RADIO FREQUENCY MEASUREMENT REPORT 608-614 MHz …
Transcript of RADIO FREQUENCY MEASUREMENT REPORT 608-614 MHz …
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RADIO FREQUENCY MEASUREMENT REPORT
608-614 MHz WMTS Frequency Band
Wheaton Franciscan Hospital
Prepared for
WMTS Coalition
April 2015
19700 Janelia Farm Boulevard • Ashburn, Virginia 20147, USA • Phone 703.726.5500 • Fax 703.726.5597
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TABLE OF CONTENTS EXECUTIVE SUMMARY SECTION 1 Introduction and Background 1.1 Introduction ……………………………………………………………………… 3 1.2 Background ……………………………………………………………………… 3 1.3 Constraints ……………………………………………………………………… 3 SECTION 2 Test Procedure 2.1 Test Equipment ………………………………………………………………….. 5 2.2 Calibration …...………………………………………………………………….. 6 2.3 Methodology ....………………………………………………………………….. 9 SECTION 3 Data Presentation 3.0 Hospital Data ....………………………………………………………………… 13 3.1 Transmitter Site 2 ……………………………………………………………… 17 3.2 Transmitter Site 1 ……………………………………………………………… 26 3.3 Transmitter Site 5 ……………………………………………………………… 36 3.4 Transmitter Site 7 ……………………………………………………………… 46 3.5 Transmitter Site 9 ……………………………………………………………… 56 3.6 Transmitter Site 10 ..…………………………………………………………… 66 3.7 Transmitter Site 11 ..…………………………………………………………… 76 SECTION 4 Summary of Results 4.1 RF Measurements Summary Table ..……………………..……………….….. 87
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APPENDIX 1 FCC License – WI9XAF ..…………………..…………..………………….….. 89 APPENDIX 2
Pathloss Calculations ..……….……………..…………..………………….….. 93
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Executive Summary
Comsearch performed a series of Radio Frequency (RF) tests and measurements on behalf of the WMTS Coalition (“the Coalition”) in the Franklin, WI area within the vicinity of the Wheaton Franciscan Hospital. The purpose of these measurements was to determine path loss values related to building losses, and to a lesser extent losses due to land clutter (foliage, buildings, man-made obstructions, etc). The tests were also performed to determine potential for interference into the GE Healthcare Systems (“GEHC”) WMTS system in an attempt to characterize external interference into an installed and operative WMTS system. Comsearch worked with GEHC to identify candidate test transmitter sites. In addition, we worked with GEHC to conduct the measurements, with GEHC taking independent measurement within the WMTS system. GEHC had setup an independent test network in the hospital using transmitterssimulating actual patient usage. GEHC monitored these transmitters during the testing period and will provide results in a separate report.
The measurements were conducted by establishing a test transmit signal at seven locations between 303m and 926m from the hospital. The locations were selected based upon access andthe ability to see the hospital. Comsearch set up a spectrum analyzer at specific locations in thehospital close to WMTS receive antennas to capture receive signal level as close to the WMTSreceive antenna as practical. The measurement results include line-of-sight profiles from each location to the hospital at the height within the hospital of the WMTS antennas. The test transmit signals included both CW and modulated waveforms that simulate typical transmissions from unlicensed devices.
The results indicated that external signals can be measured from the inside of the hospital. Whentaken in conjunction with independent measurements performed by GEHC that it was possible toestablish signals that could interfere with the WMTS system. It was notable that there are greater RF attenuation values of the building materials in the Wheaton Franciscan Hospital than in other buildings where previous test were conducted. This is most likely due to the more recent construction of this structure.
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SECTION
ONE
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SECTION 1
BACKGROUND AND INTRODUCTION
1.1 Introduction
Radio frequency tests and measurements were performed on behalf of the WMTS Coalition (“the Coalition”) in the Franklin, WI area within the vicinity of the Wheaton Franciscan Hospital. Comsearch worked with GE Healthcare Systems (“GEHC”) to identify candidate test sites and develop the test plan. In addition, we worked with GEHC to conduct the measurements.
The purpose of these measurements was to determine path loss values related to building losses, and to a lesser extent losses due to land clutter (foliage, buildings, man-made obstructions, etc). Additionally, the tests were performed to determine potential interferenceinto the GE Healthcare Systems WMTS system.
1.2 Background
The Wheaton Franciscan Hospital is currently operating using frequencies in the WMTS Band, 608-614 MHz.
Comsearch has been tasked to perform RF measurements to determine the potential impact of co-channel transmitter systems operating in the same frequency band as current WMTS operations.
GE Healthcare Systems was issued a Special Temporary Authority (STA) for this test under the call sign WI9XAF (copy is attached in Appendix 1). This report documents the results of the field measurements.
1.3 Constraints
The analysis in this report is based on the following assumptions and constraints:
The WMTS system being tested will not interfere with existing hospital operations.
The WMTS system will be operational in a “test mode” simulating normal operatingconditions.
Test sites in the area surrounding the hospital were selected to simulate various levels of path loss.
Signal level measurements from inside the hospital will be measured in easily accessible areas, and not cause interruptions to hospital operations.
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SECTION
TWO
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SECTION 2
TEST PROCEDURE
2.1 Test Equipment
To generate the required signals for the test, a Rohde & Schwarz SMBV100A Vector Signal Generator was used. This signal generator allows for the generation of radio frequency (RF) test signals in either Continuous Wave (CW) or modulated modes. The test set is capable ofgenerating up to +22 dBm. Prior to the on-site testing, a calibrated power meter was used to measure the output of the signal generator to ensure that the displayed power level on the signal generator matched the actual power level at the generator RF port.
The antenna used to transmit the signals generated by the R&S VSG was a Katherine-Scala CL- 1469B. This antenna provides a nominal 10 dB of gain at 470-862 MHz. The antenna was mounted on a tripod to facilitate an approximate centerline of 7 to 8 feet (approximately 2.4 to 2.5 meters) above ground level (AGL). Signal polarity for all tests was vertical.
The antenna for the spectrum analyzer test set used in the hospital was a Shure PA805SWB. This is a wide-band, log periodic style antenna with a nominal gain of 6.5 dBi in the frequency rangeof 470-952 MHz. The antenna was oriented so that it was vertically polarized.
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2.2 Calibration
Figure 2.2-1 is the block diagram of the spectrum analyzer test set. All test equipment used was allowed a proper warm-up period prior to calibration. The calibrated reference signal (-60dBm) from the signal generator was then injected into the end of the coaxial cable of the test set at the point which normally connects to the test antenna. An Agilent FieldFox spectrum analyzer then measured the reference test signal level after passing through the test set. Upon completion of the calibration process, a known reference level was obtained for the measurements which correspond to a given set of spectrum analyzer display readings. Figure2.2-2 shows the spectrum photograph of the described calibration procedure employed duringthe band sweep measurements.
