ACD-330T Amprobe, ACD-330T Datasheet - Page 37

ACD-330T

Manufacturer Part Number

ACD-330T

Description

DMM CLAMP-ON W/BACKLIGHT

Manufacturer

Amprobe

Type

Digital (DMM)r

Datasheet

1.ACD-330T.pdf (42 pages)

Specifications of ACD-330T

Includes

Battery, Case, Test Leads

Style

Clamp

Display Digits

Display Type

LCD, Bar Graph

Function

Voltage, Current, Resistance, Frequency

Functions, Extra

Continuity, Diode Test

Features

Auto Off, Backlight, Hold, Min/Max/Ave

Ranging

Auto/Manual

Response

True RMS

Lead Free Status / RoHS Status

Contains lead / RoHS compliant by exemption

Display Count

Other names

2730749

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field measure average current, not true RMS current, even if this average value is

displayed on a scale calibrated in RMS. These average-sensing meters are accurate

personal computers, or speed controls for motors. Harmonic distortion causes sig-

nificant currents at frequencies that are odd multiples of the power line frequency.

Harmonic current can cause a substantial load on the neutral wires of wye-con-

nected power distribution systems.

In most countries, 5OHz or 6OHz power distribution systems include 3-phase delta

primary - wye secondary transformers. The secondary generally provides 120VAC

from phase to neutral, and 208VAC from phase to phase. Historically, balancing

Typically, the vector addition of the phase currents in the transformers' neutral wire

loading include incandescent lighting and small motors. The result is essentially a

sine wave current in each phase and a low neutral current at a frequency of 50Hz

or 60Hz.

ovens are now commonly drawing power line current for only a fraction of each

cycle so that they cause non-linear loading and subsequentnon-linear current. This

rent waveform from the transformer could contain not only a 60Hz component, but

also a 180Hz component, a 300Hz component, etc.

The vector addition in a properly balanced power distribution system feeding non-

linear loads may still be quite low. However, the vector addition does not cancel all

the harmonic currents. The odd multiples of the 3rd harmonic (called the

RMS current in the transformers neutral wire that is 130( of the total RMS current

measured in any individual phase. For example, phase currents of 80 amperes may

cause 104 amperes of harmonic current in the neutral, the most common harmonic

being the 3rd. The electrical designer must consider the following issues when

designing a power distribution system that will contain harmonic current.

True-RMS current is very important because it directly relates to the amount of heat

dissipated in wiring, transformers, and loads. Most clamp-on meters already in the

only for sinusoidal signals.

All current signals are distorted in some way. The most common is harmonic dis-

tortion caused by non-linear loads such as office machines, medical equipment,

the loads on each phase was a big headache for the electrical system designer.

is zero or quite low in a wellbalanced system. Typical devices that present linear

Devices such as TV sets, fluorescent fighting, video machines, and microwave

generates odd harmonics of the 50Hz or 60Hz line frequency. Therefore, the cur-

"TRIPLENS") are added together in the neutral. These harmonics can create an

CURRENT HARMONICS THEORY