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| AN1448/1001 1/11 AN1448 application note how to reduce 3rd harmonics with st6200c motor control software by microcontroller division applicatio n team introduction universal motors are widely used in home appliances such as vacuum cleaners, washing ma- chines, power tools and food processors. however, universal motors produce a strong 3rd harmonic current. when the triac conduction is not in full wave mode, the motor current con- tains high amplitude 3rd harmonics which may not comply with the 3rd harmonics limits set by the iec61000-3-2 standard. in practice, it is very difficult to comply with the harmonics standard when driving universal motors with a power of more than 1200w . this application note presents an innovative, cost-saving solution for suppressing 3rd har- monic current in the power line. the control principle is based on modulation of the phase angle delay times and is easily implemented in software using a low cost st6200c microcon- troller. the output motor current waveform is modulated so as to suppress specified harmonic components. the efficiency of this method has been proven on a 1500w vacuum cleaner under various load conditions. the measurement of harmonic components and motor power was done with a digital power meter (wt1030). the results show much better harmonic per- formance than symmetrical phase control methods. 1
2/11 how to reduce 3rd harmonics with st6200c motor control software 1 iec61000-3-2 standard harmonic disturbances in the power line have increased with spread of electronic equipment into homes and offices. many household appliances and similar electrical equipment with or without electronic control devices, are liable to introduce disturbances, especially harmonics of the supply frequency, into the systems to which they are connected. the harmonics do not represent any real or active power, but nevertheless they lead to substantial copper or iron losses. the iec61000-3-2 standard deals with the limitation of harmonic currents injected into the public supply system. 1.1 scope the iec61000-3-2 standard is applicable to all electrical and electronic equipment with an input current up to 16a and intended to be connected to public low-voltage distribution sys- tems with a nominal 50hz or 60hz frequency and of the following types: - nominal voltages up to 240v, single-phase, two or three wire; - nominal voltages up to 415v, three-phase, three or four wire; 1.2 objective the objective of this standard is to give the general requirements and the maximum permis- sible values of the harmonic components of the input current which may be produced by a piece of equipment tested individually under specified conditions. it also gives a practical method for testing a prototype. 1.3 measurement circuit for single phase equipment the equipment under test is supplied in series with shunts z m (see figure 1.) or current trans- formers from a source with the same nominal voltage and frequency as the rated voltage and frequency of the equipment under test. the measurement circuit for single phase equipment is show in figure 1.. 2 3/11 how to reduce 3rd harmonics with st6200c motor control software figure 1. measurement circuit for single phase equipment legend: s = supply source m = measurement equipment a = equipment under test z m = input impedance of measurement equipment z s = internal impedance of the supply source i n = harmonic component of order n of the line current z m a i n m g ~ z s s 4/11 how to reduce 3rd harmonics with st6200c motor control software 1.4 general requirements and limits for equipment for class a equipment (including universal motors), the harmonics of the input current shall not exceed the absolute values given in table 1. the limits are given as absolute values which are independent of the equipment input power. table 1. limit of harmonic currents for class a equipment harmonic order maximum permissible harmonic current(a) odd harmonics 3 5 7 9 11 13 15 n 39 2.30 1.14 0.77 0.40 0.33 0.21 0.15* 15 / n even harmonics 2 4 6 8 n 40 1.08 0.43 0.30 0.23 * 8 / n 5/11 how to reduce 3rd harmonics with st6200c motor control software 2 control principle 2.1 symmetrical phase control method in ac power system applications, the amount of power delivered to the system load can be varied by controlling the phase delay time through a triac. the delay time is referred to the zero voltage crossing on the power line. this method is widely used in universal motor control applications. the motor speed