The following formula is used to transform the measured signal level as read on the spectrum analyzer display (dBm) to an isotropic reference signal level (dBWI) as seen at the point of test:
dBWI = LI - GA
Where: dBWI = Isotropic level in dBW
LI = Level (dBm) of injected signal
GA = Test antenna gain
at 612.450 MHz: dBWI = -60 dBm – 6.5 dB
= -60.5 dBmI
In this instance, the spectrum analyzer displayed measured signal level of -60 dBmI equates to an injected signal level of -60 dBm and represents an isotropic level of -66.5 dBmI
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Figure 2.2-1 600 MHz Receive Test Equipment
Calibration Signal Injectedinto Spectrum Analyzer
R&S SMBV100A Signal Generator
Calibration Level = -40 dBm
Shure Wide-Band Log Periodic Test Antenna
(+6.5 dBi Gain)
Agilent FieldFox 30kHz-18GHz
Spectrum Analyzer
Cable Moved to Antenna after Calibration
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Res BW: 100 kHzVideo BW: 10 kHz
(A)
The -60 dBm, 612.450 MHz signal indication on the spectrum photograph represents a -80 dBm CW signal being injected into the point where the test cable connects to the output of the test antenna.
-170
-160
-150
-140
-130
-120
-110
-100
3700 3783 3867 3950 4033 4117 4200
Leve
l (dB
Wi)
Frequency (MHz)
Figure 2.2-2 Spectrum Analyzer Calibration8
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2.3 Methodology
The purpose of these RF measurements was to determine path loss values related to building losses, and to a lesser extent losses due to land clutter (foliage, buildings, man-made obstructions, etc). The tests were also performed to determine potential for interference into the WMTS system in an attempt to characterize external interference into an installed and operating WMTS system used by the hospital (Wheaton Franciscan) from an external transmitter operating in the WMTS frequencies of 608 to 614 MHz. GEHC had setup up a separate test network of four transmitters simulating devices used in actual operation at the hospital.
A testing signal source was produced by setting up a test transmitter (Rohde & Schwarz SMBV100A) for use in the in the WMTS band. The test transmitter was set to frequencies designated by GEHC to ensure non-interference into existing WMTS operational frequenciesat the hospital. The transmitter was connected to a directional antenna (Kathrein ScalaCL-1469 B) with centerline of 9 feet above ground and pointed toward the hospital fromeach test point. At each test point the HAAT was calculated. Using the calculated HAAT,power density restrictions (FCC 14-144 para.42) and separation distance restrictions (FCC 14-144 para.112) power levels for the test transmitter were calculated for a 6 MHz modulated carrier. These power levels were then translated into values for a 100 kHz modulated carrier and then used to set the RF power level at the signal generator (see table below).
EIRP (dBm) TX Power (dBm) (minus antenna gain)
Cable Loss (dB)
Conducted Power at Signal Generator (dBm)in 6MHz in 100kHz
16 -1.404 -11.404 1.47 -9.9320 2.596 -7.404 1.47 -5.9324 6.596 -3.404 1.47 -1.9328 10.596 0.596 1.47 2.0732 14.596 4.596 1.47 6.0736 18.596 8.596 1.47 10.07
The transmitter was powered up using a CW (carrier wave) signal at the frequency of 612.4500 MHz. The signal at 612.4500 MHz was used because this was outside of the test signals used by the GEHC test network and would not be masked and therefore visible whenpowered on. RF measurements were performed inside the hospital using the receive test set describe in section 2.1 of the test signal which is external to the WMTS system used bythe hospital. Concurrently separate RF measurements were conducted by GEHC using the WMTS distributed antenna system installed in the hospital. Upon direction from the GEHCteam the CW signal was powered off and the transmitter was reconfigured to transmit amodulated (802.x – 64 QAM) 100 kHz signal at 612.4500 MHz. The signal was powered on and RF measurements were then conducted of this test signal as previously described both external and internal to the hospital’s WMTS system. Again upon direction from the GEHCteam the modulated signal was powered off the transmitter was reconfigured to transmit a modulated (802.x – 64 QAM) 100 kHz signal at 612.3375 MHz. The signal at 612.3375 MHz was used as it overlaid the test signals used the GE test network. Once again the signal was powered on and RF measurements were then conducted of this test signal as previously described both external and internal to the hospital’s WMTS system.
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SECTION
THREE
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SECTION 3
Data Presentation
The following section contains street maps, aerial maps, and spectrum photographs pertaining to each test site location.
