PART 171--NON-FEDERAL NAVIGATION FACILITIES Subpart A--VOR Facilities Sec. 171.1 Scope. 171.3 Requests for IFR procedure. 171.5 Minimum requirements for approval. 171.7 Performance requirements. 171.9 Installation requirements. 171.11 Maintenance and operations requirements. 171.13 Reports. Subpart B--Nondirectional Radio Beacon Facilities 171.21 Scope. 171.23 Requests for IFR procedure. 171.25 Minimum requirements for approval. 171.27 Performance requirements. 171.29 Installation requirements. 171.31 Maintenance and operations requirements. 171.33 Reports. Subpart C--Instrument Landing System (ILS) Facilities 171.41 Scope. 171.43 Requests for IFR procedure. 171.45 Minimum requirements for approval. 171.47 Performance requirements. 171.49 Installation requirements. 171.51 Maintenance and operations requirements. 171.53 Reports. Subpart D--True Lights 171.61 Air navigation certificate: Revocation and termination. Subpart E--General 171.71 Materials incorporated by reference. 171.73 Alternative forms of reports. 171.75 Submission of requests. Subpart F--Simplified Directional Facility (SDF) 171.101 Scope. 171.103 Requests for IFR procedure. 171.105 Minimum requirements for approval. 171.107 Definition. 171.109 Performance requirements. 171.111 Ground standards and tolerances. 171.113 Installation requirements. 171.115 Maintenance and operations requirements. 171.117 Reports. Subpart G--Distance Measuring Equipment (DME) 171.151 Scope. 171.153 Requests for IFR procedure. 171.155 Minimum requirements for approval. 171.157 Performance requirements. 171.159 Installation requirements. 171.161 Maintenance and operations requirements. 171.163 Reports. Subpart H--VHF Marker Beacons 171.201 Scope. 171.203 Requests for IFR procedure. 171.205 Minimum requirements for approval. 171.207 Performance requirements. 171.209 Installation requirements. 171.211 Maintenance and operations requirements. 171.213 Reports. Subpart I--Interim Standard Microwave Landing System (ISMLS) 171.251 Scope. 171.253 Definitions. 171.255 Requests for IFR procedures. 171.257 Minimum requirements for approval. 171.259 Performance requirements: General. 171.261 Localizer performance requirements. 171.263 Localizer automatic monitor system. 171.265 Glide path performance requirements. 171.267 Glide path automatic monitor system. 171.269 Marker beacon performance requirements. 171.271 Installation requirements. 171.273 Maintenance and operations requirements. 171.275 Reports. Subpart J--Microwave Landing System (MLS) 171.301 Scope. 171.303 Definitions. 171.305 Requests for IFR procedure. 171.307 Minimum requirements for approval. 171.309 General requirements. 171.311 Signal format requirements. 171.313 Azimuth performance requirements. 171.315 Azimuth monitor system requirements. 171.317 Approach elevation performance requirements. 171.319 Approach elevation monitor system requirements. 171.321 DME and marker beacon performance requirements. 171.323 Fabrication and installation requirements. 171.325 Maintenance and operations requirements. 171.327 Operational records. Authority: 49 U.S.C. app. 1343, 1346, 1348, 1354(a), 1355, 1401, 1421-1430, 1472(c), 1502, and 1522; 49 U.S.C. 106(g). Source: Docket No. 5034, 29 FR 11337, Aug. 6, 1964, unless otherwise noted. Subpart A--VOR Facilities Sec. 171.1 Scope. This subpart sets forth minimum requirements for the approval and operation on non-Federal VOR facilities that are to be involved in the approval of instrument flight rules and air traffic control procedures related to those facilities. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-2, 31 FR 5408, Apr. 6, 1966; Amdt. 171-7, 35 FR 12711, Aug. 11, 1970] Sec. 171.3 Requests for IFR procedure. (a) Each person who requests an IFR procedure based on a VOR facility that he owns must submit the following information with that request: (1) A description of the facility and evidence that the equipment meets the performance requirements of Sec. 171.7 and is installed in accordance with Sec. 171.9. (2) A proposed procedure for operating the facility. (3) A proposed maintenance organization and maintenance manual that meets the requirements of Sec. 171.11. (4) A statement of intention to meet the requirements of this subpart. (5) A showing that the facility has an acceptable level of operational reliability and an acceptable standard of performance. Previous equivalent operational experience with a facility with identical design and operational characteristics will be considered in showing compliance with this paragraph. (b) After the FAA inspects and evaluates the facility, it advises the owner of the results and of any required changes in the facility or the maintenance manual or maintenance organization. The owner must then correct the deficiencies, if any, and operate the facility for an in-service evaluation by the FAA. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-7, 35 FR 12711, Aug. 11, 1970] Sec. 171.5 Minimum requirements for approval. (a) The following are the minimum requirements that must be met before the FAA will approve an IFR procedure for a non-Federal VOR: (1) The facility's performance, as determined by air and ground inspection, must meet the requirements of Sec. 171.7. (2) The installation of the equipment must meet the requirements of Sec. 171.9. (3) The owner must agree to operate and maintain the facility in accordance with Sec. 171.11. (4) The owner must agree to furnish periodic reports, as set forth in Sec. 171.13, and must agree to allow the FAA to inspect the facility and its operation whenever necessary. (5) The owner must assure the FAA that he will not withdraw the facility from service without the permission of the FAA. (6) The owner must bear all costs of meeting the requirements of this section and of any flight or ground inspections made before the facility is commissioned, except that the Federal Aviation Administration may bear certain of these costs subject to budgetary limitations and policy established by the Administrator. (b) If the applicant for approval meets the requirements of paragraph (a) of this section, the FAA commissions the facility as a prerequisite to its approval for use in an IFR procedure. The approval is withdrawn at any time the facility does not continue to meet those requirements. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-6, 35 FR 10288, June 24, 1970] Sec. 171.7 Performance requirements. (a) The VOR must perform in accordance with the "International Standards and Recommended Practices, Aeronautical Telecommunications," Part I, paragraph 3.3 (Annex 10 to the Convention on International Civil Aviation), except that part of paragraph 3.3.2.1 specifying a radio frequency tolerance of 0.005 percent, and that part of paragraph 3.3.7 requiring removal of only the bearing information. In place thereof, the frequency tolerance of the radio frequency carrier must not exceed plus or minus 0.002 percent, and all radiation must be removed during the specified deviations from established conditions and during periods of monitor failure. (b) Ground inspection consists of an examination of the design features of the equipment to determine that there will not be conditions that will allow unsafe operations because of component failure or deterioration. (c) The monitor is checked periodically, during the in-service test evaluation period, for calibration and stability The tests are made with a standard "Reference and variable phase signal generator" and associated test equipment, including an oscilloscope and portable field detector. In general, the ground check is conducted in accordance with section 8.4 of FAA Handbook AF P 6790.9 "Maintenance Instruction for VHF Omniranges", adapted for the facility concerned. (d) Flight tests to determine the facility's adequacy for operational requirements and compliance with applicable "Standards and Recommended Practices" are conducted in accordance with the "U.S. Standard Flight Inspection Manual", particularly section 201. (e) After January 1, 1975, the owner of the VOR shall modify the facility to perform in accordance with paragraph 3.3.5.7 of Annex 10 to the Convention on International Civil Aviation within 180 days after receipt of notice from the Administrator that 50 kHz channel spacing is to be implemented in the area and that a requirement exists for suppression of 9960 Hz subcarrier harmonics. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-7, 35 FR 12711, Aug. 11, 1970; Amdt. 171-9, 38 FR 28557, Oct. 15, 1973] Sec. 171.9 Installation requirements. (a) The facility must be installed according to accepted good engineering practices, applicable electric and safety codes, and the installation must meet at least the Federal Communication Commission's licensing requirements. (b) The facility must have a reliable source of suitable primary power, either from a power distribution system or locally generated, with a supplemental standby system, if needed. (c) Dual transmitting equipment with automatic changeover is preferred and may be required to support certain IFR procedures. (d) There must be a means for determining, from the ground, the performance of the equipment, including the antenna, initially and periodically. (e) A facility intended for use as an instrument approach aid for an airport must have or be supplemented by (depending on circumstances) the following ground-air or landline communications services: (1) At facilities outside of and not immediately adjacent to air traffic control areas, there must be ground-air communications from the airport served by the facility. Separate communications channels are acceptable. (2) At facilities within or immediately adjacent to air traffic control areas, there must be the ground-air communications required by paragraph (e)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communication facility. Paragraphs (e) (1) and (2) of this section are not mandatory at airports where an adjacent FAA facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition at low traffic density airports within or immediately adjacent to air traffic control areas, and where extensive delays are not a factor, the requirements of paragraphs (e) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communication facility, if an adjacent FAA facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude of the controlled area. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-7, 35 FR 12711, Aug. 11, 1970] EFFECTIVE DATE NOTE: Amdt. 171-16, 56 FR 65664, Dec. 17, 1991, revised paragraphs (e)(1) and (e)(2) of Sec. 171.9 effective September 16, 1993. For the convenience of the user, the revised text is set forth as follows: Sec. 171.9 Installation requirements. * * * * * (e) * * * (1) At facilities outside of and not immediately adjacent to controlled airspace, there must be ground-air communications from the airport served by the facility. Separate communications channels are acceptable. (2) At facilities within or immediately adjacent to controlled airspace, there must be the ground-air communications required by paragraph (e)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communication facility. Paragraphs (e) (1) and (2) of this section are not mandatory at airports where an adjacent FAA facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to controlled airspace and where extensive delays are not a factor, the requirements of paragraphs (e) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communication facility, if an adjacent FAA facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude for the controlled airspace area. Sec. 171.11 Maintenance and operations requirements. (a) The owner of the facility must establish an adequate maintenance system and provide qualified maintenance personnel to maintain the facility at the level attained at the time it was commissioned. Each person who maintains a facility must meet at least the Federal Communications Commission's licensing requirements and show that he has the special knowledge and skills needed to maintain the facility including proficiency in maintenance procedures and the use of specialized test equipment. (b) The owner must prepare, and obtain FAA approval of, an operations and maintenance manual that sets forth mandatory procedures for operations, preventive maintenance, and emergency maintenance, including instructions on each of the following: (1) Physical security of the facility. (2) Maintenance and operations by authorized persons only. (3) FCC licensing requirements for operating and maintenance personnel. (4) Posting of licenses and signs. (5) Relations between the facility and FAA air traffic control facilities, with a description of the boundaries of controlled airspace over or near the facility, instructions for relaying air traffic control instructions and information (if