Test Report

FCC ID: TV7RB941-2ND

Test Report

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FCCID_2542114

NVLAP Lab Code 200087-0 SUBMITTAL APPLICATION REPORT FOR GRANT OF CERTIFICATION FOR Model: hAP Lite 2412-2462 MHz Broadband Digital Transmission System FCC ID: TV7RB941-2ND IC: 7442A-9412ND FOR MIKROTIKLS SIA Pernavas 46 Riga, Latvia LV-1009 Test Report Number: 150210 Authorized Signatory: Scot D. Rogers Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 1 of 32

NVLAP Lab Code 200087-0 ROGERS LABS, INC. 4405 West 259th Terrace Louisburg, KS 66053 Phone / Fax (913) 837-3214 Engineering Test Report for Grant of Certification Application FOR CFR 47, PART 15C - Intentional Radiators CFR 47 Paragraph 15.247 and Industry Canada RSS-210 License Exempt Digital Transmission System For MIKROTIKLS SIA Pernavas 46 Riga, Latvia LV-1009 Broadband Digital Transmission System Model: hAP Lite Frequency Range 2412-2462 MHz FCC ID#: TV7RB941-2ND IC 7442A-9412ND Test Date: February 10, 2015 Certifying Engineer: Scot D. Rogers Rogers Labs, Inc. 4405 West 259th Terrace Louisburg, KS 66053 Telephone/Facsimile: (913) 837-3214 This report shall not be reproduced except in full, without the written approval of the laboratory. This report must not be used by the client to claim product certification, approval or endorsement by NVLAP, NIST, or any agency of the Federal Government. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 2 of 32

NVLAP Lab Code 200087-0 Table Of Contents TABLE OF CONTENTS.................................................................................................. 3 REVISIONS..................................................................................................................... 4 FORWARD ..................................................................................................................... 5 OPINION / INTERPRETATION OF RESULTS ............................................................... 5 EQUIPMENT TESTED .................................................................................................... 5 APPLICATION FOR CERTIFICATION ........................................................................... 6 EQUIPMENT FUNCTION AND CONFIGURATION........................................................ 7 Equipment Configuration....................................................................................................................................7 APPLICABLE STANDARDS & TEST PROCEDURES .................................................. 8 EQUIPMENT TESTING PROCEDURES ........................................................................ 8 AC Line Conducted Emission Test Procedure ..................................................................................................8 Radiated Emission Test Procedure .....................................................................................................................8 Diagram 1 Test arrangement for Conducted emissions .......................................................................................9 Diagram 2 Test arrangement for radiated emissions of tabletop equipment ...................................................... 10 Diagram 3 Test arrangement for radiated emissions tested on Open Area Test Site (OATS) ........................... 11 TEST SITE LOCATIONS .............................................................................................. 11 LIST OF TEST EQUIPMENT ........................................................................................ 12 UNITS OF MEASUREMENTS ...................................................................................... 13 ENVIRONMENTAL CONDITIONS................................................................................ 13 INTENTIONAL RADIATORS ........................................................................................ 13 Antenna Requirements ...................................................................................................................................... 13 Restricted Bands of Operation .......................................................................................................................... 13 Table 1 General Radiated Emissions in Restricted Bands Data ........................................................................ 14 Table 2 Harmonic Radiated Emissions in Restricted Bands Worst-case ........................................................... 15 Summary of Results for Radiated Emissions in Restricted Bands ................................................................ 15 Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 3 of 32

NVLAP Lab Code 200087-0 AC Line Conducted Emissions Procedure ....................................................................................................... 16 Figure 1 AC Line Conducted Emissions Line 1 ................................................................................................ 17 Figure 2 AC Line Conducted Emissions Line 2 ................................................................................................ 17 Table 3 AC Line Conducted Emissions Data L1 ............................................................................................... 18 Table 4 AC Line Conducted Emissions Data L2 ............................................................................................... 18 Summary of Results for AC Line Conducted Emissions ................................................................................ 18 General Radiated Emissions Procedure ........................................................................................................... 19 Table 5 General Radiated Emissions from EUT Data (Highest Emissions) ...................................................... 20 Summary of Results for General Radiated Emissions .................................................................................... 20 Operation in the Band 2400 – 2483.5 MHz ...................................................................................................... 21 Figure 3 Plot of Transmitter Emissions (Across Operation Band, 20 MHz channel) ........................................ 22 Figure 4 Plot of Low Band Edge (20 MHz Channel) ........................................................................................ 22 Figure 5 Plot of High Band Edge (20 MHz Channel)........................................................................................ 23 Figure 6 Plot of Transmitter Emissions (Across Operational Band, 40 MHz Channel) .................................... 23 Figure 7 Plot of Transmitter Low Band Edge (40 MHz Channel) ..................................................................... 24 Figure 8 Plot of Transmitter High Band Edge (40 MHz Channel) .................................................................... 24 Transmitter Emissions Data .............................................................................................................................. 25 Table 6 Transmitter Radiated Emission Worst-case .......................................................................................... 25 Table 7 Calculated Transmitter Antenna Port Power ........................................................................................ 26 Summary of Results for Transmitter Radiated Emissions of Intentional Radiator ............................................ 26 STATEMENT OF MODIFICATIONS AND DEVIATIONS ............................................. 26 ANNEX .......................................................................................................................... 27 Annex A Measurement Uncertainty Calculations ........................................................................................... 28 Annex B Rogers Labs Test Equipment List ..................................................................................................... 29 Annex C Rogers Qualifications ......................................................................................................................... 30 Annex D FCC Site Registration Letter ............................................................................................................. 31 Annex E Industry Canada Site Registration Letter ........................................................................................ 32 Revisions Revision 1 Issued February 26, 2015 Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 4 of 32