can be easily controlled by changing the firing angle. power de- livered is equal to the integration of the power from fire angle to pie (180 degrees). the triac will conduct power after the firing angle and turn off power at the zero crossing point. the system block diagram and waveform are shown in figure 2.. figure 2. topology of universal motor symmetrical phase angle control method a universal motor operating at reduced speed (i.e firing angle at around 90 degree) produces very high level of odd harmonics. in experiments with a 1500kw vacuum cleaner at 230v/ 50hz with the same load, harmonic currents were found to be outside the limits when running at reduced power levels from 470w to 1200w. practical experience shows that 3rd harmonic currents are determined not only by the motor current amplitude, but also by the conduction time. d d d d i umot imotor d d d d i umot imotor m st6200c triac m st6200c triac m st6200c triac 6/11 how to reduce 3rd harmonics with st6200c motor control software table 2. 1500w vacuum cleaner harmonic currents measurement at fixed load with symmetrical phase angle control method in table 2., the figures in bold are outside the harmonic current limit specifications. 2.2 asymmetrical phase control method (kurz patent) the experiment results in table 2. indicates that universal motors produce the maximum 3rd harmonic currents at the middle power range. this makes it possible to reduce the harmonic current with the asymmetrical phase control method. according to table 2., when a 1500w vacuum cleaner works at 780w, the 3rd harmonic cur- rent is outside the limit. but when it works at 1200w and 320w, the 3rd harmonic current is within the limit. if it works at 1200w and 320w in alternate full wave cycles (2 long plus 2 short), the 3rd harmonic current should not be outside the limits due to phase considerations and the average power should be around 760w. the motor speed will be still quite stable due to to the rotor momentum. the experiment results in table 3 prove this hypothesis. it is very simple to try out this control method with a simple experiment. during the testing pe- riod, two potentiometers can be used to set two independent phase angle delay times. in this way, the motor power can be changed with different combinations of the two potentiometers. the motor power and 3rd harmonic current can be measured at the same time. the best har- monic performance can be achieved by finely adjusting the two phase angle delay times. from this, it is easy to build a look up table (t1 and t2 corresponding to the motor power). power delay time harmonic order & harmonic currents (a) p (w) t (ms) 3579 250 6.9 1.918 0.92 0.275 0.2 320 6.5 2.122 0.931 0.322 0.213 535 5.75 2.474 0.92 0.453 0.175 590 5.55 2.513 0.923 0.478 0.156 780 5.0 2.601 0.883 0.502 0.127 900 4.5 2.576 0.859 0.44 0.162 1000 4.2 2.515 0.834 0.357 0.196 1050 4.0 2.448 0.82 0.306 0.194 1090 3.75 2.406 0.806 0.27 0.188 1130 3.6 2.331 0.793 0.232 0.182 1200 3.5 2.193 0.743 0.188 0.142 1300 3.0 1.892 0.612 0.196 0.06 1400 2.25 1.386 0.33 0.2 0.116 1450 1.6 1.11 0.138 0.13 0.111 1480 0.3 0.77 0.107 0.022 0.01 harmonic current limit (a) 2.30 1.14 0.77 0.4 7/11 how to reduce 3rd harmonics with st6200c motor control software the current waveform is shown in table 3. channel 1 is the ac mains voltage waveform, channel 4 is the motor current waveform. figure 3. . motor current waveform of asymmetrical phase control method based on the simple experiment with two potentiometers, the two phase angle delay time could be optimized at different motor power rates. from this, the look up table for the two phase angle delay times can be created . with this innovative solution, the 3rd harmonic cur- rents at middle power range have been reduced dramatically without any additional cost. table 3 gives the harmonic currents test results with the same universal motor under the same test conditions. table 3. . 1500w vacuum cleaner harmonic currents measurement at fixed load with asymmetrical phase angle control method (kurz patent) power delay time harmonic order & harmonic currents (a) p (watt) t 1 (ms) t 2 (ms) 3 5 7 9 535w 6.8 5.25 2.13 0.536 0.18 0.059 580w 6.8 5.0 2.033 0.38 0.151 0.104 780w 6.6 4.1 1.745 0.165 0.164 0.21 940w 6.0 3.4 1.557 0.18 0.252 0.134 1000w 6.0 2.9 1.241 0.327 0.29 0.083 1050w 5.55 2.05 0.86 0.388 0.207 0.146 1100w 5.25 2.05 1.01 0.342 0.261 0.106 1120w 4.75 2.05 1.267 0.25 0.316 0.015 harmonic current limit (a) 2.30 1.14 0.77 0.4 8/11 how to reduce 3rd harmonics with st6200c motor control software this method has already been patented by kurz. the patent number is de19705907a1 (german patent) and ep0859452a1 (european patent). with the kurz patented method, the motor current is modulated by two long half waves and two short half waves. in short, this method can be called the atwo long plus two shorto method. 