FCC ID: BXOWT12-1000 Bluetooth Module

PCTEST ENGINEERING LABORATORY, INC. 7185 Oakland Mills Road, Columbia, MD 21046 USA Tel. +1.410.290.6652 / Fax +1.410.290.6654 http://www.pctestlab.com SAR EVALUATION REPORT Applicant Name:

TRX Systems, Inc. 7500 Greenway Center Drive, Suite 420 Greenbelt, MD 20770 USA FCC ID:

BXONEON-TU-1000 APPLICANT:

DUT Type:

Application Type:

FCC Rule Part(s):

Model(s):

Test Device Serial No.:

TRX SYSTEMS, INC. Portable Device Certification CFR 2.1093 NEON-TU-1000 Pre-Production [S/N: RevC]

Equipment Class Band & Mode Tx Frequency DTS DSS 2.4 GHz CSS Bluetooth 2400 - 2483.5 MHz 2402 - 2480 MHz Simultaneous SAR per KDB 690783 D01v01r02:

Date of Testing:

05/22/2012 Test Site/Location:

PCTEST Lab, Columbia, MD, USA Document Serial No.:

0Y1302070239-R1.BXO Measured Conducted Power [dBm]

19.33 3.46 SAR 1 gm Body

(W/kg) 0.12 N/A 0.25 Note: Powers in the above table represent output powers for the SAR test configurations and may not represent the highest output powers for all configurations for each mode. Note: This revised test report (S/N: 0Y1302070239-R1.BXO) supersedes and replaces the previously issued test report on the same subject DUT for the same type of testing indicated. Please discard or destroy the previously issued test report(s) and dispose of accordingly. This wireless portable device has been shown to be capable of compliance for localized specific absorption rate (SAR) for uncontrolled environment/general population exposure limits specified in ANSI/IEEE C95.1-1992 and has been tested in accordance with the measurement procedures specified in Section 1.7 of this report; for North American frequency bands only. I attest to the accuracy of data. All measurements reported herein were performed by me or were made under my supervision and are correct to the best of my knowledge and belief. I assume full responsibility for the completeness of these measurements and vouch for the qualifications of all persons taking them. Test results reported herein relate only to the item(s) tested. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 1 of 18 REV 12.2 M 12/17/2013 T A B L E O F C O N T E N T S DEVICE UNDER TEST ................................................................................................................... 3 INTRODUCTION ............................................................................................................................. 5 DOSIMETRIC ASSESSMENT ........................................................................................................ 6 RF EXPOSURE LIMITS .................................................................................................................. 7 RF CONDUCTED POWERS........................................................................................................... 8 SYSTEM VERIFICATION................................................................................................................ 9 SAR DATA SUMMARY ................................................................................................................. 11 FCC MULTI-TX AND ANTENNA SAR CONSIDERATIONS......................................................... 12 SAR MEASUREMENT VARIABILITY ........................................................................................... 13 EQUIPMENT LIST......................................................................................................................... 14 MEASUREMENT UNCERTAINTIES ............................................................................................ 15 CONCLUSION............................................................................................................................... 16 REFERENCES .............................................................................................................................. 17 1 2 3 4 5 6 7 8 9 10 11 12 13 APPENDIX A:

APPENDIX B:

APPENDIX C:

APPENDIX D:

APPENDIX E:

APPENDIX F:

SAR TEST PLOTS SAR DIPOLE VERIFICATION PLOTS PROBE AND DIPOLE CALIBRATION CERTIFICATES SAR TISSUE SPECIFICATIONS SAR SYSTEM VALIDATION SAR TEST SETUP PHOTOGRAPHS FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 2 of 18 REV 12.2 M 12/17/2013 1 D E V I C E U N D E R T E S T 1.1 Device Overview Band & Mode Operating Modes Tx Frequency 2.4 GHz CSS Bluetooth Data Data 2400 - 2483.5 MHz 2402 - 2480 MHz 1.2 Nominal and Maximum Output Power Specifications This device operates using the following nominal output power specifications. SAR values were scaled to the maximum allowed power to determine compliance per KDB Publication 447498 D01v05. Mode/Band 2.4GHzCSS Bluetooth Maximum Nominal Maximum Nominal ModulatedAverage

(dBm) 21.0 20.0 4.0 4.0 1.3 DUT Antenna Locations 108 mm 108 mm 69 mm 69 mm Left Left Edge Edge 2.4 GHz BT 2.4 GHz BT Tx/Rx Antenna Tx/Rx Antenna 125 kHz 125 kHz LF Transceiver LF Transceiver 2.4 GHz CSS 2.4 GHz CSS Tx/Rx Antenna #1 Tx/Rx Antenna #1 Right Right Edge Edge Top Edge Top Edge GPS Rx Only GPS Rx Only Antenna Antenna Front of Device Front of Device 2.4 GHz CSS 2.4 GHz CSS Tx/Rx Antenna #2 Tx/Rx Antenna #2 Bottom Edge Bottom Edge Figure 1-1 DUT Antenna Locations Note: Specific antenna dimensions and separation distances are shown in the antenna distance document. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

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Quality Manager Page 3 of 18 REV 12.2 M 12/17/2013 1.4 Simultaneous Transmission Capabilities According to FCC KDB Publication 447498 D05v01, transmitters are considered to be transmitting simultaneously when there is overlapping transmission, with the exception of transmissions during network hand-offs with maximum hand-off duration less than 30 seconds. Possible transmission paths for the DUT are shown in Figure 1-2 and are color-coded to indicate communication modes which share the same path. Modes which share the same transmission path cannot transmit simultaneously with one another. Path 1 2.4 GHz CSS Path 2 Bluetooth Figure 1-2 Simultaneous Transmission Paths This device contains multiple transmitters that may operate simultaneously, and therefore requires a simultaneous transmission analysis according to FCC KDB Publication 447498 D01v05 3) procedures. Simultaneous Transmission Scenarios Table 1-1 No. Capable Transmit Configurations 1 2.4 GHz CSS + 2.4 GHz Bluetooth Body KDB 447498 Yes 1.5 SAR Test Exclusions Applied Per FCC KDB 447498 D01 v05, the SAR exclusion threshold for distances <50mm is defined by the following equation:

Based on the maximum conducted power of Bluetooth and the antenna to use separation distance, Bluetooth SAR was not required; [(3/5)* 2.441] = 0.9 < 3.0. The 125 kHz LF Transceiver is a Part 15.209 transmitter which is exempt from RF Exposure evaluation per CFR 2.1093. The 125 kHz LF Transmitter can not co-transmit. 1.6 Power Reduction for SAR There is no power reduction for any band/mode implemented in this device for SAR purposes. 1.7 Guidance Applied FCC KDB Publication 447498 D01v05 (Portable Devices) FCC KDB Publication 865664 DR01 (SAR Measurements up to 6 GHz) FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

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Portable Device Reviewed by:

Quality Manager Page 4 of 18 REV 12.2 M 12/17/2013 2 I N T R O D U C T I O N The FCC and Industry Canada have adopted the guidelines for evaluating the environmental effects of radio frequency (RF) radiation in ET Docket 93-62 on Aug. 6, 1996 and Health Canada Safety Code 6 to protect the public and workers from the potential hazards of RF emissions due to FCC-regulated portable devices. [1]

The safety limits used for the environmental evaluation measurements are based on the criteria published by the American National Standards Institute (ANSI) for localized specific absorption rate (SAR) in IEEE/ANSI C95.1-1992 Standard for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz [3] and Health Canada RF Exposure Guidelines Safety Code 6

[24]. The measurement procedure described in IEEE/ANSI C95.3-2002 Recommended Practice for the Measurement of Potentially Hazardous Electromagnetic Fields - RF and Microwave [4] is used for guidance in measuring the Specific Absorption Rate (SAR) due to the RF radiation exposure from the Equipment Under Test (EUT). These criteria for SAR evaluation are similar to those recommended by the International Committee for Non-Ionizing Radiation Protection (ICNIRP) in Biological Effects and Exposure Criteria for Radiofrequency Electromagnetic Fields, Report No. Vol 74. SAR is a measure of the rate of energy absorption due to exposure to an RF transmitting source. SAR values have been related to threshold levels for potential biological hazards. 2.1 SAR Definition Specific Absorption Rate is defined as the time derivative (rate) of the incremental energy (dU) absorbed by (dissipated in) an incremental mass (dm) contained in a volume element (dV) of a given density (). It is also defined as the rate of RF energy absorption per unit mass at a point in an absorbing body (see Equation 2-1). Equation 2-1 SAR Mathematical Equation dU dv dU dm d dt d dt SAR SAR is expressed in units of Watts per Kilogram (W/kg). SAR 2E where:

= conductivity of the tissue-simulating material (S/m) E = Total RMS electric field strength (V/m)

= mass density of the tissue-simulating material (kg/m3) NOTE: The primary factors that control rate of energy absorption were found to be the wavelength of the incident field in relation to the dimensions and geometry of the irradiated organism, the orientation of the organism in relation to the polarity of field vectors, the presence of reflecting surfaces, and whether conductive contact is made by the organism with a ground plane.[6]

FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 5 of 18 REV 12.2 M 12/17/2013 3 D O S I M E T R I C A S S E S S M E N T 3.1 Measurement Procedure The evaluation was performed using the following procedure:

1. Figure 3-1 Sample SAR Area Scan The SAR distribution at the exposed side of the head or body was measured at a distance no greater than 5.0 mm from the inner surface of the shell. The area covered the entire dimension of the device-head and body interface and the horizontal grid resolution was determined per FCC KDB Publication 865664 DR01 (See Table 3-1). The point SAR measurement was taken at the maximum SAR region determined from Step 1 to enable the monitoring of SAR fluctuations/drifts during the 1g/10g cube evaluation. SAR at this fixed point was measured and used as a reference value. Based on the area scan data, the peak of the region with maximum SAR was determined by spline interpolation. Around this point, a volume was assessed according to the measurement resolution and volume size requirements of FCC KDB Publication 865664 DR01 (See Table 3-1). On the basis of this data set, the spatial peak SAR value was evaluated with the following procedure (see references or the DASY manual online for more details):

a. combined distance extrapolated was the combined distance from the center of the dipoles 2.7mm away from the tip of the probe housing plus the 1.2 mm distance between the surface and the lowest measuring point. The extrapolation was based on a least-squares algorithm. A polynomial of the fourth order was calculated through the points in the z-axis (normal to the phantom shell). b. After the maximum interpolated values were calculated between the points in the cube, the SAR was averaged over the spatial volume (1g or 10g) using a 3D-Spline interpolation algorithm. The 3D-spline is composed of three one-dimensional splines with the Not a knot condition (in x, y, and z directions). The volume was then integrated with the trapezoidal algorithm. One thousand points (10 x 10 x 10) were obtained through interpolation, in order to calculate the averaged SAR. c. average value was found. The SAR reference value, at the same location as step 2, was re-measured after the zoom scan was complete to calculate the SAR drift. If the drift deviated by more than 5%, the SAR test and drift measurements were repeated. All neighboring volumes were evaluated until no neighboring volume with a higher The data was extrapolated to the surface of the outer-shell of the phantom. The Area and Zoom Scan Resolutions per FCC KDB Publication 865664 DR01 Table 3-1 Frequency MaximumAreaScan MaximumZoomScan Resolution(mm)

(xarea,yarea) Resolution(mm)

(xzoom,yzoom) 2GHz 23GHz 34GHz 45GHz 56GHz 15 12 12 10 10 8 5 5 4 4 MaximumZoomScanSpatial Resolution(mm) UniformGrid GradedGrid zzoom(n) zzoom(1)*

zzoom(n>1)*

5 5 4 3 2 4 4 3 2.5 2 1.5*zzoom(n1) 1.5*zzoom(n1) 1.5*zzoom(n1) 1.5*zzoom(n1) 1.5*zzoom(n1) MinimumZoomScan Volume(mm)

(x,y,z) 30 30 28 25 22 2. 3. 4. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 6 of 18 REV 12.2 M 12/17/2013 4 R F E X P O S U R E L I M I T S 4.1 Uncontrolled Environment UNCONTROLLED ENVIRONMENTS are defined as locations where there is the exposure of individuals who have no knowledge or control of their exposure. The general population/uncontrolled exposure limits are applicable to situations in which the general public may be exposed or in which persons who are exposed as a consequence of their employment may not be made fully aware of the potential for exposure or cannot exercise control over their exposure. Members of the general public would come under this category when exposure is not employment-related; for example, in the case of a wireless transmitter that exposes persons in its vicinity. 4.2 Controlled Environment CONTROLLED ENVIRONMENTS are defined as locations where there is exposure that may be incurred by persons who are aware of the potential for exposure, (i.e. as a result of employment or occupation). In general, occupational/controlled exposure limits are applicable to situations in which persons are exposed as a consequence of their employment, who have been made fully aware of the potential for exposure and can exercise control over their exposure. This exposure category is also applicable when the exposure is of a transient nature due to incidental passage through a location where the exposure levels may be higher than the general population/uncontrolled limits, but the exposed person is fully aware of the potential for exposure and can exercise control over his or her exposure by leaving the area or by some other appropriate means. SAR Human Exposure Specified in ANSI/IEEE C95.1-1992 and Health Canada Safety Code 6 Table 4-1 1. The Spatial Peak value of the SAR averaged over any 1 gram of tissue (defined as a tissue volume in the shape of a cube) and over the appropriate averaging time. 2. The Spatial Average value of the SAR averaged over the whole body. 3. The Spatial Peak value of the SAR averaged over any 10 grams of tissue (defined as a tissue volume in the shape of a cube) and over the appropriate averaging time. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 7 of 18 REV 12.2 M 12/17/2013 5 R F C O N D U C T E D P O W E R S 5.1 CSS Conducted Powers Table 5-1 Average RF Conducted Power Mode CSS CSS Freq.

