User manual

Compliance Test System 3.0 User Manual

2.4.1 Test Classes

The standard divides products to be tested in to four classes, A, B, C and D. Each class has its

own harmonic current limits. Class A is the default class, meaning if a product does not fall into

the categories for class B, C or D, it is by default class A. The product classes are defined as

follows:

Table 2-3: IEC 61000-3-2 Class Descriptions

Class Description

A All motor driven equipment, most “domestic” appliances and

virtually all 3 phase equipment (<16 A rms per phase)

B All portable electric tools

C All lighting products, including dimmers, with an active input

power above 25 Watts.

D Products having a power range from 75 to 600 Watts AND a

current waveform that has a special wave shape.

Test limits are most stringent for Class-C and Class-D equipment. These classes were

established to cover the wide range of products that uses “cheap” switching power supplies with

a rectifier capacitor input. These units typically exhibit relatively high odd harmonics. Since this

type of supply is so commonly used, the effect of a large quantity of products like this can add up

to significant problems. To limit this effect, the current harmonic limits for class-D equipment are

specified in mA/W instead of an absolute current value as is done for class A and B. Many

consumer and professional devices such as TV’s, VCR’s, stereos, PC’s, fax machines, printers

etc. may fall into the more stringent class D category.

Class-C limits are not specified in absolute values either but rather as a percentage of the

fundamental current. The third harmonic limit is also a function of the power factor so is harder to

meet as the power factor decreases. Neither class C nor D devices have to meet even current

harmonics limits.

Since class C and D limits are load dependent, the power level and power factor have to be

determined for each test. In case of fluctuating power levels, it may be necessary to measure the

power level during the test and adjust the limits used to pass or fail the unit under test

dynamically.

This dynamic nature of the class C and D limits has resulting in some confusion and a possible

problem of inconsistent test results when using IEC test systems for different vendors. The

Standards body working group for harmonics is in the process of clarifying some of the class and

limit issues and these efforts are likely to result in a revision of classes and limit calculations

sometime in the year 2001. Until a new standard is established, the CTS 3.0 software maintains

a database of test limit values than can be updated over time if needed without changing the core

program.

CTS 3.0 software makes dynamic classification for Classes A and D. The classification follows

the following principle. If during either a Class A or D test the EUT becomes a Class A device,

the EUT will be considered a Class A device. If the EUT is a Class D device through out the test,

then the device is a Class D device. In other words, Class A is a latching classification. Please

note that even though the classification may change during a test, a Class A (or D) test will still be

performed according to Class A (or D) specification.

22 Revision N California Instruments