applicable), and instructions for the operation of an air traffic advisory service if the VOR is located outside of controlled airspace. (6) Notice to the Administrator of any suspension of service. (7) Detailed and specific maintenance procedures and servicing guides stating the frequency of servicing. (8) Air-ground communications, if provided, expressly written or incorporating appropriate sections of FAA manuals by reference. (9) Keeping of station logs and other technical reports, and the submission of reports required by Sec. 171.13. (10) Monitoring of the facility. (11) Inspections by United States personnel. (12) Names, addresses, and telephone numbers of persons to be notified in an emergency. (13) Shutdowns for routine maintenance and issue of "Notices to Airmen" for routine or emergency shutdowns (private use facilities may omit the "Notices to Airmen"). (14) An explanation of the kinds of activity (such as construction or grading) in the vicinity of the facility that may require shutdown or recertification of the facility by FAA flight check. (15) Procedures for conducting a ground check of course accuracy. (16) Commissioning of the facility. (17) An acceptable procedure for amending or revising the manual. (18) The following information concerning the facility: (i) Location by latitude and longitude to the nearest second, and its position with respect to airport layouts. (ii) The type, make, and model of the basic radio equipment that will provide the service. (iii) The station power emission and frequency. (iv) The hours of operation. (v) Station identification call letters and method of station identification, whether by Morse code or recorded voice announcement, and the time spacing of the identification. (vi) A description of the critical parts that may not be changed, adjusted, or repaired without an FAA flight check to confirm published operations. (c) The owner shall make a ground check of course accuracy each month in accordance with procedures approved by the FAA at the time of commissioning, and shall report the results of the checks as provided in Sec. 171.13. (d) If the owner desires to modify the facility, he must submit the proposal to the FAA and may not allow any modifications to be made without specific approval. (e) The owner's maintenance personnel must participate in initial inspections made by the FAA. In the case of subsequent inspections, the owner or his representative shall participate. (f) Whenever it is required by the FAA, the owner shall incorporate improvements in VOR maintenance brought about by progress in the state of the art. In addition, he shall provide a stock of spare parts, including vacuum tubes, of such a quantity to make possible the prompt replacement of components that fail or deteriorate in service. (g) The owner shall provide all approved test instruments needed for maintenance of the facility. (h) The owner shall close the facility upon receiving two successive pilot reports of its malfunctioning. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-2, 31 FR 5408, Apr. 6, 1966] Sec. 171.13 Reports. The owner of each facility to which this subpart applies shall make the following reports on forms furnished by the FAA, at the times indicated, to the FAA Regional office for the area in which the facility is located: (a) Record of meter readings and adjustments (Form FAA-198). To be filled out by the owner with the equipment adjustments and meter readings as of the time of commissioning, with one copy to be kept in the permanent records of the facility and two copies to the appropriate Regional office of the FAA. The owner shall revise the form after any major repair, modernization, or returning, to reflect an accurate record of facility operation and adjustment. (b) Facility maintenance log (FAA Form 6003-1). This form is a permanent record of all equipment malfunctioning met in maintaining the facility, including information on the kind of work and adjustments made, equipment failures, causes (if determined), and corrective action taken. The owner shall keep the original of each report at the facility and send a copy to the appropriate Regional office of the FAA at the end of the month in which it is prepared. (c) Radio equipment operation record (Form FAA-418). To contain a complete record of meter readings, recorded on each scheduled visit to the facility. The owner shall keep the original of each month's record at the facility and send a copy of it to the appropriate Regional office of the FAA. (d) [Reserved] (e) VOR ground check error data (Forms FAA-2396 and 2397). To contain results of the monthly course accuracy ground check in accordance with FAA Handbook AF P 6790.9 "Maintenance Instructions for VHF Omniranges". The owner shall keep the originals in the facility and send a copy of each form to the appropriate Regional office of the FAA on a monthly basis. (49 U.S.C. 1348) [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-5, 34 FR 15245, Sept. 30, 1969; Amdt. 171-10, 40 FR 36110, Aug. 19, 1975] Subpart B--Nondirectional Radio Beacon Facilities Sec. 171.21 Scope. (a) This subpart sets forth minimum requirements for the approval and operation of non-Federal, nondirectional radio beacon facilities that are to be involved in the approval of instrument flight rules and air traffic control procedures related to those facilities. (b) A nondirectional radio beacon ("H" facilities domestically--NDB facilities internationally) radiates a continuous carrier of approximately equal intensity at all azimuths. The carrier is modulated at 1020 cycles per second for station identification purposes. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-2, 31 FR 5408, Apr. 6, 1966; Amdt. 171-7, 35 FR 12711, Aug. 11, 1970] Sec. 171.23 Requests for IFR procedure. (a) Each person who requests an IFR procedure based on a nondirectional radio beacon facility that he owns must submit the following information with that request: (1) A description of the facility and evidence that the equipment meets the performance requirements of Sec. 171.27 and is installed in accordance with Sec. 171.29. (2) A proposed procedure for operating the facility. (3) A proposed maintenance arrangement and a maintenance manual that meets the requirements of Sec. 171.31. (4) A statement of intention to meet the requirements of this subpart. (5) A showing that the facility has an acceptable level of operational reliability and an acceptable standard of performance. Previous equivalent operational experience with a facility with identical design and operational characteristics will be considered in showing compliance with this subparagraph. (b) After the FAA inspects and evaluates the facility, it advises the owner of the results and of any required changes in the facility or the maintenance manual or maintenance organization. The owner must then correct the deficiencies, if any, and operate the facility for an in-service evaluation by the FAA. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-7, 35 FR 12711, Aug. 11, 1970] Sec. 171.25 Minimum requirements for approval. (a) The following are the minimum requirements that must be met before the FAA will approve an IFR procedure for a non-Federal, nondirectional radio beacon facility under this subpart: (1) The facility's performances, as determined by air and ground inspection, must meet the requirements of Sec. 171.27. (2) The installation of the equipment must meet the requirements of Sec. 171.29. (3) The owner must agree to operate and maintain the facility in accordance with Sec. 171.31. (4) The owner must agree to furnish periodic reports, as set forth in Sec. 171.33, and agree to allow the FAA to inspect the facility and its operation whenever necessary. (5) The owner must assure the FAA that he will not withdraw the facility from service without the permission of the FAA. (6) The owner must bear all costs of meeting the requirements of this section and of any flight or ground inspections made before the facility is commissioned, except that the Federal Aviation Administration may bear certain of these costs subject to budgetary limitations and policy established by the Administrator. (b) If the applicant for approval meets the requirements of paragraph (a) of this section, the FAA commissions the facility as a prerequisite to its approval for use in an IFR procedure. The approval is withdrawn at any time the facility does not continue to meet those requirements. In addition, the facility may be de-commissioned whenever the frequency channel is needed for higher priority common system service. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-6, 35 FR 10288, June 24, 1970] Sec. 171.27 Performance requirements. (a) The facility must meet the performance requirements set forth in the "International Standards and Recommended Practices, Aeronautical Telecommunications, Part I, paragraph 3.4" (Annex 10 to the Convention on International Civil Aviation), except that identification by on-off keying of a second carrier frequency, separated from the main carrier by 1020 Hz plus or minus 50 Hz, is also acceptable. (b) The facility must perform in accordance with recognized and accepted good electronic engineering practices for the desired service. (c) Ground inspection consists of an examination of the design features of the equipment to determine (based on recognized and accepted good engineering practices) that there will not be conditions that will allow unsafe operations because of component failure or deterioration. (d) Flight tests to determine the facility's adequacy for operational requirements and compliance with applicable "Standards and Recommended Practices" are conducted in accordance with the "U.S. Standard Flight Inspection Manual", particularly section 207. The original test is made by the FAA and later tests shall be made under arrangements, satisfactory to the FAA, that are made by the owner. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-7, 35 FR 12711, Aug. 11, 1970] Sec. 171.29 Installation requirements. (a) The facility must be installed according to accepted good engineering practices, applicable electric and safety codes, and FCC licensing requirements. (b) The facility must have a reliable source of suitable primary power. (c) Dual transmitting equipment may be required to support some IFR procedures. (d) A facility intended for use as an instrument approach aid for an airport must have or be supplemented by (depending on the circumstances) the following ground-air or landline communications services: (1) At facilities outside of and not immediately adjacent to air traffic control areas, there must be ground-air communications from the airport served by the facility. Voice on the aid controlled from the airport is acceptable. (2) At facilities within or immediately adjacent to air traffic control areas, there must be the ground-air communications required by paragraph (d)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communication facility. Paragraphs (d) (1) and (2) of this section are not mandatory at airports where an adjacent FAA facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to air traffic control areas, and where extensive delays are not a factor, the requirements of paragraphs (d) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communications facility, if an adjacent FAA facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude of the controlled area. EFFECTIVE DATE NOTE: Amdt. 171-16, 56 FR 65664, Dec. 17, 1991, revised paragraphs (d)(1) and (d)(2) of Sec. 171.29 effective September 16, 1993. For the convenience of the user, the revised text is set forth as follows: Sec. 171.29 Installation requirements. * * * * * (d) * * * (1) At facilities outside of and not immediately adjacent to controlled airspace, there must be ground-air communications from the airport served by the facility. Voice on the aid controlled from the airport is acceptable. (2) At facilities within or immediately adjacent to controlled airspace, there must be the ground-air communications required by paragraph (d)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communication facility. Paragraphs (d) (1) and (2) of this section are not mandatory at airports where an adjacent FAA facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to controlled airspace, and where extensive delays are not a factor, the requirements of paragraphs (d) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communications facility, if an adjacent FAA facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude for the controlled airspace area. Sec. 171.31 Maintenance and operations requirements. (a) The owner of the facility must establish an adequate maintenance system and provide qualified maintenance personnel to maintain the facility at the level attained at the time it was commissioned. Each person who maintains a facility must meet at least the Federal Communications Commission's licensing requirements and show that he has the special knowledge and skills needed to maintain the facility including proficiency in maintenance procedures and the use of specialized test equipment. (b) The owner must prepare, and obtain approval of, an operations and maintenance manual that sets forth mandatory procedures for operations, preventive maintenance, and emergency maintenance, including instructions on each of the following: (1) Physical security of the facility. (2) Maintenance and operations by authorized persons only. (3) FCC licensing requirements for operating and maintenance personnel. (4) Posting of licenses and signs. (5) Relations between the facility and FAA air traffic control facilities, with a description of the boundaries of controlled airspace over or near the facility, instructions for relaying air traffic control instructions and information (if applicable), and instructions for the operation of an air traffic advisory service if the facility is located outside of controlled airspace. (6) Notice to the Administrator of any suspension of service. (7) Detailed arrangements for maintenance flight inspection and servicing stating the frequency of servicing. (8) Air-ground communications, if provided, expressly written or incorporating appropriate sections of FAA manuals by reference. (9) Keeping of station logs and other technical reports, and the submission of reports required by Sec. 171.33. (10) Monitoring of the facility, at least once each half hour, to assure continuous operation. (11) Inspections by United States personnel. (12) Names, addresses, and telephone numbers of persons to be notified in an emergency. (13) Shutdowns for routine maintenance and issue of "Notices to Airmen" for routine or emergency shutdowns (private use facilities may omit the "Notices to Airmen"). (14) Commissioning of the facility. (15) An acceptable procedure for amending or revising the manual. (16) The following information concerning the facility: (i) Location by latitude and longitude to the nearest second, and its position with respect to airport layouts. (ii) The type, make, and model of the basic radio equipment that will provide the service. (iii) The station power emission and frequency. (iv) The hours of operation. (v) Station identification call letters and method of station identification, whether by Morse code or recorded voice announcement, and the time spacing of the identification. (c) If the owner desires to modify the facility, he must submit the proposal to the FAA and meet applicable requirements of the FCC. (d) The owner's maintenance personnel must participate in initial inspections made by the FAA. In the case of subsequent inspections, the owner or his representative shall participate. (e) The owner shall provide a stock of spare parts, including vacuum tubes, of such a quantity to make possible the prompt replacement of components that fail or deteriorate in service. (f) The owner shall close the facility upon receiving two successive pilot reports of its malfunctioning. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-2, 31 FR 5408, Apr. 6, 1966] Sec. 171.33 Reports. The owner of each facility to which this subpart applies shall make the following reports, at the times indicated, to the FAA Regional office for the area in which the facility is located: (a) Record of meter readings and adjustments (Form FAA-198). To be filled out by the owner or his maintenance representative with the equipment adjustments and meter readings as of the time of commissioning, with one copy to be kept in the permanent records of the facility and two copies to the appropriate Regional Office of the FAA. The owner shall revise the form after any major repair, modernization, or returning, to reflect an accurate record of facility operation and adjustment. (b) Facility maintenance log (FAA Form 6030-1). This form is a permanent record of all equipment malfunctioning met in maintaining the facility, including information on the kind of work and adjustments made, equipment failures, causes (if determined), and corrective action taken. The owner shall keep the original of each report at the facility and send a copy to the appropriate Regional Office of the FAA at the end of the month in which it is prepared. (c) Radio equipment operation record (Form FAA-418). To contain a complete record of meter readings, recorded on each scheduled visit to the facility. The owner shall keep the original of each month's record at the facility and send a copy of it to the appropriate Regional Office of the FAA. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-10, 40 FR 36110, Aug. 19, 1975] Subpart C--Instrument Landing System (ILS) Facilities Sec. 171.41 Scope. This subpart sets forth minimum requirements for the approval and operation of non-Federal Instrument Landing System (ILS) Facilities that are to be involved in the approval of instrument flight rules and air traffic control procedures related to those facilities. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-2, 31 FR 5408, Apr. 6, 1966; Amdt. 171-7, 35 FR 12711, Aug. 11, 1970] Sec. 171.43 Requests for IFR procedure. (a) Each person who requests an IFR procedure based on an ILS facility that he owns must submit the following information with that request: (1) A description of the facility and evidence that the equipment meets the performance requirements of Sec. 171.47 and is installed in accordance with Sec. 171.49. (2) A proposed procedure for operating the facility. (3) A proposed maintenance organization and a maintenance manual that meets the requirements of Sec. 171.51. (4) A statement of intent to meet the requirements of this subpart. (5) A showing that the facility has an acceptable level of operational reliability and an acceptable standard of performance. Previous equivalent operational experience with a facility with identical design and operational characteristics will be considered in showing compliance with this subparagraph. (b) After the FAA inspects and evaluates the facility, it advises the owner of the results and of any required changes in the facility or the maintenance manual or maintenance organization. The owner must then correct the deficiencies, if any, and operate the facility for an in-service evaluation by the FAA. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-7, 35 FR 12711, Aug. 11, 1970] Sec. 171.45 Minimum requirements for approval. (a) The following are the minimum requirements that must be met before the FAA will approve an IFR procedure for a non-Federal Instrument Landing System: (1) The facility's performance, as determined by air and ground inspection, must meet the requirements of Sec. 171.47. (2) The installation of the equipment must meet the requirements of Sec. 171.49. (3) The owner must agree to operate and maintain the facility in accordance with Sec. 171.51. (4) The owner must agree to furnish periodic reports, as set forth in Sec. 171.53 and agree to allow the FAA to inspect the facility and its operation whenever necessary. (5) The owner must assure the FAA that he will not withdraw the facility from service without the permission of the FAA. (6) The owner must bear all costs of meeting the requirements of this section and of any flight or ground inspections made before the facility is commissioned, except that the Federal Aviation Administration may bear certain of these costs subject to budgetary limitations and policy established by the Administrator. (b) If the applicant for approval meets the requirements of paragraph (a) of this section, the FAA commissions the facility as a prerequisite to its approval for use in an IFR procedure. The approval is withdrawn at any time the facility does not continue to meet those requirements. In addition, the facility may be de-commissioned whenever the frequency channel is needed for higher priority common system service. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-6, 35 FR 10288, June 24, 1970] Sec. 171.47 Performance requirements. (a) The Instrument Landing System must perform in accordance with the "International Standards and Recommended Practices, Aeronautical Telecommunications, Part I, Paragraph 3.1" (Annex 10 to the Convention on International Civil Aviation) except as follows: (1) The first part of paragraph 3.1.3, relating to suppression of radiation wholly or in part in any or all directions outside the 20-degree sector centered on the course line to reduce localizer does not apply. (2) Radiation patterns must conform to limits specified in 3.1.3.3 and 3.1.3.4, but this does not mean that suppression of radiation to the rear of the antenna array to satisfy difficult siting positions (as per 3.1.3.1.4) is not allowed. For example, if a reflector screen for the antenna array is required to overcome a siting problem, the area to the rear of the localizer may be made unusable and should be so advertised. (3) A third marker beacon (inner marker) is not required. (4) The frequency tolerance of the radio frequency carrier must not exceed plus or minus 0.002 percent. (b) Ground inspection consists of an examination of the design features of the equipment to determine that there will not be conditions that will allow unsafe operations because of component failure or deterioration. (c) The monitor is checked periodically, during the in-service test evaluation period, for calibration and stability. These tests, and ground checks of glide slope and localizer radiation characteristics, are conducted in accordance with FAA Handbooks AF P 6750.1 and AF P 6750.2 "Maintenance Instructions for ILS Localizer Equipment" and "Maintenance Instructions for ILS Glide Slope Equipment". (d) Flight tests to determine the facility's adequacy for operational requirements and compliance with applicable "Standards and Recommended Practices" are conducted in accordance with the "U.S. Standard Flight Inspection Manual", particularly section 217. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1974, as amended by Amdt. 171-9, 38 FR 28557, Oct. 15, 1973] Sec. 171.49 Installation requirements. (a) The facility must be of a permanent nature, located, constructed, and installed according to ICAO Standards (Annex 10), accepted good engineering practices, applicable electric and safety codes, and FCC licensing requirements. (b) The facility must have a reliable source of suitable primary power, either from a power distribution system or locally generated. A determination by the Administrator as to whether a facility will be required to have stand- by power for the localizer, glide slope and monitor accessories to supplement the primary power, will be made for each airport based upon operational minimums and density of air traffic. (c) A determination by the Administrator as to whether a facility will be required to have dual transmitting equipment with automatic changeover for localizer and glide slope components, will be made for each airport based upon operational minimums and density of air traffic. (d) There must be a means for determining, from the ground, the performance of the equipment (including antennae), initially and periodically. (e) The facility must have, or be supplemented by (depending on the circumstances) the following ground-air or landline communications services: (1) At facilities outside of and not immediately adjacent to air traffic control zones or areas, there must be ground-air communications from the airport served by the facility. The utilization of voice on the ILS frequency should be determined by the facility operator on an individual basis. (2) At facilities within or immediately adjacent to air traffic control zones or areas, there must be the ground-air communications required by paragraph (e)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communication facility. Paragraphs (e) (1) and (2) of this section are not mandatory at airports where an adjacent FAA facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to air traffic control zones or areas, and where extensive delays are not a factor, the requirements of paragraphs (e) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communications facility, if an adjacent FAA facility can communicate with aircraft during the proposed instrument approach procedure down to the airport surface or at least to the minimum approach altitude. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-6, 35 FR 10288, June 24, 1970] EFFECTIVE DATE NOTE: Amdt. 171-16, 56 FR 65664, Dec. 17, 1991, revised paragraph (e) of Sec. 171.49 effective September 16, 1993. For the convenience of the user, the revised text is set forth as follows: Sec. 171.49 Installation requirements. * * * * * (e) The facility must have, or be supplemented by (depending on the circumstances) the following ground-air or landline communications services: (1) At facilities outside of and not immediately adjacent to controlled airspace, there must be ground-air communications from the airport served by the facility. The utilization of voice on the ILS frequency should be determined by the facility operator on an individual basis. (2) At facilities within or immediately adjacent to controlled airspace, there must be the ground-air communications required by paragraph (e)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communications facility. Paragraphs (e)(1) and (e)(2) of this section are not mandatory at airports where an adjacent FAA facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to controlled airspace, and where extensive delays are not a factor, the requirements of paragraphs (e)(1) and (e)(2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest FAA air traffic control or communications facility, if an adjacent FAA facility can communicate with aircraft during the proposed instrument approach procedure down to the airport surface or at least to the minimum approach altitude. Sec. 171.51 Maintenance and operations requirements. (a) The owner of the facility must establish an adequate maintenance system and provide qualified maintenance personnel to maintain the facility at the level attained at the time it was commissioned. Each person who maintains a facility must meet at least the Federal Communications Commission's licensing requirements and show that he has the special knowledge and skills needed to maintain the facility including proficiency in maintenance procedures and the use of specialized test equipment. (b) The owner must prepare, and obtain approval of, an operations and maintenance manual that sets forth mandatory procedures for operations, preventive maintenance, and emergency maintenance, including instructions on each of the following: (1) Physical security of the facility. (2) Maintenance and operations by authorized persons only. (3) FCC licensing requirements for operating and maintenance personnel. (4) Posting of licenses and signs. (5) Relation between the facility and FAA air traffic control facilities, with a description of the boundaries of controlled airspace over or near the facility, instructions for relaying air traffic control instructions and information (if applicable), and instructions for the operations of an air traffic advisory service if the facility is located outside of controlled airspace. (6) Notice to the Administrator of any suspension of service. (7) Detailed and specific maintenance procedures and servicing guides stating the frequency of servicing. (8) Air-ground communications, if provided, expressly written or incorporating appropriate sections of FAA manuals by reference. (9) Keeping of station logs and other technical reports, and the submission of reports required by Sec. 171.53. (10) Monitoring of the facility. (11) Inspections by United States personnel. (12) Names, addresses, and telephone numbers of persons to be notified in an emergency. (13) Shutdowns for routine maintenance and issue of "Notices to Airmen" for routine or emergency shutdowns (private use facilities may omit the "Notices to Airmen"). (14) Commissioning of the facility. (15) An acceptable procedure for amending or revising the manual. (16) An explanation of the kinds of activities (such as construction or grading) in the vicinity of the facility that may require shutdown or recertification of the facility by FAA flight check. (17) Procedures for conducting a ground check or localizer course alignment width, and clearance, and glide slope elevation angle and width. (18) The following information concerning the facility: (i) Facility component locations with respect to airport layout, instrument runway, and similar areas. (ii) The type, make, and model of the basic radio equipment that will provide the service. (iii) The station power emission and frequencies of the localizer, glide slope, markers, and associated compass locators, if any. (iv) The hours of operation. (v) Station identification call letters and method of station identification and the time spacing of the identification. (vi) A description of the critical parts that may not be changed, adjusted, or repaired without an FAA flight check to confirm published operations. (c) The owner shall make a ground check of the facility each month in accordance with procedures approved by the FAA at the time of commissioning, and shall report the results of the checks as provided in Sec. 171.53. (d) If the owner desires to modify the facility, he must submit the proposal to the FAA and may not allow any modifications to be made without specific approval. (e) "The owner's maintenance personnel must participate in initial inspections made by the FAA. In the case of subsequent inspections, the owner or his representative shall participate." (f) Whenever it is required by the FAA, the owner shall incorporate improvements in ILS maintenance brought about by progress in the state of the art. In addition, he shall provide a stock of spare parts, including vacuum tubes, of such a quantity to make possible the prompt replacement of components that fail or deteriorate in service. (g) The owner shall provide FAA approved test instruments needed for maintenance of the facility. (h) The owner shall close the facility upon receiving two successive pilot reports of its malfunctioning. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-2, 31 FR 5408, Apr. 6, 1966] Sec. 171.53 Reports. The owner of each facility to which this subpart applies shall make the following reports, at the times indicated, to the FAA Regional Office for the area in which the facility is located: (a) Record of meter readings and adjustments (Form FAA-198). To be filled out by the owner or his maintenance representative with the equipment adjustments and meter readings as of the time of commissioning, with one copy to be kept in the permanent records of the facility and two copies to the appropriate Regional Office of the FAA. The owner shall revise the form after any major repair, modernization, or retuning, to reflect an accurate record of facility operation and adjustment. (b) Facility maintenance log (FormFAA 6030-1). This form is a permanent record of all equipment malfunctioning met in maintaining the facility, including information on the kind of work and adjustments made, equipment failures, causes (if determined), and corrective action taken. The owner shall keep the original of each report at the facility and send a copy to the appropriate Regional Office of the FAA at the end of each month in which it is prepared. (c) Radio equipment operation record (Form FAA-418). To contain a complete record of meter readings, recorded on each scheduled visit to the facility. The owner shall keep the original of each month's record at the facility and send a copy of it to the appropriate Regional Office of the FAA. [Doc. No. 5034, 29 FR 11337, Aug. 6, 1964, as amended by Amdt. 171-5, 34 FR 15245, Sept. 30, 1969; Amdt. 171-10, 40 FR 36110, Aug. 19, 1975] Subpart D--True Lights Sec. 171.61 Air navigation certificate: Revocation and termination. (a) Except as provided in paragraph (b) of this section, each air navigation certificate of "Lawful Authority to Operate a True Light" is hereby revoked, and each application therefor is hereby terminated. (b) Paragraph (a) of this section does not apply to-- (1) A certificate issued to a Federal-Aid Airport Program sponsor who was required to apply for that certificate under regulations then in effect, and who has not surrendered that certificate under Sec. 151.86(e) of this chapter; or (2) An application made by a Federal-Aid Airport Program sponsor who was required to make that application under regulations then in effect, and who has not terminated that application under Sec. 151.86(e) of this chapter. (49 U.S.C. 1101-1120; sec. 307, 72 Stat. 749, 49 U.S.C. 1348) [Amdt. 171-4, 33 FR 12545, Sept. 5, 1968] Subpart E--General Sec. 171.71 Materials incorporated by reference. Copies of standards, recommended practices and documents incorporated by reference in this part are available for the use of interested persons at any FAA Regional Office and FAA Headquarters. An historical file of these materials is maintained at Headquarters, Federal Aviation Administration, 800 Independence Avenue SW., Washington, DC 20590. [Amdt. 171-8, 36 FR 5584, Mar. 25, 1971] Sec. 171.73 Alternative forms of reports. On a case-by-case basis, a Regional Administrator may accept any report in a format other than the FAA form required by this part if he is satisfied that the report contains all the information required on the FAA form and can be processed by FAA as conveniently as the FAA form. (49 U.S.C. 1348) [Amdt. 171-5, 34 FR 15245, Sept. 30, 1969, as amended by Amdt. 171-15, 54 FR 39296, Sept. 25, 1989] Sec. 171.75 Submission of requests. (a) Requests for approval of facilities not having design and operational characteristics identical to those of facilities currently approved under this part, including requests for deviations from this part for such facilities, must be submitted to the Director, Advanced Systems Design Service. (b) The following requests must be submitted to the Regional Administrator of the region in which the facility is located: (1) Requests for approval of facilities that have design and operational characteristics identical to those of facilities currently approved under this part, including requests for deviations from this part for such facilities. (2) Requests for deviations from this part for facilities currently approved under this part. (3) Requests for modification of facilities currently approved under this part. [Amdt. 171-7, 35 FR 12711, Aug. 11, 1970, as amended by Amdt. 171-15, 54 FR 39296, Sept. 25, 1989] Subpart F--Simplified Directional Facility (SDF) Source: Docket No. 10116, 35 FR 12711, Aug. 11, 1970, unless otherwise noted. Sec. 171.101 Scope. This subpart sets forth minimum requirements for the approval and operation of non-Federal Simplified Directional Facilities (SDF) that are to be involved in the approval of instrument flight rules and air traffic control procedures related to those facilities. Sec. 171.103 Requests for IFR procedure. (a) Each person who requests an IFR procedure based on an SDF that he owns must submit the following information with that request: (1) A description of the facility and evidence that the equipment meets the performance requirements of Sec. 171.109 and the standards and tolerances of Sec. 171.111, and is installed in accordance with Sec. 171.113. (2) A proposed procedure for operating the facility. (3) A proposed maintenance organization and a maintenance manual that meets the requirements of Sec. 171.115. (4) A statement of intent to meet the requirements of this subpart. (5) A showing that the facility has an acceptable level of operational reliability as prescribed in Sec. 171.111(k), and an acceptable standard of performance. Previous equivalent operational experience with a facility with identical design and operational characteristics will be considered in showing compliance with this paragraph. (b) After the Federal Aviation Administration inspects and evaluates the facility, it advises the owner of the results and of any required changes in the facility or the maintenance manual or maintenance organization. The owner must then correct the deficiencies, if any, and operate the facility for an in-service evaluation by the Federal Aviation Administration. Sec. 171.105 Minimum requirements for approval. (a) The following are the minimum requirements that must be met before the Federal Aviation Administration will approve an IFR procedure for a non- Federal Simplified Directional Facility: (1) A suitable frequency channel must be available. (2) The facility's performance, as determined by air and ground inspection, must meet the requirements of Secs. 171.109 and 171.111. (3) The installation of the equipment must meet the requirements of Sec. 171.113. (4) The owner must agree to operate and maintain the facility in accordance with Sec. 171.115. (5) The owner must agree to furnish periodic reports as set forth in Sec. 171.117, and agree to allow the FAA to inspect the facility and its operation whenever necessary. (6) The owner must assure the FAA that he will not withdraw the facility from service without the permission of the FAA. (7) The owner must bear all costs of meeting the requirements of this section and of any flight or ground inspections made before the facility is commissioned, except that the FAA may bear certain of these costs subject to budgetary limitations and policy established by the Administrator. (b) If the applicant for approval meets the requirements of paragraph (a) of this section, the FAA commissions the facility as a prerequisite to its approval for use in an IFR procedure. The approval is withdrawn at any time the facility does not continue to meet those requirements. In addition, the facility is licensed by the Federal Communications Commission. The Federal Aviation Administration recommends cancellation or nonrenewal of the Federal Communications Commission license whenever the frequency channel is needed for higher priority common system service. Sec. 171.107 Definition. As used in this subpart: "SDF" (simplified directional facility) means a directional aid facility providing only lateral guidance (front or back course) for approach from a final approach fix. "DDM" (difference in depth of modulation) means the percentage modulation depth of the larger signal minus the percentage modulation depth of the smaller signal, divided by 100. "Angular displacement sensitivity" means the ratio of measured DDM to the corresponding angular displacement from the appropriate reference line. "Back course sector" means the course sector on the opposite end of the runway from the front course sector. "Course line" means the locus of points along the final approach course at which the DDM is zero. "Course sector" means a sector in a horizontal plane containing the course line and limited by the loci of points nearest to the course line at which the DDM is 0.155. "Displacement sensitivity" means the ratio of measured DDM to the corresponding lateral displacement from the appropriate reference line. "Front course sector" means the course sector centered on the course line in the direction from the runway in which a normal final approach is made. "Half course sector" means the sector in a horizontal plane containing the course line and limited by the loci of points nearest to the course line, at which the DDM is 0.0775. "Point A" means a point on the front course in the approach direction a distance of 4 nautical miles from the threshold. "Point A1" means a point on the front course in the approach direction a distance of 1 statute mile from the threshold. "Point A2" means a point on the front course at the threshold. "Reference datum" means a point at a specified height located vertically above the intersection of the course and the threshold. "Missed approach point" means the point on the final approach course, not farther from the final approach fix than Point "A2", at which the approach must be abandoned, if the approach and subsequent landing cannot be safely completed by visual reference, whether or not the aircraft has descended to the minimum descent altitude. Sec. 171.109 Performance requirements. (a) The Simplified Directional Facility must perform in accordance with the following standards and practices: (1) The radiation from the SDF antenna system must produce a composite field pattern which is amplitude modulated by a 90 Hz and a 150 Hz tone. The radiation field pattern must produce a course sector with the 90 Hz tone predominating on one side of the course and with the 150 Hz tone predominating on the opposite side. (2) When an observer faces the SDF from the approach end of runway, the depth of modulation of the radiofrequency carrier due to the 150 Hz tone must predominate on his right hand and that due to the 90 Hz tone must predominate on his left hand. (3) All horizontal angles employed in specifying the SDF field patterns must originate from the center of the antenna system which provides the signals used in the front course sector. (4) The SDF must operate on odd tenths or odd tenths plus a twentieth MHz within the frequency band 108.1 MHz to 111.95 MHz. The frequency tolerance of the radio frequency carrier must not exceed plus or minus 0.002 percent. (5) The radiated emission from the SDF must be horizontally polarized. The vertically polarized component of the radiation on the course line must not exceed that which corresponds to an error one-twentieth of the course sector width when an aircraft is positioned on the course line and is in a roll attitude of 20 deg. from the horizontal. (6) The SDF must provide signals sufficient to allow satisfactory operation of a typical aircraft installation within the sector which extends from the center of the SDF antenna system to distances of 18 nautical miles within a plus or minus 10 deg. sector and 10 nautical miles within the remainder of the coverage when alternative navigational facilities provide satisfactory coverage within the intermediate approach area. SDF signals must be receivable at the distances specified at and above a height of 1,000 feet above the elevation of the threshold, or the lowest altitude authorized for transition, whichever is higher. Such signals must be receivable, to the distances specified, up to a surface extending outward from the SDF antenna and inclined at 7 deg. above the horizontal. (7) The modulation tones must be phase-locked so that within the half course sector, the demodulated 90 Hz and 150 Hz wave forms pass through zero in the same direction within 20 deg. of phase relative to the 150 Hz component, every half cycle of the combined 90 Hz and 150 Hz wave form. However, the phase need not be measured within the half course sector. (8) The angle of convergence of the final approach course and the extended runway centerline must not exceed 30 deg.. The final approach course must be aligned to intersect the extended runway centerline between points A1 and the runway threshold. When an operational advantage can be achieved, a final approach course that does not intersect the runway or that intersects it at a distance greater than point A1 from the threshold, may be established, if that course lies within 500 feet laterally of the extended runway centerline at a point 3,000 feet outward from the runway threshold. The mean course line must be maintained within +/-10 percent of the course sector width. (9) The nominal displacement sensitivity within the half course sector must be 50 microamperes/degree. The nominal course sector width must be 6 deg.. When an operational advantage can be achieved, a nominal displacement sensitivity of 25 microamperes/degree may be established, with a nominal course sector width of 12 deg. with proportional displacement sensitivity. The lateral displacement sensitivity must be adjusted and maintained within the limits of plus or minus 17 percent of the nominal value. (10) The off-course (clearance) signal must increase at a substantially linear rate with respect to the angular displacement from the course line up to an angle on either side of the course line where 175 microamperes of deflection is obtained. From that angle to +/-10 deg., the off-course deflection must not be less than 175 microamperes. From +/-10 deg. to +/-35 deg. the off-course deflection must not be less than 150 microamperes. With the course adjusted to cause any of several monitor alarm conditions, the aforementioned values of 175 microamperes in the sector 10 deg. each side of course and 150 microamperes in the sector +/-10 deg. to +/-35 deg. may be reduced to 160 microamperes and 135 microamperes, respectively. These conditions must be met at a distance of 18 nautical miles from the SDF antenna within the sector 10 deg. each side of course line and 10 nautical miles from the SDF antenna within the sector +/-10 deg. to +/-35 deg. each side of course line. (11) The SDF may provide a ground-to-air radiotelephone communication channel to be operated simultaneously with the navigation and identification signals, if that operation does not interfere with the basic function. If a channel is provided, it must conform with the following standards: (i) The channel must be on the same radiofrequency carrier or carriers as used for the SDF function, and the radiation must be horizontally polarized. Where two carriers are modulated with speech, the relative phases of the modulations on the two carriers must avoid the occurence of nulls within the coverage of the SDF. (ii) On centerline, the peak modulation depth of the carrier or carriers due to the radiotelephone communications must not exceed 50 percent but must be adjusted so that the ratio of peak modulation depth due to the radiotelephone communications to that due to the identification signal is approximately 9:1. (iii) The audiofrequency characteristics of the radiotelephone channel must be flat to within 3 db relative to the level at 1,000 Hz over the range from 300 Hz to 3,000 Hz. (12)(i) The SDF must provide for the simultaneous transmission of an identification signal, specific to the runway and approach direction, on the same radiofrequency carrier or carriers as used for the SDF function. The transmission of the identification signal must not interfere in any way with the basic SDF function. (ii) The identification signal must be produced by Class A2 modulation of the radiofrequency carrier or carriers using a modulation tone of 1020 Hz within +/-50 Hz. The depth of modulation must be between the limits of 5 and 15 percent except that, where a radiotelephone communication channel is provided, the depth of modulation must be adjusted so that the ratio of peak modulation depth due to radiotelephone communications to that due to the identification signal modulation is approximately 9:1. The emissions carrying the identification signal must be horizontally polarized. (iii) The identification signal must employ the International Morse Code and consist of three letters. (iv) The identification signal must be transmitted at a speed corresponding to approximately seven words per minute, and must be repeated at approximately equal intervals, not less than six times per minute. When SDF transmission is not available for operational use, including periods of removal of navigational components or during maintenance or test transmissions, the identification signal must be suppressed. (b) It must be shown during ground inspection of the design features of the equipment that there will not be conditions that will allow unsafe operations because of component failure or deterioration. (c) The monitor must be checked periodically during the in-service test evaluation period for calibration and stability. These tests, and ground checks of SDF radiation characteristics must be conducted in accordance with the maintenance manual required by Sec. 171.115(c) and must meet the standards and tolerances contained in Sec. 171.111(j). (d) The monitor system must provide a warning to the designated control point(s) when any of the conditions of Sec. 171.111(j) occur, within the time periods specified in that paragraph. (e) Flight inspection to determine the adequacy of the facility's operational performance and compliance with applicable performance requirements must be conducted in accordance with the "U.S. Standard Flight Inspection Manual." Tolerances contained in the U.S. Standard Flight Inspection Manual, section 217, must be complied with except as stated in paragraph (f) of this section. (f) Flight inspection tolerances specified in section 217 of the "U.S. Standard Flight Inspection Manual" must be complied with except as follows: (1) Course sector width. The nominal course sector width must be 6 deg.. When an operational advantage can be achieved, a nominal course sector width of 12 deg. may be established. Course sector width must be adjusted and maintained within the limits of +/-17 percent of the nominal value. (2) Course alignment. The mean course line must be adjusted and maintained within the limits of +/-10 percent of the nominal course sector width. (3) Course structure. Course deviations due to roughness, scalloping, or bends must be within the following limitations: (i) Front course. (a) Course structure from 18 miles from runway threshold to Point A must not exceed +/-40 microamperes; (b) Point A to Point A-1--linear decrease from not more than +/-40 microamperes at Point A to not more than +/-20 microamperes at Point A-1; (c) Point A-1 to Missed Approach Point--not more than +/-20 microamperes; (d) Monitor tolerances: width +/-17 percent of nominal; alignment--+/-10 percent of nominal course sector width. (ii) Back course. (a) Course structure 18 miles from runway threshold to 4 miles from runway threshold must not exceed +/-40 microamperes. Four miles to 1 mile from R/W must not exceed +/-40 microamperes decreasing to not more than +/-20 microamperes, at a linear rate. (b) Monitor tolerances: width--+/-17 percent of nominal; alignment--+/-10 percent of nominal course sector width. [Doc. No. 10116, 35 FR 12711, Aug. 11, 1970, as amended by Amdt. 171-9, 38 FR 28557, Oct. 15, 1973] Sec. 171.111 Ground standards and tolerances. Compliance with this section must be shown as a condition to approval and must