Operating Manual Ver.1.1
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1 SCR Triggering Techniques ST2703 Operating Manual Ver.1.1 An ISO 9001 : 2000 company , Electronic Complex Pardesipura, Indore , India Tel : /02, Fax: e mail : info@scientech.bz Website : Toll free :
2 Scientech Technologies Pvt. Ltd. 2
3 SCR Triggering Techniques ST2703 Table of Contents 1. Introduction 4 2. Theory 5 3. Experiments Experiment 1 9 To Study the triggering of SCR using UJT Experiment 2 11 To Study the triggering of SCR using IC Datasheet Warranty List of Accessories 20 Scientech Technologies Pvt. Ltd. 3
4 Introduction SCR Triggering Techniques is a compact, ready to use experiment board. This is helpful for students to have a study, how to generate the pulse using UJT to trigger the SCR and to understand the operation of it. Scientech Technologies Pvt. Ltd. 4
5 Triggering of SCR using UJT Theory The UJT is often used as a trigger device for SCR s and TRIAC s. The most common UJT circuit in use today is the relaxation oscillator, which is shown in figure 1. Figure 1 The diode-resistance, resistance, resistance-capacitance and the diode-resistancecapacitance circuit produce prolonged pulses, so power dissipation is more at the gate. The power loss can be limited by the use of this UJT in the firing circuit. Pulse triggering is preferred as it offers several merits over R and RC triggering. Gate characteristics wide spread; pulses can be adjusted easily to suit such a wide spectrum of gate characteristics. The power level in pulse triggering is low as the gate drive is discontinuous; pulse triggering is therefore more efficient. The above figure1 is called the relaxation oscillator. The resistor and capacitor connected to the emitter form an RC timing circuit. Normally, the value of capacitor is fixed and the value of resistor is of potentiometer type. The charging rate of the capacitor depends on the value of the resistor and since the resistor is variable the RC time constant can be controlled. When the voltage across the capacitor is equal to more than the peak voltage V P of the UJT, it starts conducting. Since the UJT has a negative resistance, its voltage starts decreasing up to the valley voltage, and the capacitor discharges up to the valley voltage. This repetitive process produces a train of pulses at its output is shown in figure 2. From the output voltage waveform it is clear that the output pulses has a very small width and that a long relaxation time exits between the two pulses. Therefore it is said that the device is relaxed in this duration and is called the relaxation oscillator. Scientech Technologies Pvt. Ltd. 5
6 Figure 2 An important design consideration in this type of circuit concerns premature triggering of SCR. In the firing circuit t 1 =R 1 C 1 are time constant for charging circuit and t 2 =R 3 C 1 are discharging time constant. Here t 2 is much smaller than t 1. Resistance R3 should be sufficiently small so that normal leakage current drop across R3, when UJT is off, is not able to trigger the SCR. In other words, WHERE, V BB.R 3 /R BB +R 2 +R 3 <SCR trigger voltage R BB =R B1 +R B2 (INTERNAL RESISTANCE OF UJT BASES) THE OUTPUT PULSE FROM UJT IS CONNECTED TO THE GATE OF SCR. BY USING A POT THE GATE CURRENT CAN BE CONTROLLED AND MONITOR THE ANODE TO CATHODE CURRENT. IT WILL SHOW AT WHICH POINT THE SCR IS GETTING TRIGGERED. Scientech Technologies Pvt. Ltd. 6
7 Triggering of SCR using IC 555 : The Astable and Monostable circuits are so commonly required the special monolithic IC called IC timers, have been made available. The 555 IC, which has gained wide acceptance in terms of cost and versatility. Some typical applications are Monostable and Astable Multivibrators, dc-dc converters, digital logic probes, waveform generators, Analog frequency meters and tachometers, temperature measurement and control, infrared transmitters, burglar and toxic gas alarms, voltage regulators, etc. The device 555 is a monolithic timing circuit that can produce accurate and highly stable time delays or oscillations. The 555IC used for triggering of SCR in both dc and ac circuits. An Astable timer operation is achieved by adding resistor RB to figure 3 and configuring as shown in figure 3. In the Astable operation, the trigger