3.0 Hospital Site
Figure 3.0-1 Street map of the Hospital location Figure 3.0-2 Aerial photograph of the Hospital location Figure 3.0-3 Street map of the Hospital and transmitter test site locations Figure 3.0-4 Aerial photograph of the Hospital and transmitter test site locations
3.1 Transmitter Site 2
Figure 3.1-1 Street map of the transmitter location Figure 3.1-2 Aerial photograph of the transmitter location Figure 3.1-3 and 3.1-4 On-path view from transmitter test site location towards Wheaton Franciscan
Hospital and the Transmitter Test Site Figure 3.1-5 and 3.1-6 On-path view from Wheaton Franciscan Hospital test location to Transmitter Site 2
location and Receive test equipment Figures 3.1-7 through 3.1-10 RF spectrum photographs
3.2 Transmitter Site 1
Figure 3.2-1 Street map of the transmitter location Figure 3.2-2 Aerial photograph of the transmitter location Figure 3.2-3 and 3.2-4 On-path view from transmitter test site location towards Wheaton Franciscan
Hospital and the Transmitter Test Site Figure 3.2-5 and 3.2-6 On-path view from Wheaton Franciscan Hospital test location to Transmitter Site 1
location and Receive test equipment Figures 3.2-7 through 3.2-11 RF spectrum photographs
3.3 Transmitter Site 5
Figure 3.3-1 Street map of the transmitter location Figure 3.3-2 Aerial photograph of the transmitter location Figure 3.3-3 and 3.3-4 On-path view from transmitter test site location towards Wheaton Franciscan
Hospital and the Transmitter Test Site Figure 3.3-5 and 3.3-6 On-path view from Wheaton Franciscan Hospital test location to Transmitter Site 5
location and Receive test equipment Figures 3.3-7 through 3.3-11 RF spectrum photographs
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3.4 Transmitter Site 7
Figure 3.4-1 Street map of the transmitter location Figure 3.4-2 Aerial photograph of the transmitter location Figure 3.4-3 and 3.4-4 On-path view from transmitter test site location towards Wheaton Franciscan
Hospital and the Transmitter Test Site Figure 3.4-5 and 3.4-6 On-path view from Wheaton Franciscan Hospital test location to Transmitter Site 7
location and Receive test equipment Figures 3.4-7 through 3.4-11 RF spectrum photographs
3.5 Transmitter Site 9
Figure 3.5-1 Street map of the transmitter location Figure 3.5-2 Aerial photograph of the transmitter location Figure 3.5-3 and 3.5-4 On-path view from transmitter test site location towards Wheaton Franciscan
Hospital and the Transmitter Test Site Figure 3.5-5 and 3.5-6 On-path view from Wheaton Franciscan Hospital test location to Transmitter Site 9
location and Receive test equipment Figures 3.5-7 through 3.5-11 RF spectrum photographs
3.6 Transmitter Site 10
Figure 3.6-1 Street map of the transmitter location Figure 3.6-2 Aerial photograph of the transmitter location Figure 3.6-3 and 3.6-4 On-path view from transmitter test site location towards Wheaton Franciscan
Hospital and the Transmitter Test Site Figure 3.6-5 and 3.6-6 On-path view from Wheaton Franciscan Hospital test location to Transmitter Site 10
location and Receive test equipment Figures 3.6-7 through 3.6-11 RF spectrum photographs
3.7 Transmitter Site 11
Figure 3.7-1 Street map of the transmitter location Figure 3.7-2 Aerial photograph of the transmitter location Figure 3.7-3 and 3.7-4 On-path view from transmitter test site location towards Wheaton Franciscan
Hospital and the Transmitter Test Site Figure 3.7-5 and 3.7-6 On-path view from Wheaton Franciscan Hospital test location to Transmitter Site 11
location and Receive test equipment Figures 3.7-7 through 3.7-10 RF spectrum photographs
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Figure 3.0-1 – Street Map –Hospital Location
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Figure 3.0-2 – Aerial Map – Hospital Location
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Figure 3.0-3 – Street Map – Hospital and Test Site Locations
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Figure 3.0-4 – Aerial Map – Hospital Test Site Locations
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Figure 3.1-1 – Street Map – Test Point #2 Transmitter Location
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Figure 3.1-2 – Aerial Map – Test Point #2 Transmitter Location
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Figure 3.1-3 – Looking on path to Wheaton Franciscan Hospital from Test Point #2 location
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Figure 3.1-4 –Test Point #2 Transmitter
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Figure 3.1-5 –View towards Test Point #2 from inside Wheaton Franciscan Hospital 3rd floor hallway Note: Room was occupied so no access to the exterior window was possible
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Figure 3.1-6 –Receive test set inside Wheaton Franciscan Hospital 3rd floor hallway – Test Point #2 Also visible is G.E. WMTS antenna (at arrow)
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Figure 3.1-7 – Test Point #2 – Spectrum analyzer capture at 10 kHz RBW CW signal Spectrum analyzer located on 3rd floor hallway approximately 642 meters from the street level Test Point #2 site
Average recorded level -98.75 dBm (612.450 MHz) Marker 1 – Isotropic value -104.75 dBm Transmitter EIRP 10.60 dBm (signal generator set to 2.07 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.1-8 – Test Point #2 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor hallway approximately 642 meters from the street level Test Point #2 site
Average recorded level -112.2 dBm (612.450 MHz) Marker 1 – Isotropic value -118.2 dBm Transmitter EIRP 10.60 dBm (signal generator set to 2.07 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.1-9 – Test Point #2 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor hallway approximately 642 meters from the street level Test Point #2 site
Average recorded level -107.1 dBm (612.3375 MHz) – Isotropic value -113.1 dBm Transmitter EIRP 13.60 dBm (signal generator set to 5.07 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.2-1 – Street Map – Test Point #1 Transmitter Location
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Figure 3.2-2 – Aerial Map – Test Point #1 Transmitter Location
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Figure 3.2-3 – Looking on path to Wheaton Franciscan Hospital from Test Point #1 location
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Figure 3.2-4 –Test Point #1 Transmitter
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Figure 3.2-5 –View towards Test Point #1 from inside Wheaton Franciscan Hospital 3rd floor hallway Note: Room was occupied so no access to the exterior window was possible
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Figure 3.2-6 – Receive test set inside Wheaton Franciscan Hospital 3rd floor hallway – Test Point #1 Also visible is G.E. WMTS antenna (at arrow)
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Figure 3.2-7 – Test Point #1 – Spectrum analyzer capture at 10 kHz RBW CW signal Spectrum analyzer located on 3rd floor hallway approximately 315 meters from the street level Test Point #1 site
Average recorded level -96.46 dBm (612.450 MHz) Marker 1 – Isotropic value -102.46 dBm Transmitter EIRP 1.40 dBm (signal generator set to -9.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.2-8 – Test Point #1 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor hallway approximately 315 meters from the street level Test Point #1 site
Average recorded level -104.6 dBm (612.450 MHz) Marker 1 – Isotropic value -110.6 dBm Transmitter EIRP 1.40 dBm (signal generator set to -9.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.2-9 – Test Point #1 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor hallway approximately 315 meters from the street level Test Point #1 site
Average recorded level -102 dBm (612.3375 MHz) injected modulated signal – Isotropic value -108 dBm Transmitter EIRP 1.40 dBm (signal generator set to -9.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.2-10 – Test Point #1 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor hallway approximately 315 meters from the street level Test Point #1 site
Average recorded level -96.50 dBm (612.3375 MHz) injected modulated signal – Isotropic value -102.5 dBm Transmitter EIRP 4.60 dBm (signal generator set to -3.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.3-1 – Street Map – Test Point #5 Transmitter Location
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Figure 3.3-2 – Aerial Map – Test Point #5 Transmitter Location
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Figure 3.3-3 – Looking on path to Wheaton Franciscan Hospital from Test Point #5
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Figure 3.3-4 – Test Point #5 Transmitter
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Figure 3.3-5 – View towards Test Point #5 from inside Wheaton Franciscan Hospital 3rd floor hallway Note: Room was occupied so no access to the exterior window was possible
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Figure 3.3-6 – Receive test set inside Wheaton Franciscan Hospital 3rd floor hallway – Test Point #5 Also visible is G.E. WMTS antenna (at arrow)
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Figure 3.3-7 – Test Point #5 – Spectrum analyzer capture at 10 kHz RBW CW signal Spectrum analyzer located on 3rd floor hallway approximately 926 meters from the street level Test Point #5 site
Average recorded level -90.44 dBm (612.450 MHz) Marker 1 – Isotropic value -96.44 dBm Transmitter EIRP 14.60 dBm (signal generator set to 6.07 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.3-8 – Test Point #5 – Spectrum analyzer capture at 10 kHz RBW CW signal Spectrum analyzer located on 3rd floor hallway approximately 926 meters from the street level Test Point #5 site
Average recorded level -103.0 dBm (612.450 MHz) Marker 1 – Isotropic value -109.0 dBm Transmitter EIRP 14.60 dBm (signal generator set to 6.07 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.3-9 – Test Point #5 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor hallway approximately 926 meters from the street level Test Point #5 site
Average recorded level -102.4 dBm (612.3375 MHz) injected modulated signal – Isotropic value -108.4 dBm Transmitter EIRP 14.60 dBm (signal generator set to 6.07 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.3-10 – Test Point #5 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor hallway approximately 926 meters from the street level Test Point #5 site
Average recorded level -92.03 dBm (612.3375 MHz) injected modulated signal – Isotropic value -98.03 dBm Transmitter EIRP 23.60 dBm (signal generator set to 15.07 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.4-1 – Street Map – Test Point #7 Transmitter Location
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Figure 3.4-2 – Aerial Map – Test Point #7 Transmitter Location
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Figure 3.4-3 – Looking on path to Wheaton Franciscan Hospital from Test Point #7 location
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Figure 3.4-4 – Test Point #7 Transmitter
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Figure 3.4-5 – View towards Test Point #7 from inside Wheaton Franciscan Hospital 3rd floor
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Figure 3.4-6 – Receive test set inside Wheaton Franciscan Hospital 3rd floor exterior wall room – Test Point #7 Also visible is G.E. WMTS antenna (at arrow)
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Figure 3.4-7 – Test Point #7 – Spectrum analyzer capture at 10 kHz RBW CW signal Spectrum analyzer located on 3rd floor room approximately 324 meters from the street level Test Point #7 site
Average recorded level -87.18 dBm (612.450 MHz) Marker 1 – Isotropic value -93.18 dBm Transmitter EIRP -1.40 dBm (signal generator set to -9.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.4-8 – Test Point #7 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor room approximately 324 meters from the street level Test Point #7 site
Average recorded level -98.64 dBm (612.450 MHz) Marker 1 – Isotropic value -104.64 dBm Transmitter EIRP -1.40 dBm (signal generator set to -9.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.4-9 – Test Point #7 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor room approximately 324 meters from the street level Test Point #7 site Average recorded level -98.40 dBm (612.3375 MHz) injected modulated signal – Isotropic value -104.4 dBm
Transmitter EIRP -1.40 dBm (signal generator set to -9.93 dBm) NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.4-10 – Test Point #7 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 3rd floor room approximately 324 meters from the street level Test Point #7 site Average recorded level -87.86 dBm (612.3375 MHz) injected modulated signal – Isotropic value -93.86 dBm
Transmitter EIRP 7.6 dBm (signal generator set to -0.93 dBm) NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.5-1 – Street Map – Test Point #9 Transmitter Location
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Figure 3.5-2 – Aerial Map – Test Point #9 Transmitter Location
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Figure 3.5-3 – Looking on path to Wheaton Franciscan Hospital from Test Point #9 location
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Figure 3.5-4 – Test Point #9 Transmitter
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Figure 3.5-5 – View towards Test Point #9 from inside Wheaton Franciscan Hospital 4th floor
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Figure 3.5-6 – Receive test set inside Wheaton Franciscan Hospital 4th floor exterior wall room – Test Point #9 Also visible is G.E. WMTS antenna (at arrow)
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Figure 3.5-7 – Test Point #9 – Spectrum analyzer capture at 10 kHz RBW CW signal Spectrum analyzer located on 4th floor room approximately 431 meters from the street level Test Point #9 site
Average recorded level -86.89 dBm (612.450 MHz) Marker 1 – Isotropic value -92.89 dBm Transmitter EIRP 2.60 dBm (signal generator set to -5.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.5-8 – Test Point #9 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 4th floor room approximately 431 meters from the street level Test Point #9 site
Average recorded level -117.6 dBm (612.450 MHz) Marker 1 – Isotropic value -123.6 dBm Transmitter EIRP 2.60 dBm (signal generator set to -5.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.5-9 – Test Point #9 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 4th floor room approximately 431 meters from the street level Test Point #9 site
Average recorded level -98.92 dBm (612.3375 MHz) Marker 2 – Isotropic value -104.92 dBm Transmitter EIRP 2.60 dBm (signal generator set to -5.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.5-10 – Test Point #9 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 4th floor room approximately 431 meters from the street level Test Point #9 site