be maintained during operation of the SDF. (a) Frequency. (1) The SDF must operate on odd tenths or odd tenths plus a twentieth MHz within the frequency band 108.1 MHz to 111.95 MHz. The frequency tolerance of the radio frequency carrier must not exceed plus or minus 0.002 percent. (2) The modulating tones must be 90 Hz and 150 Hz within +/-2.5 percent. (3) The identification signal must be 1020 Hz within +/-50 Hz. (4) The total harmonic content of the 90 Hz tone must not exceed 10 percent. (5) The total harmonic content of the 150 Hz tone must not exceed 10 percent. (b) Power output. The normal carrier power output must be of a value which will provide coverage requirements of Sec. 171.109(a)(6) when reduced by 3 dB to the monitor RF power reduction alarm point specified in Sec. 171.111(j)(3). (c) VSWR. (1) The VSWR of carrier and sideband feedlines must be a nominal value of 1/1 and must not exceed 1.2/1. (2) The sponsor will also provide additional manufacturer's ground standards and tolerances for all VSWR parameters peculiar to the equipment which can effect performance of the facility in meeting the requirements specified in Secs. 171.109 and 171.111. (d) Insulation resistance. The insulation resistance of all coaxial feedlines must be greater than 20 megohms. (e) Depth of modulation. (1) The depth of modulation of the radio frequency carrier due to each of the 90 Hz and 150 Hz tones must be 20 percent +/-2 percent along the course line. (2) The depth of modulation of the radiofrequency carrier due to the 1020 Hz identification signal must be within 5 percent to 15 percent. (f) Course sector width. The standard course sector width must be 6 deg. or 12 deg.. The course sector must be maintained with +/-17 percent of the standard. (g) Course alignment. Course alignment must be as specified in Sec. 171.109(a)(8). (h) Back course alignment and width. If a back course is provided, standards and tolerances for back course sector width and alignment must be the same as course sector width and course alignment specified in paragraphs (f) and (g) of this section. (i) Clearance. Clearance must be as specified in Sec. 171.109(a)(10). (j) Monitor standards and tolerances. (1) The monitor system must provide a warning to the designated control point(s) when any of the conditions described in this paragraph occur, within the time periods specified in paragraph (j)(6) of this section. (2) Course shift alarm: The monitor must alarm and cause radiation to cease, or identification and navigation signals must be removed, if the course alignment deviates from standard alignment by 10 percent or more of the standard course sector width. (3) RF power reduction alarm: The monitor must alarm and cause radiation to cease, or identification and navigation signals must be removed, if the output power is reduced by 3 db or more from normal. (4) Modulation level alarm: The monitor must alarm and cause radiation to cease, or identification and navigation signals must be removed, if the 90 Hz and 150 Hz modulation levels decrease by 17 percent or more. (5) Course sector width alarm: The monitor must alarm and cause radiation to cease, or identification and navigation signals must be removed, for a change in course sector width to a value differing by +/-17 percent or more from the standard. (6) Monitor delay before shutdown: Radiation must cease, or identification and navigation signals must be removed, within 10 seconds after a fault is detected by the monitor, and no attempt must be made to resume radiation for a period of at least 20 seconds. If an automatic recycle device is used, not more than three successive recycles may be permitted before a complete SDF shutdown occurs. (k) Mean time between failures. The mean time between failures must not be less than 800 hours. This measure is applied only to equipment failures (monitor or transmitting equipment, including out of tolerance conditions) which result in facility shutdown. It does not relate to the responsiveness of the maintenance organization. (l) Course alignment stability. Drift of the course alignment must not exceed one-half the monitor limit in a 1-week period. [Doc. No. 10116, 35 FR 12711, Aug. 11, 1970, as amended by Amdt. 171-9, 38 FR 28558, Oct. 15, 1973] Sec. 171.113 Installation requirements. (a) The facility must be installed according to accepted good engineering practices, applicable electric and safety codes, and FCC requirements. (b) The SDF facility must have the following basic components: (1) VHF SDF equipment and associated monitor system; (2) Remote control, and indicator equipment (remote monitor) when required by the FAA; (3) A final approach fix; and (4) Compass locator (COMLO) or marker if suitable fixes and initial approach routes are not available from existing facilities. (c) The facility must have a reliable source of suitable primary power, either from a power distribution system or locally generated. Also, adequate power capacity must be provided for operation of test and working equipment at the SDF. A determination by the Federal Aviation Administration as to whether a facility will be required to have standby power for the SDF and monitor accessories to supplement the primary power will be made for each airport based upon operational minimums and density of air traffic. (d) A determination by the Federal Aviation Administration as to whether a facility will be required to have dual transmitting equipment with automatic changeover for the SDF will be made for each airport based upon operational minimums and density of air traffic. (e) There must be a means for determining, from the ground, the performance of the equipment (including antennae), initially and periodically. (f) The facility must have the following ground/air or landline communication services: (1) At facilities outside of and not immediately adjacent to air traffic control zones or areas, there must be ground/air communications from the airport served by the facility. The utilization of voice on the SDF should be determined by the facility operator on an individual basis. (2) At facilities within or immediately adjacent to air traffic control zones or areas, there must be the ground/air communications required by paragraph (b)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility. Compliance with paragraphs (f) (1) and (2) of this section need not be shown at airports where an adjacent Federal Aviation Administration facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to air traffic control zones or areas, and where extensive delays are not a factor, the requirements of paragraphs (f) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communication facility, if an adjacent Federal Aviation Administration facility can communicate with aircraft during the proposed instrument approach procedure down to the airport surface or at least to the minimum approach altitude. (g) At those locations where two separate SDF facilities serve opposite ends of a single runway, an interlock must insure that only the facility serving the approach direction in use can radiate, except where no operationally harmful interference results. (h) At those locations where, in order to alleviate frequency congestion, the SDF facilities serving opposite ends of one runway employ identical frequencies, an interlock must insure that the facility not in operational use cannot radiate. (i) Provisions for maintenance and operations by authorized persons only. (j) Where an operational advantage exists, the installation may omit a back course. EFFECTIVE DATE NOTE: Amdt. 171-16, 56 FR 65664, Dec. 17, 1991, revised paragraph (f) of Sec. 171.113 effective September 16, 1993. For the convenience of the user, the revised text is set forth as follows: Sec. 171.113 Installation requirements. * * * * * (f) The facility must have the following ground-air or landline communication services: (1) At facilities outside of and not immediately adjacent to controlled airspace, there must be ground-air communications from the airport served by the facility. The utilization of voice on the SDF should be determined by the facility operator on an individual basis. (2) At facilities within or immediately adjacent to controlled airspace, there must be ground/air communications required by paragraph (b)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility. Compliance with paragraphs (f) (1) and (2) of this section need not be shown at airports where an adjacent Federal Aviation Administration facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to controlled airspace, and where extensive delays are not a factor, the requirements of paragraphs (f) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility, if an adjacent Federal Aviation Administration facility can communicate with aircraft during the proposed instrument approach procedure down to the airport surface or at least down to the minimum approach altitude. Sec. 171.115 Maintenance and operations requirements. (a) The owner of the facility shall establish an adequate maintenance system and provide qualified maintenance personnel to maintain the facility at the level attained at the time it was commissioned. Each person who maintains a facility shall meet at a minimum the Federal Communications Commission's licensing requirements and show that he has the special knowledge and skills needed to maintain the facility, including proficiency in maintenance procedures and the use of specialized test equipment. (b) The SDF must be designed and maintained so that the probability of operation within the performance requirements specified is high enough to insure an adequate level of safety. In the event out-of-tolerance conditions develop, the facility shall be removed from operation, and the designated control point notified. (c) The owner must prepare, and obtain approval of, and each person operating or maintaining the facility shall comply with, an operations and maintenance manual that sets forth procedures for operations, preventive maintenance, and emergency maintenance, including instructions on each of the following: (1) Physical security of the facility. This includes provisions for designating critical areas relative to the facility and preventing or controlling movements within the facility that may adversely affect SDF operations. (2) Maintenance and operations by authorized persons only. (3) Federal Communications Commission requirements for operating personnel and maintenance personnel. (4) Posting of licenses and signs. (5) Relation between the facility and Federal Aviation Administration air traffic control facilities, with a description of the boundaries of controlled airspace over or near the facility, instructions for relaying air traffic control instructions and information (if applicable), and instructions for the operation of an air traffic advisory service if the facility is located outside of controlled airspace. (6) Notice to the Administrator of any suspension of service. (7) Detailed and specific maintenance procedures and servicing guides stating the frequency of servicing. (8) Air-ground communications, if provided, expressly written or incorporating appropriate sections of Federal Aviation Administration manuals by reference. (9) Keeping of station logs and other technical reports, and the submission of reports required by Sec. 171.117. (10) Monitoring of the facility. (11) Names, addresses, and telephone numbers of persons to be notified in an emergency. (12) Inspection by U.S. personnel. (13) Shutdowns for routine maintenance and issue of "Notices to Airmen" for routine or emergency shutdowns, except that private use facilities may omit "Notices to Airmen." (14) Commissioning of the facility. (15) An acceptable procedure for amending or revising the manual. (16) An explanation of the kinds of activities (such as construction or grading) in the vicinity of the facility that may require shutdown or certification of the facility by Federal Aviation Administration flight check. (17) Procedure for conducting a ground check of SDF course alignment, width and clearance. (18) The following information concerning the facility: (i) Facility component locations with respect to airport layout, instrument runway, and similar areas; (ii) The type, make, and model of the basic radio equipment that will provide the service; (iii) The station power emission and frequencies of the SDF, markers and associated COMLOs, if any; (iv) The hours of operation; (v) Station identification call letters and method of station identification and the time spacing of the identification; (vi) A description of the critical parts that may not be changed, adjusted, or repaired without a Federal Aviation Administration flight check to confirm published operations. (d) The owner shall make a ground check of