NVLAP Lab Code 200087-0 Forward The following information is submitted for consideration in obtaining Grant of Certification for License Exempt Digital Transmission System Intentional Radiator operating under CFR 47 Paragraph 15.247 and Industry Canada RSS-210. Name of Applicant: Mikrotikls SIA Pernavas 46 Riga, Latvia LV-1009 FRN: 0014 43 1100 Model: hAP Lite FCC I.D.: TV7RB941-2ND IC: 7442A-9412ND Frequency Range: 2412-2462 MHz (20 MHz channel operation), 2422-2452 MHz (40 MHz channel operation) Total Operating Power: 0.071-Watts maximum output power 99% Occupied Bandwidth: 20 MHz – 14,120 MHz, and 40 MHz- 36,202 MHz Opinion / Interpretation of Results Tests Performed Margin (dB) Results Emissions as per CFR 47 paragraphs 2 and 15.205 -1.4 Complies Emissions as per CFR 47 paragraphs 2 and 15.207 -2.9 Complies Emissions as per CFR 47 paragraphs 2 and 15.209 -9.2 Complies Harmonic Emissions per CFR 47 15.247 -1.4 Complies Peak Power Spectral Density per CFR 47 15.247 -14.3 Complies Equipment Tested Equipment Model FCC I.D. EUT (SN: 55FF042F0F7D/443) hAP Lite TV7RB941-2ND AC Adapter NLB100120W1A N/A Dell Studio XPS 921LBN1 N/A Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 5 of 32

NVLAP Lab Code 200087-0 Application for Certification (1) Manufacturer: Mikrotikls SIA Pernavas 46 Riga, Latvia LV-1009 (2) Identification: Model: hAP Lite FCC I.D.: TV7RB941-2ND IC: 7442A-9412ND (3) Instruction Book: Refer to Exhibit for Instruction Manual. (4) Description of Circuit Functions: Refer to Exhibit of Operational Description. (5) Block Diagram with Frequencies: Refer to Exhibit of Operational Description. (6) Report of Measurements: Report of measurements follows in this Report. (7) Photographs: Construction, Component Placement, etc.: Refer to Exhibit for photographs of equipment. (8) List of Peripheral Equipment Necessary for operation. The equipment operates from power received from authorized AC/DC power adapter. The EUT provides three Ethernet ports and DC input power port for operation. During testing, the EUT was connected to CPU through network cable. The EUT received power supplied from external AC/DC supply. (9) Transition Provisions of CFR47 15.37 are not requested. (10) Not Applicable. The unit is not a scanning receiver. (11) Not Applicable. The EUT does not operate in the 59 – 64 GHz frequency band. (12) The equipment is not software defined and this section is not applicable. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 6 of 32

NVLAP Lab Code 200087-0 Equipment Function and Configuration The EUT is a 2412-2462 MHz 2x2 MIMO Digital Transmission System used to transmit data in applications offering broadband wireless connectivity. The design utilizes internal fixed antenna system and offers no provision for antenna replacement or modification. The equipment is marketed for use to incorporate a wireless link to exchange data information from one point to another. For testing purposes, the hAP Lite transceiver was connected to the manufacturer supplied AC/DC supply and communicating to the laptop computer through Ethernet network interface. This configuration offered operational control of the transmitter and communications over the network interface between the EUT and supporting computer system. The EUT offers five Ethernet network interface ports, one USB interface port and requires power supplied from external source AC/DC adapter. No other interfacing options are provided. For testing purposes, the hAP Lite received powered from the AC/DC supply and was configured to transmit in available data modes. The device is produced with integral antenna system only. The antenna system complies with requirements for unique antenna connection port. Equipment Configuration hAP Lite Network Cable Laptop Computer (EUT) (CPU) CPU AC Power Adapter AC/DC Adapter Utility Power Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 7 of 32