Average recorded level -98.92 dBm (612.3375 MHz) Marker 2 – Isotropic value -104.92 dBm Transmitter EIRP 5.60 dBm (signal generator set to -2.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.6-1 – Street Map – Test Point #10 Transmitter Location
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Figure 3.6-2 – Aerial Map – Test Point #10 Transmitter Location
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Figure 3.6-3 – Looking on path to Wheaton Franciscan Hospital from Test Point #10 location
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Figure 3.6-4 – Test Point #10 Transmitter
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Figure 3.6-5 – View towards Test Point #10 from inside Wheaton Franciscan Hospital 4th floor
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Figure 3.6-6 – Receive test set inside Wheaton Franciscan Hospital 4th floor exterior wall room – Test Point #10 Also visible is G.E. WMTS antenna (at arrow)
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Figure 3.6-7 – Test Point #10 – Spectrum analyzer capture at 10 kHz RBW CW signal Spectrum analyzer located on 4th floor room approximately 303 meters from the street level Test Point #10 site
Average recorded level -94.83 dBm (612.450 MHz) Marker 1 – Isotropic value -100.83 dBm Transmitter EIRP -1.40 dBm (signal generator set to -9.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.6-8 – Test Point #10 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 4th floor room approximately 303 meters from the street level Test Point #10 site
Average recorded level -106.6 dBm (612.450 MHz) Marker 1 – Isotropic value -112.6 dBm Transmitter EIRP -1.40 dBm (signal generator set to -9.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.6-9 – Test Point #10 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 4th floor room approximately 303 meters from the street level Test Point #10 site
Average recorded level -105.8 dBm (612.3375 MHz) Marker 2 – Isotropic value -111.8 dBm Transmitter EIRP -1.40 dBm (signal generator set to -9.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.6-10 – Test Point #10 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 4th floor room approximately 303 meters from the street level Test Point #10 site
Average recorded level -96.14 dBm (612.3375 MHz) Marker 2 – Isotropic value -102.14 dBm Transmitter EIRP 7.6 dBm (signal generator set to -0.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.7-1 – Street Map – Test Point #11 Transmitter Location
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Figure 3.7-2 – Aerial Map – Test Point #11 Transmitter Location
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Figure 3.7-3 – Looking on path to Wheaton Franciscan Hospital from Test Point #11 location
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Figure 3.7-4 –Test Point #11 Transmitter
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Figure 3.7-5 –View towards Test Point #11 from inside Wheaton Franciscan Hospital 4th floor
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Figure 3.7-6 – Receive test set inside Wheaton Franciscan Hospital 4th floor exterior wall room – Test Point #11 Also visible is G.E. WMTS antenna (at arrow)
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Figure 3.7-7 – Test Point #11 – Spectrum analyzer capture at 10 kHz RBW CW signal Spectrum analyzer located on 4th floor room approximately 401 meters from the street level Test Point #11 site
Average recorded level -92.00 dBm (612.450 MHz) Marker 1 – Isotropic value -98.00 dBm Transmitter EIRP 2.60 dBm (signal generator set to -5.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.7-8 – Test Point #11 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 4th floor room approximately 401 meters from the street level Test Point #11 site
Average recorded level -106.7 dBm (612.450 MHz) Marker 1 – Isotropic value -112.7 dBm Transmitter EIRP 2.60 dBm (signal generator set to -5.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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Figure 3.7-9 – Test Point #11 – Spectrum analyzer capture at 10 kHz RBW modulated signal (100 kHz BW) Spectrum analyzer located on 4th floor room approximately 401 meters from the street level Test Point #11 site
Average recorded level -110.4 dBm (612.3375 MHz) Marker 2 – Isotropic value -116.4 dBm Transmitter EIRP 2.60 dBm (signal generator set to -5.93 dBm)
NOTE: Adjacent signals seen generated by the G.E. WMTS Test System
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SECTION
FOUR
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SECTION 4
SUMMARY OF RESULTS
The results of the measurements performed at each site location in the area of Wheaton Franciscan Hospital are presented in this section.
4.1 RF Measurements
There were measurements made in seven (7) locations around the Wheaton Franciscan Hospital area.
Signals were observed at various levels at all locations tested within the Hospital.
Table 4.1.1 contains the values of the measured signals from inside the Wheaton Franciscan Hospital. These values are in isotropic levels.
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Site
Ho
spita
lTe
st S
ite #
2Te
st S
ite #
1Te
st S
ite #
5Te
st S
ite #
7Te
st S
ite #
9Te
st S
ite #
10Te
st S
ite #
11La
titud
e 4
2°51
'36.
32"N
42°
51'2
2.49
"N 4
2°51
'27.
51"N
42°
51'4
0.93
"N 4
2°51
'42.
40"N
42°
51'3
2.73
"N 4
2°51
'43.
05"N
42°
51'4
9.19
"NLo
ngitu
de 8
7°57
'13.
79"W
87°
56'5
0.43
"W 8
7°57
'3.6
5"W
87°
56'3
2.57
"W 8
7°57
'1.1
5"W
87°
57'3
5.22
"W 8
7°57
'25.
38"W
87°
57'2
3.61
"WDi
stan
ce to
Hos
pita
l (m
)-
642
315
926
324
431
303
401
Azim
uth
to T
est S
ite-
128.
8513
9.77
81.3
656
.82
257.
1530
8.24
330.
69Az
imut
h to
Hos
pita
l-
308.
8531
9.77
261.
3623
6.82
77.1
512
8.23
150.
69G
ound
Ele
vatio
n (m
)22
4.25
222.
5522
3.21
218.
0121
9.67
222.
522
5.49
224.
97M
ax E
RIP(
dBm
) bas
ed u
pon
dist
ance
-28
1632
1620
1620
Sign
al G
ener
ator
Pow
er (d
Bm)
-2.
07-9
.93
6.07
-9.9
3-5
.93
-9.9
3-5
.93
TX A
nten
na G
ain
(dBi
)-
1010
1010
1010
10TX
Cab
le L
oss (
dBm
)-
1.47
1.47
1.47
1.47
1.47
1.47
1.47
EIRP
(100
kHz
Cha
nnel
) (dB
m)
-10
.6-1
.414
.6-1
.42.
6-1
.42.
6Ca
lcul
ated
Fre
e Sp
ace
Loss
(dB)
*-
84.8
879
.28
87.7
178
.93
82.1
678
.82
81.3
7Pr
edic
ted
CW R
SL O
n Ro
of (d
Bm)*
*-
-74.
28-8
0.68
-73.
11-8
0.33
-79.
56-8
0.22
-78.
77Is
otro
pic
RSL i
n Bu
ildin
g (d
Bm)
--1
04.7
5-1
02.4
6-9
6.44
-93.
18-9
2.89
-100
.83
-98.
00M
easu
red
Insi
de P
athl
oss (
dBm
)***
-11
5.35
101.
0611
1.04
91.7
895
.49
99.4
310
0.60
Prop
agat
ion
Loss
Ove
r Fre
e Sp
ace
30.4
721
.78
23.3
312
.85
13.3
320
.61
19.2
3
* FS
PL(d
B) =
20
log
(d) +
20
Log
(f) +
32.
45 (w
here
d, f
in K
M a
nd M
Hz)
** P
redi
cted
CW
RSL
on
Roof
= E
IRP
- Fre
e Sp
ace
Loss
***
Diffe
renc
e in
the
EIRP
and
Isot
ropi
c CW
RSL
In B
uild
ing
RF M
easu
rem
ents
Sum
mar
y Re
sults
Tab
le
87
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APPENDIX 1
88
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Matt Pekarske, 8200 West Tower Avenue, Milwaukee, WI 532233219,
NAME
(Nature of Service)
(Class of Station)
(Call Sign)
(File Number)1026-EX-ST-2014XT FX
FEDERAL COMMUNICATIONS COMMISSIONUnited States of America
EXPERIMENTALSPECIAL TEMPORARY AUTHORIZATION
designated in the authorization beyond the term hereof, nor in any other manner than authorized herein. Neither the authorization nor the rightgranted hereunder shall be assigned or otherwise transferred in violation of the Communications Act of 1934. This authorization is subject to the right of use of control the Government of the United States conferred by Section 706 of the Communications Act of 1934.
