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AB09 Rectifier Circuit Operating Manual Ver.1.1 An ISO 9001 : 2000 company 94-101, Electronic Complex Pardesipura, Indore- 452010, India Tel : 91-731- 2570301/02, 4211100 Fax: 91- 731- 2555643 e mail : [email protected] Website : www.scientech.bz Toll free : 1800-103-5050 AB09 Scientech Technologies Pvt. Ltd. 2 AB09 AB09 Rectifier Circuit Table of Contents 1. Introduction 4 2. Theory 6 3. Experiments 8 • Experiment 1 To study Half wave Rectifier 11 • Experiment 2 To study Centre tap Full wave Rectifier 13 • Experiment 3 To study Bridge Rectifier 15 4. Data Sheet 17 5. Warranty 18 6. List of Accessories 18 RoHS Compliance Scientech Products are RoHS Complied. RoHS Directive concerns with the restrictive use of Hazardous substances (Pb, Cd, Cr, Hg, Br compounds) in electric and electronic equipments. Scientech products are “Lead Free” and “Environment Friendly”. It is mandatory that service engineers use lead free solder wire and use the soldering irons upto (25 W) that reach a temperature of 450°C at the tip as the melting temperature of the unleaded solder is higher than the leaded solder. Scientech Technologies Pvt. Ltd. 3 AB09 Introduction AB09 is a compact, ready to use Rectifier Circuit experiment board. This board is useful for students to understand half wave, Full wave Center tap and Full wave Bridge Rectifier circuits and their working. It can be used as stand alone unit with external DC power supply or can be used with Scientech Analog Lab ST2612 which has built in DC power supply, AC power supply, function generator, modulation generator, continuity tester, toggle switches and potentiometer. List of Boards : Model Name AB01 AB02 AB03 AB04 AB05 AB06 AB07 AB08 AB10 AB11 AB12 AB13 AB14 AB15 AB16 AB17 AB18 AB19 AB20 AB21 AB22 AB23 AB24 AB25 AB26 AB27 AB29 AB30 AB31 AB32 AB33 AB35 AB37 AB39 AB41 Diode characteristics (Si, Zener, LED) Transistor characteristics (CB NPN) Transistor characteristics (CB PNP) Transistor characteristics (CE NPN) Transistor characteristics (CE PNP) Transistor characteristics (CC NPN) Transistor characteristics (CC PNP) FET characteristics Wheatstone bridge Maxwell’s Bridge De Sauty’s Bridge Schering Bridge Darlington Pair Common Emitter Amplifier Common Collector Amplifier Common Base Amplifier RC-Coupled Amplifier Cascode Amplifier Direct Coupled Amplifier Class A Amplifier Class B Amplifier (push pull emitter follower) Class C Tuned Amplifier Transformer Coupled Amplifier Phase Locked Loop (FM Demodulator & Frequency Divider / Multiplier) FET Amplifier Voltage Controlled Oscillator F-V and V-F Converter V-I and I-V Converter Zener Voltage Regulator Transistor Series Voltage Regulator Transistor Shunt Voltage Regulator DC Ammeter DC Ammeter (0-2mA) Instrumentation Amplifier Differential Amplifier (Transistorized) Scientech Technologies Pvt. Ltd. 4 AB09 AB42 AB43 AB44 AB45 AB49 AB51 AB52 AB54 AB56 AB57 AB58 AB59 AB64 AB66 AB67 AB68 AB80 AB82 AB83 AB84 AB85 AB88 AB89 AB90 AB91 AB92 AB93 AB96 AB97 AB101 AB102 AB106 Operational Amplifier (Inverting / Non-inverting / Differentiator) Operational Amplifier (Adder/Scalar) Operational Amplifier (Integrator/ Differentiator) Schmitt Trigger and Comparator K Derived Filter Active filters (Low Pass and High Pass) Active Band Pass Filter Tschebyscheff Filter Fiber Optic Analog Link Owen’s Bridge Anderson’s Bridge Maxwell’s Inductance Bridge RC – Coupled Amplifier with Feedback Wien Bridge Oscillators Colpitt Oscillator Hartley Oscillator RLC Series and RLC Parallel Resonance Thevenin’s and Maximum Power Transfer Theorem Reciprocity and Superposition Theorem Tellegen’s Theorem Norton’s theorem Diode Clipper Diode Clampers Two port network parameter Optical Transducer (Photovoltaic cell) Optical Transducer (Photoconductive cell/LDR) Optical Transducer (Phototransistor) Temperature Transducer (RTD & IC335) Temperature Transducer (Thermocouple) DSB Modulator and Demodulator SSB Modulator and Demodulator FM