NVLAP Lab Code 200087-0 Applicable Standards & Test Procedures The following information is submitted in accordance with the Federal Communications Code of Federal Regulations, dated October 1, 2014, Part 2, Subpart J, Paragraphs 2.907, 2.911, 2.913, 2.925, 2.926, 2.1031 through 2.1057, and applicable parts of paragraph 15, Part 15C Paragraph 15.247 and RSS-210. Test procedures used are the established Methods of Measurement of Radio-Noise Emissions as described in ANSI C63.10-2013, KDB 558074 D01 v03r02, KDB 662911 D02 v01, and KDB 913591. Testing for the AC line-conducted and radiated emissions testing were performed as defined in section 6 of ANSI C63.10-2013. Equipment Testing Procedures AC Line Conducted Emission Test Procedure Testing for the AC line-conducted emissions was performed as defined in ANSI C63.10-2013. The test setup, including the EUT, was arranged in the test configurations as presented during testing. The test configuration was placed on a 1 x 1.5-meter wooden bench, 0.8 meters high located in a screen room. The power lines of the system were isolated from the power source using a standard LISN with a 50-µHy choke. EMI was coupled to the spectrum analyzer through a 0.1 µF capacitor internal to the LISN. The LISN was positioned on the floor beneath the wooden bench supporting the EUT. The power lines and cables were draped over the back edge of the table. Refer to diagram 1 showing typical test arrangement and photographs in exhibits for EUT placement used during testing. Radiated Emission Test Procedure The EUT was placed on a rotating 1 x 1.5-meter wooden platform, 0.8 meters above the ground plane at a distance of 3 meters from the FSM antenna. Radiated emissions testing were performed as required in CFR47 paragraph 15C, RSS-210 and as specified in sections 6 and 7 of ANSI C63.10-2013 and referenced KDB documents. EMI energy was maximized by equipment placement, raising and lowering the FSM antenna, changing the antenna polarization, and by rotating the turntable. Each emission was maximized before data was taken using a spectrum analyzer. The frequency spectrum from 9 kHz to 25,000 MHz was searched for during preliminary investigation. Refer to diagrams 2 and 3 showing typical test arrangement and photographs in the test setup exhibits for specific EUT placement during testing. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 8 of 32

NVLAP Lab Code 200087-0 1. Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 cm to 40 cm long see (see 6.2.3.1). 2. I/O cables that are not connected to an accessory shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m (see 6.2.2). 3. EUT connected to one LISN. Unused LISN measuring port connectors shall be terminated in 50 Ω loads. LISN can be placed on top of, or immediately beneath, reference ground plane (see 6.2.2 and 6.2.3). 3.1 All other equipment powered from additional LISN(s). 3.2 Multiple-outlet strip can be used for multiple power cords of non-EUT equipment. 3.3 LISN at least 80 cm from nearest part of EUT chassis 4. Non-EUT components of EUT system being tested 5. Rear of EUT, including peripherals, shall all be aligned and flush with rear of tabletop (see 6.2.3.1). 6. Edge of tabletop shall be 40 cm removed from a vertical conducting plane that is bonded to the ground plane (see 6.2.2 for options). 7. Antenna may be integral or detachable. If detachable, the antenna shall be attached for this test. Diagram 1 Test arrangement for Conducted emissions Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 9 of 32

NVLAP Lab Code 200087-0 1. A LISN is optional for radiated measurements between 30 MHz to 1000 MHz, but not allowed for measurements below 30 MHz and above 1000 MHz (See 6.4.3, 6.5.1, and 6.6.3). If used, connect EUT to one LISN. Unused LISN measuring port connectors shall be terminated in 50Ω. LISN can be placed on top of, or immediately beneath, reference ground plane (see 6.2.2 and 6.2.3.1). 1.1 LISN spaced at least 80 cm from nearest part of EUT chassis. 2. The EUT shall be placed in the center of the table to the extent possible (See 6.2.3.1 and 6.3.4). 3. A vertical conducting plane, if used for conducted tests per 6.2.2, shall be removed for radiated emission tests. 4. Antenna may be integral or detachable, depending on the EUT. 5. Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 cm to 40 cm long. Diagram 2 Test arrangement for radiated emissions of tabletop equipment Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 10 of 32

NVLAP Lab Code 200087-0 Appropriate Frequency Dependent Antenna Frequency: 9 kHz-30 MHz Frequency: 30 MHz- 1 GHZ Frequency: Above 1 GHz Loop Antenna Broadband Biconilog Horn RBW = 9 kHz RBW = 120 kHz RBW = 1 MHz VBW = 30 kHz VBW = 120 kHz VBW = 1 MHz Sweep time = Auto Sweep time = Auto Sweep time = Auto Detector = PK, QP Detector = PK, QP Detector = PK, AV Diagram 3 Test arrangement for radiated emissions tested on Open Area Test Site (OATS) Test Site Locations Conducted EMI The AC power line conducted emissions testing performed in a shielded screen room located at Rogers Labs, Inc., 4405 W. 259th Terrace, Louisburg, KS Radiated EMI The radiated emissions tests were performed at the 3 meters, Open Area Test Site (OATS) located at Rogers Labs, Inc., 4405 W. 259th Terrace, Louisburg, KS Site Registration Refer to Annex for Site Registration Letters NVLAP Accreditation Lab code 200087-0 Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 11 of 32