Special Temporary Authority is hereby granted to operate the apparatus described below:
the Commission that the authority herein granted is or will be in the public interest beyond the express terms hereof.advance notice or hearing if in its discretion the need for such action arises. Nothing contained herein shall be construed as a finding by This Special Temporary Authorization is granted upon the express condition that it may be terminated by the Commission at any time without
This Special Temporary Authorization shall not vest in the grantee any right to operate the station nor any right in the use of the frequencies
WI9XAFEXPERIMENTAL
Purpose Of Operation:Signal strength measurements to characterize propagation loss and interference effects in the608-614 MHz WMTS band.
Station Locations(1) Washington (DIST OF COLUMBIA), DC - NL 38-53-24; WL 77-01-25(2) Roanoke (ROANOKE), VA - NL 37-16-00; WL 79-56-00(3) Harrisonburg (ROCKINGHAM), VA - NL 38-26-59; WL 78-52-08(4) Boston (SUFFOLK), MA - NL 42-19-36; WL 71-09-04(5) Milwaukee (MILWAUKEE), WI - NL 43-03-08; WL 87-57-21
Frequency Information
Washington (DIST OF COLUMBIA), DC - NL 38-53-24; WL 77-01-25
FrequencyStationClass
EmissionDesignator
AuthorizedPower
Frequency Tolerance (+/-)
608-614 MHz FX 4 W (ERP) 1M00D1D2M00D1D3M00D1D4M00D1D5M00D1D6M00D1D
GE Healthcare Systems
and COMMISSION
FEDERALCOMMUNICATIONS
Page 1 of 3
This authorization effective December 08, 2014will expire 3:00 A.M. EST June 01, 2015
89
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Licensee Name: GE Healthcare Systems File Number: 1026-EX-ST-2014 Call Sign: WI9XAF
Frequency Information
Washington (DIST OF COLUMBIA), DC - NL 38-53-24; WL 77-01-25
FrequencyStationClass
EmissionDesignator
AuthorizedPower
Frequency Tolerance (+/-)
608-614 MHz FX 4 W (ERP) 0M00N0N
Roanoke (ROANOKE), VA - NL 37-16-00; WL 79-56-00
FrequencyStationClass
EmissionDesignator
AuthorizedPower
Frequency Tolerance (+/-)
608-614 MHz FX 4 W (ERP) 1M00D1D2M00D1D3M00D1D4M00D1D5M00D1D6M00D1D0M00N0N
Harrisonburg (ROCKINGHAM), VA - NL 38-26-59; WL 78-52-08
FrequencyStationClass
EmissionDesignator
AuthorizedPower
Frequency Tolerance (+/-)
608-614 MHz FX 4 W (ERP) 1M00D1D2M00D1D3M00D1D4M00D1D5M00D1D6M00D1D0M00N0N
Page 2 of 390
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Licensee Name: GE Healthcare Systems File Number: 1026-EX-ST-2014 Call Sign: WI9XAF
Frequency Information
Boston (SUFFOLK), MA - NL 42-19-36; WL 71-09-04
FrequencyStationClass
EmissionDesignator
AuthorizedPower
Frequency Tolerance (+/-)
608-614 MHz FX 4 W (ERP) 1M00D1D2M00D1D3M00D1D4M00D1D5M00D1D6M00D1D0M00N0N
Milwaukee (MILWAUKEE), WI - NL 43-03-08; WL 87-57-21
FrequencyStationClass
EmissionDesignator
AuthorizedPower
Frequency Tolerance (+/-)
608-614 MHz FX 4 W (ERP) 1M00D1D2M00D1D3M00D1D4M00D1D5M00D1D6M00D1D0M00N0N
Special Conditions:(1) Operation is subject to prior coordination with the Society of Broadcast Engineers,
Inc. (SBE); ATTN: Executive Director; 9102 North Meridian Street, Suite 305;Indianapolis, IN 46260; telephone, (866) 632-4222; FAX, (317) 846-9120; e-mail,executivedir @ sbe.org; information, www.sbe.org.
(2) In lieu of frequency tolerance, the occupied bandwidth of the emission shall notextend beyond the band limits set forth above.
Page 3 of 391
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APPENDIX 2
92
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Comsearch a CommScope Company
Path length (0.36 km)0 0.05 0.10 0.15 0.20 0.25 0.30
Ele
vatio
n (m
)
220
225
230
235
240
245
250
255
260
265
F = 612.40 MHz K = 1.33 %F1 = 100.0, 60.0, 60.0Wheaton Test Location 1
Latitude 42 51 36.32 N 42 51 27.51 NLongitude 087 57 13.79 W 087 57 03.65 W
True azimuth (°) 139.77 319.77Vertical angle (°) -5.31 5.30
Elevation (m) 224.25 223.21
Antenna gain (dBi) 0.00 10.00Antenna height (m) 34.44 2.40
TX loss (dB) 0.30 1.47RX loss (dB) 0.30 1.47
TX power (dBm) -9.93EIRP (dBm) -3.55
Receive signal (dBm) -80.98Thermal fade margin (dB)
Multipath fading method - Vigants - BarnettRain fading method - Rec. ITU-R P.530-8/13 (R837-5)
wheaton-test location 1.pl5 Drawn by: B.R. Isla April 20, 201593
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Com
sear
ch a
Com
mS
cope
Com
pany
Whe
aton
Latit
ude
42 5
1 36
.32
NLo
ngitu
de08
7 57
13.
79 W
Azi
mut
h13
9.77
°E
leva
tion
224
m A
SLA
nten
na C
L34
.4 m
AG
L
Test
Loc
atio
n 1
Latit
ude
42 5
1 27
.51
NLo
ngitu
de08
7 57
03.
65 W
Azi
mut
h31
9.77
°E
leva
tion
223
m A
SLA
nten
na C
L2.
4 m
AG
L
Freq
uenc
y (M
Hz)
= 6
12.4
K =
1.3
3%
F1 =
100
.00,
60.
00
Pat
h le
ngth
(0.3
6 km
)0
0.05
0.10
0.15
0.20
0.25
0.30
0.35
Elevation (m) 220
225
230
235
240
245
250
255
260
265
whe
aton
-test
loca
tion
1.pl
5D
raw
n by
: B.