[MHz]

2441.75 2441.75 Bandwidth

[MHz]

Antenna Conducted Power [dBm]

1 2 19.33 19.33 Note: The DUT was configured to transmit continuously during conducted power measurement. 80 80 Power Meter RF Connector Figure 5-1 Power Measurement Setup Wireless Device FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 8 of 18 REV 12.2 M 12/17/2013 6 S Y S T E M V E R I F I C A T I O N 6.1 Tissue Verification Table 6-1 Measured Tissue Properties Calibrated for Tests Performed on:

Tissue Type Tissue Temp During Calibration

(C) 5/22/2012 2450B 23.0 Measured Frequency Measured Conductivity,

(MHz) 2401 2450 2499

(S/m) 1.979 2.043 2.112 54.91 54.77 54.53

(S/m) 1.903 1.950 2.019 Measured Dielectric Constant, TARGET Conductivity, TARGET Dielectric Constant,

% dev

% dev 52.765 52.700 52.638 3.99%

4.77%

4.61%

4.07%

3.93%

3.59%

The above measured tissue parameters were used in the DASY software. The DASY software was used to perform interpolation to determine the dielectric parameters at the SAR test device frequencies (per IEEE 1528 6.6.1.2). The tissue parameters listed in the SAR test plots may slightly differ from the table above due to significant digit rounding in the software. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

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Quality Manager Page 9 of 18 REV 12.2 M 12/17/2013 6.2 Test System Verification Prior to SAR assessment, the system is verified to 10% of the SAR measurement on the reference dipole at the time of calibration by the calibration facility. Table 6-3 System Verification Results Tissue Frequency

(MHz) 2450 System Verification TARGET & MEASURED Tissue Type Date:

Amb. Temp (C) Liquid Temp (C) Body 05/22/2012 23.8 22.3 Input Power

(W) 0.040 Dipole SN Probe SN 719 3022 Measured SAR1g

(W/kg) 1.97 1 W Target SAR1g

(W/kg) 51.300 1 W Normalized SAR1g (W/kg) Deviation

(%) 49.250

-4.00%

Note: Full system validation status and results can be found in Appendix E. System Verification Setup Diagram Figure 6-1 Figure 6-2 System Verification Setup Photo FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

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Quality Manager Page 10 of 18 REV 12.2 M 12/17/2013 7 S A R D A T A S U M M A R Y 7.1 Standalone Body SAR Data Table 7-1 Standalone Body SAR MEASUREMENT RESULTS Conducted Spacing Side Maximum Allowed Power [dBm]

Power

[dBm]

Power Drift

[dB]

FREQUENCY MHz 2441.75 2441.75 Mode CSS 21.0 19.33 CSS 19.33 ANSI / IEEE C95.1 1992 - SAFETY LIMIT 21.0 Spatial Peak Uncontrolled Exposure/General Population

-0.01

-0.07 0 mm 0 mm back back Scaling Factor 1.469 1.469 Scaled SAR

(1g)

(W/kg) 0.120 0.023 Plot #

A1 A3 Duty Cycle 1:1 1:1 SAR (1g)

(W/kg) 0.082 0.016 Body 1.6 W/kg (mW/g) averaged over 1 gram 7.2 SAR Test Notes General Notes:

1. The test data reported are the worst-case SAR values according to test procedures specified in FCC KDB Publication 447498 D01v05. 2. Batteries are fully charged at the beginning of the SAR measurements. The standard battery was used for all SAR measurements and will be the only battery available with this DUT. 3. Liquid tissue depth was at least 15.0 cm for all frequencies. 4. The manufacturer has confirmed that the device(s) tested have the same physical, mechanical and thermal characteristics and are within operational tolerances expected for production units. 5. SAR results were scaled to the maximum allowed power to demonstrate compliance per FCC KDB Publication 447498 D01v05. 6. Per FCC KDB 865664 DR01, variability SAR tests were performed when the measured SAR results for a frequency band were greater than 0.8 W/kg. Repeated SAR measurements are highlighted in the tables above for clarity. Please see Section 9 for variability analysis. 7. A Z-axis plot for worst case configuration was included in Appendix A to confirm 15cm depth as well as the first 2 measurements are within 1cm of the surface. 8. DASY4 applies a boundary effect compensation algorithm during SAR evaluation. 9. Software provided by the manufacturer was used to configure device during SAR tests. A spectrum analyzer was used to verify 2.4 GHz CSS transmission. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 11 of 18 REV 12.2 M 12/17/2013 8 F C C M U L T I - T X A N D A N T E N N A S A R C O N S I D E R A T I O N S 8.1 Introduction The following procedures adopted from FCC KDB Publication 447498 D01v05 are applicable to handsets with built-in unlicensed transmitters such as 802.11a/b/g/n and Bluetooth devices which may simultaneously transmit with the another transmitter. 8.2 Simultaneous Transmission Procedures This device contains transmitters that may operate simultaneously. Therefore simultaneous transmission analysis is required. Per FCC KDB 447498 D01v05 IV.C.1.iii, simultaneous transmission SAR test exclusion may be applied when the sum of the 1-g SAR for all the simultaneous transmitting antennas in a specific a physical test configuration is 1.6 W/kg. When standalone SAR is not required to be measured, per FCC KDB 447498 D01v05 4.3.2 2), the following equation must be used to estimate the standalone 1g SAR for simultaneous transmission assessment involving that transmitter. Table 8-1 Estimated SAR Mode Bluetooth Frequency

[MHz]

2441 Maximum Allowed Power

[dBm]

4.00 Separation Distance

(Body)

[mm]

5 Estimated SAR

(Body)

[W/kg]

0.125 8.3 Body SAR Simultaneous Transmission Analysis Simultaneous Transmission Scenario with 2.4 GHz Bluetooth Table 8-2 Configuration CSS SAR

(W/kg) Back Side 0.120 Bluetooth SAR

(W/kg) 0.125 SAR

(W/kg) 0.245 8.3 Simultaneous Transmission Conclusion The above numerical summed SAR results for all the worst-case simultaneous transmission conditions were below the SAR limit. Therefore, the above analysis is sufficient to determine that simultaneous transmission cases will not exceed the SAR limit and therefore no measured volumetric simultaneous SAR summation is required per FCC KDB Publication 447498 D01_v05. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 12 of 18 REV 12.2 M 12/17/2013 9 S A R M E A S U R E M E N T V A R I A B I L I T Y 9.1 Measurement Variability Per FCC KDB Publication 865664 DR01, SAR measurement variability was assessed for each frequency band, which was determined by the SAR probe calibration point and tissue-equivalent medium used for the device measurements. When both head and body tissue-equivalent media were required for SAR measurements in a frequency band, the variability measurement procedures were applied to the tissue medium with the highest measured SAR, using the highest measured SAR configuration for that tissue-

equivalent medium. These additional measurements were repeated after the completion of all measurements requiring the same head or body tissue-equivalent medium in a frequency band. The test device was returned to ambient conditions (normal room temperature) with the battery fully charged before it was re-mounted on the device holder for the repeated measurement(s) to minimize any unexpected variations in the repeated results. SAR Measurement Variability was assessed using the following procedures for each frequency band:

1) When the original highest measured SAR is 0.80 W/kg, the measurement was repeated once. 2) A second repeated measurement was preformed only if the ratio of largest to smallest SAR for the original and first repeated measurements was > 1.20 or when the original or repeated measurement was 1.45 W/kg (~ 10% from the 1-g SAR limit). 3) A third repeated measurement was performed only if the original, first or second repeated measurement was 1.5 W/kg and the ratio of largest to smallest SAR for the original, first and second repeated measurements is > 1.20. 4) Repeated measurements are not required when the original highest measured SAR is < 0.80 W/kg. Since the highest measured SAR for this device was < 0.8 W/kg, measurement variability was not assessed. 9.2 Measurement Uncertainty The measured SAR was <1.5 W/kg for all frequency bands. Therefore, per KDB Publication 865664 DR01, the extended measurement uncertainty analysis per IEEE 1528-2003 was not required. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

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Portable Device Reviewed by:

Quality Manager Page 13 of 18 REV 12.2 M 12/17/2013 10 E Q U I P M E N T L I S T Manufacturer Agilent Agilent Agilent Gigatronics Gigatronics Pasternack Pasternack Rohde & Schwarz SPEAG SPEAG SPEAG Anritsu Anritsu Anritsu Anritsu Anritsu Anritsu Amplifier Research Mini-Circuits Control Company VWR MiniCircuits Narda Narda Mini-Circuits Agilent Seekonk Speag Narda MCL Intelligent Weigh Control Company Control Company Seekonk Seekonk COMTECH Model 8594A 8648D 8753E 80701A 8651A PE2208-6 PE2209-10 NRVD D2450V2 DAE4 ES3DV2 MA2481A MA2481A ML2438A MA2481A MA2411B ML2495A 5S1G4 BW-N20W5+

61220-416 36934-158 SLP-2400+

4772-3 BW-S3W2 NLP-2950+

85070E NC-100 DAK-3.5 4014C-6 BW-N6W5+

PD-3000 36934-158 61220-416 NC-100 NC-100 AR85729-5/5759B Description

(9kHz-2.9GHz) Spectrum Analyzer

(9kHz-4GHz) Signal Generator

(30kHz-6GHz) Network Analyzer

(0.05-18GHz) Power Sensor Universal Power Meter Bidirectional Coupler Bidirectional Coupler Dual Channel Power Meter 2450 MHz SAR Dipole Dasy Data Acquisition Electronics SAR Probe Power Sensor Power Sensor Power Meter Power Sensor Pulse Sensor Power Meter 5W, 800MHz-4.2GHz DC to 18 GHz Precision Fixed 20 dB Attenuator Long-Stem Thermometer Wall-Mounted Thermometer Low Pass Filter Attenuator (3dB) Attenuator (3dB) Low Pass Filter DC to 2700 MHz Dielectric Probe Kit Torque Wrench (8" lb) Dielectric Assessment Kit 4 - 8 GHz SMA 6 dB Directional Coupler 6dB Attenuator Electronic Balance Wall-Mounted Thermometer Long-Stem Thermometer Torque Wrench (8" lb) Torque Wrench (8" lb) Solid State Amplifier Cal Date N/A 10/10/2011 4/4/2012 10/12/2011 10/12/2011 6/3/2011 6/3/2011 4/8/2011 8/19/2011 4/19/2012 8/25/2011 2/14/2012 2/14/2012 10/13/2011 2/14/2012 10/13/2011 10/13/2011 CBT CBT 2/15/2011 1/21/2011 CBT CBT CBT CBT 3/8/2012 11/29/2011 12/1/2011 CBT CBT 3/27/2012 1/4/2012 10/12/2011 3/5/2012 3/5/2012 CBT Cal Interval N/A Annual Annual Annual Annual Annual Annual Biennial Annual Annual Annual Annual Annual Annual Annual Annual Annual N/A N/A Biennial Biennial N/A N/A N/A N/A Annual Triennial Annual N/A N/A Annual Biennial Biennial Triennial Triennial N/A Cal Due N/A 10/10/2012 4/4/2013 10/12/2012 10/12/2012 6/3/2012 6/3/2012 4/8/2013 8/19/2012 4/19/2013 8/25/2012 2/14/2013 2/14/2013 10/13/2012 2/14/2013 10/13/2012 10/13/2012 CBT CBT 2/15/2013 1/21/2013 CBT CBT CBT CBT 3/8/2013 11/29/2014 12/1/2012 CBT CBT 3/27/2013 1/4/2014 10/12/2013 3/5/2015 3/5/2015 CBT Serial Number 3051A00187 3613A00315 JP38020182 1833460 8650319 N/A N/A 101695 719 665 3022 5318 5442 1070030 2400 1027293 1039008 21910 N/A 111331322 111286454 R8979500903 9406 120 N/A MY44300633 21053 1031 N/A 1139 11081534 122014488 111860820 N/A N/A M3W1A00-1002 Note: CBT (Calibrated Before Testing). Prior to testing, the measurement paths containing a cable, amplifier, attenuator, coupler or filter were connected to a calibrated source (i.e. a signal generator) to determine the losses of the measurement path. The power meter offset was then adjusted to compensate for the measurement system losses. This level offset is stored within the power meter before measurements are made. This calibration verification procedure applies to the system verification and output power measurements. The calibrated reading is then taken directly from the power meter after compensation of the losses for all final power measurements. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

0Y1302070239-R1.BXO 2013 PCTEST Engineering Laboratory, Inc. Test Dates:

05/22/2012 DUT Type:

Portable Device Reviewed by:

Quality Manager Page 14 of 18 REV 12.2 M 12/17/2013 11 M E A S U R E M E N T U N C E R T A I N T I E S a b c d e=

Uncertainty Component Measurement System Probe Calibration Axial Isotropy Hemishperical Isotropy Boundary Effect Linearity System Detection Limits Readout Electronics Response Time Integration Time RF Ambient Conditions Probe Positioner Mechanical Tolerance Probe Positioning w/ respect to Phantom Extrapolation, Interpolation & Integration algorithms for Max. SAR Evaluation Test Sample Related Test Sample Positioning Device Holder Uncertainty Output Power Variation - SAR drift measurement Phantom & Tissue Parameters Phantom Uncertainty (Shape & Thickness tolerances) Liquid Conductivity - deviation from target values Liquid Conductivity - measurement uncertainty Liquid Permittivity - deviation from target values Liquid Permittivity - measurement uncertainty Combined Standard Uncertainty (k=1) Expanded Uncertainty

(95% CONFIDENCE LEVEL) IEEE 1528 Sec. E.2.1 E.2.2 E.2.2 E.2.3 E.2.4 E.2.5 E.2.6 E.2.7 E.2.8 E.6.1 E.6.2 E.6.3 E.5 E.4.2 E.4.1 6.6.2 E.3.1 E.3.2 E.3.3 E.3.2 E.3.3 f(d,k) Tol. Prob. f ci g ci

( %) Dist. Div. 1gm 10 gms 1.0 0.7 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 0.7 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 0.64 0.64 0.60 0.60 1.0 0.43 0.43 0.49 0.49 6.0 0.25 1.3 0.4 0.3 5.1 1.0 0.8 2.6 3.0 0.4 2.9 1.0 6.0 3.32 5.0 4.0 5.0 3.8 5.0 4.5 1 1 1 1 1 1 1 1.73 1.73 1.73 1.73 1.73 1.73 1 1.73 1.73 1.73 1.73 1 1.73 1 N N N N N N N R R R R R R N R R R R N R N RSS k=2 h =

i =

k c x f/e c x g/e 1gm ui

( %) 10gms ui

( %) 6.0 0.2 1.3 0.4 0.3 5.1 1.0 0.5 1.5 1.7 0.2 1.7 0.6 6.0 1.9 2.9 2.3 1.8 2.4 1.7 2.7 12.1 24.2 6.0 0.2 1.3 0.4 0.3 5.1 1.0 0.5 1.5 1.7 0.2 1.7 0.6 6.0 1.9 2.9 2.3 1.2 1.6 1.4 2.2 11.7 23.5 vi 287 6 6 299 The above measurement uncertainties are according to IEEE Std. 1528-2003 FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

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Quality Manager Page 15 of 18 REV 12.2 M 12/17/2013 12 C O N C L U S I O N 12.1 Measurement Conclusion The SAR evaluation indicates that the DUT complies with the RF radiation exposure limits of the FCC and Industry Canada, with respect to all parameters subject to this test. These measurements were taken to simulate the RF effects of RF exposure under worst-case conditions. Precise laboratory measures were taken to assure repeatability of the tests. The results and statements relate only to the item(s) tested. Please note that the absorption and distribution of electromagnetic energy in the body are very complex phenomena that depend on the mass, shape, and size of the body, the orientation of the body with respect to the field vectors, and the electrical properties of both the body and the environment. Other variables that may play a substantial role in possible biological effects are those that characterize the environment (e.g. ambient temperature, air velocity, relative humidity, and body insulation) and those that characterize the individual (e.g. age, gender, activity level, debilitation, or disease). Because various factors may interact with one another to vary the specific biological outcome of an exposure to electromagnetic fields, any protection guide should consider maximal amplification of biological effects as a result of field-body interactions, environmental conditions, and physiological variables. [3]

FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

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[1] Federal Communications Commission, ET Docket 93-62, Guidelines for Evaluating the Environmental Effects of Radiofrequency Radiation, Aug. 1996.