the facility each month in accordance with procedures approved by the Federal Aviation Administration at the time of commissioning, and shall report the results of the checks as provided in Sec. 171.117. (e) If the owner desires to modify the facility, he shall submit the proposal to the Federal Aviation Administration and may not allow any modifications to be made without specific approval. (f) The owner's maintenance personnel shall participate in initial inspections made by the Federal Aviation Administration. In the case of subsequent inspections, the owner or his representatives shall participate. (g) Whenever it is required by the Federal Aviation Administration, the owner shall incorporate improvements in SDF maintenance. In addition, he shall provide a stock of spare parts, of such a quantity, to make possible the prompt replacement of components that fail or deteriorate in service. (h) The owner shall provide Federal Aviation Administration approved test instruments needed for maintenance of the facility. (i) The owner shall close the facility by ceasing radiation and shall issue a "Notice to Airmen" that the facility is out of service (except that private use facilities may omit "Notices to Airmen"), upon receiving two successive pilot reports of its malfunctioning. Sec. 171.117 Reports. The owner of each facility to which this subpart applies shall make the following reports, at the time indicated, to the Federal Aviation Administration Regional Office for the area in which the facility is located: (a) Record of meter readings and adjustments (Form FAA-198). To be filled out by the owner or his maintenance representative with the equipment adjustments and meter readings as of the time of commissioning, with one copy to be kept in the permanent records of the facility and two copies to the appropriate Regional Office of the Federal Aviation Administration. The owner shall revise the form after any major repair, modification, or retuning, to reflect an accurate record of facility operation and adjustment. (b) Facility maintenance log (FAA Form 6030-1) This form is a permanent record of all equipment malfunctioning met in maintaining the facility, including information on the kind of work and adjustments made, equipment failures, causes (if determined), and corrective action taken. The owner shall keep the original of each report at the facility and send a copy to the appropriate Regional Office of the Federal Aviation Administration at the end of each month in which it is prepared. (c) Radio equipment operation record (Form FAA-418), containing a complete record of meter readings, recorded on each scheduled visit to the facility. The owner shall keep the original of each month's record at the facility and send a copy of it to the appropriate Regional Office of the Federal Aviation Administration. [Doc. No. 10116, 35 FR 12711, Aug. 11, 1970, as amended by Amdt. 171-10, 40 FR 36110, Aug. 19, 1975] Subpart G--Distance Measuring Equipment (DME) Source: Docket No. 10116, 35 FR 12715, Aug. 11, 1970, unless otherwise noted. Sec. 171.151 Scope. This subpart sets forth minimum requirements for the approval and operation of non-Federal DME facilities that are to be involved in the approval of instrument flight rules and air traffic control procedures related to those facilities. Sec. 171.153 Requests for IFR procedure. (a) Each person who requests an IFR procedure based on a DME facility that he owns must submit the following information with that request: (1) A description of the facility and evidence that the equipment meets the performance requirements of Sec. 171.157 and is installed in accordance with Sec. 171.159. (2) A proposed procedure for operating the facility. (3) A proposed maintenance organization and maintenance manual that meets the requirement of Sec. 171.161. (4) A statement of intention to meet the requirements of this subpart. (5) A showing that the facility has an acceptable level of operational reliability and an acceptable standard of performance. Previous equivalent operational experience with a facility with identical design and operational characteristics will be considered in showing compliance with this paragraph. (b) After the Federal Aviation Administration inspects and evaluates the facility, it advises the owner of the results and of any required changes in the facility or the maintenance manual or maintenance organization. The owner must then correct the deficiencies, if any, and operate the facility for an in-service evaluation by the Federal Aviation Administration. Sec. 171.155 Minimum requirements for approval. (a) The following are the minimum requirements that must be met before the Federal Aviation Administration will approve an IFR procedure for a non- Federal DME: (1) A suitable frequency channel must be available. (2) The facility's performance, as determined by air and ground inspection, must meet the requirements of Sec. 171.157. (3) The installation of the equipment must meet the requirements of Sec. 171.159. (4) The owner must agree to operate and maintain the facility in accordance with Sec. 171.161. (5) The owner must agree to furnish periodic reports, as set forth in Sec. 171.163, and must agree to allow the Federal Aviation Administration to inspect the facility and its operation whenever necessary. (6) The owner must assure the Federal Aviation Administration that he will not withdraw the facility from service without the permission of the Federal Aviation Administration. (7) The owner must bear all costs of meeting the requirements of this section and of any flight or ground inspections made before the facility is commissioned, except that the Federal Aviation Administration may bear certain of these costs subject to budgetary limitations and policy established by the Administrator. (b) If the applicant for approval meets the requirements of paragraph (a) of this section, the Federal Aviation Administration commissions the facility as a prerequisite to its approval for use in an IFR procedure. The approval is withdrawn at any time the facility does not continue to meet those requirements. Sec. 171.157 Performance requirements. (a) The DME must meet the performance requirements set forth in the "International Standards and Recommended Practices. Aeronautical Telecommunications, Part I, Paragraph 3.5" (Annex 10 to the Convention of International Civil Aviation). (b) It must be shown during ground inspection of the design features of the equipment that there will not be conditions that will allow unsafe operations because of component failure or deterioration. (c) The monitor must be checked periodically, during the in-service test evaluation period, for calibration and stability. These tests and ground tests of the functional and performance characteristics of the DME transponder must be conducted in accordance with the maintenance manual required by Sec. 171.161(b). (d) Flight inspection to determine the adequacy of the facility's operational performance and compliance with applicable "Standards and Recommended Practices" must be accomplished in accordance with the "U.S. Standard Flight Inspection Manual." [Docket No. 10116, 35 FR 12715, Aug. 11,1970, as amended by Amdt. 171-13, 50 FR 4875, Nov. 27, 1985] Sec. 171.159 Installation requirements. (a) The facility must be installed according to accepted good engineering practices, applicable electric and safety codes, and Federal Communications Commission requirements. (b) The facility must have a reliable source of suitable primary power, either from a power distribution system or locally generated, with a supplemental standby system, if needed. (c) Dual transmitting equipment with automatic changeover is preferred and may be required to support certain IFR procedures. (d) There must be a means for determining from the ground, the performance of the equipment, initially and periodically. (e) A facility intended for use as an instrument approach aid for an airport must have or be supplemented by the following ground air or landline communications services: (1) At facilities outside of and not immediately adjacent to air traffic control areas, there must be ground-air communications from the airport served by the facility. Separate communications channels are acceptable. (2) At facilities within or immediately adjacent to air traffic control areas, there must be the ground-air communications required by paragraph (e)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communication facility. Separate communications channels are acceptable. Compliance with paragraphs (e) (1) and (2) of this section need not be shown at airports where an adjacent Federal Aviation Administration facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to air traffic control zones or areas, and where extensive delays are not a factor, the requirements of paragraphs (e) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility, if an adjacent Federal Aviation Administration facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude for the controlled area. EFFECTIVE DATE NOTE: Amdt. 171-16, 56 FR 65665, Dec. 17, 1991, revised paragraphs (e)(1) and (e)(2) of Sec. 171.159 effective September 16, 1993. For the convenience of the user, the revised text is set forth as follows: Sec. 171.159 Installation requirements. * * * * * (e) * * * (1) At facilities outside of and not immediately adjacent to controlled airspace, there must be ground-air communications from the airport served by the facility. Separate communications channels are acceptable. (2) At facilities within or immediately adjacent to controlled airspace, there must be the ground-air communications required by paragraph (e)(1) of this section and reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility. Separate communications channels are acceptable. Compliance with paragraphs (e) (1) and (2) of this section need not be shown at airports where an adjacent Federal Aviation Administration facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to controlled airspace, and where extensive delays are not a factor, the requirements of paragraphs (e) (1) and (2) of this section may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility, if an adjacent Federal Aviation Administration facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude for the controlled airspace area. Sec. 171.161 Maintenance and operations requirements. (a) The owner of the facility shall establish an adequate maintenance system and provide qualified maintenance personnel to maintain the facility at the level attained at the time it was commissioned. Each person who maintains a facility shall meet at a minimum the Federal Communications Commission's licensing requirements and show that he has the special knowledge and skills needed to maintain the facility, including proficiency in maintenance procedures and the use of specialized test equipment. (b) The owner must prepare and obtain Federal Aviation Administration approval of, and each person operating or maintaining the facility shall comply with, an operations and maintenance manual that sets forth procedures for operations, preventive maintenance, and emergency maintenance, including instructions on each of the following: (1) Physical security of the facility. (2) Maintenance and operations by authorized persons only. (3) Federal Communications Commission's requirements and maintenance personnel. (4) Posting of licenses and signs. (5) Relations between the facility and Federal Aviation Administration air traffic control facilities, with a description of the boundaries of controlled airspace over or near the facility, instructions for relaying air traffic control instructions and information (if applicable), and instructions for the operation of an air traffic advisory service if the DME is located outside of controlled airspace. (6) Notice to the Administrator of any suspension of service. (7) Detailed and specific maintenance procedures and servicing guides stating the frequency of servicing. (8) Air-ground communications, if provided, expressly written or incorporating appropriate sections of Federal Aviation Administration manuals by reference. (9) Keeping of station logs and other technical reports, and the submission of reports required by Sec. 171.163. (10) Monitoring of the facility. (11) Inspections by U.S. personnel. (12) Names, addresses, and telephone numbers of persons to be notified in an emergency. (13) Shutdowns for routine maintenance and issue of "Notices to Airmen" for routine or emergency shutdowns, except that private use facilities may omit the "Notices to Airmen." (14) An explanation of the kinds of activity (such as construction or grading) in the vicinity of the facility that may require shutdown or reapproval of the facility by Federal Aviation Administration