NVLAP Lab Code 200087-0 List of Test Equipment A Rohde and Schwarz ESU40 and/or Hewlett Packard 8591EM was used as the measuring device for the emissions testing of frequencies below 1 GHz. A Rohde and Schwarz ESU40 and/or Hewlett Packard 8562A Spectrum Analyzer was used as the measuring device for testing the emissions at frequencies above 1 GHz. The analyzer settings used are described in the following table. Refer to the appendix for a complete list of test equipment. AC Line Conducted Emissions (0.150 -30 MHz) RBW AVG. BW Detector Function 9 kHz 30 kHz Peak / Quasi Peak Emissions (30-1000 MHz) RBW AVG. BW Detector Function 120 kHz 300 kHz Peak / Quasi Peak Emissions (Above 1000 MHz) RBW Video BW Detector Function 100 kHz 100 kHz Peak 1 MHz 1 MHz Peak / Average Equipment Manufacturer Model (SN) Band Cal Date Due LISN Comp. Design FCC-LISN-2-MOD.CD (126) .15-30MHz 10/14 10/15 Cable Time Microwave 750HF290-750 (L10M) 9kHz-40 GHz 10/14 10/15 Cable Belden RG-58 (L1-CAT3-11509) 9kHz-30 MHz 10/14 10/15 Cable Belden RG-58 (L2-CAT3-11509) 9kHz-30 MHz 10/14 10/15 Antenna ARA BCD-235-B (169) 20-350MHz 10/14 10/15 Antenna EMCO 3147 (40582) 200-1000MHz 10/14 10/15 Antenna Com Power AH-118 (10110) 1-18 GHz 10/14 10/15 Antenna Com Power AH-840 (101046) 18-40 GHz 5/14 5/15 Antenna EMCO 6509 (9502-1374) .001-30 MHz 10/14 10/15 Antenna Sunol JB-6 (A100709) 30-1000 MHz 10/14 10/15 Antenna Standard FXRY638A (621786) 10-18 GHz 5/14 5/15 Antenna EMCO 3143 (9607-1277) 20-1200 MHz 5/14 5/15 Analyzer HP 8591EM (3628A00871) 9kHz-1.8GHz 5/14 5/15 Analyzer HP 8562A (3051A05950) 9kHz-110GHz 5/14 5/15 Analyzer Rohde & Schwarz ESU40 (100108) 20Hz-40GHz 5/14 5/15 Amplifier Com-Power PA-010 (171003) 100Hz-30MHz 10/14 10/15 Amplifier Com-Power CPPA-102 (01254) 1-1000 MHz 10/14 10/15 Amplifier Com-Power PAM-118A (551014) 0.5-18 GHz 10/14 10/15 Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 12 of 32

NVLAP Lab Code 200087-0 Units of Measurements Conducted EMI Data is in dBµV; dB referenced to one microvolt Radiated EMI Data is in dBµV/m; dB/m referenced to one microvolt per meter Sample Calculation: RFS = Radiated Field Strength, FSM = Field Strength Measured A.F. = Receive antenna factor, Gain = amplification gains and/or cable losses RFS (dBµV/m @ 3m) = FSM (dBµV) + A.F. (dB) - Gain (dB) Environmental Conditions Ambient Temperature 22.0° C Relative Humidity 36% Atmospheric Pressure 1023.0 mb Intentional Radiators As per CFR47, Subpart C, paragraph 15.247 and RSS-210 the following information is submitted. Antenna Requirements The EUT incorporates integral antenna system and offers no provision for connection to alternate system. The antenna connection point complies with the unique antenna connection requirements. The requirements of 15.203 are fulfilled; there are no deviations or exceptions to the specification. Restricted Bands of Operation Spurious emissions falling in the restricted frequency bands of operation were measured at the OATS. The EUT utilizes frequency, determining circuitry, which generates harmonics falling in the restricted bands. Emissions were investigated at the OATS, using appropriate antennas or pyramidal horns, amplification stages, and spectrum analyzer. Peak and average amplitudes of frequencies above 1000 MHz were compared to the required limits with worst-case data presented below. Test procedures of ANSI C63.10-2013 paragraph 6 were used during testing. No other significant emission was observed which fell into the restricted bands of operation. Computed emission values take into account the received and measured radiated field strength, receive antenna correction factor, amplifier gain stage, and test system cable losses. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 13 of 32

NVLAP Lab Code 200087-0 Table 1 General Radiated Emissions in Restricted Bands Data Frequency in Horizontal Horizontal Horizontal Vertical Vertical Vertical Limit @ 3m MHz Peak Quasi-Peak Average Peak Quasi-Peak Average (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) 123.5 33.0 29.1 N/A 30.2 26.8 N/A 43.5 125.0 34.7 30.1 N/A 31.2 27.1 N/A 43.5 127.6 36.0 30.6 N/A 27.9 22.8 N/A 43.5 129.1 38.3 33.3 N/A 38.9 36.7 N/A 43.5 130.5 37.4 32.6 N/A 26.9 20.8 N/A 43.5 206.5 38.5 33.9 N/A 32.5 26.8 N/A 43.5 208.0 37.8 33.7 N/A 30.8 25.5 N/A 43.5 208.2 38.2 33.6 N/A 30.5 25.1 N/A 43.5 208.9 40.2 37.5 N/A 29.3 25.1 N/A 43.5 331.7 41.6 36.3 N/A 45.3 38.8 N/A 46.0 334.5 37.6 32.5 N/A 40.8 35.0 N/A 46.0 1000.0 38.4 N/A 19.3 39.3 N/A 29.9 46.0 1026.2 33.3 N/A 19.2 38.7 N/A 18.8 54.0 1185.5 28.3 N/A 14.7 34.7 N/A 15.2 54.0 Other emissions present had amplitudes at least 20 dB below the limit. Peak and Quasi-Peak amplitude emissions are recorded above for frequencies below 1000 MHz. Peak and Average amplitude emissions are recorded frequencies above 1000 MHz. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 14 of 32