[2] ANSI/IEEE C95.1-2005, American National Standard safety levels with respect to human exposure to radio frequency electromagnetic fields, 3kHz to 300GHz, New York: IEEE, 2006.

[3] ANSI/IEEE C95.1-1992, American National Standard safety levels with respect to human exposure to radio frequency electromagnetic fields, 3kHz to 300GHz, New York: IEEE, Sept. 1992.

[4] ANSI/IEEE C95.3-2002, IEEE Recommended Practice for the Measurement of Potentially Hazardous Electromagnetic Fields - RF and Microwave, New York: IEEE, December 2002.

[5] Federal Communications Commission, OET Bulletin 65 (Edition 97-01), Supplement C (Edition 01-01), Evaluating Compliance with FCC Guidelines for Human Exposure to Radiofrequency Electromagnetic Fields, June 2001.

[6]

IEEE Standards Coordinating Committee 34 IEEE Std. 1528-2003, Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Body Due to Wireless Communications Devices.

[7] NCRP, National Council on Radiation Protection and Measurements, Biological Effects and Exposure Criteria for RadioFrequency Electromagnetic Fields, NCRP Report No. 86, 1986. Reprinted Feb. 1995.

[8] T. Schmid, O. Egger, N. Kuster, Automated E-field scanning system for dosimetric assessments, IEEE Transaction on Microwave Theory and Techniques, vol. 44, Jan. 1996, pp. 105-113.

[9] K. Pokovic, T. Schmid, N. Kuster, Robust setup for precise calibration of E-field probes in tissue simulating liquids at mobile communications frequencies, ICECOM97, Oct. 1997, pp. -124.

[10] K. Pokovic, T. Schmid, and N. Kuster, E-field Probe with improved isotropy in brain simulating liquids, Proceedings of the ELMAR, Zadar, Croatia, June 23-25, 1996, pp. 172-175.

[11] Schmid & Partner Engineering AG, Application Note: Data Storage and Evaluation, June 1998, p2.

[12] V. Hombach, K. Meier, M. Burkhardt, E. Kuhn, N. Kuster, The Dependence of EM Energy Absorption upon Human Modeling at 900 MHz, IEEE Transaction on Microwave Theory and Techniques, vol. 44 no. 10, Oct. 1996, pp. 1865-1873.

[13] N. Kuster and Q. Balzano, Energy absorption mechanism by biological bodies in the near field of dipole antennas above 300MHz, IEEE Transaction on Vehicular Technology, vol. 41, no. 1, Feb. 1992, pp. 17-23.

[14] G. Hartsgrove, A. Kraszewski, A. Surowiec, Simulated Biological Materials for Electromagnetic Radiation Absorption Studies, University of Ottawa, Bioelectromagnetics, Canada: 1987, pp. 29-36.

[15] Q. Balzano, O. Garay, T. Manning Jr., Electromagnetic Energy Exposure of Simulated Users of Portable Cellular Telephones, IEEE Transactions on Vehicular Technology, vol. 44, no.3, Aug. 1995.

[16] W. Gander, Computermathematick, Birkhaeuser, Basel, 1992.

[17] W.H. Press, S.A. Teukolsky, W.T. Vetterling, and B.P. Flannery, Numerical Recipes in C, The Art of Scientific Computing, Second edition, Cambridge University Press, 1992. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

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[18] Federal Communications Commission, OET Bulletin 65, Evaluating Compliance with FCC Guidelines for Human Exposure to Radiofrequency Electromagnetic Fields. Supplement C, Dec. 1997.

[19] N. Kuster, R. Kastle, T. Schmid, Dosimetric evaluation of mobile communications equipment with known precision, IEEE Transaction on Communications, vol. E80-B, no. 5, May 1997, pp. 645-652.

[20] CENELEC CLC/SC111B, European Prestandard (prENV 50166-2), Human Exposure to Electromagnetic Fields High-frequency: 10kHz-300GHz, Jan. 1995.

[21] Prof. Dr. Niels Kuster, ETH, Eidgenssische Technische Hoschschule Zrich, Dosimetric Evaluation of the Cellular Phone.

[22] IEC 62209-1, Human exposure to radio frequency fields from hand-held and body-mounted wireless communication devices - Human models, instrumentation, and procedures - Part 1: Procedure to determine the specific absorption rate (SAR) for hand-held devices used in close proximity to the ear (frequency range of 300 MHz to 3 GHz), Feb. 2005.

[23] Industry Canada RSS-102 Radio Frequency Exposure Compliance of Radiocommunication Apparatus (All Frequency Bands) Issue 4, March 2010.

[24] Health Canada Safety Code 6 Limits of Human Exposure to Radio Frequency Electromagnetic Fields in the Frequency Range from 3 kHz 300 GHz, 2009

[25] FCC Public Notice DA-02-1438. Office of Engineering and Technology Announces a Transition Period for the Phantom Requirements of Supplement C to OET Bulletin 65, June 19, 2002

[26] FCC SAR Test Procedures for 2G-3G Devices, Mobile Hotspot and UMPC Devices KDB Publications 941225, D01-D07

[27] SAR Measurement procedures for IEEE 802.11a/b/g KDB Publication 248227 D01v01r02

[28] FCC SAR Considerations for Handsets with Multiple Transmitters and Antennas, KDB Publications 648474 D02-D04

[29] FCC SAR Evaluation Considerations for Laptop, Notebook, Netbook and Tablet Computers, FCC KDB Publication 616217 D04

[30] FCC SAR Measurement and Reporting Requirements for 100MHz 6 GHz, KDB Publications 865664 DR01

[31] FCC General RF Exposure Guidance and SAR Procedures for Dongles, KDB Publication 447498, D01-D02

[32] Anexo Resoluo No. 533, de 10 de Septembro de 2009.

[33] IEC 62209-2, Human exposure to radio frequency fields from hand-held and body-mounted wireless communication devices - Human models, instrumentation, and procedures - Part 2: Procedure to determine the specific absorption rate (SAR) for wireless communication devices used in close proximity to the human body

(frequency range of 30 MHz to 6 GHz), Mar. 2010. FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Document S/N:

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Quality Manager Page 18 of 18 REV 12.2 M 12/17/2013 A P P E N D I X A : S A R T E S T D A T A 2013 PCTEST Engineering Laboratory, Inc. PCTEST ENGINEERING LABORATORY, INC. DUT: BXONEON-TU-1000; Type: Portable Device; Serial: RevC Communication System: CSS; Frequency: 24 MHz;Duty Cycle: 1:1 Medium: 2450 Body Medium parameters used (interpolated):

f = 24 MHz; = 2.026 mho/m; r = 54.807; = 1000 kg/m3 Phantom section: Flat Section; Space: 0.0 cm Test Date: 05-22-2012; Ambient Temp: 23.8C; Tissue Temp: 22.3C Probe: ES3DV2 - SN3022; ConvF(4.01, 4.01, 4.01); Calibrated: 8/25/2011 Sensor-Surface: 3mm (Mechanical Surface Detection) Electronics: DAE4 Sn665; Calibrated: 4/19/2012 Phantom: SAM with CRP; Type: SAM; Serial: TP1375 Measurement SW: DASY4, Version 4.7 (80);SEMCAD X Version 14.6.4 (4989) Mode: CSS, Body SAR, Back Side, Antenna #1 Area Scan (10x13x1): Measurement grid: dx=12mm, dy=12mm Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 6.627 V/m; Power Drift = -0.01 dB Peak SAR (extrapolated) = 0.1430 SAR(1 g) = 0.082 mW/g; SAR(10 g) = 0.047 mW/g 0 dB = 0.100mW/g = -20.00 dB mW/g A1 DUT: BXONEON-TU-1000; Type: Portable Device; Serial: RevC Communication System: CSS; Frequency: 2441.75 MHz;Duty Cycle: 1:1 Medium: 2450 Body Medium parameters used (interpolated):

f = 2441.75 MHz; = 2.026 S/m; r = 54.807; = 1000 kg/m3 Phantom section: Flat Section; Space: 0.0 cm Test Date: 05-22-2012; Ambient Temp: 23.8C; Tissue Temp: 22.3C Probe: ES3DV2 - SN3022; ConvF(4.01, 4.01, 4.01); Calibrated: 8/25/2011;

Sensor-Surface: 3mm (Mechanical Surface Detection) Electronics: DAE4 Sn665; Calibrated: 4/19/2012 Phantom: SAM with CRP; Type: SAM; Serial: TP1375 Measurement SW: DASY4, Version 4.7 (80); SEMCAD X Version 14.6.4 (4989) Mode: CSS, Body SAR, Back Side, Antenna #1 Area Scan (10x13x1): Measurement grid: dx=12mm, dy=12mm Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 6.627 V/m; Power Drift = -0.01 dB Peak SAR (extrapolated) = 0.1430 SAR(1 g) = 0.082 W/kg; SAR(10 g) = 0.047 W/kg A2 PCTEST ENGINEERING LABORATORY, INC. DUT: BXONEON-TU-1000; Type: Portable Device; Serial: RevC Communication System: CSS; Frequency: 24 MHz;Duty Cycle: 1:1 Medium: 2450 Body Medium parameters used (interpolated):

f = 24 MHz; = 2.026 mho/m; r = 54.807; = 1000 kg/m3 Phantom section: Flat Section; Space: 0.0 cm Test Date: 05-22-2012; Ambient Temp: 23.8C; Tissue Temp: 22.3C Probe: ES3DV2 - SN3022; ConvF(4.01, 4.01, 4.01); Calibrated: 8/25/2011 Sensor-Surface: 3mm (Mechanical Surface Detection) Electronics: DAE4 Sn665; Calibrated: 4/19/2012 Phantom: SAM with CRP; Type: SAM; Serial: TP1375 Measurement SW: DASY4, Version 4.7 (80);SEMCAD X Version 14.6.4 (4989) Mode: CSS, Body SAR, Back Side, Antenna #2 Area Scan (10x13x1): Measurement grid: dx=12mm, dy=12mm Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 2.964 V/m; Power Drift = -0.07 dB Peak SAR (extrapolated) = 0.0290 SAR(1 g) = 0.016 mW/g; SAR(10 g) = 0.00857 mW/g 0 dB = 0.020mW/g = -33.98 dB mW/g A3 A P P E N D I X B : S Y S T E M V E R I F I C A T I O N 2013 PCTEST Engineering Laboratory, Inc. PCTEST ENGINEERING LABORATORY, INC. DUT: SAR Dipole 2450 MHz; Type: D2450V2; Serial: 719 Communication System: CW; Frequency: 2450 MHz;Duty Cycle: 1:1 Medium: 2450 Body Medium parameters used:

f = 2450 MHz; = 2.043 mho/m; r = 54.77; = 1000 kg/m3 Phantom section: Flat Section; Space: 1.0 cm Test Date: 05-22-2012; Ambient Temp: 23.8C; Tissue Temp: 22.3C Probe: ES3DV2 - SN3022; ConvF(4.01, 4.01, 4.01); Calibrated: 8/25/2011 Sensor-Surface: 3mm (Mechanical Surface Detection) Electronics: DAE4 Sn665; Calibrated: 4/19/2012 Phantom: SAM with CRP; Type: SAM; Serial: TP1375 Measurement SW: DASY4, Version 4.7 (80); SEMCAD X Version 14.6.4 (4989) 2450MHz System Verification Area Scan (5x7x1): Measurement grid: dx=12mm, dy=12mm Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Input Power = 16 dBm (40 mW) Peak SAR (extrapolated) = 4.06 W/kg SAR(1 g) = 1.97 mW/g; SAR(10 g) = 0.920 mW/g Deviation = -4.00 %

0 dB = 2.53mW/g B1 A P P E N D I X C : P R O B E C A L I B R A T I O N 2013 PCTEST Engineering Laboratory, Inc. A P P E N D I X D : S A R T I S S U E S P E C I F I C A T I O N S Measurement Procedure for Tissue verification:

1) The network analyzer and probe system was configured and calibrated. 2) The probe was immersed in the tissue. The tissue was placed in a nonmetallic container. Trapped air bubbles beneath the flange were minimized by placing the probe at a slight angle. 3) The complex admittance with respect to the probe aperture was measured 4) The complex relative permittivity can be calculated from the below equation

(Pournaropoulos and Misra):

Y cos j 2 r 0 2 ab ln b a b a 0 exp rj 0

r 0

r 2/1

) ddd where Y is the admittance of the probe in contact with the sample, the primed and unprimed coordinates

, is the angular frequency, refer to source and observation points, respectively, and 1j 22 cos 2r

. 2 Table D-I Composition of the Tissue Equivalent Matter Frequency (MHz) Tissue Ingredients (% by weight) DGBE NaCl Water 2450 Body 26.7 0.1 73.2 FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Test Dates:

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Quality Manager Appendix D Page 1 of 1 REV 12.2 M 12/17/2013 A P P E N D I X E : S A R S Y S T E M V A L I D A T I O N Per FCC KDB 865664 DR01, SAR system validation status should be documented to confirm measurement accuracy. The SAR systems (including SAR probes, system components and software versions) used for this device were validated against its performance specifications prior to the SAR measurements. Reference dipoles were used with the required tissue- equivalent media for system validation, according to the procedures outlined in IEEE 1528-2003 and FCC KDB 865664 DR01. Since SAR probe calibrations are frequency dependent, each probe calibration point was validated at a frequency within the valid frequency range of the probe calibration point, using the system that normally operates with the probe for routine SAR measurements and according to the required tissue-equivalent media. A tabulated summary of the system validation status including the validation date(s), measurement frequencies, SAR probes and tissue dielectric parameters has been included. SAR System Validation Summary KDB 865664 DR01 Table E-I SAR SYSTEM

FREQ.

