Features & Benefits
- Handheld, Multi-standard Base Station Transmitter Field Tester
- Measure Power and Verify the Most Important RF Transmitter Functions of GSM/GPRS, EDGE, W-CDMA/UMTS, HSDPA, cdmaOne, cdma2000 1xRTT, cdma2000 1xEV-DO, TDMA and Analog Base Stations
- Measure Power for iDEN and User-defined Channels
- Interference Analyst with High Sensitivity, Including AM and FM Demodulation, Helps Identify Interference Problems
- Modular Instrument for Handheld NetTek® Platform which Allows for Easy Future Expansion for New Functions
- Measure cdmaOne, cdma2000, 1xEV-DO, GSM/GPRS/EDGE and W-CDMA/UMTS/HSDPA RF Performance Over-the-Air
- Scan for Coverage of cdmaOne, cdma2000, 1x EV-DO, GSM/GPRS/EDGE, and W-CDMA/HSDPA Signals
- Supports Rev 19 of Motorola LMF Software
- Base Station Transmitter Troubleshooting in the Field
- Resolve Interference Problems
- Maintenance and Installation Checks
- RF QoS Monitoring
- W-CDMA and RF Field Strength Measurements
- Calibration of Motorola Base Stations
Portable, Ready for the Field
Digital and Analog Transmitter Verification with Outstanding Interference Resolution Capabilities.
The Tektronix NetTek® analyzer is a revolutionary portable field tool. The YBT250 test module tailors this system for fast trouble resolution and easy transmitter verification of cellular, DCS/PCS and 3G base stations and Node Bs.
The NetTek analyzer with the YBT250 test module is not an expensive, do-everything solution; instead, the YBT250 test module is optimized to perform the day-to-day RF and demodulation measurement tasks that occupy the majority of a technician's time. Further, the YBT250 test module offers this capability at a surprisingly low price, in a rugged, easy-to-use package, suitable for all field environments.
Now, only one tool is needed for RF transmitter maintenance, with specific measurements for GSM/GPRS, EDGE, W-CDMA/UMTS/HSDPA, cdmaOne, cdma2000 1xRTT, cdma2000 1xEV-DO, iDEN, TDMA and analog. Power measurements can be made for user-defined channels.
Easy to Use
The NetTek analyzer is based around the familiar Windows CE operating system. As a result, users will spend less time learning the instrument and more time troubleshooting the network. The YBT250 test module puts measurement functions just a point of the finger away. Furthermore, built-in help guides speed the measurement process.
Common measurements have been optimized for quick, repeatable results. For example, novice users can display spectrum analyzer results with straightforward Windows-like zoom and resize controls.
The Sequencer allows users to do a customized selection of the RF Power Carrier Frequency, Occupied Bandwidth, Code Domain Signal Quality, and Code Domain Power measurements.
Interference Analyst Option
The YBT250 test module helps locate and identify stray signals that cause dropped calls and poor quality service. To better see what signals may be polluting a Base Station receiver, the optional interference package allows measurements to –134 dBm. This sensitivity also makes the unit ideal for site surveys.
The YBT250 test module also includes a spectrogram display, allowing the user to capture spectrum activity while displaying frequency, power level, and time information. This translates to easier identification of hard to find, periodic interference problems.
The Interference option includes a built-in modulation ID function. Simply touch a signal, and the instrument will offer information on the likely modulation type, differentiating between CDMA, W-CDMA, GSM, IS-136, and analog transmissions. A strength meter can then help find the location of the interferer.
In addition to interference identification and location capability, the interference option also includes the capability to measure RF Field Strength, allowing the measurement of RF emissions at any given location. Also available is the capability to measure multiple W-CDMA C-PICH (Ec) field strengths, identified by scrambling codes. This is essential when checking emission limits of W-CDMA Node Bs.
This portable instrument does not sacrifice accuracy. The YBT250 test module allows you to measure channel power for common CDMA, GSM, TDMA, and analog systems. Measurement accuracy is ±0.75 dB.
Furthermore, peak-to-average power characteristics can be reported for digital carriers.
Burst power can also be measured automatically with the YBT250 test module for GSM and TD-SCDMA systems.
For cdma2000 1x EV-DO systems, the YBT250 provides an idle and non-idle time domain mask as well as Pilot/MAC power and Idle Activity.
Maintenance Tx Checks
The YBT250 test module's combination of measurements means the unit is up to the task of performance monitoring and troubleshooting.
Measurement results can be saved into Windows-compatible formats, and results can be overlaid on the instrument to yield insight into system degradation. Furthermore, the spectrogram formats allow the user to easily monitor transmitter performance over time, with user defined sample intervals.
Channel power and frequency error measurements can be performed on multiple radios with just a few taps.
Optional cdmaOne and cdma2000 1xRTT Demodulation
This option adds extensive cdmaOne and cdma2000 1x (RC1-RC5) demodulation capabilities to the YBT250. It provides the user with code domain power, code domain signal type identification, pilot power, PN offset identification, signal quality measurements such as Rho, EVM, and Carrier Feedthrough, and other cdmaOne and cdma2000 specific measurements.