Modulator and Demodulator and many more………… Scientech Technologies Pvt. Ltd. 5 AB09 Theory Rectifier is an electronic device that converts alternating current into direct current. A rectifier changes AC into DC by eliminating the negative half-cycles of the alternating voltage, so it provides a one way path for electric current i.e. conduction takes place in one direction only. It is in this way that a rectifier converts an alternating current into unidirectional current. Rectifier can be classified into two categories: 1. Half-wave rectifier 2. Full-wave rectifier Half wave rectifier conducts only on positive half cycles of input voltages i.e. it uses one half cycles of AC input voltages to produce DC output .On the other hand, a fullwave rectifier conducts on both the half cycles of input AC voltage to produce DC output. So a full wave rectifier circuit can supply more DC output more than the equivalent half-wave rectifier. Half wave Rectifier : A half wave rectifier employs a single diode as shown in figure 1. Figure 1 During the positive half cycle of the input voltage diode conducts, so a short circuit equivalence of the ideal diode will result in an output signal which is an exact replica of the input signal. For the negative half cycle of the applied signal diode is in the off state with an open circuit equivalent, which results in the absence of a path for the charge to flow, so a zero voltage appears for the negative half cycle of input voltage. Vdc = .318 Vm Limitation of Half wave Rectifier : The AC power delivers only half the time, hence output is low. Scientech Technologies Pvt. Ltd. 6 AB09 Full Wave Rectifier : The DC level obtained from a sinusoidal input can be improved to 100% using a process called full wave rectification. A full wave rectifier can be classified into two categories: a. Center-Tapped full wave rectifier b. Full-wave Bridge Network Center-Tapped Full wave Rectifier : Center-Tapped full wave rectifier requires two diodes and a center-tapped transformer. The circuit diagram is shown in figure 2. Figure 2 During the positive portion of input signal diode D1 conducts so there exists a short circuit equivalent across D1 and open circuit equivalent across D2 and the output voltage appears across load resistor RL. During the negative portion of input voltage the roles of the diodes are reversed but maintaining the same polarity for the voltage across the load resistor RL. The net effect is the same output as that appearing for full wave rectifier with same d.c level. Limitations of Center Tap Full wave Rectifier : 1. It is difficult to locate center tap on the secondary winding. 2. The DC output is small as each diode utilizes only one-half of the transformer secondary winding. 3. The diode must have high peak inverse voltage. Scientech Technologies Pvt. Ltd. 7 AB09 Full Wave Bridge Network : Bridge network requires four diodes for its operation. The circuit diagram is shown in figure 3. Figure 3 During the period 0 to t/2 diodes D2 and D3 are conducting while diodes D1 and D4 are in off state, so for the ideal diodes the load voltage Vo =Vi. For the negative portion of the input voltage diodes D1 and D4 are conducting resulting in positive pulse across load resistor RL. Vdc=.636Vm Advantages of Bridge Rectifier : 1. The need for center tapped transformer is eliminated. 2. The output is twice that of center-tap circuit for the same secondary voltage. 3. The PIV is one half that of the center-tap circuit. Disadvantages of Bridge Rectifier : 1. It requires four diodes. 