CERTIFICATION TEST REPORT

CERTIFICATION TEST REPORT 515 Gus Hipp Blvd. Rockledge, Florida 32955 Telephone (321) 632-2008 http://www.imanna.com Post Office Box 560933 Rockledge, Florida 32956-0933 FAX (321) 690-3360 CERTIFICATION TEST REPORT 20012-3 NAVIGATIONAL LIGHT TESTING 2 MILE TRI-COLOR / ANCHOR NAVIGATION LIGHT TO ABYC AND NMMA REQUIREMENTS FOR LUNASEA LIGHTING / DIGITRON CUSTOMER: Digitron Electronics 9619 Yulee Dr. Homosassa, FL 34448 MANUFACTURER OF TEST ARTICLE: Lunasea Lighting / Digitron DATE: July 22, 2014 REPORT NO.: IMANNA JOB NO.: CUSTOMER P.O. NO.: CONTRACT: PAGES IN REPORT: 20012-3 20012 105408 N/A 21 STATE OF FLORIDA ROBERT L. WHITE, being duly sworn, deposes and says: The information contained in this report is the result of complete and carefully conducted tests and is to the best of his knowledge true and correct in all respects. Imanna shall have no liability for damages of any kind to person or property, including special or consequential damages resulting from Imanna's providing the service covered by the report. SUBSCRIBED and sworn to before me this 22nd day of July, 2014, Inc. TEST BY ALAN BELL PROJ. MANAGER

PAGE NO. 2 1. TEST ARTICLE One base mount LED, combination Tri-Color - All Around - Anchor, Navigational light was received from Digitron / Lunasea Lighting Inc. for test. The light operates in two modes, one as a port and starboard sidelight with a sternlight or as an all around white (anchor) light. The light is designed to be mounted above the sheer line on a boat deck. 2. PART NUMBER Tri-Color Light LLB 53BK-81-00 designed to meet 2 Mile requirements 3. REQUIREMENTS The requirements for this effort are to test the light in accordance with the USCG COLREG 1972 (IMO) standards and verify conformance with the navigation light regulations of ABYC A-16. 4. PROCEDURES The procedure used in performing this test program is IMANNA Laboratory, Inc. Test Procedure NAV-LITE-1. This procedure details the requirements and procedures specified in the NMMA Certification Handbook under the section entitled Navigation Lights without additions or deletions. The procedure contains the detailed steps necessary to determine the compliance of the test specimen to the USCG IMO requirements. 5. TESTING SEQUENCE Receiving Inspection Functional Operation Chromaticity Test Luminous Intensity Tests Cut-off Angle Verification Weathertightness Test Marking/label examination and test 6. RESULTS The results of the tests performed are presented below by their order within the test sequence.

PAGE NO. 3 6.1 RECEIVING INSPECTION One light sample was received for test. The light appeared to in good condition and ready for testing. 6.2 FUNCTIONAL OPERATION The light was mounted on a panel simulating a boat deck surface then operated and tested using a DC electrical power supply set at 12.84 VDC. 6.3 CHROMATICITY TEST The chromaticity of the light emissions from the Red light was measured and found to be within the Red Light range as specified by the standards. The light emissions from the Green light was measured and found to be within the Green Light range as specified by the standards. The light emissions from the White lights were measured and found to be within the White Light range as specified by the standards. Chromaticity charts are included in the Appendix. 6.4 LUMINOUS INTENSITY TESTS The luminous intensity of the lights was measured to be above the 2 mile limit of 4.3 candelas in the critical areas. 6.5 CUT-OFF ANGLE VERIFICATION The light intensities that were measured were graphed and are included in the Appendix. The graphs also include the minimum required cut-off angles of 4.3 candelas for each of the four light sectors. The data for the light sample shows that the light emits sufficient light in the required zones and prevents light from entering the keep out zones. This indicates that the light meets the photometric requirements of the standard. 6.6 WEATHERTIGHTNESS TEST Since the light will be installed above the sheer line, it was subjected to the Weathertightness Test. This test consisted of a continuous water spray using nozzles over the entire top and all exposed sides of the structure for 15 minutes at a rate of at least two inches (50mm) per hour, at an operating pressure of five psi (0.352 kilograms per square centimeter). No water intrusion was present after the 15 minute duration and therefore the light meets the weathertightness test.