Optional cdmaOne/cdma2000 Over-the-Air Measurements and Scanner
This cdmaOne/cdma2000 over-the-air software option adds the capability to make cdmaOne/cdma2000 measurements without taking the base station out of service or using a physical test connection. This option also automatically identifies the PN offsets for the ten strongest pilots and graphically displays their power level and timing error. This option monitors pilot dominance and multipath power so users can evaluate their RF measurement environment.
Optional cdma2000 1x EV-DO Demodulation
With this cdma2000 1x EV-DO option, (which includes Rev A capability) the instrument can perform MAC code domain power, pilot, Rho, EVM,, data modulation type identification, and other cdma2000 1x EV-DO measurements.
Optional 1xEV-DO Over-the-Air Measurements and Scanner
The 1xEV-DO scanner adds two capabilities. First, it allows BTS maintenance personnel to find the “Sweet Spot” for Over-the-Air 1xEV-DO signal quality tests. This can now be done without taking the base station out of service, or even hooking up to the BTS. Second, it gives optimization and planning personnel the ability to troubleshoot coverage, interference, and co-channel interference issues with an easy-to-use handheld tool.
This option automatically identifies the PN Offsets for the ten strongest pilots and graphically displays their power level, timing error, and Ec/Io. This option also measures pilot dominance and multipath power so users can evaluate their RF measurement environment.
Optional GSM/GPRS and EDGE RF and Demodulation Testing
This GSM/GPRS and EDGE measurement suite adds the capability to test EGPRS signals to the YBT250. It provides the user with the most important base station RF measurements. These measurements include RF power measurements for each time slot, Power vs. Time, EVM, Phase Error, Origin Offset, Carrier to Interference ratio, and other EDGE measurements.
Optional GSM/GPRS/EDGE Scanner
The GSM/GPRS/EDGE Scanner adds two capabilities. First, it allows BTS maintenance personnel to find the “Sweet Spot” for Over-the-Air GSM, GPRS, or EDGE signal quality tests. This can now be done without taking the base station out of service, or even hooking up to the BTS. Second, it gives optimization and planning personal the ability to troubleshoot coverage, interference, and co-channel interference issues with a easy-to-use handheld tool. This option automatically identifies the channel, frequency, power, channel type, C/I and if a control channel, the BSIC, for channels in the selected range.
Optional TD-SCDMA RF Measurements
This TD-SCDMA option provides DwPTS power (pilot power), along with instantaneous and peak power readings for each downlink time slot. This critical setting affects the size of the TD-SDCMA cell. In addition, the option provides Occupied Bandwidth measurements.
Optional W-CDMA/UMTS/HSDPA Demodulation
This W-CDMA/UMTS/HSDPA option adds 3GPP Release 5 demodulation capabilities to the YBT250. It provides the user with code domain power, pilot and sync power, scrambling code, EVM overall, EVM for 16 QAM modulations, Peak Code Domain Error and other W-CDMA specific measurements. In addition, the option includes provision for measurement of Revision 5 signals using Transmit Diversity.
Optional W-CDMA/UMTS/HSDPA Scrambling Code Analyzer
This W-CDMA/UMTS/HSDPA option adds the capability to evaluate the co-channel interference from neighboring Node B base stations. This enables users to determine the effect of making changes to or adding a Node B base station to their network, and evaluate any changes which might contribute to pilot pollution.
W-CDMA Field Strength measurements are also available, enabling essential measurement of C-PICH (Ec) emissions.
The Modules and the Platform
The Tektronix NetTek analyzer platform is required for using NetTek modules and cards. The NetTek platform includes the display, power supply, CPU and battery compartments. Modules can then be attached to the back. Up to four modules can be attached at once. A variety of modules and options allows you to tailor the instrument to service the standards and interfaces in use in your network.
NetTek platform combined with test modules.
The modular design also means that the instrument can easily be upgraded. New measurements or standards can be added with software upgrades, or with additional modules.
YBT250 Test Module
Operation Modes - Transmitter Testing.
Interference Option IN1
Spectrogram with Variable Duration.
Noise Floor Measurement.
RF Field Strength
W-CDMA Field Strength*1
RF Measurement Options GR1, CR1, CRE, WR1, IR1, AR1, EM1
RF Carrier Frequency - ±10 Hz + Time base Error, 99% Confidence Interval.
Occupied Bandwidth (OBW) - Bandwidth within which 99% of the power transmitted on a single channel lies.
FM Deviation (Applicable to AR1) - ±10% typical.
For deviations 2 to 10 kHz; usable range to 15 kHz.
Audio frequency = maximum 3 kHz.
RF Channel Power*2 (CW or Peak Envelope Power) - ±0.75 dB for –20 dBm to +30 dBm [±0.5 dB typical].
±1.25 dB for –80 dBm to –20 dBm [±1.0 dB typical].
Burst Power Measurement (Applicable to GR1, CRE, EM1, and TR1) - ±1.0 dB for –20 dBm to +30 dBm [±0.75 dB typical].
