Download Practical Variable Speed Drives and Power Electronics Malcolm
Transcript
Electromagnetic compatibility (EMC) 123 (ripple-free). In practice, a ripple free DC current is not feasible, so the harmonic currents are invariably larger than the theoretical values. I1 In = n where: In the nth harmonic component of current I1 the magnitude of the fundamental component of current n order number of the harmonic For example, the theoretical magnitude of the harmonic currents in the mains, generated by a 3-phase 6-pulse power electronic converter will be: 5th 7th 11th 13th 17th 19th 23rd 25th Harmonic (250 Hz): 20.0% of fundamental current Harmonic (350 Hz): 14.3% of fundamental current Harmonic (550 Hz): 9.1% of fundamental current Harmonic (650 Hz): 7.7% of fundamental current Harmonic (850 Hz): 5.9% of fundamental current Harmonic (950 Hz): 5.3% of fundamental current Harmonic (1150 Hz): 4.3% of fundamental current Harmonic (1250 Hz): 4.0% of fundamental current etc etc The total RMS current drawn by a variable speed drive is the square root of the sum of the squares of the harmonic currents. In a variable speed drive application, assume for example that the current drawn by the 3-phase 6-pulse rectifier at fundamental frequency (50 Hz) is 100 Amps. Using the theoretical values listed above, the following harmonic current values will be flowing: 20 amps (20%) at the 5th harmonic frequency (250 Hz) 14.3 amps (14.3%) at the 7th harmonic frequency (350 Hz) 9.1 amps (9.1%) at the 11th harmonic frequency (550 Hz) etc (ignoring harmonics above the 25th harmonic order) Consequently, the magnitude of the total RMS current drawn by the VSD will be: I RMS = 2 2 2 2 I 1 + I 5 + I 7 + ... + I 25 2 2 2 2 I RMS = 100 + 20 + 14.3 + ... + 4 I RMS = 104.1 amps This illustrates that the total RMS current will be 4.1% greater than value of the fundamental current. This results in extra losses in the cables and transformers that feed the variable speed drive. It is commonly accepted practice to derate the drive cables and transformers by 10%. These theoretical values are based on ideal commutation and a ripple free load current on the DC link. These ideal conditions do not exist in practice and the magnitude of the harmonic currents depends on several factors, including: