Ivie ie-33 & ie-35 manual, Nic and (f)stc measurements, Nic measurements – Ivie IE-35 RTA - Real Time Analysis User Manual

Ivie IE-33 & IE-35 Manual

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NIC and (F)STC Measurements

NIC Measurements

Sound transmission field testing of operable walls and field partitions is almost exclusively done using ASTM

E336 as the standard. The IE-33 and IE-35 are capable of making Noise Isolation Class (NIC) measurements.

NIC measurements are normally specified rather than Field Sound Transmission Class (F)STC measurements

because they are faster, easier, and therefore, less expensive to make. Field Sound Transmission Class

({F}STC) measurements require RT60 information for the calculation, as well as receiving room absorption in all

sixteen 1/3 octave bands of interest. Both the IE-33 and the IE-35 are capable of making RT60 measurements

(if the optional RT60 software module is purchased) as well as measuring receiving room absorption in the

required sixteen 1/3 octave bands. However, since RT60 measurement capability is an option, not a standard

feature, Ivie has chosen not to integrate (F)STC measurement measurement capability into the IE-33, or IE-35,

measurement suite. The following instructions are therefore limited to the theory of NIC measurements and

making NIC measurements.

NIC is a single-number acoustical rating of sound isolation between two different spaces separated by a sound

barrier. A typical measurement example would be determining the sound isolation provided by a wall or mov-

able partition separating two rooms. To make the measurement, an omni-directional sound source would be

placed in the Source Room to energize it with pink noise. Averaged (power averaged), 1/3 octave RTA spec-

trum measurements would then be made on both sides of the wall (Source Room and Receiving Room) and

each room average would be stored to separate memory locations. The NIC calculation would begin as the

stored spectrum of the Receiving room is subtracted from the stored spectrum of the Source Room to create a

Transmission Loss (TL) curve.

The NIC rating would then be determined by comparing and shifting the TL curve relative to the standard NIC

contour such that the TL curve is never more than 8 dB below the NIC contour in any 1/3 octave band; and the

sum of the deficiencies below the contour over the 16, 1/3 bands, does not exceed 32 dB. Once the TL curve is

shifted to meet these criteria, the NIC rating is determined by the value of the NIC contour at 500 Hz. Once the

Source Room and Receiving Room curves are stored, the curve fitting and NIC calculation are all done automat-

ically by the IE-33, or IE-35. Only a few taps of the stylus are required to complete the measurement and dis-

play the results.

The step-by-step process for making an NIC measurement is demonstrated by the illustrations on the opposite

page.

Note: Of particular interest in NIC measurements is the requirement for power averaged data. The IE-

33 and IE-35 “default” operating mode is “Arithmetic Average,” so “Power Average” will need to be selected.

Real Time NIC Measurements

This is a very useful diagnostic tool offering, unique to Ivie instrumentation. This mode allows the user to com-

pare the stored average curve in the Source Room to real time data in the Receive Room, thus providing a run-

ning calculation of NIC in real time. While in the Receive Room, the microphone can be moved to any position

around the sound barrier to find "sound leaks", weak isolation areas, strong isolation spots etc. Because the

NIC curve and calculated number are continuously updated in real time, it is easy to quickly compare different

areas, thereby determining deficiencies relative to location.