CommScope VSWR User Manual

PIM and VSWR System Calculators

freq

y

(d

The passive intermodulation (PIM) and voltage standing wave ratio (VSWR) System
Calculators support two common needs:

1) various components can be selected to be included in the RF path for analysis at a

given frequency

2) vector addition calculations are performed for both a typical and a worst-case result

PIM System Calculator

The PIM System Calculator accepts the selected components’ PIM specifi cations and losses along with model numbers
and lengths for various coaxial cables being used. Another option allows you to select one of three common test
equipment power options: 2, 20 or 40 watts. This option provides you with the third-order variation as the test signals
are changed from the default level of 20 watts. Theoretically, this number should be 3 dB per dB, but numerous tests
by several parties have indicated a 2.3–2.6 dB per dB range for real-world measurements.

If a Tower Mounted Amplifi er (TMA) is included in the RF path, it is recommended that it be active during PIM testing.
For these cases, TMA gain should be input into the calculator, resulting in higher levels of PIM at the bottom end from
contributors beyond the TMA.

Since each component in the RF path has its individual PIM specifi cation—usually using two 20-watt carriers—values
and calculations must be adjusted as the RF loss away from the test set increases, or if the powers of the test tones are
a wattage other than 20. Once the refl ected PIM value for each component is calculated, it must be combined with
other refl ected PIM values to simulate the composite result seen by the bottom-end test equipment.

Knowing that each refl ected PIM value is a vector that has both amplitude and phase further complicates the
combining. This means that a number of components having specifi c PIM specifi cations could yield very different
“system” PIM results depending on the cable lengths (phase differences) between them. Since it is virtually impossible
to calculate every combination with unknown cable lengths, the PIM System Calculator generates two results: a typical
value where the vectors combine randomly and a worst-case value where the vectors all combine in-phase.

It should be noted that RF path loss can reduce the power at some components to the point where the reduced PIM
product at that component falls below the noise fl oor of the PIM test equipment. In that case, the result is highlighted
in yellow.

VSWR System Calculator

The VSWR System Calculator accepts the selected components’ VSWR specifi cations and losses along with model
numbers and lengths for the coaxial cables being used. Similar to the PIM System Calculator, it uses this information to
calculate both a typical and a worst-case value which depends on the vector addition of the individual contributors.

When a Tower Mounted Amplifi er (TMA) is included, the system VSWR calculation refl ects the results in the transmit
frequency (downlink) band only.

uenc

ownlink) band only.

www.commscope.com

Visit our website or contact your local CommScope representative for more information.

© 2012 CommScope, Inc. All rights reserved. All trademarks identified by ® or ™ are registered trademarks or trademarks, respectively, of CommScope, Inc.
This document is for planning purposes only and is not intended to modify or supplement any specifications or warranties relating to CommScope products or services. TP-105970-EN (07/12)