[MHz]

DATE PROBE SN PROBE TYPE PROBE CAL. POINT COND. PERM. CW VALIDATION

(r) SENSI-

TIVITY PROBE LINEARITY PROBE ISOTROPY B 2450 5/22/2012 3022 ES3DV2 2450 Body 2.043 54.77 PASS PASS PASS SAR System Validation Summary IEEE 1528-2003 CW VALIDATION COND. PERM. Table E-2 MOD. VALIDATION FREQ.

[MHz]

DATE PROBE SN PROBE TYPE PROBE CAL. POINT

(r) SENSI-

TIVITY EXTRAPO LATION PROBE LINEARITY SYSTEM OFFSET PROBE ISOTROPY DUTY FACTOR PAR SAR SYSTEM

B 2450 5/22/2012 3022 ES3DV2 2450 Body 2.043 54.77 PASS PASS PASS PASS PASS 0.1 PASS FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Test Dates:

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Quality Manager Appendix F Page 1 of 2 REV 12.2 M 12/17/2013 SAR Test Setup Photo 1 Back Side at 0.0 cm FCC ID: BXONEON-TU-1000 SAR EVALUATION REPORT Test Dates:

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TRX Systems Neon Indoor Location System Users Manual 3 October 2012 Version 1.3 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Document History Date Version Description Author(s) 23 Sept 2012 2 Oct 2012 3 Oct 2012 1.0 1.1 1.2 First draft for review William English Added Android and Target Applications Sections Carol Politi Added section for Motorola APX Radios Sarah Blaszak Added Evaluation Toolbar section, Added information on Reference and Waypoint import & export from Command Software

(sections 5.2.4 and 5.2.5), Added detail on Personnel location screen (section 8.3.3), Added detail on Android Waypoint creation and check-in (section 8.3.4). Carole Teolis Added new pictures to APX (section 7.1) and replaced the command reference picture (section 10) . Sarah Blaszak Added FCC Information; Second draft for review. William English Removed sections related to ground truth in preparation for external review. William English 3 Oct 2012 1.2 3 Oct 2012 1.3 3 Oct 2012 3 Oct 2012 1.3 1.4 2012 TRX Systems, Inc. i TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Contents 1 Introduction .......................................................................................................................................... 1 2 Important Information .......................................................................................................................... 1 2.1 2.2 2.3 Software License and Warranty Information................................................................................ 1 Technical Support ......................................................................................................................... 1 System Requirements ................................................................................................................... 1 3 Product Overview ................................................................................................................................. 2 4 Neon Target Applications ...................................................................................................................... 3 4.1 4.2 Event/VIP Security......................................................................................................................... 3 Security Personnel Training .......................................................................................................... 4 5 Neon Command Software .................................................................................................................. 6 5.1 Getting Started .............................................................................................................................. 6 5.1.1 Starting, Stopping and Controlling when Neon Runs ......................................................... 8 5.1.2 Installation and Upgrade ....................................................................................................... 8 5.1.3 Licensing ................................................................................................................................ 9 5.2 Using the Neon Command Software .......................................................................................... 10 5.2.1 GIS Visualizer ....................................................................................................................... 11 5.2.2 Elevation Sidebar Window .................................................................................................. 17 5.2.3 Teams, Personnel, and Monitor Sidebar Windows ............................................................ 17 5.2.4 References Sidebar Window ............................................................................................... 20 5.2.5 Waypoints Sidebar .............................................................................................................. 21 5.2.6 Data Replay Bar ................................................................................................................... 22 5.3 Using Neon Logs ....................................................................................................................... 23 6 Neon Tracking Unit ........................................................................................................................... 24 6.1 Wearing the Neon Tracking Unit ................................................................................................ 24 6.2 6.3 6.4 6.5 Pairing with Communications Devices ........................................................................................ 25 Tracking Unit LED Status ............................................................................................................. 25 Tracking Unit Charging ................................................................................................................ 25 Tracking Unit Maintenance ......................................................................................................... 25 2012 TRX Systems, Inc. ii Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary 7 Neon Communications Options .......................................................................................................... 26 7.1 Motorola APX .............................................................................................................................. 26 7.1.1 Connecting an APX Radio to the Command Station ........................................................... 26 7.1.2 Connecting an APX Radio to a Tracking Unit ...................................................................... 27 7.1.3 Connecting to a Neon Session ............................................................................................ 29 7.2 Cellular or Wi-Fi (via an Android-based mobile handset) ........................................................... 29 8 Neon Mobile Android Application ................................................................................................... 30 8.1 8.2 8.3 Getting Started ............................................................................................................................ 30 Starting, Stopping, and Controlling when Neon Runs ................................................................ 30 Using the software ...................................................................................................................... 30 8.3.1 System Status ...................................................................................................................... 30 8.3.2 Map ..................................................................................................................................... 31 8.3.3 Personnel ............................................................................................................................ 32 8.3.4 Waypoints ........................................................................................................................... 32 8.4 8.5 NFC Check-Ins ............................................................................................................................. 33 Installation and Upgrade ............................................................................................................. 33 9 Neon Ranging Anchor Node ............................................................................................................. 34 10 11 Neon Command Station Reference.............................................................................................. 35 Neon NFC Check-In Location ........................................................................................................ 35 Appendix A. End User Agreement .............................................................................................................. 37 Appendix B. FCC Information ..................................................................................................................... 45 2012 TRX Systems, Inc. iii TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Introduction 1 This Users Manual provides information about how to configure, use, and maintain the Neon Indoor Location System, including use of the Neon Command Software, Tracking Units, Anchor Points, and Android Application. 2 Important Information 2.1 Software License and Warranty Information Please refer to the Appendices of this document to find information about the TRX Software License and Warranty Agreement and the TRX Limited Hardware Warranty. The terms of the TRX Software License and Warranty must be read prior to using the system, and by using the system you are acknowledging acceptance of those terms. 2.2 Technical Support TRX Systems provides technical support for the Neon Products and components including the Command Software, Command Software Reference, Ranging Anchor Nodes, Neon Mobile Android App, and the Tracking Devices. For technical support, contact TRX Systems by email at support@trxsystems.com. 2.3 System Requirements The Command Software is used to configure Neon Indoor Location System and to view the locations of tracked personnel. The Command Software Computer is a Windows 7 based PC. Although a laptop is most convenient for mobile setup and testing, it is not a requirement. Performance and peripheral requirements for the Command Software PC are as follows:

Minimum System Requirements Intel i5 Processor 4 GB RAM 7200 RPM HDD NVIDIA Graphics Windows 7 Recommended System Requirements Intel i7 Processor 6 GB RAM Solid State HD (SSD) NVIDIA Graphics Windows 7 2012 TRX Systems, Inc. 1 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary 3 Product Overview The TRX Systems Neon Indoor Location System locates and tracks personnel indoors and where GPS is unreliable or unavailable. Neon fuses location and environment information to produce and deliver accurate, real-time locations of tracked personnel. The TRX Systems Neon Indoor Location System consists of the following elements:

Figure 1. The Neon Indoor Location System. Tracking Unit a tracking device worn on the waist of persons being tracked by Neon. The waist-worn tracking unit provides location information from a dense array of sensors including pressure, accelerometers, gyroscopes, magnetometers, ranging, and GPS. For the Neon system to work properly, the Tracking Units should be worn properly and periodically calibrated. Section 6.1 of this manual describes how to properly wear the Neon Tracking Unit. Neon Mobile an Android Application installed on a smartphone. Neon Mobile is used for visualization of users location; interacting with NFC Check-in locations; user entry of location corrections; and may be used for data communications with the Tracking Unit and the Command Software. For the Neon system to work properly, the Android smartphone and the Neon Mobile application must be properly configured for communications with the Tracking Unit and the Command Software. Section 8 of this manual describes how to properly configure the Neon Mobile application. 2012 TRX Systems, Inc. 2 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Neon Command Station Software the Neon Station Command Software (Command Software) is the primary user interface for interacting with the Neon Indoor Location System. The Command Software runs on a Windows-based PC, and it provides access to functions for configuring the Indoor Location System and viewing location results. Section 0 of this manual provides a description of the Command Software including installation and licensing (Section 5.1.3); starting and stopping the software (Section 5.1.1); and viewing tracking results (Section 5.2). Ranging Anchor Node a multi-sensor anchor node that improves tracking accuracy. Ranging Anchor Nodes are installed at strategic locations to maximize their effectiveness for improving tracking accuracy. Refer to section 9 of this manual for information about how to install and configure Ranging Anchor Nodes. Command Station Reference A Command Station Reference is a Ranging Anchor Node that is attached directly to the Command Software computer using a USB cable. The Command Software Reference provides the same function as a Ranging Anchor Node, but it provides additional reference sensor data to improve accuracy. Section 10 describes the proper configuration of the Command Station reference. NFC Check-In Location an NFC RFID tag that is used to provide location updates of tracked personnel. A tracked person interacts with a Check-in Location by placing their phone equipped with the Neon Mobile Android App close enough to the Check-In Location to activate the NFC RFID tag. Refer to section 11 of this manual for information about how to install and configure NFC Check-In Locations. 4 Neon Target Applications The NeonTM Indoor Location system is qualified for use in mission essential applications such as event/facility security and training, profiled in the following sections. Additionally, enhancements to the system will allow deployment in a wide array of mission critical applications to deliver situational awareness for tactical deployments (SWAT, urban search & rescue, fireground operations, etc.). 4.1 Event/VIP Security The Neon Indoor Location System delivers a highly portable solution for obtaining enhanced situational awareness for event security applications where VIPs are being monitored, or where security personnel are positioned to secure an important event or facility. The Neon System delivers location and status of on-foot security personnel within buildings to enhance situational awareness and improve the effectiveness of incident management. In this application, each member of the security detail is equipped with a TRX Tracking unit and an android-based cellular device or data-compatible radio. The location of all security personnel is shown in both 2D and 3D within the building in which the event is taking place (both from the Command Software operating on a laptop or from an Android handset or tablet). If there is an emergency, the appropriate personnel can be moved into place. 2012 TRX Systems, Inc. 3 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Feature Location and Tracks Level Information Position and Gate User Interface Map/Building Editing Alerting Anchor Nodes Check-In Event Review Description The location of tracked personnel and the path each person took to get to their current location. Elevation information includes the floor level of each tracked personnel within a multi-story building, above and below ground. including as walking, Identification of motions of personnel running, crawling, traversing stairs and riding elevators. Activity level (active or motionless) and posture (standing, crawling or on back) are also provided. A 2D and 3D view of personnel operating within the building. A 3D view of the building in which the event is occurring can be quickly established, using only a satellite base map as a reference

(Bing/Open Street Maps are both supported by Neon, and customers can import their own base maps). Floor plans images can be easily important from a standard image file. Command Station operator will be alerted when tracked personnel are on-back or encounter impacts. Neon Multisensor Anchor Nodes are deployed in key areas (within closets, hotel rooms, conference areas) to enhance tracking accuracy. Anchor Nodes operate using line or battery power. No interaction from tracked personnel is required, and no networking of Anchor Nodes is required. Automatic Check-in of Security Personnel is performed through the use of their Android-based Check-in Application. The log of each of the Security Personnel is maintained to be used for review of execution of the security detail after the event. If pre-

planning is performed, this log may be used to review and ensure the appropriate building security functions were performed in advance of the event. 4.2 Security Personnel Training Security training for urban search & rescue and other emergency response operations are conducted in either dense urban areas or inside buildings where it can be difficult to obtain adequate insight into the execution of the training mission. The NeonTM Indoor Location System allows real-time tracking of the location and motion of personnel and records this information to be replayed for immediate and effective after action reviews. Aspects of the system important for training deployments include the ability to quickly deploy the system with little support from existing surrounding infrastructure (power, networking) and the ability to rapidly create visualization of urban buildings in 3D to allow training anywhere. Neon Multisensor Anchor Nodes can be flexibly deployed within buildings, and require no power, networking, or personnel interaction. 2012 TRX Systems, Inc. 4 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary In this application, each trainee is equipped with a TRX Tracking unit and an android-based cellular device or data-compatible radio. The location of all trainees are shown in both 2D and 3D within the building in which the event is taking place (both from the Command Software operating on a laptop or from an Android handset or tablet). Personnel undergoing training may use the handheld to review the geography and building in which the mission will take place to assist in planning the mission. After a mission has been executed, it is possible to immediately replay the mission, showing the location and orientation of each of the personnel in training as the mission was executed. Feature Location and Tracks Level Information Position and Gate User Interface Map/Building Editing Alerting Anchor Nodes Check-In After Action Review Description The real-time location of personnel and the path each person took to get to their current location. Elevation information includes the floor level of each tracked personnel within a multi-story building, above and below ground. Identification of motions of personnel including as walking, running, crawling, traversing stairs and riding elevators. Activity level (active or motionless) and posture (standing, crawling or on back) are also provided. A real-time 2D and 3D view of all personnel involved in the mission is provided during the execution. A 3D view of the building in which the event is occurring can be quickly established, using only a satellite base map as a reference

(Bing/Open Street Maps are both supported by Neon, and customers can import their own base maps). Floor plans images can be easily important from a standard image file.*

Command Station operator will be alerted when tracked personnel are on-back or encounter impacts. Neon Multisensor Anchor Nodes are deployed in key areas (within closets, hotel rooms, conference areas) to enhance tracking accuracy. Anchor Nodes operate using line or battery power. No interaction from tracked personnel is required, and no networking of Anchor Nodes is required. Automatic Check-in of Security Personnel is performed through the use of their Android-based Check-in Application. Each mission can be stored for after action reviews, and can be named to allow easy association of the mission with the data log. Such reviews can be performed immediately after an event or later after a series of missions have been executed.