±1.5 dB for –80 dBm to –20 dBm [±1.25 dB typical].
cdmaOne, cdma2000 1x RTT, and cdma2000 1x EV-DO Demodulation Options CD1, CD2, CD3, CDE
Waveform Quality - ±0.005 for 0.9 < ρ < 1.0.
Code Domain Power - ±1 dB when > –20 dB relative to Tx power.
Code Domain Power display update: 1 s (typical).
Timing Error - ±250 ns, typical.
Carrier Feedthrough - ±2 dB, –50 dBc residual floor (applicable to CD1 and CD2).
Other Measurements - Codogram, Pilot Power, Error Vector Magnitude, PN Offset.
cdma2000 PN offset Scanner Opt. CS1
Input Signal Range - –120 dBm to +30 dBm.
Io, Ec/Io, Ec: –0.1 dB.
PN Offset: 1 PN index.
Tau: 0.1 chip.
Ec: ±2 dB for Ec ≥ –95 dBm and Ec/Io ≥ –8 dB, ±3 dB for Ec ≥ –110 dBm and Ec/Io ≥ –12 dB.
Tau: ±0.5 chip, of highest power multipath component of each detected PNOS, relative to input timing reference (ESC or YBGPS1).
1xEV-DO PN Offset Scanner Opt. ES1
Input Signal Range - –120 dBm to +30 dBm
Io, Ec/Io, Ec: 0.1 dB
PN Offset: 1 PN Index
Tau: 0.1 chip of highest power multipath component of each detected PN Offset, relative to input timing reference (ESC or YBGPS1).
GSM/GPRS and EDGE RF and Demodulation Measurements Opt. EM1
Error Vector Magnitude (8-PSK Only) - ±1.5%; 4% ≤ EVM ≤ 10%.
Phase Error (GMSK Only) - ±1.0°; 2° ≤ Phase Error ≤ 12°.
RF Power vs. Time -
Resolution: 1 μs, 1 symbol.
Time Uncertainty: ±0.2 symbol, ±0.8 μs.
Other Measurements - Slot Aware Burst Power, RF Carrier Frequency, Occupied Bandwidth, Origin Offset, Carrier to Interference Ratio.
GSM/GPRS/EDGE Channel Scanner Opt. GS1
Input Signal Range - –120 dBm to + 30 dBm
C/I ratio range - 0 dB to 50 dB
Frequency: 0.001 MHz
Peak Power: 0.1 dBm
C/I: 0.1 dB
W-CDMA/UMTS/HSDPA Demodulation Opt. WD2
Error Vector Magnitude - Resolution 0.01%.
Code Domain Power - ±1 dB when > –20 dB relative to Tx power.
Code Domain Power display update: 1 s (typical).
Scrambling Code - Determination 2 s.
Scrambling Code Analyzer for W-CDMA/UMTS/HSDPA Opt. WS1
Input Signal Range - –117 dBm to + 30 dBm.
Resolution - 0.1 dB.
Accuracy*3 (Ec) - ±2 dB for Ec ≥ –102 dBm and Ec/Io ≥ –12 dB (typical).
±3 dB for Ec ≥ –112 dBm and Ec/Io ≥ –14 dB (typical).
*1 If ordered with Opt. WS1.
*2 Also applies to RF Field strength.
*3 Also applies to W-CDMA field strength.
Input Range - 30 MHz to 2500 MHz.
Internal Frequency Accuracy (Time base Error) - ±0.5 ppm (±0.015 ppm typical, after GPS lock. Requires YBGPS1.)
Internal Frequency Aging (Time base Error) - ±1 ppm/yr.
Available Spans (in Spectrum Monitoring) - 10 kHz to 2470 MHz.
Resolution Bandwidths (automatically set in Spectrum Monitoring Mode) - 100 Hz to 6 MHz.
Phase Noise - ≤–70 dBc/Hz at 20 kHz offset.
Amplitude Characteristics (CW or peak envelope, measured in 100 kHz span)
Amplitude Range - –114 dBm to +30 dBm.
–134 dBm to +30 dBm (100 MHz to 2 GHz) with Interference option IN1.
–132 dBm to +30 dBm (2 GHz to 2.2 GHz) with Interference option IN1.
RF Input Overload Protection - +30 dBm to 50 W.
Signal Related Spurious Response - IM3 better than –70 dBc, typical.
2nd harmonic better than –60 dBc, typical.
Amplitude Display - 10 Divisions; 1 to 10 dB per division.
Spectrum Display Modes - Max., min., norm., avg., dual trace.
RF - 50 Ω, type N.
Frequency Reference - 50 Ω, type BNC (f).
freqin = 2, 4.8, 10, 13, 15, or 19.6608 MHz and others. Automatically detected.
Timing Input - 10 kΩ, type BNC (f).
YBT250 Test Module Weight - 1.4 kg/3.1 lbs.
NetTek Mainframe Weight - 4.1 kg/9.04 lbs.
Operating Temperature - Specified temperature range: 0 °C to 50 °C.
Functional temperature range: –10 °C to +50 °C.
Storage Temperature - –40 °C to +60 °C.
Calibration - 2 year cycle.
Warranty - 1 year.