1、 TIA STANDARD FOTP-181 Lightning Damage Susceptibility Test for Fiber Optic Cables with Metallic Components TIA455-181 February 1993 TELECOMMUNICATIONS INDUSTRY ASSOCIATION ANSI/TIA-455-181-1992 Approved: December 17, 1992 Reaffirmed: July 3, 2001 NOTICE TIA Engineering Standards and Publications ar
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6、he applicability of regulatory limitations before its use. (From Standards Proposal No. 3-2190-RF1, formulated under the cognizance of the TIA FO-6.7 Subcommittee on Fiber Optic Cable ). Published by TELECOMMUNICATIONS INDUSTRY ASSOCIATION Standards and Technology Department 2500 Wilson Boulevard Ar
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22、 OF THE USE OF THE CONTENTS HEREOF, AND THESE CONTENTS WOULD NOT BE PUBLISHED BY TIA WITHOUT SUCH LIMITATIONS. I- EIA TIA-455-LBL 93 - 3234600 0504546 267 = TIA/EIA-455-181 FOTP-181 LIGHTNING DAMAGE SUSCEPTIBILITY TEST FOR FIBER OPTIC CABLES WITH METALLIC COMPONENTS TABLE OF CONTENTS Section Paqe 1.
23、 INTRODUCTION . . . . . . . . , . . . . . . . . . 1 2. 3. 4. 5. 6. 7. 8. APPENDIX A APPENDIX B REFERENCES APPLICABLE DOCUMENTS . . . . . . . . . . . . . . 2 APPARATUS . . . . . . . . . . . . . . . . . . . 2 SAMPLING AND SPECIMENS . . . . . . . . . . . . . 3 PROCEDURE . . . . . . . . . . . . . . . .
24、. . . 3 CALCULATIONS OR INTERPRETATION OF RESULTS . . . 5 DOCUMENTATION . . . . . . . . . . . . . . . . . 6 SPECIFICATION INFORMATION . . . . . . . . . . . 7 DISCUSSION OF POSSIBLE PASS/FAIL CRITERIA . . . 8 COMPARISON BETWEEN FOTP-181 AND IEC AND CCITT REQUIREMENTS . . . . . . . . . . . . . . . . .
25、 . 9 o 10 EIA TIA-455-LBL 73 323qbOO 0504547 LT3 = TIA/EIA-455-181 Page 1 FOTP-181 LIGHTNING DAMAGE SUSCEPTIBILITY TEST FOR FIBER OPTIC CABLES WITH METALLIC COMPONENTS (From EIA Standards Proposal No. 2190, formulated under the cognizance of TIA FO-6.7, Subcommittee on Fiber Optic Cable.) This FOTP
26、is part of the series of test procedures included within Recommended Standard TIA/EIA-455. 1 . INTRODUCTION 1.1 Lightning currents from nearby strokes to earth, trees, or grounded structures can arc to metallic members of a directly buried optical fiber cable. In high-resistivity soils, or where the
27、re. is a conductive path (such as a tree root), a strike more than a hundred meters away from the cable can still arc to it. Serious damage to the cable can occur from the thermal and mechanical stresses produced by such events. 1.2 This procedure provides a method for electrical-impulse testing of
28、fiber optic cable using specified current waveforms and peak-current levels. The purpose of the method is to simulate the effects of the lightning arc at the point where it attaches to the cable and to establish the relative susceptibility of fiber optic cables to damage from such arcing. 1.3 Lightn
29、ing can result in cable damage that is not simulated by this procedure. Intermediate and continuing currents can produce extensive thermal damage. Secondary arcing between insulated metallic elements can cause damage away from the lightning attachment point. Furthermore, local conditions (e.g., soil
30、 resistivity and geological structure) can be important factors affecting the lightning damage susceptibility of cables. The test method in this procedure does not attempt to simulate any of these effects or the variety of other conditions unique to specific real field environments. - - _ _- EIA TIA
31、-455-141 93 m 3234600 0504548 03T m TIA/EIA-455-181 Page 2 1.4 This test method may involve hazardous operations and equipment. The procedure does not purport to address all of the safety problems associated with its use. It is the responsibility of whoever uses this procedure to consult and establi
32、sh appropriate safety and health practices and determine the applicability of regulatory limitations prior to use. Specific precautions are given in 5.10.1. 2. APPLICABLE DOCUMENTS The following documents form a part of this FOTP to the extent specified herein: EIA-455-13 (FOTP-13) Visual and Mechan
33、ical Inspection of Fiber Optic Components, Devices and Assembliest1 CCITT Blue Book, Vol. IX “Protection Against Interference“ Recommendation K.25 3. APPARATUS 3.1 An impulse generator capable of providing the required current waveform and the specified peak-current level. 3.2 Equipment for monitori
34、ng and recording the test waveform. The publications listed in the Reference section provide details about high-voltage test equipment. 3.3 A rigid nonmetallic test box measuring a minimum of 0.75 m (30 in) in all inside linear dimensions. The box shall have two holes in the bottom for water drainag