PAGE NO. 4 6.7 MARKING AND LABELING The light had permanent and indelible markings engraved into the top of the light that provided the minimum information required the CFR (USCG 2NM). The remainder of the required information is printed on the brochure in the box that the light is sold in. (The smallest package sold with the light inside). 6.8 MARKING AND LABELING To be in full compliance with the USCG regulations a light must also be in compliance with the marking requirements listed in 33 CFR 183.810 that state in part that a light must: (3) Bear a permanent and indelible label that is visible without removing or disassembling the light and states the following: (i) USCG Approval 33 CFR 183.810. (ii) Meets ABYC A-16. (iii) Tested by Imanna Lab., Inc. if tested by Imanna or other appropriate lab if not (iv) Name of manufacturer. (v) Number of model. (vi) Visibility of the light in nautical miles. (vii) Date on which the light was type-tested. (viii) Identification and specifications of the bulb used in the compliance test. If a light is too small to attach the required label (1) Place the information from the label in or on the package that contains the light: and (2) Mark the light USCG followed by the certified range of visibility in nautical miles. Once installed, this mark must be visible without removing the light. 7.0 COMMENTS AND OBSERVATIONS The data from these tests show that the sample tested meets the requirements of the standards listed above for sail and power driven vessels 12-50 meters in length. Additionally the light meets the USCG / IMO COLREGS requirements for vessels between 12 and 50 meters in length. The results presented herein apply only to the test specimen as prepared and as tested on the date reported. All equipment used in the performance of these tests was calibrated to standards traceable to the N.I.S.T and/or verified at the time of the test using

PAGE NO. 5 internationally recognized methods to validate the accuracy and repeatability of the values recorded or collected during the tests. Figure 1: view of tested light

PAGE NO. 6 APPENDIX SUPPORTING DATA

PAGE NO. 7.35.34.33.32 0.660 x 0.320 0.680 x 0.320.31.30.29.28.27.26 0.721 x 0.259 0.735 x 0.265.25.24.23.65.66.67.68.69.70.71.72.73.74 CHROMATICITY NMMA RED Light Color Coordinates Test Sample Measurements are: X = 0.677 Y = 0.306 Figure 2: Port Sidelight Chromaticity

PAGE NO. 8.90.85.80.75 0.009 x 0.723.70.65.60.55 0.300 x 0.511.50.45.40.35 0.028 x 0.385 0.203 x 0.356.30.00.05.10.15.20.25.30.35.40.45 CHROMATICITY NMMA GREEN Light Color Coordinates Test Sample Measurements are: X = 0.078 Y = 0.447 Figure 3: Starboard Sidelight Chromaticity

PAGE NO. 9 Figure 4: Bi-Color Light Horizontal Cut-Offs

PAGE NO. 10 Figure 5: Bi-Color Light Starboard Vertical Cut-Offs

PAGE NO. 11 Figure 6: Bi-Color Light Port Vertical Cut-Offs

PAGE NO. 12.48.46.44 0.452 x 0.440 0.525 x 0.440.42.40.38 0.443 x 0.382 0.525 x 0.382.36.34 0.310 x 0.348.32.30.28 0.310 x 0.283.26.24.20.25.30.35.40.45.50.55.60.65 CHROMATICITY NMMA WHITE Light Color Coordinates Test Sample Measurements are: X = 0.328 Y = 0.314 Figure 7: Stern Light Chromaticity

PAGE NO. 13 Figure 8: Sternlight Horizontal Cut-Offs

PAGE NO. 14 Figure 9: Sternlight Vertical Cut-Offs

PAGE NO. 15.48.46.44 0.452 x 0.440 0.525 x 0.440.42.40.38 0.443 x 0.382 0.525 x 0.382.36.34 0.310 x 0.348.32.30.28 0.310 x 0.283.26.24.20.25.30.35.40.45.50.55.60.65 CHROMATICITY NMMA WHITE Light Color Coordinates Test Sample Measurements are: X = 0.326 Y = 0.311 Figure 10: All-Around White Chromaticity

PAGE NO. 16 Figure 11: AA White Light Horizontal Cut-Offs (0 deg)

PAGE NO. 17 Figure 12: AA White Light Horizontal Cut-Offs (-5 deg)

PAGE NO. 18 Figure 13: AA White Light Horizontal Cut-Offs (-7.5 deg)

PAGE NO. 19 Figure 14: AA White Light Horizontal Cut-Offs (+5 deg)

PAGE NO. 20 Figure 15: AA White Light Horizontal Cut-Offs (+7.5 deg)

PAGE NO. 21 Figure 16: AA White Light Vertical Cut-Offs