2.3 asymmetrical phase control method (alternative solution) this new asymmetrical phase control method introduced here, modulates the motor current as 2 long half waves and 1 short half wave. this reduces 3rd harmonic current at reduced speed and with careful modulation, keeps it within the limits of the iec61000-3-2 standard. compared with the previous method, it generates lower flicker and torque ripple. the current waveform is shown in table 4. channel 1 is the ac mains voltage waveform, channel 4 is the motor current waveform. figure 4. . motor current waveform in asymmetrical phase control method 9/11 how to reduce 3rd harmonics with st6200c motor control software table 4 gives the harmonic current test results with the same vacuum cleaner under the same test conditions. table 4. 1500w vacuum cleaner harmonic current measurements at fixed load with asymmetrical phase angle control method (alternative solution) power delay time harmonic order & harmonic currents (a) p (watt) t 1 (ms) t 2 (ms) 3 5 7 9 535w 6.90 5.48 2.22 0.634 0.281 0.041 580w 6.90 5.13 2.170 0.532 0.280 0.072 700w 6.85 4.74 2.115 0.451 0.251 0.157 780w 6.85 4.36 1.974 0.437 0.241 0.185 940w 6.13 3.75 1.799 0.371 0.182 0.174 1000w 6.04 3.37 1.595 0.364 0.219 0.105 1050w 6.08 2.91 1.362 0.389 0.234 0.049 1100w 5.19 2.90 1.658 0.204 0.245 0.084 1150w 5.20 2.47 1.349 0.121 0.293 0.052 harmonic current limit (a) 2.30 1.14 0.77 0.4 10/11 how to reduce 3rd harmonics with st6200c motor control software 3 conclusions 3.1 built-in st62 features yield the lowest total system cost the use of mcu-driven motor control system in home appliances is becoming more and more popular with the availability of flexible, reliable and low cost microcontrollers. the stmicroelectronics st62 microcontroller family is ideal for home applicances because it offers many powerful on-chip peripherals and resources, a wide range of operating voltages, built-in ruggedness and excellent noise imm unity to enable designers to achieve the lowest possible system cost. 3.2 a software approach provides a very cost effective solution the design presented proposes a cost effective solution for reducing the 3rd harmonic cur- rents for vacuum cleaner applications. the results given by the experiments prove the effi- ciency of this method. the source code of the software (filename vacuum.st6) is supplied with the umc01eval board. please contact your local stmicroelectronics sales office for information about or- dering this kit. 11/11 how to reduce 3rd harmonics with st6200c motor control software athe present note which is for guidance only aims at providing customers with information regarding their products in order for them to save time. as a result, stmicroelectronics shall not be held liable for any direct, indirect or consequential damages with respect to any claims arising from the content of such a note and/or the use made by customers of the information contained herein in connexion with their products.o information furnished is believed to be accurate and reliable. however, stmicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. no license is granted by implication or otherwise under any patent or patent rights of stmicroelectronics. specifications mentioned in this publication are subject to change without notice. this publication supersedes and replaces all information previously supplied. stmicroelectronics products are not authorized for use as critical components in life support devices or systems without the express writt en approval of stmicroelectronics. the st logo is a registered trademark of stmicroelectronics 2001 stmicroelectronics - all rights reserved. purchase of i 2 c components by stmicroelectronics conveys a license under the philips i 2 c patent. rights to use these components in an i 2 c system is granted provided that the system conforms to the i 2 c standard specification as defined by philips. stmicroelectronics group of companies australia - brazil - canada - china - finland - france - germany - hong kong - india - israel - italy - japan malaysia - malta - morocco - singapore - spain - sweden - switzerland - united kingdom - u.s.a . http:// www.st.com |
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