terminal and the threshold terminal are connected so that a self-trigger is formed, operating as a Multivibrator. When the timer output is high, its internal discharging Tr. turns off and the VC1 increases by exponential function with the time constant (RA+RB)*C. When the VC1, or the threshold voltage, reaches 2Vcc/3, the comparator output on the trigger terminal becomes high, resetting the F/F and causing the timer output to become low. This in turn turns on the discharging Tr. and the C1 discharges through the discharging channel formed by RB and the discharging Tr. When the VC1 falls below Vcc/3, the comparator output on the trigger terminal becomes high and the timer output becomes high again. The discharging Tr. turns off and thevc1 rises again. In the above process, the section where the timer output is high is the time it takes for the VC1 to rise from Vcc/3 to 2Vcc/3, and the section where the timer output is low is the time it takes for the VC1 to drop from 2Vcc/3 to Vcc/3. When timer output is high, the equivalent circuit for charging capacitor C1 is as follows: Figure 3 Figure 4 Scientech Technologies Pvt. Ltd. 7
8 Since the duration of the timer output high state (t H ) is the amount of time it takes for the V C1 (t) to reach 2Vcc/3, The equivalent circuit for discharging capacitor C1, when timer output is low is, as follows: Figure 5 Since the duration of the timer output low state (t L ) is the amount of time it takes for the V C1(t) to reach Vcc/3, Since RD is normally RB>>RD although related to the size of discharging Tr., t L = 0.693RBC1 (10) Consequently, if the timer operates in Astable, the period is the same with 'T=t H + t L = 0.693(RA+RB) C RBC1= 0.693(RA+2RB) C1' because the period is the sum of the charge time and discharge time. And since frequency is the reciprocal of the period, the following applies. THE OUTPUT PULSE FROM UJT IS CONNECTED TO THE GATE OF SCR. BY USING A POT THE GATE CURRENT CAN BE CONTROLLED AND MONITOR THE ANODE TO CATHODE CURRENT. IT WILL SHOW AT WHICH POINT THE SCR IS GETTING TRIGGERED. Scientech Technologies Pvt. Ltd. 8
9 Experiment 1 Objective : To study the triggering of SCR using UJT Equipments Needed : 1. Power Electronics Board ST Oscilloscope 3. 2 mm patch cords. 4. Multi-meters Circuit diagram : The circuit diagram for Triggering of SCR using UJT is shown in figure 6 Figure 6 Scientech Technologies Pvt. Ltd. 9
10 Procedure : Connect Ammeter between point d and c to measure Anode-cathode current I AK (ma). 1. Connect Ammeter between point a and b to measure the gate Current I g (ma). 2. Connect voltmeter between point e and ground to measure the anode-cathode voltage V AK. 3. Rotate the potentiometer P 1 fully in clockwise direction and P 2 fully in counter clockwise direction. 4. Switch On the power supply. 5. Vary the potentiometer P 2 in clockwise direction so as to increase the anode to cathode voltage. Set this voltage above 11V. 6. Vary the potentiometer P 1 in counterclockwise direction so as to increase the value of gate current in step and measure the corresponding values of anode to cathode current I AK in an Observation Table Initially there will not be any current flow across the SCR, while varying the gate current the ammeter connected at point c and d suddenly increases and the voltmeter connected at point e and ground will suddenly decrease. This shows that the SCR is triggered. 8. Now vary the P 1, there will not be any effect in the anode cathode voltage and current of SCR. 9. To repeat the experiment switch off the power supply and follow the above procedure from step 4. Observation Table : Set V AK = +12V S.No Gate current I G (ma) Anode to cathode current I AK (ma) Anode to cathode voltage V AK (V) Scientech Technologies Pvt. Ltd. 10
11 Experiment 2 Objective : To study the Triggering of SCR using 555 IC. Equipments Needed : 1. Power Electronics Board ST Oscilloscope 3. 2 mm patch cords. Circuit diagram : The circuit diagram for Triggering of SCR using 555 IC is shown in figure 7 as follows: Figure 7 Scientech Technologies Pvt. Ltd. 11
