T&M Fading Testing: Understanding and Measuring Signal Degradation
This article explores the world of fading testing and measurement, covering the equipment used to simulate and analyze fading conditions. We’ll delve into what fading is, the different types, and the tools used by leading test solution providers to tackle this challenge.
What is Fading?
Introduction:
Fading refers to the fluctuations in the strength of a received signal over time, caused by various impairments along the transmission path. Several factors contribute to this phenomenon, including:
- The number of paths the signal takes between the transmitter and receiver.
- Path loss (signal weakening over distance).
- The operating frequency of the signal.
- The relative time and positions of the transmitter and receiver.
There are different types of fading, broadly categorized as large-scale fading and small-scale fading. Small-scale fading is further divided into:
- Slow fading: Gradual changes in signal strength.
- Fast fading: Rapid fluctuations in signal strength.
- Flat fading: Affects all frequencies in the signal bandwidth equally.
- Frequency selective fading: Affects different frequencies in the signal bandwidth differently.
For a deeper dive into the basics and types of fading, refer to resources on “Fading basics and types” in wireless communication.
Fading Test Setup
The core setup for fading measurement, regardless of the specific type of fading, remains largely the same, although the settings will vary.
- Signal Generator: This device creates an ideal modulated RF signal, tailored to the device under test (DUT). For example, if the DUT is WiMAX compliant, the signal generator will produce a WiMAX signal with the correct frequency, power level, and baseband physical layer parameters.
- Channel Simulator: This is where the magic happens. The channel simulator allows you to configure the fading parameters, following standard-specific profiles. This includes settings like:
- The number of paths the signal takes
- The attenuation (signal weakening) in each path
- The Doppler frequency (frequency shift due to movement)
- SISO/MIMO Configuration: Depending on the test requirements, you’ll configure the setup to use either a Single-Input Single-Output (SISO) or a Multiple-Input Multiple-Output (MIMO) channel model.
- Pass Criteria: The ultimate goal is to ensure the receiver can process the faded RF signals with an acceptable Bit Error Rate (BER) or Packet Error Rate (PER). See resources on “BER vs PER” for more information.
Fading Test and Measurement Equipment
Here are some examples of fading test equipment from prominent vendors:
| Fading Test Equipment | Description |
|---|---|
| EB Propsim F8 Channel emulator | _ Company: Elektrobit _ Offers MIMO OTA (Over the Air) testing. _ Supports frequencies from 220 MHz to 6 GHz with a bandwidth of about 125 MHz. _ Supports up to 16 fading channels and up to 24 fading paths per channel. * OTA antenna configurations: From 3 to 48 antennas in single polarized mode and 6 to 96 antennas in dual polarized mode can be configured. |
| SR5500 Channel emulator | _ Company: Spirent Communications _ Supports LTE, GSM, GPRS, EDGE, WCDMA, HSPA, HSPA+, CDMA20001X, EV-DO, WiMax (802.16d, 16e) etc. _ Supports SISO, MIMO, SIMO, MISO and beamforming. _ Supports frequencies in different ranges with a bandwidth of about 26 MHz. _ The RF input level can be changed from +5 dBm to -50 dBm. The RF output level can be changed from -20 to -110 dBm. _ Supports configurations of up to 24 paths per channel, with path delay from 0 to 2000 µS and path loss from 0 to 32 dB. * Supports real-time fading models with the provision to configure fading velocity, type (Rician, Rayleigh, Doppler), etc. |
| ACE 400WB Channel emulator | _ Company: Azimuth Systems _ Supports 32 channels with 20 taps per channel. * Provides the ability to configure Doppler shift, delay spread, path delay, RF frequency, bandwidth, attenuation, etc. |
Other notable companies like Keysight Technologies, Octoscope, NI, and R&S also develop channel simulators or emulators used for fading testing.
Besides channel emulators, fading tests also require standard-compliant signal generators, tailored to the DUT’s specific test requirements. Companies like NI, Keysight, R&S, Anritsu, and Litepoint are key players in developing Vector Signal Generators (VSG) and Vector Signal Analyzers (VSA) used for generating and analyzing signals.