*Existing building editing features allow for rapid deployment of training where little is known abou the building, and where floor plans may not be available (and when they are available, are likely to be image files). Additional development is ongoing to support close combat training that includes the ability to establish and configure precise floor plans, and to respect floor plan boundaries (e.g., walls, doorways). 2012 TRX Systems, Inc. 5 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary 5 Neon Command Software The Neon Command Software is the primary user interface for interacting with the Neon Indoor Location System. Use the Command Software for viewing the locations of tracked personnel and for configuring Neon assets such as Ranging Anchor Nodes and NFC Check-In Locations. This section of the Users Manual will help you to get started with the Command Software. The Neon Command Software consists of four programs that work together to deliver the locations of tracked personnel. Neon User Interface this is the primary users interface for viewing locations and configuring Neon. Neon Software Tray Application While running, the Neon software tray application provides quick access to Neon status and the Neon User Interface. By default, the Neon Software Tray Application starts along with your computer. Neon Communications Service The Neon Communications Service is a background process implemented as a Windows Service. Neon Communications Service is responsible for network communications between the Command Software and the tracked personnel. By default, the Neon Communications Service starts along with your computer. Neon Navigation Service The Neon Navigation Service is a background process implemented as a Windows Service. Neon Navigation is responsible for final processing of sensor data into the locations of tracked personnel. All of the Neon Command Software components work together to deliver the locations of tracked personnel. 5.1 Getting Started The Neon User Interface can be started from the Windows Start menu by navigating the All Programs to TRX Systems > Neon > Neon Interface. When starting the Neon software, Windows may ask you, Do you want to allow the following program from an unknown publisher to make changes to this computer? When you see this dialogue, please ensure that the program name is TRX.Neon.Command.exe, and then select yes. The Neon splash-

screen will then appear while the Neon Command Software is starting. 2012 TRX Systems, Inc. 6 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 2. Neon Command Software User Interface at start. The Neon Command Software user interface has been designed to maximize screen use for visualizing the locations of tracked personnel. Personnel status, system configuration, and related controls are accessible through the collapsible toolbar at the top of the user interface and through collapsible sidebars located on both the left and right sides of the screen. Click on toolbar and sidebar buttons to view their content. Double-click on these buttons so that their corresponding toolbar or sidebar will stay open. 2012 TRX Systems, Inc. 7 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 3. Neon Tracking with sidebar windows expanded to monitor tracking. 5.1.1 Starting, Stopping and Controlling when Neon Runs By default, the Neon Command Software starts when you start your computer. Assuming that the Neon software is already running, access the user interface from the Neon software tray application by right-

clicking on the Neon icon in the software tray and selecting Show. To access the user interface when the Neon software is not running, navigate the Windows Start menu All Programs to TRX Systems > Neon > Neon Interface. To prevent Neon from starting at the same time as your computer, deactivate the Auto-Launch feature from the software tray application. Right click on the Neon software tray icon, and navigate the menu to Options > Auto-Launch. Neon will start with your computer if there is a check-mark next to the Auto-

Launch menu selection. Installation and Upgrade 5.1.2 Neon Command Software is distributed in a standard, self-expanding installer. A Neon Command Software installation package is named to incorporate version and build information. A typical Neon 2012 TRX Systems, Inc. 8 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary installation package will be named similar to Neon_3.6.0.14120-Release-Release-Default.exe. This corresponds to an official Neon version 3.6 release. To install or upgrade the Neon software, simply double-click on the installation package. The installer will guide you through the process. If a prior version of the Neon software is installed on your computer, the installer will first uninstall the old version of Neon leaving any existing log files intact. However, an upgrade will not leave any mapping or system configuration changes intact. Export your mapping data and configuration/references data prior to performing a Neon upgrade. Reimport this data after the upgrade is complete. 5.1.3 Licensing It is important for you to read and understand the Neon license prior to operation of the system. Please refer to Appendix A. End User Agreement of this manual. The Neon Command Software uses one or two license keys. The Neon License key activates the Neon Command Software on your computer. If you are using Bing Maps for your base map layer then your software will use a second license key for Bing Maps. Figure 4. The Neon Command Software displays the license file entry screen. 2012 TRX Systems, Inc. 9 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary The Neon Command Software License key is node-locked. This means that a Neon license key incorporates information unique to a specific computer. A separate license key must be generated for each computer where the Neon software is runs. When the Neon software is run on a computer without a valid license key, a dialogue will be displayed with instruction for obtaining a license key. The user is asked to send a specific hardware ID value to TRX Systems (support@trxsystems.com) so that we can generate a license key file. The user can then select the license key file to activate the software. 5.2 Using the Neon Command Software Figure 5. Neon Command Software displaying tracking results. The Neon User Interface is designed to maximize the screen use for viewing the locations of tracked personnel. Functions for managing tracking data and map data are accessible through the toolbar ribbon at the top of the screen. Other system functions are accessible through dockable windows that are accessible along the left and right sidebars. The diagram above shows the Neon User interface with the Personnel and Elevation dockable windows expanded from the sidebar. The major areas of the User Interface are GIS Visualizer A switchable 2D/3D GIS Visualizer that displays the locations of tracked personnel. The visualizer allows the user to view the locations of person in three dimensions inside and outside of buildings. 2012 TRX Systems, Inc. 10 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary Toolbar Ribbon Located across the top of the screen. The ribbon is minimized by default, and it can be forced to stay open by double-clicking on a toolbar ribbon tab. Toolbars implemented in the ribbon are Tracking toolbar Tracking restart, opening logged tracking data, and saving lags. Map Display toolbar Selection of displayed layer data and base-layer map data. Map Data toolbar Functions for managing map data and for editing building information. Left Sidebar Located along the left side of the screen. The left sidebar provides access to dockable windows that provide access to functions for viewing the status of tracked personnel and for system configuration. The left sidebar windows are Teams window Provides functions for managing teams and associating tracked personnel with teams. Personnel window Provides a list of tracked personnel, related status information, and access to person-level functions. Monitor window Displays detailed personnel status information. References window System configuration of Command Software Reference, Ranging Anchor Node locations, and NFC Check-in Locations. Waypoints window Entry and placement of waypoints. Right Sidebar Located along the right side of the screen. The right sidebar provides access to the Elevation window. The Elevation window is primarily used to select the displayed building floor in the GIS Visualizer. Data Replay Bar Located along the bottom of the screen. The data replay bar is used to view historical tracking data. 5.2.1 GIS Visualizer 2012 TRX Systems, Inc. 11 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 6. The Neon GIS Visualizer displaying tracking results. The Neon GIS Visualizer presents the location of tracked personnel both indoors and outdoors. The visualizer supports both 2D and 3D modes of operation. In 2D mode, the visualizer shows the environment and personnel locations from a top-down viewpoint. In 3D mode, the visualizer presents Indoor Location System information in a fully navigable virtualized 3D representation of the environment. 5.2.1.1 Navigating the GIS Visualizer A three-button mouse with a scroll-wheel is the easiest tool to use when interacting with the visualizer. However, all of the controls for interacting with the visualizer can be accessed using the on-screen controls and a standard two-button mouse. 2012 TRX Systems, Inc. 12 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 7. Neon Visualizer on-screen controls The on-screen navigation controls are located in the top right corner of the visualizer window. The center button of the on-screen controls is used to switch between 2D and 3D modes of operation. The available navigation controls change depending on whether the visualizer is in 2D or 3D mode. Table 1. Visualizer Navigation Controls in 2D Mode. Pan Zoom Rotate On-screen Control Four directional buttons Zoom in and out buttons Rotate left and right buttons Mouse Control Left mouse button drag Mouse scroll-wheel N/A Table 2. Visualizer Navigation Controls in 3D Mode. Pan Zoom Rotate Tilt Elevation On-screen Control Four directional buttons Zoom in and out buttons Rotate left and right buttons Tilt up and down buttons Elevation up and down buttons Mouse Control Left mouse button drag Mouse scroll-wheel Right mouse button drag left and right Right mouse button drag up and down N/A 5.2.1.2 Looking inside of buildings Figure 8. The Elevation sidebar window is used in conjunction with the visualizer. The Neon GIS Visualizer displays the location of persons inside of buildings in three-dimensions. A building must be modeled before it can be shown in the visualizer. The elevation window expandable from the right sidebar is used as a floor selector when viewing the interior of buildings. By default, buildings are represented as grey polygons overlaid on top of the base 2012 TRX Systems, Inc. 13 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary map layer. Using the mouse, left click a building to view its interior. After selecting a building, its polygon turns white with a green outline, and the elevation window is populated with the selected buildings floor information. When viewing a building in 3D, the building is shown as an extruded wireframe. At a minimum, for a building to be visualized, it must have a building outline and number of floors. Building properties that can be modeled and viewed using the Neon user interface include Building outline, Floors and floor height, Floor plans, Exits, and Elevators. 5.2.1.3 Selecting Map Layer Content The content of data displayed by the visualizer is selectable by the user. Control the content of visualized map data using the Map Display toolbar ribbon located at the top of the Neon screen. Select the displayed base map layer using the Base Map dropdown. The supported base map layers are Bing Maps and OpenStreetMap (OSM). Both require an active connection to the internet. Figure 9. The visualizer base map layer can be set to Bing, OpenStreetMaps or None. Select the content of displayed layer data using the Layers dropdown on the Map Display toolbar ribbon. User selectable layer data includes:

Buildings toggle display of modeled buildings;

Floor plans toggle display of floor plans within a selected building;

2012 TRX Systems, Inc. 14 TRX Systems Inc. Neon Indoor Location System Users Manual Elevators toggle display of elevators within a selected building;

Stairwells toggle display of stairwells within a selected building;;

Exits toggle display of exits within a selected building;

References toggle display of Neon Indoor Location System assets such as Command Software Reference, NFC Check-in Locations, and Ranging Anchor Nodes;

Waypoints toggle display of user defined waypoints;

Compass toggle display of compass rose; and Error Bounds toggles the display of location confidence error bounds around tracked personnel. 5.2.1.4 Viewing Tracked personnel To view the status and location of tracked personnel, use the Personnel window in conjunction with the GIS Visualizer. The Personnel window is accessible through the left sidebar, and it lists each person currently tracked by the Neon system. Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 10. Selectable layer data. Figure 11. Figure of mainscreen with Personnel sidebar expanded. Show several people being tracked. 2012 TRX Systems, Inc. 15 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary The locations of tracked personnel are presented in the visualizer using a model resembling a torso and heading arrow. In the visualizer, tracked person are differentiated using different colored models that correspond to their representation in the Personnel window. In addition, left clicking on a person inside the visualizer will present a floating name-bar that identifies the tracked person and provides access to control functions related to viewing the persons location data. Figure 12. Figure of 2D representation of a person and a 3D representation of a person. Neon includes several features designed to assist the user when monitoring the locations of tracked personnel. These functions are accessible through a drop-down menu that is accessible either by right-

clicking on a tracked persons name in the Personnel window or by right clicking on the persons name that appears inside the visualizer after left-clicking on their icon. Figure 13. Accessing Neon visualizer functions associated with a tracked person. These functions include:

Zoom Adjusts the visualizer so that the selected person is visible in the center of the screen. Follow On / Follow Off Toggles follow-mode for a specific person. When the visualizer is following a tracked person, the visualizer adjusts the displayed scene so that the specified tracked person is always in the center of the screen. 2012 TRX Systems, Inc. 16 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Trails On / Trails Off Toggles the display historical locations for the selected person(s). Trail Color Allows the user to manually select a model and trail color to use for the specified person. Trace Turn on trails for the selected person, and turn off trails for all other persons. Hide / Show Hide or show the location of the selected person. Hiding a person will remove their icon from the visualizer; show the person to restore their location to the screen. 5.2.2 Elevation Sidebar Window Figure 14. Use the elevation sidebar window. The elevation sidebar window is accessible through the right sidebar. Use the elevation sidebar window in conjunction with the GIS Visualizer when looking inside buildings. When a building is selected inside the visualizer, the elevation window is populated with a list consisting of each floor in that building along with the number of persons on each floor of the building. Select a floor within the Elevation window by left clicking in the desired floor; the visualizer will change focus to the selected floor. 5.2.3 Teams, Personnel, and Monitor Sidebar Windows The Teams, Personnel, and Monitor sidebar windows are used in conjunction with each other to organize tracked personnel into teams, to access personnel functions, and to view detailed location tracking status. 2012 TRX Systems, Inc. 17 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 15. Teams sidebar; show with one team added and one team being added. 5.2.3.1 Working with Teams The Teams window is used to manage teams and to associate personnel with teams. By default, personnel who have not been associated with a team are associated with a team named, Unassigned. To add a new team is added to the list of teams., use the Add Team field located at the top of the window. To associate tracked personnel with a team, use the Personnel sidebar window in conjunction with the Teams window. Left click and drag a person from the Personnel window onto the desired team within the Teams window. Once a team has been populated with its team members, trail display, trail color, and hide/show functions can be manipulated simultaneously for all members of the team. Right click on the team name to access these functions. Mouse-over a team name to display a pop-up window consisting of the team members. To view a filtered list of personnel associated with a team, select View Personnel accessible through the team right-click drop-down menu. 2012 TRX Systems, Inc. 18 TRX Systems Inc. Neon Indoor Location System Users Manual 5.2.3.2 Working with Personnel The Personnel sidebar window is used to display the list of persons currently tracked by Neon. The Personnel window is automatically populated as location data is transferred from the Neon Tracking unit to the Command Software. Each Personnel entry consists of:

Document Version 1.3 3 October 2012 TRX Systems Proprietary A trail color indicator resembling the person icon, An error status indicator visible when an error condition occurs, and The persons name. Figure 16. Access Neon functions associated with personnel using the right-click drop-down menu. Mouse-over a persons name to display a pop-up window consisting of the detailed tracking status. To add a persons detailed status to the Monitor window, select Monitor accessible through the personnel right-click drop-down menu. 5.2.3.3 Monitoring Detailed Status Use the Monitor Sidebar window to view detailed information about a persons status. By default, the monitor status indicators include Alert an application specific alert. For example, the alarm condition is initiated by a tracked person using the Neon Mobile Android application. Location indicates whether enough and the right type of location sensor data has been collected to be able to resolve the persons location. When this indicator is in an alarm state, the tracked person can check-in at an NFC Check-In Location or move within range of an Anchor Node to correct the problem. Connectivity indicates whether there is a problem with communications between the person being tracked and the Neon Command Software. Visibility indicates whether the Command Software User has chosen to Hide this person. A person can be unhidden using the Personnel right-click drop-down menu. 2012 TRX Systems, Inc. 19 TRX Systems Inc. Neon Indoor Location System Users Manual 5.2.4 References Sidebar Window The References Sidebar Window is used to manage and configure tracking assets including Ranging Anchor Nodes, NFC Check-In Locations, and the Command Software Reference. Use the References Window in conjunction with the Visualizer to configure the locations of these tracking assets. Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 17. The References Sidebar Window and the Add References Dialogue. By default, the references list is pre-populated with the Command Software Reference. However, each NFC Check-In Location and Ranging Anchor node must be configured in the system. To add and configure one of these assets to the system, first identify the Reference ID of the device to be configured. Next, add the device to the references list using the option at the top of the References window. A dialogue will appear: select the Device Type; enter the Reference ID of the device; and Save the device. To configure the location of the Reference, drag the asset from the References window onto the Visualizer screen. 2012 TRX Systems, Inc. 20 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 18. Reference Import, Export and Clear Once References have been provisioned in the system, their information and locations can be saved using the Export function (the location of the Command Reference is not saved). The import function allows import of Reference data that was exported from Neon using the Export function (*.trxref file). The Clear Locations function clears the locations of the command station and all other references from the current session but leaves the references provisioned in the Reference Sidebar. To delete a reference from the sidebar, right click on the reference and select Delete. 5.2.5 Waypoints Sidebar The Waypoints Sidebar Window is used to manage and configure the list of waypoints that are used as pre-configured check-in locations when the tracked person is using the Neon Mobile Android App. Figure 19. The Waypoints Sidebar Window and the Add Waypoint Dialogue. To add and configure waypoints, first, use the Add button located at the top of the Waypoints window. Enter the name of the new waypoint in the Add Waypoint dialogue and click Save. The new Waypoint is 2012 TRX Systems, Inc. 21 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary populated into the Waypoints window. To configure the location of the waypoint, drag the waypoint from the Waypoints window onto the visualizer screen. Figure 20. Waypoint Import, Export and Clear Once Waypoints have been configured, their locations can be saved using the Export function. The import function allows import of Waypoints that were exported from Neon using the Export function

(*.trxwpt file) or from a CSV file with the following column headers:

Name, Latitude, Longitude, Level, Elevation where latitude and longitude are WGS84 coordinates, level is building floor level indoors (main entry level is 0, when outside leave blank ), elevation is WGS84 (meters about the ellipsoid). The Clear function completely removes all waypoints from the current session. Waypoints configured in the Command Software User Interface are synchronized to instances of the Neon Mobile Android App. Tracked personnel using the Neon Mobile are able check-in to waypoints that are configured using the Waypoints sidebar window. 5.2.6 Data Replay Bar Use the data replay bar to pause or speed-up the replay of logged data; locate a specific portion of a log;

or to view location results from a few minutes ago. The data replay bar controls operate similar to video playback controls. When viewing the contents of a log, the start and end times represent the duration of the logged data. During a tracking session, the end-time on the data replay bar is the current time. 2012 TRX Systems, Inc. 22 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 21. The Data Replay Bar. 5.3 Using Neon Logs The Tracking Toolbar provides access to functions for tracking restart and working with Neon Logs. Use the restart button whenever a tracking session is starting. The restart button has the effect of saving existing tracking data to a log, flushing existing tracking data from the system, and resuming tracking. The Save button has the effect of saving the current tracking session data without restarting. Finally, the Open button is used open a previously saved Neon Log. Figure 22. The Tracking Toolbar contains functions for restart and working with logs. 2012 TRX Systems, Inc. 23 TRX Systems Inc. Neon Indoor Location System Users Manual 6 Neon Tracking Unit The waist-worn tracking unit provides location information from a dense array of sensors including pressure, accelerometers, gyroscopes, magnetometers, ranging, and GPS. For the Neon system to work properly, the Tracking Units should be worn properly and periodically calibrated. Please read the FCC information located in Appendix B. FCC Information prior to operating this device. Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 23. The Neon Tracking Unit. The Tracking Unit sensor data is transferred to the Neon Command Software for final processing and display. The Tracking Unit integrates with your selected method of communication. Supported methods of communications include:

3G/4G cellular communications using a supported Android phone equipped with the Neon Mobile Android App. P-25 communications using Motorola APX Radios configured with Bluetooth and data capability. 6.1 Wearing the Neon Tracking Unit Correct placement of the Neon Tracking Unit on the body is important for correct operation. To produce accurate tracking results, place the tracking unit securely around the waist, centered in front of the body. In the correct position, the tracking units power button is on the front of the unit and the mini USB port is facing down. To secure the belt, (1) take the end of the belt and feed it through both D-ring metal loops on either side of the unit. (2) Next, fold the end over the inner ring and back through the outer ring. (3) Pull to tighten. Turn the tracking unit on by pressing the power button on the lower left corner of the unit. The status LED lights on the unit will turn on and the unit will emit three short beeps to indicate that it is on. 2012 TRX Systems, Inc. 24 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 24. Wear the Neon Tracking Unit firmly against the waist facing forward. 6.2 Pairing with Communications Devices The Neon Tracking Unit uses Bluetooth to interface with either the Android phone or Motorola APX radio. Pairing with cellular phone requires use of the Neon Mobile application (see section 6). The status screen within Neon mobile will indicate OK when the units are successfully paired, and will provide the name of the unit to which the mobile device is paired. Pairing with the Motorola APX is performed by placing the Neon Tracking Unit next to the Motorola blue dot which enables automatic pairing. A series of beeps will be sounded when pairing has successfully occurred. 6.3 Tracking Unit LED Status While tracking, the LED Status indicators on the Neon Tracking Unit provide indications of successful operation. The left LED will blink green at a regular interval indicating that the tracking unit is working properly. The middle LED will blink red when GPS is locked. The right LED will blink red when it exchanges ranging data with either another tracking unit or a ranging anchor node. 6.4 Tracking Unit Charging The Neon Tracking Unit is charged through a mini USB port designed to allow for quick charging. Charging times will vary, and it can take up to four hours. Charge the Tracking Unit using the mini-USB to USB cables in conjunction with the charging USB hub that was delivered with your product. The LED next to the mini-USB port will blink green when the Tracking Unit is accepting a charge, and it will be solid green when the tracking unit is fully charged. 6.5 Tracking Unit Maintenance The Neon Tracking Unit should be periodically calibrated to ensure the most accurate tracking results. 2012 TRX Systems, Inc. 25 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary 7 Neon Communications Options Each Neon Tracking Unit is paired with a portable, personal computing device to support transmission of location and sensor information from the Tracking Unit to the Command Software. The Command Station Computer must be configured appropriately to receive the data, as described in the following subsections. 7.1 Motorola APX The Neon Indoor Location System is designed to work with Motorola APX portable radios operating in conventional mode. Motorola APX Radios are capable of providing data communications between the TRX Systems Tracking Unit and the Command Software. In this configuration, an APX radio is carried by each tracked person, and a single gateway radio is connected into the Command Station computer. Each tracked person pairs their Motorola APX radio and TRX Systems tracking unit using Bluetooth. An APX radio is connected to the Command Station using a GCAI-to-USB cable. When properly configured, a Tracking Unit will automatically report location sensor data to the command station using the radio network. Ensure that your Motorola APX radios are equipped with the correct options and programmed with the correct frequencies for your deployment. Motorola APX Requirements IV&D (packet data) - Q947 Bluetooth - QA00583 7.1.1 Connecting an APX Radio to the Command Station Connect the APX gateway radio to the command station computer using a GCAI-to-USB cable then turn the APX gateway radio on. 2012 TRX Systems, Inc. 26 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 252. Motorola APX Radio connected to a Command Station using a GCAI cable. 7.1.2 Connecting an APX Radio to a Tracking Unit The Motorola radio and the TRX Systems tracking unit are connected by Bluetooth. If there is an existing paired set, the existing Bluetooth pairing must be cleared on the APX portable radio. To clear the pairing on the APX portable radio, navigate to BT > Devices then select Clr > Yes. Figure 263. Location of blue dot and TRX Systems logo 2012 TRX Systems, Inc. 27 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary To pair and connect, turn the tracking unit on and touch the blue dot on the back of the APX portable radio to the TRX Systems logo on the front of the Tracking Unit. You will hear a sequence of beep codes from the APX Radio and the Tracking Unit: (1) the APX Mobile Radio will beep twice; (2) the Tracking Unit will beep three times; and, finally, (3) the APX Mobile Radio will beep three times. The APX Mobile Radio and Tracking Unit are now a paired and connected. Once a Tracking Unit and APX Mobile Radio are paired they will stay paired until cleared. Figure 27. Pairing a Tracking unit and Motorola APX Portable Radio. You can verify an APX portable radio is paired or connected to a Tracking Unit by navigating to the BT menu and selecting Devices on the APX portable radio. The Reference ID of the Tracking Unit will appear as Paired, Connected or No devices. The communication status LED on the Tracking Unit is green when a Tracking Unit is connected to an APX portable radio. 2012 TRX Systems, Inc. 28 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 35. Connection status indicators on the Tracking Unit and APX portable radio. 7.1.3 Connecting to a Neon Session To connect to a Neon Session, start Neon Command Station Software. Ensure that an APX radio is connected to the command station and turned on. Each tracked person should: (1) attach a Tracking Unit securely around their waist with the TRX Systems logo facing outwards; (2) turn on the paired APX portable radio; (3) turn on their Tracking Unit. 7.2 Cellular or Wi-Fi (via an Android-based mobile handset) When cellular or Wi-Fi connectivity is used, the Neon Mobile Application provides the interface to the Tracking Unit via Bluetooth pairing. Configuration of the Tracking Unit-Neon Mobile pairing is described in Section 8 of this document. In this configuration, the Command Station interfaces to either a cellular data network (e.g., through a mobile data card with a static, public IP address) or interfaces to a Wi-Fi data network (again, with a static address). This static address must be programmed into the Android application. If a dynamic address is used (e.g., in a test configuration), the dynamic address must be programmed into Neon mobile each time it changes (which may happen when the Command Software application is restarted). 2012 TRX Systems, Inc. 29 Document Version 1.3 3 October 2012 TRX Systems Proprietary TRX Systems Inc. Neon Indoor Location System Users Manual 8 Neon Mobile Android Application The TRX Android Tracking Application provides a local user interface and supports use of cell or Wi-Fi communications to send location Tracking Unit data the Command Software. It will also be possible to use Neon Mobile as a visualizer when using a radio for comunications. The Neon Mobile user interface displays personnel locations inside an outside of buildings; allows a user to update their own position using Waypoints; and allows the user to interact with Neon NFC Check-In Locations. 8.1 Getting Started If Neon Mobile is already installed, the Neon Application Icon will appear in your Apps folder. Click on that icon to activate the application. If this is the first time you have installed the software, you will be asked to review and accept the terms of service and a series of setup screens will guide you through the setup process, including configuration of your user name, Command Software IP Address, and pairing with the Tracking Unit that will be associated with this Android Device. Figure 36: NEON Mobile Application Figure 37: NEON Mobile Application 8.2 Starting, Stopping, and Controlling when Neon Runs After installation, Neon runs automatically when you startup your handset. You can exit the application by selecting the back button on your device. At that time you will be asked whether you want to shutdown Neon Services before going to the home screen. If you select yes the application will shut down (including any communications with the Command Software, if the Android Device is being used for communications). If you say No, the application visualize will shut down but the application process will remain running in the background. Icon 8.3 Using the software To begin using the software, click on the Neon Mobile icon in your applications folder (titled Neon). After launching, the map will be visible. 8.3.1 System Status Select menu and then status to see the status of all elements of the system, including:

Device name and logical address. Command Software IP address and connection status Tracking Unit logical address and Bluetooth pairing status Figure 38: Neon Mobile Status Screen GPS location coordinates (i.e., the coordinates being 2012 TRX Systems, Inc. 30 Menu TRX Systems Inc. Neon Indoor Location System Users Manual reported by GPS, if any) and GPS lock status Document Version 1.3 3 October 2012 TRX Systems Proprietary Global fix status indicating whether there is some global knowledge of where you are, either through GPS, NFC check-in, ranging to an anchor node, or manual Waypoint selection or establishment from the Neon Mobile interface. Neon Mapping status including an indication of whether the device has a valid Bing maps key. Click on the question mark for more information and on the gear to configure that system element. 8.3.2 Map The default view of Neon Mobile is the map view which provides a view of the base layer map. In addition to the traditional Android menu selector, a row of menu and status items are also embedded within the software and appear at the top of the map. The first four icons (appearing from left to right) provide a quick indication of the following:

Command Software Status Tracking Unit Status GPS Status Global Fix Status If any of these have an alert, an exclamation point will appear within the status icon. Clicking on any of these icons will bring the user back to the status screen described in the prior section. Figure 39: Neon Mobile Status & On-Screen Menus 2012 TRX Systems, Inc. 31 Command Software StatusTracking Unit StatusGPS StatusVisualization OptionsActivate AlarmGlobal FixStatusCenter screen TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Personnel 8.3.3 The personnel screen is also available through the menu. This screen identifies team members that are also connected to the same Command Software, along with both the name and logical identifier of the Tracking Unit. If the map icon your map interface on that users location. is available beside a user, clicking on it will center 8.3.4 Waypoints Waypoints are defined locations that may be used for reference or to update user location. It is possible to establish waypoints from the Command Software or from Neon Mobile. If established previously from the Command Software (reference section 5.2.5), the waypoints will show up with their location marked on the user interface Waypoint screen (Figure ) which is accessible from the menu. and on the Figure 40: NEON Mobile Personnel Screen To establish a Waypoint from Neon Mobile, open the Waypoint screen and click on the + in the upper right hand corner. This will open a dialog box that allows you to create a named waypoint at your current estimated location (Figure ). Another method that can be used if the current estimate is incorrect, press and hold on the map display at the correct location of the place that the user is standing. (It is recommended that the user zoom in so that the most accurate location can be established.) Two things then happen: 1) a Waypoint is established at the location on the map that they are pressing (the Waypoint name is automatically generated) and 2) the users location is automatically updated (i.e., user-corrected) to that new Waypoint. To check-in at an existing Waypoint, the user can either press and hold on the Waypoint icon on the map screen (the user will be queried if they want to check in), or the user can open the Waypoint screen