NVLAP Lab Code 200087-0 Table 2 Harmonic Radiated Emissions in Restricted Bands Worst-case Frequency in Horizontal Horizontal Horizontal Vertical Vertical Vertical Limit @ 3m MHz Peak Quasi-Peak Average Peak Quasi-Peak Average (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) 2390.0 49.6 N/A 34.3 57.4 N/A 47.9 54.0 2483.5 57.3 N/A 40.1 57.8 N/A 46.7 54.0 4824.0 50.7 N/A 42.5 54.2 N/A 52.6 54.0 4874.0 50.7 N/A 43.4 53.7 N/A 51.7 54.0 4924.0 54.0 N/A 16.6 16.1 N/A 51.5 54.0 7236.0 47.1 N/A 34.2 47.6 N/A 34.3 54.0 7311.0 47.1 N/A 34.3 47.5 N/A 34.5 54.0 7386.0 54.0 N/A 16.6 16.1 N/A 34.9 54.0 12060.0 52.8 N/A 39.8 52.5 N/A 39.7 54.0 12185.0 53.4 N/A 40.7 53.0 N/A 40.2 54.0 12310.0 54.4 N/A 41.4 54.4 N/A 41.2 54.0 14472.0 59.7 N/A 46.7 59.2 N/A 46.5 54.0 Other emissions present had amplitudes at least 20 dB below the limit. Peak and Quasi-Peak amplitude emissions are recorded above for frequencies below 1000 MHz. Peak and Average amplitude emissions are recorded frequencies above 1000 MHz. Summary of Results for Radiated Emissions in Restricted Bands The EUT demonstrated compliance with the radiated emissions requirements of CFR 47 Part 15C and RSS-210 Intentional Radiators. The EUT demonstrated a worst-case minimum margin of -1.4 dB below the radiated emissions requirements in restricted frequency bands. Peak, Quasi-peak, and average amplitudes were checked for compliance with the regulations. Worst- case emissions are reported with other emissions found in the restricted frequency bands at least 20 dB below the requirements. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 15 of 32

NVLAP Lab Code 200087-0 AC Line Conducted Emissions Procedure The EUT was arranged in a typical equipment configuration and placed on a 1 x 1.5-meter wooden bench 80 cm above the conducting ground plane, floor of a screen room. The bench was positioned 40 cm away from the wall of the screen room. The LISN was positioned on the floor of the screen room 80-cm from the rear of the EUT. The manufacturer supplied AC power adapter for the EUT was connected to the LISN. A second LISN was positioned on the floor of the screen room 80-cm from the rear of the supporting equipment of the EUT. All power cords except the EUT were then powered from the second LISN. EMI was coupled to the spectrum analyzer through a 0.1 μF capacitor, internal to the LISN. Power line conducted emissions testing were carried out individually for each current carrying conductor of the EUT. The excess length of lead between the system and the LISN receptacle was folded back and forth to form a bundle not exceeding 40 cm in length. The screen room, conducting ground plane, analyzer, and LISN were bonded together to the protective earth ground. Preliminary testing was performed to identify the frequency of each radio frequency emission displaying the highest amplitude. The cables were repositioned to obtain maximum amplitude of measured EMI level. Once the worst- case configuration was identified, plots were made of the EMI from 0.15 MHz to 30 MHz then the data was recorded with maximum conducted emissions levels. Refer to figures one and two for plots of the EUT powered by manufacturer supplied AC/DC adapter, AC Power Line conducted emissions. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 16 of 32

NVLAP Lab Code 200087-0 Figure 1 AC Line Conducted Emissions Line 1 Figure 2 AC Line Conducted Emissions Line 2 Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 17 of 32

NVLAP Lab Code 200087-0 Table 3 AC Line Conducted Emissions Data L1 Other emissions present had amplitudes at least 20 dB below the limit. Table 4 AC Line Conducted Emissions Data L2 Other emissions present had amplitudes at least 20 dB below the limit. Summary of Results for AC Line Conducted Emissions The EUT demonstrated compliance to the conducted emissions requirements of CFR47 Part 15C and RSS-210. The EUT demonstrated minimum margin of -2.9 dB below the limit. Measurements were taken using the peak, quasi peak, and average, measurement function for each emissions amplitude and were below the limits stated in the specification. Other emissions were present with recorded data representing worst-case amplitudes. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 18 of 32

NVLAP Lab Code 200087-0 General Radiated Emissions Procedure The EUT was arranged in a typical equipment configuration and operated through all available modes with worst-case data recorded. Preliminary testing was performed in a screen room with the EUT positioned 1 meter from the FSM. Radiated emissions measurements were performed to identify the frequencies, which produced the highest emissions. Each radiated emission was then maximized at the OATS location before final radiated emissions measurements were performed. Final data was taken with the EUT located at the OATS at a distance of 3 meters between the EUT and the receiving antenna. The frequency spectrum from 9 kHz to 25,000 MHz was searched for general radiated emissions. Measured emission levels were maximized by EUT placement on the table, rotating the turntable through 360 degrees, varying the antenna height between 1 and 4 meters above the ground plane and changing antenna position between horizontal and vertical polarization. Antennas used were Loop from 9 kHz to 30 MHz, Broadband Biconical from 30 to 200 MHz, Biconilog from 30 to 1000 MHz, Log Periodic from 200 MHz to 1 GHz and or double Ridge or pyramidal horns and mixers from 1 GHz to 40 GHz, notch filters and appropriate amplifiers and external mixers were utilized. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 19 of 32

NVLAP Lab Code 200087-0 Table 5 General Radiated Emissions from EUT Data (Highest Emissions) Frequency in Horizontal Horizontal Horizontal Vertical Vertical Vertical Limit @ 3m MHz Peak Quasi-Peak Average Peak Quasi-Peak Average (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) 114.2 35.3 30.5 N/A 34.1 29.3 N/A 43.5 143.8 34.3 30.5 N/A 34.8 31.2 N/A 43.5 145.0 34.4 28.7 N/A 33.4 28.0 N/A 43.5 145.1 34.0 29.2 N/A 33.8 28.1 N/A 43.5 146.7 35.2 33.0 N/A 32.2 26.6 N/A 43.5 226.5 38.5 33.9 N/A 28.5 22.9 N/A 46.0 337.7 38.7 32.5 N/A 38.3 31.2 N/A 46.0 339.1 39.2 32.9 N/A 36.5 31.2 N/A 46.0 340.5 40.3 33.5 N/A 34.7 29.6 N/A 46.0 342.0 39.4 33.8 N/A 34.3 28.8 N/A 46.0 353.9 41.5 35.2 N/A 32.1 26.7 N/A 46.0 390.3 37.2 31.9 N/A 38.0 32.5 N/A 46.0 391.7 34.4 28.8 N/A 36.2 31.1 N/A 46.0 500.0 37.6 31.9 N/A 39.0 36.8 N/A 46.0 Other emissions present had amplitudes at least 20 dB below the limit. Peak and Quasi-Peak amplitude emissions are recorded for frequencies below 1000 MHz. Peak and Average amplitude emissions are recorded for frequencies above 1000 MHz. Summary of Results for General Radiated Emissions The EUT demonstrated compliance with the radiated emissions requirements of CFR47 Part 15C paragraph 15.209 and RSS-210. The EUT demonstrated a minimum margin of -9.2 dB below the requirements. Other emissions were present with amplitudes at least 20 dB below the Limits. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 20 of 32

NVLAP Lab Code 200087-0 Operation in the Band 2400 – 2483.5 MHz Radiated emissions were measured on the Open Area Test Site (OATS) at a three-meter distance. The EUT utilizes permanently attached printed circuit board antenna. The EUT was placed on a wooden turntable 0.8 meters above the ground plane at a distance of 3 meters from the FSM antenna located on the OATS. The peak and quasi-peak amplitude of the frequencies below 1000 MHz were measured using a spectrum analyzer. The peak and average amplitude of emissions above 1000 MHz were measured using a spectrum analyzer. Emissions data was recorded from the measurement results. Data presented reflects measurement result corrected to account for measurement system gains and losses. Plots were made of transmitter performance for reference purposes. Refer to figures three through eight showing plots of the EUT performance displaying compliance with the specifications. This product utilizes permanently attached antenna system and offers no provision for antenna port conducted measurements. As such, the testing procedures as defined in publications KDB 558074 D01 DTS Meas Guidance v03r02, KDB 662911 D02, and ANSI C63.10-2013 were utilized during compliance testing. These procedures provide for antenna port measurement or measurement of maximum field strength and conversion calculations for comparison with requirements. 1. Calculate the transmitter's peak power using the following equations: Measure and Sum emissions in both polarizations, convert to power based on antenna gain, and sum the power across the two polarizations. P = (E * d)2 / (30 * G) Where: E = the measured maximum field strength in V/m. G = the numeric gain of the transmitting antenna over an isotropic radiator. d = the distance in meters from which the field strength was measured. P = the power in watts Setting the RBW > 6dB bandwidth of the emission or using a peak power meter Measured power with power meter, summed power across both polarizations and accounting for antenna gain per KDB 662911 provided calculated output power as presented in the table below 2. Emission Bandwidth was measured in compliance with KDB 558074 paragraph 8. 3. Maximum Peak Output Power was measured in compliance with KDB 662911. 4. Maximum Power Spectral Density was measured in compliance with KDB 662911. 5. Maximum Unwanted Emissions Levels were measured in compliance with KDB 558074 paragraph 11, and KDB 662911, and CFR47 paragraph 15C at 3-meters distance located on the OATS. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 21 of 32

NVLAP Lab Code 200087-0 Figure 3 Plot of Transmitter Emissions (Across Operation Band, 20 MHz channel) Figure 4 Plot of Low Band Edge (20 MHz Channel) Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 22 of 32

NVLAP Lab Code 200087-0 Figure 5 Plot of High Band Edge (20 MHz Channel) Figure 6 Plot of Transmitter Emissions (Across Operational Band, 40 MHz Channel) Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 23 of 32

NVLAP Lab Code 200087-0 Figure 7 Plot of Transmitter Low Band Edge (40 MHz Channel) Figure 8 Plot of Transmitter High Band Edge (40 MHz Channel) Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 24 of 32

NVLAP Lab Code 200087-0 Transmitter Emissions Data Table 6 Transmitter Radiated Emission Worst-case Frequency in Horizontal Horizontal Vertical Peak Vertical Average Limit @ 3m MHz Peak (dBµV/m) Average (dBµV/m) (dBµV/m) (dBµV/m) (dBµV/m) 2412.0 97.0 89.7 100.7 93.5 -- 4824.0 50.7 42.5 54.2 52.6 54.0 7236.0 47.1 34.2 47.6 34.3 54.0 9648.0 50.0 36.7 49.3 36.8 54.0 12060.0 52.8 39.8 52.5 39.7 54.0 14472.0 59.7 46.7 59.2 46.5 54.0 16884.0 60.0 46.8 60.8 47.0 54.0 2437.0 97.0 89.6 100.3 93.0 -- 4874.0 50.7 43.4 53.7 51.7 54.0 7311.0 47.1 34.3 47.5 34.5 54.0 9748.0 50.7 37.3 50.2 37.2 54.0 12185.0 53.4 40.7 53.0 40.2 54.0 14622.0 58.9 45.7 58.2 45.4 54.0 17059.0 58.3 45.6 58.5 45.7 54.0 2462.0 96.6 89.5 100.7 93.8 -- 4924.0 52.1 44.3 54.8 51.5 54.0 7386.0 47.7 34.7 48.1 34.9 54.0 9848.0 50.3 36.9 50.7 36.9 54.0 12310.0 54.4 41.4 54.4 41.2 54.0 14772.0 58.6 45.2 58.2 45.1 54.0 17234.0 58.3 45.0 57.7 44.9 54.0 Other emissions present had amplitudes at least 20 dB below the limit. Peak and Quasi-Peak amplitude emissions are recorded for frequencies above 1000 MHz. Peak and Average amplitude emissions are recorded for frequencies above 1000 MHz. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 25 of 32

NVLAP Lab Code 200087-0 Table 7 Calculated Transmitter Antenna Port Power Frequency Calculated Conducted Antenna Occupied Calculated Power Spectral MHz Port Output Power (Watts) Bandwidth (kHz) Density (dBm) 20 MHz Channel 2412 0.070 13160 -6.3 2437 0.064 14120 -8.5 2462 0.071 13160 -7.5 40 MHz Channel 2422 0.070 35674 -12.5 2447 0.058 36202 -14.3 2452 0.066 35212 -13.3 Summary of Results for Transmitter Radiated Emissions of Intentional Radiator The EUT demonstrated compliance with the radiated emissions requirements of CFR47 Part 15.247 and RSS-210. Calculated Peak conducted power of 18.5 dBm, 0.071 Watts. Power calculations include operation as 2x2 MIMO with design incorporating permanently attached internal antenna system. The peak power spectral density presented a minimum margin of -14.3 dB below the requirements. The EUT demonstrated a minimum margin of -1.4 dB below the harmonic emissions requirements. There were no other significantly measurable emissions in the restricted bands other than those recorded in this report. Other emissions were present with amplitudes at least 20 dB below the requirements. There were no other deviations or exceptions to the requirements. Statement of Modifications and Deviations No modifications to the EUT were required for the unit to demonstrate compliance with the requirements of CFR47 Part 15C and RSS-210. There were no deviations to the specifications. Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 26 of 32

NVLAP Lab Code 200087-0 Annex  Annex A Measurement Uncertainty Calculations  Annex B Rogers Labs Test Equipment List  Annex C Rogers Qualifications  Annex D FCC Site Registration Letter  Annex E Industry Canada Site Registration Letter Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 27 of 32

NVLAP Lab Code 200087-0 Annex A Measurement Uncertainty Calculations Measurement uncertainty calculations were made for the laboratory. Result of measurement uncertainty calculations are recorded below for AC line conducted and radiated emission measurements. Measurement Uncertainty U(E) U(lab) 3 Meter Horizontal 30-200 MHz Measurements 2.08 4.16 3 Meter Vertical 30-200 MHz Measurements 2.16 4.33 3 Meter Vertical Measurements 200-1000 MHz 2.99 5.97 10 Meter Horizontal Measurements 30-200 MHz 2.07 4.15 10 Meter Vertical Measurements 30-200 MHz 2.06 4.13 10 Meter Horizontal Measurements 200-1000 MHz 2.32 4.64 10 Meter Vertical Measurements 200-1000 MHz 2.33 4.66 3 Meter Measurements 1-6 GHz 2.57 5.14 3 Meter Measurements 6-18 GHz 2.58 5.16 AC Line Conducted 1.72 3.43 Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 28 of 32