R. I
sla
Ap
ril 2
0, 2
015
94
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Comsearch a CommScope Company
Wheaton Test Location 1Latitude 42 51 36.32 N 42 51 27.51 N
Longitude 087 57 13.79 W 087 57 03.65 WTrue azimuth (°) 139.77 319.77Vertical angle (°) -5.31 5.30
Elevation (m) 224.25 223.21
Antenna gain (dBi) 0.00 10.00Antenna height (m) 34.44 2.40
TX line loss (dB) 0.30 1.47
Frequency (MHz) 612.40Polarization Vertical
Path length (km) 0.36Free space loss (dB) 79.28
Atmospheric absorption loss (dB) 0.00Net path loss (dB) 71.05 71.05
TX power (dBm) -9.93EIRP (dBm) -3.55
Receive signal (dBm) -80.98Thermal fade margin (dB)
Dispersive fade occurrence factor 2.00Climatic factor 1.50
Terrain roughness (m) 6.10C factor 4.94
Average annual temperature (°C) 8.56Fade occurrence factor (Po) 8.303E-008
Polarization Vertical
Multipath fading method - Vigants - BarnettRain fading method - Rec. ITU-R P.530-8/13 (R837-5)
wheaton-test location 1.pl5 April 20, 201595
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Com
sear
ch a
Com
mS
cope
Com
pany
Whe
aton
Latit
ude
42 5
1 36
.32
NLo
ngitu
de08
7 57
13.
79 W
Azi
mut
h12
8.85
°E
leva
tion
224
m A
SLA
nten
na C
L34
.4 m
AG
L
Test
Loc
atio
n 2
Latit
ude
42 5
1 22
.49
NLo
ngitu
de08
7 56
50.
43 W
Azi
mut
h30
8.85
°E
leva
tion
223
m A
SLA
nten
na C
L2.
4 m
AG
L
Freq
uenc
y (M
Hz)
= 6
12.4
K =
1.3
3, 0
.67
%F1
= 1
00.0
0, 3
0.00
Pat
h le
ngth
(0.6
8 km
)0
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
0.45
0.50
0.55
0.60
0.65
Elevation (m) 220
225
230
235
240
245
250
255
260
265
whe
aton
-test
loca
tion
2.pl
5D
raw
n by
: B.
R. I
sla
Ap
ril 2
0, 2
015
96
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Com
sear
ch a
Com
mS
cope
Com
pany
Whe
aton
Latit
ude
42 5
1 36
.32
NLo
ngitu
de08
7 57
13.
79 W
Azi
mut
h12
8.85
°E
leva
tion
224
m A
SLA
nten
na C
L34
.4 m
AG
L
Test
Loc
atio
n 2
Latit
ude
42 5
1 22
.49
NLo
ngitu
de08
7 56
50.
43 W
Azi
mut
h30
8.85
°E
leva
tion
223
m A
SLA
nten
na C
L2.
4 m
AG
L
Freq
uenc
y (M
Hz)
= 6
12.4
K =
1.3
3, 0
.67
%F1
= 1
00.0
0, 3
0.00
Pat
h le
ngth
(0.6
8 km
)0
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
0.45
0.50
0.55
0.60
0.65
Elevation (m) 220
225
230
235
240
245
250
255
260
265
whe
aton
-test
loca
tion
2.pl
5D
raw
n by
: B.
R. I
sla
Ap
ril 2
0, 2
015
97
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Comsearch a CommScope Company
Wheaton Test Location 2Latitude 42 51 36.32 N 42 51 22.49 N
Longitude 087 57 13.79 W 087 56 50.43 WTrue azimuth (°) 128.85 308.85Vertical angle (°) -2.84 2.83
Elevation (m) 224.25 222.55
Antenna gain (dBi) 0.00 10.00Antenna height (m) 34.40 2.40
TX line loss (dB) 0.30 1.47
Frequency (MHz) 612.40Polarization Vertical
Path length (km) 0.68Free space loss (dB) 84.88
Atmospheric absorption loss (dB) 0.00Net path loss (dB) 76.65 76.65
TX power (dBm) 2.60EIRP (dBm) 8.98
Receive signal (dBm) -74.05Thermal fade margin (dB)
Dispersive fade occurrence factor 2.00Climatic factor 1.50
Terrain roughness (m) 6.10C factor 4.94
Average annual temperature (°C) 8.56Fade occurrence factor (Po) 5.742E-007
Polarization Vertical
Multipath fading method - Vigants - BarnettRain fading method - Rec. ITU-R P.530-8/13 (R837-5)
wheaton-test location 2.pl5 April 20, 201598
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Com
sear
ch a
Com
mS
cope
Com
pany
Whe
aton
Latit
ude
42 5
1 36
.32
NLo
ngitu
de08
7 57
13.
79 W
Azi
mut
h81
.36°
Ele
vatio
n22
4 m
ASL
Ant
enna
CL
34.4
m A
GL
Test
Loc
atio
n 5
Latit
ude
42 5
1 40
.93
NLo
ngitu
de08
7 56
32.
57 W
Azi
mut
h26
1.36
°E
leva
tion
218
m A
SLA
nten
na C
L2.
4 m
AG
L
Freq
uenc
y (M
Hz)
= 6
10.2
K =
1.3
3%
F1 =
100
.00,
60.
00
Pat
h le
ngth
(0.9
5 km
)0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
Elevation (m) 215
220
225
230
235
240
245
250
255
260
265
whe
aton
-test
loca
tion
5.pl
5D
raw
n by
: B.
R. I
sla
Ap
ril 2
0, 2
015
99
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Com
sear
ch a
Com
mS
cope
Com
pany
Whe
aton
Latit
ude
42 5
1 36
.32
NLo
ngitu
de08
7 57
13.
79 W
Azi
mut
h56
.82°
Ele
vatio
n22
4 m
ASL
Ant
enna
CL
34.4
m A
GL
Test
Loc
atio
n 7
Latit
ude
42 5
1 42
.40
NLo
ngitu
de08
7 57
01.
15 W
Azi
mut
h23
6.82
°E
leva
tion
220
m A
SLA
nten
na C
L2.
4 m
AG
L
Freq
uenc
y (M
Hz)
= 6
10.2
K =
1.3
3, -1
%F1
= 1
00.0
0, 6
0.00
Pat
h le
ngth
(0.3
4 km
)0
0.02
0.04
0.06
0.08
0.10
0.12
0.14
0.16
0.18
0.20
0.22
0.24
0.26
0.28
0.30
0.32
Elevation (m) 215
220
225
230
235
240
245
250
255
260
265
whe
aton
-test
loca
tion
7.pl
5D
raw
n by
: B.