35、e, approximately 25 mm (1 in) in diameter. 3.4 A discharge electrode, 19 mm (3/4 in) in diameter with a rounded end with radius 9.5 mm (3/8 in), positioned near the center of the test box. The electrode shall be securely attached to the test box so that it will not be disturbed by the forces that de
36、velop during the impulse tests. 3.5 A volume of 20 to 40 mesh pure silica sand to fill the test box. 3.6 A supply of tap water. TIA/EIA-455-181 Page 3 3.7 Equipment for indicating optical discontinuities (e.g., a high intensity light, a helium-neon laser or a local injection and detection device), a
37、s appropriate. 4. SAMPLING AND SPECIMENS 4.1 Obtain test samples of optical fiber cable that contain one or moremetallicmembers and are representative of a completed optical fiber cable of the particular design to be tested. Each sample shall be approximately 1 m (39 in) in length. 4.2 Prepare each
38、cable sample by electrically shorting together, at each end, all of the metallic members (conductors, armor, strength members, etc.) contained in the sample. 4.3 Prepare each sample to ensure that a discharge to the metallic members can occur. If, for example, the cable has metallic armor that is co
39、vered by a plastic jacket, provide a small.hole (maximum diameter of 2.5 mm (0.1 in) in the jacket to the depth of the armor. Locate the hole approximately midway along the sample length and approximately 180 degrees from the seam overlap of the armor. The hole in the plastic jacket may be made afte
40、r the sample is positioned (see 5.6) in the test box. 5. PROCEDURE 5.1 Verify that all of the fibers in each test sample are optically continuous before beginning impulse testing. Fiber continuity may be established visually using a high intensity lamp or a helium-neon laser (both of which produce v
41、isible light). Other equivalent means of optical continuity testing (e.g., a local injection and detection device) may also be used. Record results of this pretest examination. 5.2 Position the discharge electrode near the center of the test box, with the electrode (or a lead connected to it) extend
42、ing outside the box. 5.3 Prior to commencement of a series of tests, completely fill the test box with sand. Thoroughly saturate the sand with water and then allow the excess water to drain from the box for a period of at least 5 minutes prior to the introduction of a test sample. Saturation of the
43、sand in the test box with water should be repeated at intervals of 8 hours or less to compensate for the drying effects of the impulse tests and drainage. _. EIA TIA-455-LL 93 3234600 0504550 798 TIA/EIA-455-181 Page 4 5.4 Prepare a premixture of wet sand containing 15% water by weight by combining,
44、 in a separate and nondrainhg container, 600 grams of dry sand and 106 grams of tap water. NOTE: Laboratory instruments are commercially available for the measurement of the water content of the sand medium. 5.5 Form a horizontal channel in the sand by removing sand from the filled test box as neces
45、sary. Form the channel to the depth of the discharge electrode and approximately 25 mm (1 in) from it. Set aside (for later use in 5.9) the sand removed from the box. 5.6 Place a prepared cable sample in the channel such that it is 25 to 27 m (0.98 to 1.06 in) from the electrode at its closest point
46、. To the extent possible, adjust the positioning of the sample in the channel to ensure that the discharge will be to the metallic members facing the electrode (i.e. , the hole in the jacket should face the electrode). 5.6.2 To minimize the possibility that the parameters of the test current wavefor
47、m will not conform to the values of 5.10 (and thereby necessitate that a tested sample be discarded), it is advisable at the start of a series of tests to first make trial discharges to a solid brass rod. Placement of the rod and sand preparation should be the same as for a test sample. The current
48、waveforms for discharges to the rod should be checked to determine whether the required values for the parameters are obtained. 5.7 Connect together all of the metallic members at both ends of the cable sample and connect these to the return (ground) terminal of the impulse generator. Connect the di
49、scharge electrode lead to the other terminal of the impulse generator. 5.8 Introduce the wet sand premixture of 5.4 into the test box in the region where the discharge will occur. Additional sand may have to be removed from the box for this purpose. In the region of the intended discharge, the premixed sand should fill in the volume between the sample and the electrode, surround the test sample, and cover the tip of the electrode. 5.9 Cover the premixture with a 100 mm (4 in) layer of sand (as removed in 5.5) -and hand tamp. Then fill the test box with the remaining sa