(Figure ) and press on the check mark icon next to the name of the Waypoint at which the user wants to check-in. 2012 TRX Systems, Inc. 32 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 41: Neon Mobile Waypoint Creation Figure 42: Neon Mobile Waypoint Check-in If a map icon location of that Waypoint. is available beside a Waypoint, clicking on it will center your map interface on the Debug Waypoints are Waypoints that are used for evaluation only and do not affect the users path

(refer to section Error! Reference source not found.). A debug waypoint is any waypoint which has a name starting with DEBUG. The accuracy of a Waypoint check-in is 1 meter (i.e., the system assumes you are within one meter or an arms-reach from the waypoint at which you are checking in). 8.4 NFC Check-Ins In addition to Waypoints, Neon Mobile allows for the use of Near Field Communications (NFC) anchors which are called check-in locations by the Command Software. To enable this functionality, the Neon NFCCheckin application must be installed on the mobile device. If Checkin Locations have been configured by the Command Software, it will be possible to perform a location update by placing your phone (with the Neon Mobile application running) in front of the Checkin Anchor. The phone will beep to indicate the location update has been successfully performed. 8.5 Installation and Upgrade Installation of the NOEN Mobile application requires downloading the NeonHH application to your phone. The most straightforward ways to do this are the following:

Attach the handset to the computer using a USB and it will show up as a USB-connected device (this may take a few minutes if it is the first time you have connected the handset). Move the Neon Mobile Application (NeonHH) to your downloads folder. Assuming Internet connectivity is available, it is also possible to email the application to the handset. Upon downloading, the Neon Mobile Application (NeonHH) will appear in your downloads folder. 2012 TRX Systems, Inc. 33 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary Click on the application (NeonHH_release#.apk) and you will be asked to either install or replace the application. If you do replace the application, all previous user data will be maintained. In addition to Neon mobile, the Neon NFC Checking application must also be installed if NFC checkins are being used. Again, it is possible to perform this installation or to update that application by moving the application to your downloads folder via a connected USB interface or by emailing that file to the handset and clicking on the .apk file. 9 Neon Ranging Anchor Node A Neon Ranging Anchor Node is a multi-sensor anchor node that improves tracking accuracy. Ranging Anchor Nodes are installed at strategic locations to maximize their effectiveness for improving tracking accuracy. Please read the FCC information located in Appendix B. FCC Information prior to operating this device. Ranging Anchor Nodes share the same form factor as the Neon Tracking Unit. However, Tracking Units and Anchor Nodes are not interchangeable. To prevent an Anchor Node from being inadvertently worn as a Tracking Unit, Anchor Nodes are assembled with only one D-Ring. Figure 43. Neon Ranging Anchor Node. Ranging Anchor Nodes are assigned a unique reference ID that is used when configuring the Neon Indoor Location System. Each ranging anchor node is labeled with a Reference ID that is entered into the Command Software configuration when placing anchors during installation. To configure the system to use a ranging anchor node, it must be added to the system using the References sidebar window in the Command Software User Interface. The location of the Ranging Anchor is configured by dragging the Ranging Anchor Node from the References window onto the Visualizer screen. Refer to section 5.2.4 for information about using the References window. The Ranging Anchor Node accepts power through its mini-USB port, and it can take power during normal operation. Like the tracking unit, the Ranging Anchor Node can run off of battery. 2012 TRX Systems, Inc. 34 TRX Systems Inc. Neon Indoor Location System Users Manual 10 Neon Command Station Reference A Command Station Reference is a Tracking Unit or Ranging Anchor Node that is attached directly to the Command Software computer using a USB cable. The Command Station Reference provides the same function as a Ranging Anchor Node, but it provides additional reference sensor data to improve accuracy. Please read the FCC information located in Appendix B. FCC Information prior to operating this device. Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 44. The Command Software Reference is attached directly to the computer hosting the Neon Command Software. The Neon Command Station Reference provides the same functionality as the Ranging Anchor Nodes. The Command Software Reference does not use a Reference ID. Instead, the Command Software Reference is always pre-populated in the list of Neon User Interface References. The Command Station Reference is charged the same way as the Tracking Unit and Ranging Anchor Node. Generally, the Command Software Reference will take power from the Command Software computer. 11 Neon NFC Check-In Location A Neon NFC Check-In Location is an NFC RFID tag that is used to provide location updates of tracked personnel. A tracked person interacts with a Check-in Location by placing their phone equipped with the Neon Mobile Android App close enough to the Check-In Location to activate the NFC RFID tag. 2012 TRX Systems, Inc. 35 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Figure 45. A lanyard card NFC Check-In Location. Each NFC Check-In Location is assigned a unique Reference ID that is used to configure the Neon Indoor Location System. The NFC Check-In Location ID is a four-digit number that is printed on the tag, and it is entered into the Command Software when placing the NFC Check-In Locations. The location of the NFC Check-In Location ID depends on the form factor. On lanyard cards, the ID is printed across the bottom of the card. As described in section 5.2.4, use the References sidebar window in the Command Software User Interface to configure the Neon System to use the Check-In Location. 2012 TRX Systems, Inc. 36 TRX Systems Inc. Neon Indoor Location System Users Manual Document Version 1.3 3 October 2012 TRX Systems Proprietary Appendix A. End User Agreement END USER AGREEMENT Please read the following terms and conditions carefully. This End User Agreement is between TRX Systems, Inc. (the Company or the Licensor) and You, which if an entity aside from an individual user includes its employees, staff and personnel (collectively, the Users, You or Licensee), for the use of the hardware, software and services to be provided hereunder, including any content and any related materials, the License Software, documentation, updates or modifications that may be provided to You by the Company or its licensees or agents (collectively, the TRX System). Your access to and use of the TRX System requires your compliance with the terms of this Agreement. By downloading or installing the software, or accessing and/or using any portion of the TRX System, you agree to be bound by this Agreement. R E C I T A L S:

WHEREAS, when used properly, the TRX System provides Users, including first responders, miners, ground forces, and others), individual members of a Licensee organization or agency, partner agencies, incident commanders, and civil and military authorities, with tools for tracking and finding Users in locations without reliable GPS (collectively, Incidents). WHEREAS, COMPANY IS WILLING TO LICENSE THE TRX SYSTEM TO YOU ONLY UPON THE CONDITION THAT YOU ACCEPT ALL OF THE TERMS CONTAINED IN THIS END USER AGREEMENT. BY DOWNLOADING, INSTALLING, OR USING THE TRX SYSTEM, YOU AGREE TO THE TERMS AND CONDITIONS OF THIS AGREEMENT, AND YOU ARE BINDING YOURSELF AND THE BUSINESS ENTITY THAT YOU REPRESENT. WHEREAS, the TRX System is provided subject to the limitations, restrictions and disclaimers of liability set forth below. NOW THEREFORE, in exchange for the mutual promises and consideration set forth herein, the value of which is hereby acknowledged, the Parties hereto agree as follows:

1. Forms of Acceptance of Agreement. Licensee shall indicate their intention to be bound to the terms and conditions of this Agreement through one (1) of the three (3) modes of acknowledgement set forth below:

Acceptance by Signature. By signature of a duly authorized officer of the Party hereto in the

(a) appropriate signature block below, Licensee consents to become a party to this Agreement and to be bound by its terms and conditions. This Agreement may be executed in counterparts, each of which will be deemed an original, but all of such counterparts together will constitute one and the same agreement, 2012 TRX Systems, Inc. 37 TRX Systems Inc. Document Version 1.3 Neon Indoor Location System Users Manual 3 October 2012 TRX Systems Proprietary

(b) Acceptance by Clicking I Accept or by use of TRX System. BY CLICKING ON THE I ACCEPT BUTTON OR OTHERWISE USING ANY PART OF THE TRX SYSTEM, USER CONSENTS TO BECOME A PARTY TO THIS AGREEMENT AND TO BE BOUND BY ITS TERMS AND CONDITIONS. USERS WRITTEN APPROVAL IS NOT A PREREQUISITE TO THE VALIDITY OR ENFORCEABILITY OF THIS AGREEMENT. IF USER DOES NOT WANT TO BECOME A PARTY TO THIS AGREEMENT OR DOES NOT AGREE WITH OR CANNOT COMPLY WITH ALL OF ITS TERMS, DO NOT CLICK ON THE I ACCEPT BUTTON OR USE ANY PART OF THE TRX SYSTEM, AND USER WILL NOT BE LICENSED TO THE TRX SYSTEM OR BE AUTHORIZED TO USE ANY PART OF THE TRX SYSTEM.

(c) Acceptance by email. BY RESPONDING VIA EMAIL TO THE COMPANY WITH AN AFFIRMATIVE WRITTEN EXPRESSION OF ASSENT TO BE BOUND TO THIS AGREEMENT, USER CONSENTS TO BECOME A PARTY TO THIS AGREEMENT AND TO BE BOUND BY ITS TERMS AND CONDITIONS. USERS HAND WRITTEN APPROVAL IS NOT A PREREQUISITE TO THE VALIDITY OR ENFORCEABILITY OF THIS AGREEMENT. IF USER DOES NOT WANT TO BECOME A PARTY TO THIS AGREEMENT OR DOES NOT AGREE WITH OR CANNOT COMPLY WITH ALL OF ITS TERMS, DO NOT AFFIRM YOUR DESIRE TO BE BOUND BY THE TERMS OF THIS AGREEMENT IN AN EMAIL AND DO NOT USE ANY PART OF THE TRX SYSTEM, AND USER WILL NOT BE LICENSED TO THE TRX SYSTEM OR BE AUTHORIZED TO USE ANY PART OF THE TRX SYSTEM. 2. License. Subject to Licensees compliance with the terms and conditions of this Agreement, Licensor hereby grants to Licensee a non-exclusive, non-transferable perpetual license to install and use the TRX System subject to the License Restrictions set forth in Section 3, of this Agreement. Subject to the provisions of any public license agreements and third party license agreements, the Licensed Software programs (as defined below) are copyrighted by TRX Systems, Inc. or its licensors and are licensed pursuant to all of the terms of this Agreement. For the purposes of this License Agreement, Licensed Software shall include (and the terms and conditions of this Agreement shall apply to) computer programs, including firmware and embedded software, data and documentation, as provided to You by Company, and any upgrades, updates, bug fixes or modified versions thereto (collectively Upgrades) or backup copies of the Licensed Software licensed or provided to You by Company. The license shall in all events automatically terminate upon the sale or other transfer of the Licensed Software and/or in the event of the permanent discontinuance of the use of the License Software by You, and the user of the License Software by any purchaser or transferee from You will be conditioned upon the grant of a new license in respect thereof by Company. 3. License Restrictions.

(a) General. The License Software is licensed, not sold to You, for use only as permitted by the terms and conditions of this Agreement. Company reserves any rights not expressly granted to You. All rights in the Licensed Software and related documentation not specifically granted in this Agreement are reserved by and shall remain the property of Company. You shall keep the Licensed Software and any operating manuals, user documentation or other documentation about the Licensed Software in 2012 TRX Systems, Inc. 38 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary confidence. In addition to the Licensed Software created and/or owned exclusively by Company, various programs included in the Licensed Software programs are either public software licensed under public license agreements, or are third party software licensed to TRX under third party license agreements. The necessary notices and other provisions required by these agreements are included in the About dialog box. Restrictions. Licensee shall not (nor shall Licensee permit anyone else to) directly or indirectly:

(b)

(i) copy (except as expressly set forth above), modify, or distribute the Licensed Software or any portion thereof; (ii) reverse engineer, disassemble, decompile or otherwise attempt to discover the source code or structure, sequence and organization of the Licensed Software or any portion thereof (except where the foregoing is permitted by applicable local law, and then only to the extent so permitted); (iii) rent or lease the Licensed Software or any portion thereof to a third party, or otherwise use or allow the use of the Licensed Software or any portion thereof to be used for any commercial purpose or on behalf of any third party; (iv) remove or obscure any proprietary notices on the Licensed Software; (v) post or otherwise make available the Licensed Software, or any portion thereof, in any form, on the Internet or other publicly-available forum; (vi) distribute copies of the Licensed Software to others (electronically or otherwise); or (vii) export or re-export the Licensed Software in violation of any laws or regulations. You may install and use the Licensed Software only on a single computer to which a Company device is connected. You may not use the Licensed Software in any other device, nor for connection to any other software, device or network. NOTWITHSTANDING ANY OTHER PROVISION OF THIS AGREEMENT: (1) YOU HAVE NO LICENSE OR RIGHT TO USE ANY ADDITIONAL COPIES OR UPGRADES UNLESS YOU, AT THE TIME OF ACQUIRING SUCH COPY OR UPGRADE, ALREADY HOLD A VALID LICENSE TO THE ORIGINAL LICENSED SOFTWARE AND HAVE PAID THE APPLICABLE FEE FOR THE UPGRADE OR ADDITIONAL COPIES; (2) USE OF UPGRADES IS LIMITED TO COMPANY EQUIPMENT FOR WHICH YOU ARE THE ORIGINAL END USER PURCHASER OR LESSEE OR WHO OTHERWISE HOLDS A VALID LICENSE TO USE THE LICENSED SOFTWARE WHICH IS BEING UPGRADED; AND (3) THE MAKING AND USING OF ADDITIONAL COPIES IS LIMITED TO NECESSARY BACKUP PURPOSES ONLY. As a specific condition of this license, Licensee agrees to use the Licensed Software in compliance with all applicable laws, including without limitation copyright laws. 4. Special Disclaimers and Liability Limitations. The TRX System is subject to the following restrictions, disclaimers and liability limitations:

Third Party Products, Data and Content. The TRX System may work in conjunction with (or rely

(a) upon) third party products, data or content that is not owned or controlled by Company (Third Party Products). When the TRX System is used (or relies upon) such Third Party Products, by agreeing to be bound by the terms and conditions of this Agreement, Licensee is acknowledging that it accepts both the TRX System and the Third Party Products at Licensees risk. Conflicts may develop between the TRX System and such Third Party Products that may inhibit the TRX Systems performance, accuracy, functionality or operation. Company disclaims all liability that may arise from the use of (or reliance upon) the TRX System and and/or the use of (or reliance upon) such Third Party Products. 2012 TRX Systems, Inc. 39 TRX Systems Inc. Document Version 1.3 Neon Indoor Location System Users Manual 3 October 2012 TRX Systems Proprietary

(b) Decision Making. It is Licensees responsibility to decide, independent of the TRX System, what actions to take or not to take in a given Incident based on the factors that You deem relevant to that Incident. Company admonishes Licensee that decisions made during an Incident may not be based on the TRX System alone and may require other data for the best decision, but such other data may be inaccurate, corrupted, misleading or erroneous due to erroneous assumptions, inaccurate information, or poor choices made by Licensee and others. Accordingly, all decisions made during an Incident are at Your own risk and Company disclaims responsibility for the actions of such decision makers as well as their assumptions and interpretations of such other data.