R. I
sla
Ap
ril 2
0, 2
015
100
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Comsearch a CommScope Company
Wheaton Test Location 7Latitude 42 51 36.32 N 42 51 42.40 N
Longitude 087 57 13.79 W 087 57 01.15 WTrue azimuth (°) 56.82 236.82Vertical angle (°) -6.09 6.09
Elevation (m) 224.25 219.67
Antenna gain (dBi) 0.00 10.00Antenna height (m) 34.40 2.40
Connector loss (dB) 0.30 1.47
Frequency (MHz) 610.20Polarization Vertical
Path length (km) 0.34Free space loss (dB) 78.93
Atmospheric absorption loss (dB) 0.00Net path loss (dB) 70.70 70.70
TX power (dBm) -9.93EIRP (dBm) -3.55
Receive signal (dBm) -80.63Thermal fade margin (dB)
Dispersive fade occurrence factor 2.00Climatic factor 1.50
Terrain roughness (m) 6.10C factor 4.94
Average annual temperature (°C) 8.56Fade occurrence factor (Po) 7.406E-008
Polarization Vertical
Multipath fading method - Vigants - BarnettRain fading method - Rec. ITU-R P.530-8/13 (R837-5)
wheaton-test location 7.pl5 April 20, 2015101
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Com
sear
ch a
Com
mS
cope
Com
pany
Whe
aton
Latit
ude
42 5
1 36
.32
NLo
ngitu
de08
7 57
13.
79 W
Azi
mut
h25
7.15
°E
leva
tion
224
m A
SLA
nten
na C
L34
.4 m
AG
L
Test
Loc
atio
n 9
Latit
ude
42 5
1 32
.73
NLo
ngitu
de08
7 57
35.
22 W
Azi
mut
h77
.15°
Ele
vatio
n22
3 m
ASL
Ant
enna
CL
2.4
m A
GL
Freq
uenc
y (M
Hz)
= 6
10.2
K =
1.3
3, -1
%F1
= 1
00.0
0, 6
0.00
Pat
h le
ngth
(0.5
0 km
)0
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
0.45
Elevation (m) 220
225
230
235
240
245
250
255
260
265
whe
aton
-test
loca
tion
9.pl
5D
raw
n by
: B.
R. I
sla
Ap
ril 2
0, 2
015
102
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Comsearch a CommScope Company
Wheaton Test Location 9Latitude 42 51 36.32 N 42 51 32.73 N
Longitude 087 57 13.79 W 087 57 35.22 WTrue azimuth (°) 257.15 77.15Vertical angle (°) -3.87 3.87
Elevation (m) 224.25 222.50
Antenna gain (dBi) 0.00 10.00Antenna height (m) 34.40 2.40
TX line loss (dB) 0.30 1.47
Frequency (MHz) 610.20Polarization Vertical
Path length (km) 0.50Free space loss (dB) 82.16
Atmospheric absorption loss (dB) 0.00Net path loss (dB) 73.93 73.93
TX power (dBm) -5.93EIRP (dBm) 0.45
Receive signal (dBm) -79.86Thermal fade margin (dB)
Dispersive fade occurrence factor 2.00Climatic factor 1.50
Terrain roughness (m) 6.10C factor 4.94
Average annual temperature (°C) 8.55Fade occurrence factor (Po) 2.262E-007
Polarization Vertical
Multipath fading method - Vigants - BarnettRain fading method - Rec. ITU-R P.530-8/13 (R837-5)
wheaton-test location 9.pl5 April 20, 2015103
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Com
sear
ch a
Com
mS
cope
Com
pany
Whe
aton
Latit
ude
42 5
1 36
.32
NLo
ngitu
de08
7 57
13.
79 W
Azi
mut
h30
8.24
°E
leva
tion
224
m A
SLA
nten
na C
L34
.4 m
AG
L
Test
Loc
atio
n 10
Latit
ude
42 5
1 43
.05
NLo
ngitu
de08
7 57
25.
38 W
Azi
mut
h12
8.23
°E
leva
tion
225
m A
SLA
nten
na C
L2.
4 m
AG
L
Freq
uenc
y (M
Hz)
= 6
10.2
K =
1.3
3%
F1 =
100
.00,
60.
00
Pat
h le
ngth
(0.3
4 km
)0
0.02
0.04
0.06
0.08
0.10
0.12
0.14
0.16
0.18
0.20
0.22
0.24
0.26
0.28
0.30
0.32
Elevation (m) 220
225
230
235
240
245
250
255
260
265
whe
aton
-test
loca
tion
10.p
l5D
raw
n by
: B
.R. I
sla
A
pril
20, 2
015
104
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Comsearch a CommScope Company
Wheaton Test Location 10Latitude 42 51 36.32 N 42 51 43.05 N
Longitude 087 57 13.79 W 087 57 25.38 WTrue azimuth (°) 308.24 128.23Vertical angle (°) -5.25 5.24
Elevation (m) 224.25 225.49
Antenna gain (dBi) 0.00 10.00Antenna height (m) 34.40 2.40
TX line loss (dB) 0.30 1.47
Frequency (MHz) 610.20Polarization Vertical
Path length (km) 0.34Free space loss (dB) 78.72
Atmospheric absorption loss (dB) 0.00Net path loss (dB) 70.49 70.49
TX power (dBm) -9.93EIRP (dBm) -3.55
Receive signal (dBm) -80.42Thermal fade margin (dB)
Dispersive fade occurrence factor 2.00Climatic factor 1.50
Terrain roughness (m) 6.10C factor 4.94
Average annual temperature (°C) 8.55Fade occurrence factor (Po) 6.887E-008
Polarization Vertical
Multipath fading method - Vigants - BarnettRain fading method - Rec. ITU-R P.530-8/13 (R837-5)
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Elevation (m) 220
225
230
235
240
245
250
255
260
265
whe
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Comsearch a CommScope Company
Wheaton Test Location 11Latitude 42 51 36.32 N 42 51 49.19 N
Longitude 087 57 13.79 W 087 57 23.61 WTrue azimuth (°) 330.69 150.69Vertical angle (°) -3.93 3.93
Elevation (m) 224.25 224.97
Antenna gain (dBi) 0.00 10.00Antenna height (m) 34.40 2.40
TX line loss (dB) 0.30 1.47
Frequency (MHz) 610.20Polarization Vertical
Path length (km) 0.46Free space loss (dB) 81.37
Atmospheric absorption loss (dB) 0.00Net path loss (dB) 73.14 73.14
TX power (dBm) -5.93EIRP (dBm) 0.45
Receive signal (dBm) -79.07Thermal fade margin (dB)
Dispersive fade occurrence factor 2.00Climatic factor 1.50
Terrain roughness (m) 6.10C factor 4.94
Average annual temperature (°C) 8.55Fade occurrence factor (Po) 1.719E-007
Polarization Vertical
Multipath fading method - Vigants - BarnettRain fading method - Rec. ITU-R P.530-8/13 (R837-5)
wheaton-test location 11.pl5 April 20, 2015107