12 Procedure : 1. Connect Ammeter between point c and b to measure Anode-cathode current I AK (ma). 2. Connect Ammeter between point f and e to measure the gate Current I G (ma). 3. Connect voltmeter between point a and ground to measure the anode- cathode voltage V AK. 4. Rotate the potentiometer P 1 fully in clockwise direction and P 2 fully in counter clockwise direction. 5. Switch On the power supply. 6. Vary the potentiometer P 2 in clockwise direction so as to increase the anode to cathode voltage. Set this voltage above 11V. 7. Vary the potentiometer P 1 in counterclockwise direction so as to increase the value of gate current in step and measure the corresponding values of anode to cathode current I AK in an Observation Table Initially there will not be any current flow across the SCR while varying the gate current the ammeter connected at point c and d suddenly increases and the voltmeter connected at point e and ground will suddenly decrease. This shows that the SCR is triggered. 9. Now vary the P 1, there will not be any effect in the anode-cathode voltage and current of SCR. To repeat the experiment switch off the power supply and follow the procedure from step 4 Scientech Technologies Pvt. Ltd. 12
13 Observation Table : Set V AK = +12V S.No Gate current I G (ma) Anode to cathode current I AK (ma) Anode to cathode current V AK (V) Scientech Technologies Pvt. Ltd. 13
14 Datasheets Boca Semiconductor Corp. (BSC) PN Unijunction Transistors Silicon PN Unijunction Transistors.. Designed for use In pulse and timing circuits, sensing circuits and thyristor trigger circuits. These devices feature: 1. Low Peak Point Current - 2 µa (Max) 2. Low Emitter Reverse Current na (Max) 3. Passivated Surface for Reliability and Uniformity Maximum Ratings (T A = 25 C unless otherwise noted.) "Indicates JEDEC Registered Date. Scientech Technologies Pvt. Ltd. 14
15 Notes: Derate 3 mw/ C increase In ambient temperature. The total Power dissipation (available power to Emitter and Base-Two) must be limited by the external circuitry. 1. Capacitor discharge - 10µF or loss, 30 volts or loss. Scientech Technologies Pvt. Ltd. 15
16 Scientech Technologies Pvt. Ltd. 16
17 Scientech Technologies Pvt. Ltd. 17
18 STANDARD Main features: TN16 and TYNx16 Series 16A SCRs Description The TYN / TN16 SCR Series is suitable for general purpose applications. Using clip assembly technology, they provide a superior performance in surge current capabilities. Absolute Ratings (limiting values) TN16 and TYNx16 Series Electrical Characteristics (Tj = 25 C, unless otherwise specified) Scientech Technologies Pvt. Ltd. 18
19 Thermal Resistances s = Copper surface under tab Product Selector Scientech Technologies Pvt. Ltd. 19
20 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 List of Accessories 1. 2mm Patch cords Nos. 2. Mains Cord...1 No. 3. e-manual...1 No. Updated Scientech Technologies Pvt. Ltd. 20
21 List of other Trainers available from us are : Model PE01 PE02 PE03 PE04 PE05 PE06 PE07 PE10 PE11 PE12 PE13 PE14 PE15 PE16 PE40 PE41 PE42 PE43 PE44 ST2701 ST2702 ST2703 ST2704 ST2705 ST2706 ST2707 ST2708 ST2709 Name UJT Characteristics MOSFET Characteristics SCR Characteristics TRIAC Characteristics DIAC Characteristics IGBT Characteristics PUT Characteristics SCR Triggering (R, RC Full wave, RC Half wave) SCR Triggering (UJT) SCR Triggering (IC555) SCR Triggering (IC74121) Ramp and Pedestal Triggering SCR Triggering (IC741) SCR Triggering (PUT) SCR Lamp Flasher SCR Alarm Circuit Series Inverter UJT Relaxation Oscillator Single Phase PWM Inverter IGBT Characteristics SCR Triggering (R, RC Half wave, RC Full wave) SCR Triggering Techniques Triggering of SCR using IC SCR Lamp Flasher SCR Alarm Circuit Series Inverter Single Phase Controlled Rectifier (with Ramp Comparator Firing Scheme) Single Phase Controlled Rectifier Scientech Technologies Pvt. Ltd. 21
22 ST2710 ST2711 ST2712 ST2713 ST2714 ST2715 ST2716 ST2717 ST2718 ST2719 ST2720 ST2722 ST2723 (Cosine Firing Scheme) Single Phase Converter Firing Techniques (by TCA 785IC and Triangular Comparator) Lamp Dimmer Electronics Power Lab Single Phase Cyclo - Converter Speed Control of Universal Motor using SCR Speed Control of AC Motor using TRIAC Microcontroller Based Firing Circuit for Controlled Rectifier SCR Commutation Circuits Bedford & Parallel Inverter Step-Up Chopper Single Phase Bridge Inverter Step-Down Chopper AC Chopper and many more. Scientech Technologies Pvt. Ltd. 22
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