(c) Dangerous Conditions and Dangerous Environments. Licensees use of the TRX System under certain conditions, such as fires, explosions, police/military operations, weather systems, mining operations and many other conditions where Licensee or User may be impaired, disoriented, imperiled, injured, etc., can lead to Users injury, further injury or death or to the injury, further injury or death of third parties. All decisions based upon the use of the TRX System are subject to Users verification of the data, content and assessment of dangerous conditions and dangerous environments. All decisions or actions made by User are subject to Users professional judgment and are the sole responsibility of User and not the Company or the TRX System. By agreeing to by bound by the terms and conditions of this Agreement, Licensee acknowledges and accepts all risk associated with such use. Company disclaims all liability that might arise from Licensees use of the TRX System to give or follow directions, develop a course-of-action, develop a situational or operational emergency response, risk mitigation strategy and/or travel to or from any location, and Licensee accepts all risk associated with such use. Company does not authorize use of the TRX System and disclaims all liability that might arise from Licensees use of the Software under any circumstances where doing so might be against the law or put the Licensee or its possessions, or third parties or their possessions at risk or in any kind of danger. 5. Proprietary Rights. Company shall own and retain all right, title, and (except as expressly licensed hereunder) interest in and to the Licensed Software, all copies or portions thereof, and any derivative works thereof (by whomever created). The Licensed Software is protected by copyright laws and international copyright treaties, as well as other intellectual property laws and treaties. The Licensed Software and its features and functions, when used alone or in combination with a computing device or other systems, may be protected by one or more of U.S. and/or foreign patents. A listing of any such patents may be included in the About box or menu associated with the Licensed Software or on the Company website and Company reserves the right update that listing from time to time, but You should not consider any such listing to be a complete or exhaustive list of all patents that may cover the Licensed Software and You should not consider the absence of any such listing to be an indication that no patents cover the Licensed Software. You will not remove or alter Companys or any third partys ownership, trademark, copyright or other proprietary notices in the Licensed Software. 6. Confidentiality. 2012 TRX Systems, Inc. 40 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary Licensee hereby agrees to maintain the Licensed Software and any data or databases contained therein in confidence and that Licensee will not disclose the Licensed Software to any third party without the express written consent of Company. You further agree to take all reasonable precautions to preclude access of unauthorized persons to the Software. 7. Term and Termination. Company will have the right to terminate the license granted herein immediately if Licensee or any User fails to comply with any terms or conditions of this Agreement. The license granted to Licensee herein will terminate automatically upon any breach of Sections 2, 3, 4 or 6. Company will also have the right to terminate the license granted herein immediately upon its sole discretion. Upon termination of this Agreement for any reason, Licensee shall immediately stop using the Licensed Software and shall destroy and remove from all computers, hard drives, networks, and other storage media, all content downloaded from use of Licensed the Software. Sections 3 through 14 shall survive any termination of this Agreement. 8. Limited Warranty.

(a) Hardware. Company warrants its hardware to be free from defective workmanship and materials under normal use (Hardware Defects) for a period of one (1) year from the date of purchase from Company (Warranty Period). Hardware defects will be repaired or replaced at Companys sole choice without charge for parts or labor. Any repair made by Company to its hardware is warranted to be free from Hardware Defects for a period of ninety (90) days from the date of such repair. Software. Company warrants its software to substantially perform pursuant to the applicable

(b) users manual for a period of one (1) year from the date of purchase from Company. To the original purchaser only, Company warrants the media on which the Licensed Software is supplied to perform pursuant to the applicable users manual for a period of thirty (30) days from the date of purchase from Company; if the media does not conform during this period, the purchaser of that media may return the media for replacement media. ADDITIONAL LIMITATIONS. NEITHER WARRANTY SHALL APPLY TO NORMAL WEAR AND TEAR,

(c) ANY HARDWARE OR SOFTWARE WHICH HAS BEEN ABUSED, MISUSED, DAMAGED, ALTERED, NEGLECTED, SUBJECTED TO UNAUTHORIZED REPAIR OR INSTALLATION, , OR SUBJECT TO ACCIDENT, MOISTURE, LIQUIDS, PROXIMITY OR EXPOSURE TO HEAT OR SOME OTHER EXTERNAL FORCE, AS REASONABLY DETERMINED BY COMPANY.

(d) Procedure. To claim a Hardware Defect, You must contact Company product support at support@trxsystems.com for technical assistance. If Company determines in its sole judgment, after standard troubleshooting tests have been performed, that a Hardware Defect may exist, Company will issue a Return Materials Authorization number (RMA). That RMA number must appear in plain view on any shipment made to Company regarding the Hardware Defect. The RMA number shall be used in all communications with Company regarding the Hardware Defect. You must ship the hardware during the Warranty Period, in a traceable manner, along with the RMA number issued by Company and an 2012 TRX Systems, Inc. 41 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary explanation of the defect, to the address provided to you by Company. You shall prepay the cost of shipping the hardware and bear the risk of loss while the hardware is in transit. Company shall determine in its sole discretion whether a Hardware Defect exists, and if so, whether to repair or replace such hardware. Company shall pay the shipping charges to return the hardware to you and bear the risk of loss during transit, unless Company determines that a Hardware Defect does not exist. In the event that Company determines a Hardware Defect does not exist, you shall promptly pay Company to return the hardware to you, including risk of loss during shipment. Any hardware not reclaimed by paying such shipment costs to Company within 30 days from notice of payment due will be discarded 9. Warranty Disclaimer. THE LIMITED WARRANTY SET FORTH IN SECTION 8 IS THE ONLY WARRANTY PROVIDED BY COMPANY. EXCEPT FOR THE FOREGOING, THE HARDWARE, SOFTWARE AND ANY SERVICES ARE PROVIDED AS IS AND COMPANY MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THE HARDWARE, SOFTWARE OR ANY SERVICES PROVIDED BY COMPANY HEREUNDER. COMPANY EXPRESSLY DISCLAIMS ANY OTHER WARRANTIES, EXPRESS, IMPLIED OR STATUTORY, INCLUDING WITHOUT LIMITATION, ANY DUTIES OR CONDITIONS OF SATISFACTORY QUALITY, REASONABLE CARE AND SKILL, QUIET ENJOYMENT, QUIET POSSESSION, MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT. FURTHER, COMPANY DOES NOT WARRANT RESULTS OF USE OR THAT THE HARDWARE OR SOFTWARE IS BUG FREE OR THAT USE OF THE HARDWARE, SOFTWARE OR SERVICES WILL BE UNINTERRUPTED. COMPANY DOES NOT AND CANNOT WARRANT THE RESULTS YOU MAY OBTAIN BY USING THE TRX SYSTEM. THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL PART OF THIS AGREEMENT. SOME JURISDICTIONS DO NOT ALLOW THE EXCLUSION OF IMPLIED WARRANTIES OR LIMITATIONS ON HOW LONG AN IMPLIED WARRANTY MAY LAST, SO THE ABOVE LIMITATIONS MAY NOT APPLY TO YOU. THIS WARRANTY GIVES YOU SPECIFIC LEGAL RIGHTS AND YOU MAY ALSO HAVE OTHER RIGHTS WHICH VARY FROM JURISDICTION TO JURISDICTION. 10. Limitation of Liability. NOTWITHSTANDING ANYTHING ELSE HEREIN, UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY, INCLUDING, BUT NOT LIMITED TO, TORT, CONTRACT, NEGLIGENCE, STRICT LIABILITY, OR OTHERWISE, SHALL COMPANY BE LIABLE TO YOU OR ANY OTHER PERSON (1) FOR ANY PUNITIVE, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES OF ANY CHARACTER INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOST PROFITS, LOSS OF GOODWILL, WORK STOPPAGE, ACCURACY OF RESULTS, COMPUTER FAILURE OR MALFUNCTION, OR DAMAGES RESULTING FROM YOUR USE OF THE HARDWARE, SOFTWARE OR THE SERVICES PROVIDED BY OR ON BEHALF OF COMPANY, OR

(2) FOR ANY MATTER BEYOND COMPANYS REASONABLE CONTROL. COMPANYS MAXIMUM LIABILITY FOR DAMAGES OF ANY KIND WHATSOEVER ARISING OUT OF THIS AGREEMENT SHALL BE LIMITED TO TWENTY DOLLARS ($20.00), EXCEPT WHERE NOT PERMITTED BY APPLICABLE LAW, IN WHICH CASE COMPANYS LIABILITY SHALL BE LIMITED TO THE MINIMUM AMOUNT PERMITTED BY SUCH APPLICABLE 2012 TRX Systems, Inc. 42 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary LAW. THE FOREGOING LIMITATIONS SHALL APPLY EVEN IF COMPANY HAS BEEN INFORMED OF THE POSSIBILITY OF SUCH DAMAGES. SOME JURISDICTIONS DO NOT ALLOW THE EXCLUSION OR LIMITATION OF CONSEQUENTIAL DAMAGES, SO THE ABOVE LIMITATION AND EXCLUSION MAY NOT APPLY TO YOU. INCIDENTAL OR 11. Export. Licensee shall comply with all export laws and restrictions and regulations of the Department of Commerce, the United States Department of Treasury Office of Foreign Assets Control (OFAC), or other United States or foreign agency or authority, and Licensee shall not export, or allow the export or re-export of the TRX System in violation of any such restrictions, laws or regulations. By using the TRX System, Licensee agrees to the foregoing and represents and warrants that Licensee is not located in, under the control of, or a national or resident of any restricted country. 12. Indemnity. Licensee shall indemnify and hold harmless Company, its officers, directors, shareholders, employees, agents and representatives from any third party claims, damages, liabilities, costs and fees (including reasonable attorney fees) arising from Licensees use of the TRX System as well as from any Users failure to comply with any term of this Agreement. Licensee shall indemnify and hold harmless Company, its officers, directors, shareholders, employees, agents and representatives from any and all claims of personal injury, including death, and property damage arising from Licensees use of the TRX System as well as from any Users failure to comply with any term of this Agreement. 13. Government Restricted Rights. If Licensee is an agency, department, or other entity of the United States Government (Government), the use, duplication, reproduction, release, modification, disclosure or transfer of the Licensed Software, or any related documentation of any kind, including technical data or related manuals, is restricted in accordance with Federal Acquisition Regulation 12.212 for civilian agencies and Defense Federal Acquisition Regulation Supplement 227.7202 for military agencies, or any successor regulations. This Licensed Software is commercial computer software and the related documentation is commercial computer software documentation. The use of the Licensed Software and related documentation is further restricted in accordance with the terms of this Agreement, or any modification hereto. Company is located at 7500 Greenway Center Drive, Suite 420, Greenbelt, Maryland 20770. 14. General. This Agreement represents the complete agreement concerning this license between the Parties and supersedes all prior agreements and representations between them. This Agreement may be amended only by a writing executed by both parties. If any provision of this Agreement is held to be illegal or unenforceable, that provision shall be limited or eliminated to the minimum extent necessary to make it 2012 TRX Systems, Inc. 43 Document Version 1.3 TRX Systems Inc. 3 October 2012 Neon Indoor Location System Users Manual TRX Systems Proprietary legal and enforceable and this Agreement shall otherwise remain in full force and effect and enforceable. The failure of Company to act with respect to a breach of this Agreement by Licensee, Users or others does not constitute a waiver and shall not limit Companys rights with respect to such breach or any subsequent breaches. This Agreement is personal to Licensee and may not be assigned or transferred for any reason whatsoever without Companys prior written consent and any action or conduct in violation of the foregoing shall be void and without effect. Company expressly reserves the right to assign this Agreement and to delegate any of its obligations hereunder. This Agreement shall be governed by and construed under Maryland law (without regard to its conflicts of laws provisions) as such law applies to agreements between residents of any state in which this Agreement is entered into and performed. The sole and exclusive jurisdiction and venue for actions arising under this Agreement shall be the State and Federal courts in Prince Georges County, Maryland and Licensee hereby agree to service of process in accordance with the rules of such courts. Each party recognizes and agrees that the warranty disclaimers and liability and remedy limitations in this Agreement are material bargained for bases of this Agreement and that they have been taken into account and reflected in determining the consideration to be given by each party under this Agreement and in the decision by each party to enter into this Agreement. If you have any questions about the Terms, please contact TRX at TOS@trxsystems.com. Last updated as of: August 28, 2012 2012 TRX Systems, Inc. 44 TRX Systems Inc. Neon Indoor Location System Users Manual Appendix B. FCC Information The following FCC information applies to the following components of the Neon Indoor Location System:

Document Version 1.3 3 October 2012 TRX Systems Proprietary Neon Tracking Unit, Neon Command Station Reference, and Neon Ranging Anchor Node. FCC Compliance This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

(1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. FCC Notice to Users NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

-- Reorient or relocate the receiving antenna.

-- Increase the separation between the equipment and receiver.

-- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

-- Consult the dealer or an experienced radio/TV technician for help. TRX has not approved any changes or modifications to this device by the user. Any changes or modifications not expressly approved by TRX Systems may void the user's authority to operate this equipment. RF Exposure Notice This device is a radio transmitter and receiver. It is designed not to exceed the limits for exposure to radio waves adopted by the FCC. These limits include a substantial safety margin design to assure the safety of all persons, regardless of age and health. The radio wave exposure guidelines use a unit of measurement known as the Specific Absorption Rate, or SAR. SAR test measurements were taken for this device and found to be below FCC limits. 2012 TRX Systems, Inc. 45