2. As during each half cycle of ac input diodes that conduct are in series, therefore the voltage drop in the internal resistance of the rectifying unit will be twice as great as in the center circuit. This is objectionable when secondary voltage is small. Important parameters for rectifier circuits : Peak inverse voltage : The maximum reverse-bias potential that can be applied to a diode before entering the Zener region is called peak inverse voltage or peak reverse voltage. Half wave Rectifier PIV rating ≥ Vm Center tap Full wave Rectifier PIV rating ≥ 2Vm Full wave Bridge Rectifier PIV rating ≥ Vm Scientech Technologies Pvt. Ltd. 8 AB09 Rectification efficiency : The ratio of DC output power to the AC power input in a rectifier is known as rectification efficiency. η = DC output power AC input power Efficiency of Half wave rectifier : Pdc =I2dc× RL= {Im/ п} 2× RL Pac=I2rms (rf+ RL), Irms =Im/2 rf is diode resistance η = Pdc / Pac =0.406/ (1+ rf / RL) …………..……. (1) Efficiency of Full wave rectifier (Center tap and Bridge Rectifiers) : Idc=2Im/ п, Pdc =I2dc× RL= {2Im/ п} 2× RL Irms =Im/√2, Pac=I2rms (rf+ RL) η = Pdc / Pac = 0.812/ (1+ rf / RL) …………..……. (2) Ripple factor : The ratio of r.m.s. value of AC component to the DC component in the rectifier output is known as ripple factor. The smaller the ripple factor, the lesser the effective AC component and hence more effective is the rectifier. Ripple factor = r.m.s. value of AC component Value of DC component Mathematical analysis Ripple Factor= √ (Irms / Idc ) 2-1 ………………………. .…….(3) Half wave rectification : Irms =Im/2 ; Idc=Im/ п Putting values in eq.3 we get Ripple Factor=1.21 Full wave rectification : Irms =Im/√2 ; Idc=2Im/ п Putting values in eq.3 we get Ripple Factor=0.48 Scientech Technologies Pvt. Ltd. 9 AB09 Comparison of Rectifiers : S. No. Particulars Half -wave Center -tap Bridge type 1. No. of diodes 1 2 4 2. Transformer necessary no yes no 3. Max. efficiency 40.6% 81.2% 81.2% 4. Ripple factor 1.21 0.48 0.48 5. Output frequency fin 2 fin 2 fin 6. Peak inverse voltage Vm 2Vm Vm Filter circuit : The output of a rectifier has a pulsating character i.e. it contains AC and DC components. However, in electronic circuits, we need a DC voltage that is constant value .So a filter circuit is installed at the rectifier output .The filter circuit filters out the AC components from the rectifier output and allows only the DC component to reach the load .Thus a constant DC voltage appears across the load. Scientech Technologies Pvt. Ltd. 10 AB09 Experiment 1 Objective : To study Half wave Rectifier Circuit. Equipment Needed : 1. Analog board of AB09. 2. AC power supplies of 0-9Vrms from external source or ST2612 Analog Lab. 3. Oscilloscope. 4. 2 mm patch cords. Circuit diagram : Circuit used to study the Half wave Rectifier is shown in figure.4 Figure 4 Scientech Technologies Pvt. Ltd. 11 AB09 Procedure : • Connect 0-9Vrms from ST2612 Analog Lab or from Analog Digital Lab Power Supply or from any external source (transformer o/p or function generator) to sockets m and c of AB09 Board respectively using 2mm patch cords. 1. Connect 2mm patch cord between sockets e and j. This will connect load resistance RL across the output of half wave rectifier. 2. Connect Ch I of oscilloscope between sockets i and n and observe the half wave rectified o/p waveform across the load resistor (keep AC/DC push button switch of oscilloscope in AC position) 3. Measure the output DC voltage by pressing the AC/DC push button switch of the oscilloscope or by connecting a digital multimeter across sockets j and n i.e. across load resistance and carry out following calculations. 4. Now connect the 2mm patch cord between i and l socket. This will connect the filter capacitor across the o/p of half wave rectifier. 5. Observe the filtered output on oscilloscope. Results : 1. Output voltage Vo =………………………………….. 2. Efficiency (using eq.1) = ……………………………… Scientech Technologies Pvt. Ltd. 12 AB09 Experiment 2 Objective : To study Full wave Centre- tapped Rectifier Circuit. Equipment Needed : 1. Analog board of AB09. 2. AC power supplies of 9-0-9Vrms from external source or ST2612 Analog Lab. 3. Oscilloscope. 4. 2 mm patch cords. Circuit diagram : Circuit used to study the Full wave Rectifier is shown figure 5 Figure 5 Scientech Technologies Pvt. Ltd. 13 AB09 Procedure : • Connect 9V-0-9Vrms from ST2612 Analog Lab or from Analog Digital Lab Power Supply or from any external source (transformer o/p) to sockets c, m and g of AB09 Board respectively using 2mm patch cords. 