NVLAP Lab Code 200087-0 Annex B Rogers Labs Test Equipment List List of Test Equipment Calibration Date Spectrum Analyzer: Rohde & Schwarz ESU40 5/14 Spectrum Analyzer: HP 8562A, HP Adapters: 11518, 11519, and 11520 5/14 Mixers: 11517A, 11970A, 11970K, 11970U, 11970V, 11970W Spectrum Analyzer: HP 8591EM 5/14 Antenna: EMCO Biconilog Model: 3143 5/14 Antenna: Sunol Biconilog Model: JB6 10/14 Antenna: EMCO Log Periodic Model: 3147 10/14 Antenna: Com Power Model: AH-118 10/14 Antenna: Com Power Model: AH-840 10/14 Antenna: Antenna Research Biconical Model: BCD 235 10/14 Antenna: EMCO 6509 10/14 LISN: Compliance Design Model: FCC-LISN-2.Mod.cd, 50 μHy/50 ohm/0.1 µf 10/14 R.F. Preamp CPPA-102 10/14 Attenuator: HP Model: HP11509A 10/14 Attenuator: Mini Circuits Model: CAT-3 10/14 Attenuator: Mini Circuits Model: CAT-3 10/14 Cable: Belden RG-58 (L1) 10/14 Cable: Belden RG-58 (L2) 10/14 Cable: Belden 8268 (L3) 10/14 Cable: Time Microwave: 4M-750HF290-750 10/14 Cable: Time Microwave: 10M-750HF290-750 10/14 Frequency Counter: Leader LDC825 2/14 Oscilloscope Scope: Tektronix 2230 2/14 Wattmeter: Bird 43 with Load Bird 8085 2/14 Power Supplies: Sorensen SRL 20-25, SRL 40-25, DCR 150, DCR 140 2/14 R.F. Generators: HP 606A, HP 8614A, HP 8640B 2/14 R.F. Power Amp 65W Model: 470-A-1010 2/14 R.F. Power Amp 50W M185- 10-501 2/14 R.F. Power Amp A.R. Model: 10W 1010M7 2/14 R.F. Power Amp EIN Model: A301 2/14 LISN: Compliance Eng. Model 240/20 2/14 LISN: Fischer Custom Communications Model: FCC-LISN-50-16-2-08 2/14 Antenna: EMCO Dipole Set 3121C 2/14 Antenna: C.D. B-101 2/14 Antenna: Solar 9229-1 & 9230-1 2/14 Audio Oscillator: H.P. 201CD 2/14 ELGAR Model: 1751 2/14 ELGAR Model: TG 704A-3D 2/14 ESD Test Set 2010i 2/14 Fast Transient Burst Generator Model: EFT/B-101 2/14 Field Intensity Meter: EFM-018 2/14 KEYTEK Ecat Surge Generator 2/14 Shielded Room 5 M x 3 M x 3.0 M Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 29 of 32

NVLAP Lab Code 200087-0 Annex C Rogers Qualifications Scot D. Rogers, Engineer Rogers Labs, Inc. Mr. Rogers has approximately 17 years experience in the field of electronics. Engineering experience includes six years in the automated controls industry and remaining years working with the design, development and testing of radio communications and electronic equipment. Positions Held Systems Engineer: A/C Controls Mfg. Co., Inc. 6 Years Electrical Engineer: Rogers Consulting Labs, Inc. 5 Years Electrical Engineer: Rogers Labs, Inc. Current Educational Background 1) Bachelor of Science Degree in Electrical Engineering from Kansas State University. 2) Bachelor of Science Degree in Business Administration Kansas State University. 3) Several Specialized Training courses and seminars pertaining to Microprocessors and Software programming. Scot D. Rogers Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 30 of 32

nvia® I‘ y mcz m zs nsa css wl Nz ww e nz nz s s s w hIIIIVI‘ muor m uy up u> = uw as --va----v—--'—— _ w e se _z FEDERAL COMMUNICATIONS COMMISSION Laboratory Division 7435 Oakland Mills Road Columbia, MD 21046 June 28, 2013 Registration Number: 90910 Rogers Labs, Inc. 4405 West 259th Terrace, Louisburg, KS 66053 Attention: Scot Rogers, Re: Measurement facility located at Louisburg 3 & 10 meter site Date of Renewal: June 28, 2013 Dear Sir or Madam: Your request for renewal of the registration of the subject measurement facility has been received. The information submitted has been placed in your file and the registration has been renewed. The name of your organization will remain on the list of facilities whose measurement data will be accepted in conjunction with applications for Certification under Parts 15 or 18 of the Commission‘s Rules. Please note that the file must be updated for any changes made to the facility and the registration must be renewed at least every three years. Measurement facilities that have indicated that they are available to the public to perform measurement services on a fee basis may be found on the FCC website www.fce.gov under E—Filing, OET Equipment Authorization Electronic Filing, Test Firms. PhYyilis Parrish Industry Analyst EXVUJZUIL:O® 1—_ULiJ. ALIV. a y apara \/ cA axaay ons ala m —woon k a d wow o2 2 22 a n ww m w wox x saxls2 a y e N ce w e aak icz ___~.— I PR CLLA L t Z P OJ P UJQJ 7 C L L CT o NJb ENX +0 Noib ow d NoA e e en nb Z v L as aavw s aragaaa w raaaaks aaa aea css n n e oge > IXV Y1OIUIL

NVLAP Lab Code 200087-0 Annex E Industry Canada Site Registration Letter Rogers Labs, Inc. Mikrotikls SIA 4405 W. 259th Terrace Model: hAP Lite FCC ID#: TV7RB941-2ND Louisburg, KS 66053 Test #: 150210 IC: 7442A-9412ND Phone/Fax: (913) 837-3214 Test to: CFR47 (15.247) Date: February 26, 2015 Revision 1 File: Mikrotikls hAP Lite TstRpt 150210 Page 32 of 32


Document Created: 2015-02-26 14:44:04
Document Modified: 2015-02-26 14:44:04
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