , lookup
Variable-frequency drive wikipedia , lookup
Electrical ballast wikipedia , lookup
Three-phase electric power wikipedia , lookup
Electrical substation wikipedia , lookup
Power engineering wikipedia , lookup
Schmitt trigger wikipedia , lookup
Shockley–Queisser limit wikipedia , lookup
History of electric power transmission wikipedia , lookup
Resistive opto-isolator wikipedia , lookup
Power electronics wikipedia , lookup
Semiconductor device wikipedia , lookup
Distribution management system wikipedia , lookup
Optical rectenna wikipedia , lookup
Switched-mode power supply wikipedia , lookup
Stray voltage wikipedia , lookup
Current source wikipedia , lookup
Power MOSFET wikipedia , lookup
Voltage regulator wikipedia , lookup
Voltage optimisation wikipedia , lookup
Alternating current wikipedia , lookup
Mains electricity wikipedia , lookup
Surge protector wikipedia , lookup
Buck converter wikipedia , lookup
Recall-Lecture 5 DC Analysis Representation of diode into three models Ideal case – model 1 with V = 0 Piecewise linear model 2 with V has a constant value Piecewise linear model 3 with V and forward resistance, rf • Diode AC equivalent model – During analysis, must perform DC analysis first to calculate ID in order to obtain rd © Electronics ECE 1231 DC ANALYSIS DIODE = MODEL 1 ,2 OR 3 CALCULATE DC CURRENT, ID AC ANALYSIS CALCULATE rd DIODE = RESISTOR, rd CALCULATE AC CURRENT, id Other Types of Diodes Photodiode The term ‘photo’ means light. Hence, a photodiode converts optical energy into electrical energy. The photon energy breaks covalent bond inside the crystal and generate electron and hole pairs Solar Cell Solar cell converts visible light into electrical energy. The working principle is the same as photodiode but it is more towards PROVIDING the power supply for external uses © Electronics ECE 1231 Light Emitting Diode An LED is opposite of photodiode this time, it converts electrical energy into light energy – Normally GaAs is used as the material for LED. During diffusion of carriers – some of them recombines and the recombination emits light waves. Schottky Barrier Diode A Schottky Barrier diode is a metal semiconductor junction diode. The metal side is the anode while the ntype is the cathode. But the turn on voltage for Schottky is normally smaller than normal pn junction diode © Electronics ECE 1231 Breakdown Voltage The breakdown voltage is a function of the doping concentrations in the n- and p-region of the pn junction. Large doping concentrations result in smaller break-down voltage. Reverse biased voltage – ET The electric field may become large enough for the covalent bond to break, causing electron-hole pairs to be created. So, electrons from p-type are swept to n-region by the electric field and holes from the n-type are swept to the p-region The movement will create reverse biased current known as the Zener Effect. © Electronics ECE 1231 Zener Effect and Zener Diode The applied reverse biased voltage cannot increase without limit since at some point breakdown occurs causing current to increase rapidly. The voltage at that point is known as the breakdown voltage, VZ Diodes are fabricated with a specifically design breakdown voltage and are designed to operate in the breakdown region are called Zener diodes. Circuit symbol of the Zener diode: NOTE: When a Zener diode is reverse-biased, it acts at the breakdown region, when it is forward biased, it acts like a normal PN junction diode Such a diode can be used as a constant-voltage reference in a circuit. The large current that may exist at breakdown can cause heating effects and catastrophic failure of the diode due to the large power dissipated in the device. Diodes can be operated in the breakdown region by limiting the current to a value within the capacities of the device. © Electronics ECE 1231 Avalanche Effect While these carriers crossing the space-charge region, they also gain enough kinetic energy. Hence, during collision with other atoms, covalent bond is broken and more electron-holes pairs are created, and they contribute to the collision process as well. Refer to figure below Electron with high kinetic energy e © Electronics e atom h e atom h eh atom ECE 1231 Zener Diode 10 k Calculate the value of the current ID if VZ = 10V ANSWER: ID = 0.2 mA © Electronics ECE 1231 Chapter 3 Diode Circuits Voltage Regulator Voltage Regulator - Zener Diode A voltage regulator supplies constant voltage to a load. The breakdown voltage of a Zener diode is nearly constant over a wide range of reverse-bias currents. This make the Zener diode useful in a voltage regulator, or a constantvoltage reference circuit. 3. The remainder of VPS drops across Ri 2. The load resistor sees a constant voltage regardless of the current 1. The Zener diode holds the voltage constant regardless of the current Example A Zener diode is connected in a voltage regulator circuit. It is given that VPS = 20V, the Zener voltage, VZ = 10V, Ri = 222 and PZ(max) = 400 mW. a. Determine the values of IL, IZ and II if RL = 380 . b. Determine the value of RL that will establish PZ(max) = 400 mW in the diode. For proper function the circuit must satisfied the following conditions. 1. The power dissipation in the Zener diode is less than the rated value 2. When the power supply is a minimum, VPS(min), there must be minimum current in the Zener diode IZ(min), hence the load current is a maximum, IL(max), 3. When the power supply is a maximum, VPS(max), the current in the diode is a maximum, IZ(max), hence the load current is a minimum, IL(min) AND Or, we can write Considering designing this circuit by substituting IZ(min) = 0.1 IZ(max), now the last Equation becomes: Maximum power dispassion in the Zener diode is EXAMPLE 1 Consider voltage regulator is used to power the cell phone at 2.5 V from the lithium ion battery, which voltage may vary between 3 and 3.6 V. The current in the phone will vary 0 (off) to 100 mA(when talking). Calculate the value of Ri and the Zener diode power dissipation Solution: The stabilized voltage VL = 2.5 V, so the Zener diode voltage must be VZ = 2.5 V. The maximum Zener diode current is The maximum power dispassion in the Zener diode is The value of the current limiting resistance is • Example 2 Range of VPS : 10V– 14V RL = 20 – 100 VZ = 5.6V Find value of Ri and calculate the maximum power rating of the diode