1. Connect 2mm patch cord between sockets e and j. This will connect load resistance RL across the output of Centre tap Full wave rectifier. 2. Connect Ch I of oscilloscope between sockets i and n and observe the Centre tap Full wave rectified o/p waveform across the load resistor (keep AC/DC push button switch of oscilloscope in AC position) 3. Measure the output DC voltage by pressing the AC/DC push button switch of the oscilloscope or by connecting a digital multimeter across sockets j and n i.e. across load resistance and carry out following calculations. 4. Now connect the 2mm patch cord between i and l socket. This will connect the filter capacitor across the o/p of centre tap full wave rectifier. 5. Observe the filtered output on oscilloscope. Results : 1. Output voltage Vo =………………………………….. 2. Efficiency (using eq.2) = ……………………………… Scientech Technologies Pvt. Ltd. 14 AB09 Experiment 3 Objective : To study Full wave Bridge Rectifier Circuit Equipment Needed : 1. Analog board of AB09. 2. AC power supplies of 0-9Vrms from external source or ST2612 Analog Lab. 3. Oscilloscope. 4. 2 mm. patch cords. Circuit diagram : Circuit used to study the Full wave bridge Rectifier is shown in figure 6 Figure 6 Scientech Technologies Pvt. Ltd. 15 AB09 Procedure : • Connect 0-9Vrms from ST2612 Analog Lab or from Analog Digital Lab Power Supply or from any external source (transformer o/p) to sockets g and c of AB09 Board respectively using 2mm patch cords. 1. Connect sockets b with d and h with f using 2mm patch cords to complete the bridge rectifier circuit and also connect a patch cord between socket a and m/n. 2. Connect 2mm patch cord between sockets e and j. This will connect load resistance RL across the output of Bridge rectifier (keep AC/DC push button switch of oscilloscope in AC position) 3. Output DC voltage can be measured by pressing the AC/DC push button switch of the oscilloscope or connecting a digital multimeter across sockets j and n i.e. across the load resistor and carry out following calculations. 4. Now connect the 2mm patch cord between i and l socket. This will connect the filter capacitor across the o/p of full wave bridge rectifier. 5. Observe the filtered output on oscilloscope. Results : 1. Output voltage Vo =…………………………………. 2. Efficiency (using eq.2) = ……………………………… Scientech Technologies Pvt. Ltd. 16 AB09 Data Sheet Scientech Technologies Pvt. Ltd. 17 AB09 Warranty 1. We guarantee the product against all manufacturing defects for 24 months from the date of sale by us or through our dealers. Consumables like dry cell etc. are not covered under warranty. 2. The guarantee will become void, if a) The product is not operated as per the instruction given in the operating manual. b) The agreed payment terms and other conditions of sale are not followed. c) The customer resells the instrument to another party. d) Any attempt is made to service and modify the instrument. 3. The non-working of the product is to be communicated to us immediately giving full details of the complaints and defects noticed specifically mentioning the type, serial number of the product and date of purchase etc. 4. The repair work will be carried out, provided the product is dispatched securely packed and insured. The transportation charges shall be borne by the customer. For any Technical Problem Please Contact us at [email protected] List of Accessories 1. 2 mm Patch Cords (Red) ...................................................................... 2 Nos. 2. 2 mm Patch Cord (Black) .......................................................................1 No. 3. 2 mm Patch Cord (Blue) ....................................................................... 5 Nos. 4. e-Manual.................................................................................................1 No. Updated 08-01-2009 Scientech Technologies Pvt. Ltd. 18