flight check. (15) Commissioning of the facility. (16) An acceptable procedure for amending or revising the manual. (17) The following information concerning the facility: (i) Location by latitude and longitude to the nearest second, and its position with respect to airport layouts. (ii) The type, make, and model of the basic radio equipment that will provide the service. (iii) The station power emission and frequency. (iv) The hours of operation. (v) Station identification call letters and methods of station identification, whether by Morse code or recorded voice announcement, and the time spacing of the identification. (vi) A description of the critical parts that may not be changed, adjusted, or repaired without an FAA flight check to confirm published operations. (c) The owner shall make a monthly ground operational check in accordance with procedures approved by the FAA at the time of commissioning, and shall report the results of the checks as provided in Sec. 171.163. (d) If the owner desires to modify the facility, he shall submit the proposal to the FAA and may not allow any modifications to be made without specific approval. (e) The owner's maintenance personnel shall participate in initial inspections made by the FAA. In the case of subsequent inspections, the owner or his representative shall participate. (f) Whenever it is required by the FAA, the owner shall incorporate improvements in DME maintenance. (g) The owner shall provide a stock of spare parts of such a quantity to make possible the prompt replacement of components that fail or deteriorate in service. (h) The owner shall provide FAA-approved test instruments needed for maintenance of the facility. (i) The owner shall shut down the facility (i.e., cease radiation and issue a NOTAM that the facility is out-of-service) upon receiving two successive pilot reports of its malfunctioning. Sec. 171.163 Reports. The owner of each facility to which this subpart applies shall make the following reports on forms furnished by the FAA, at the time indicated, to the FAA Regional office for the area in which the facility is located: (a) Record of meter readings and adjustments (Form FAA-198). To be filled out by the owner with the equipment adjustments and meter readings as of the time of commissioning, with one copy to be kept in the permanent records of the facility and two copies to the appropriate Regional office of the FAA. The owner shall revise the form after any major repair, modification, or returning, to reflect an accurate record of facility operation and adjustment. (b) Facility maintenance log (FAA Form 6030-1). This form is a permanent record of all equipment malfunctioning met in maintaining the facility, including information on the kind of work and adjustments made, equipment failures, causes (if determined), and corrective action taken. The owner shall keep the original of each report at the facility and send a copy to the appropriate Regional Office of the Federal Aviation Administration at the end of the month in which it is prepared. (c) Radio equipment operation record (Form FAA-418), containing a complete record of meter readings, recorded on each scheduled visit to the facility. The owner shall keep the original of each month's record at the facility and send a copy of it to the appropriate Regional Office of the Federal Aviation Administration. [Doc. No. 10116, 35 FR 12715, Aug. 11, 1970, as amended by Amdt. 171-10, 40 FR 36110, Aug. 19, 1975] Subpart H--VHF Marker Beacons Source: Docket No. 10116, 35 FR 12716, Aug. 11, 1970, unless otherwise noted. Sec. 171.201 Scope. (a) This subpart sets forth minimum requirements for the approval and operation of non-Federal VHF marker beacon facilities that are to be involved in the approval of instrument flight rules and air traffic control procedures related to those facilities. Sec. 171.203 Requests for IFR procedure. (a) Each person who requests an IFR procedure which will incorporate the use of a VHF marker beacon facility that he owns must submit the following information with that request: (1) A description of the facility and evidence that the equipment meets the performance requirements of Sec. 171.207 and is installed in accordance with Sec. 171.209. (2) A proposed procedure for operating the facility. (3) A proposed maintenance organization and a maintenance manual that meets the requirements of Sec. 171.211. (4) A statement of intent to meet the requirement of this subpart. (5) A showing that the facility has an acceptable level of operational reliability, and an acceptable standard of performance. Previous equivalent operational experience may be shown to comply with this subparagraph. (b) After the Federal Aviation Administration inspects and evaluates the facility, it advises the owner of the results and of any required changes in the facility or the maintenance manual or maintenance organization. The owner shall then correct the deficiencies, if any, and operate the facility for an in-service evaluation by the Federal Aviation Administration. Sec. 171.205 Minimum requirements for approval. (a) The following are the minimum requirements that must be met before the Federal Aviation Administration will approve an IFR procedure which incorporates the use of a non-Federal VHF marker beacon facility under this subpart: (1) The facility's performances, as determined by air and ground inspection, must meet the requirements of Sec. 171.207. (2) The installation of the equipment must meet the requirements of Sec. 171.209. (3) The owner must agree to operate and maintain the facility in accordance with Sec. 171.211. (4) The owner must agree to furnish periodic reports, as set forth in Sec. 171.213, and agree to allow the Federal Aviation Administration to inspect the facility and its operation whenever necessary. (5) The owner must assure the Federal Aviation Administration that he will not withdraw the facility from service without the permission of the Federal Aviation Administration. (6) The owner must bear all costs of meeting the requirements of this section and of any flight or ground inspections made before the facility is commissioned, except that the Federal Aviation Administration may bear certain of these costs subject to budgetary limitations and policy established by the Administrator. (b) If the applicant for approval meets the requirements of paragraph (a) of this section, the Federal Aviation Administration commissions the facility as a prerequisite to its approval for use in an IFR procedure. The approval is withdrawn at any time the facility does not continue to meet those requirements. Sec. 171.207 Performance requirements. (a) VHF Marker Beacons must meet the performance requirements set forth in the "International Standards and Recommended Practices, Aeronautical Telecommunications, Part I, paragraphs 3.1.6 and 3.6." (Annex 10 to the Convention on International Civil Aviation) except those portions that pertain to identification. Identification of a marker beacon (75 MHz) must be in accordance with "U.S. Standard Flight Inspection Manual," Sec. 219. (b) The facility must perform in accordance with recognized and accepted good electronic engineering practices for the desired service. The facility must be checked periodically during the in-service test evaluation period for calibration and stability. These tests and ground tests of the marker radiation characteristics must be conducted in accordance with the maintenance manual required by Sec. 171.211(b). (c) It must be shown during ground inspection of the design features of the equipment that there will not be conditions that will allow unsafe operations because of component failure or deterioration. (d) Flight inspection to determine the adequacy of the facility's operational performance and compliance with applicable "Standards and Recommended Practices" are conducted in accordance with the "U.S. Standard Flight Inspection Manual." The original test is made by the Federal Aviation Administration and later tests must be made under arrangements, satisfactory to the Federal Aviation Administration, that are made by the owner. Sec. 171.209 Installation requirements. (a) The facility must be installed according to accepted good engineering practices, applicable electric and safety codes, and Federal Communications Commission requirements. (b) The facility must have a reliable source of suitable primary power. (c) Dual transmitting equipment may be required, if applicable, to support certain IFR procedures. (d) At facilities within or immediately adjacent to air traffic control areas, and that are intended for use as instrument approach aids for an airport, there must be ground-air communications or reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communication facility. Compliance with this paragraph need not be shown at airports where an adjacent Federal Aviation Administration facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to air traffic control zones or areas, and where extensive delays are not a factor, the requirements of this paragraph may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility, if an adjacent Federal Aviation Administration facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude for the controlled area. EFFECTIVE DATE NOTE: Amdt. 171-16, 56 FR 65665, Dec. 17, 1991, revised paragraph (d) of Sec. 171.209 effective September 16, 1993. For the convenience of the user, the revised text is set forth as follows: Sec. 171.209 Installation requirements. * * * * * (d) At facilities within or immediately adjacent to controlled airspace and that are intended for use as instrument approach aids for an airport, there must be ground-air communications or reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communication facility. Compliance with this paragraph need not be shown at airports where an adjacent Federal Aviation Administration facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to controlled airspace, and where extensive delays are not a factor, the requirements of this paragraph may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility, if an adjacent Federal Aviation Administration facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude for the controlled airspace area. Sec. 171.211 Maintenance and operations requirements. (a) The owner of the facility shall establish an adequate maintenance system and provide qualified maintenance personnel to maintain the facility at the level attained at the time it was commissioned. Each person who maintains a facility shall meet at a minimum the Federal Communications Commission's licensing requirements and show that he has the special knowledge and skills needed to maintain the facility, including proficiency in maintenance procedures and the use of specialized test equipment. (b) The owner must prepare, and obtain approval of, and each person who operates or maintains the facility shall comply with, an operations and maintenance manual that sets forth procedures for operations, preventive maintenance, and emergency maintenance, including instructions on each of the following: (1) Physical security of the facility. (2) Maintenance and operations by authorized persons only. (3) Federal Communications Commission's requirements for operating and maintenance personnel. (4) Posting of licenses and signs. (5) Relations between the facility and Federal Aviation Administration air traffic control facilities, with a description of the boundaries of controlled airspace over or near the facility, instructions for relaying air traffic control instructions and information (if applicable). (6) Notice to the Administrator of any suspension of service. (7) Detailed arrangements for maintenance, flight inspection, and servicing, stating the frequency of servicing. (8) Keeping of station logs and other technical reports, and the submission of reports required by Sec. 171.213. (9) Monitoring of the facility, at least once each half hour, to assure continuous operation. (10) Inspections by U.S. personnel. (11) Names, addresses, and telephone numbers of persons to be notified in an emergency. (12) Shutdowns for routine maintenance and issue of "Notices to Airmen" for routine or emergency shutdowns (private use facilities may omit the "Notice to Airmen"). (13) Commissioning of the facility. (14) An acceptable procedure for amending or revising the manual. (15) The following information concerning the facility: (i) Location by latitude and longitude to the nearest second, and its position with respect to airport layouts. (ii) The type, make, and model of the basic radio equipment that will provide the service. (iii) The station power emission and frequency. (iv) The hours of operation. (v) Station identification call letters and methods of station identification, whether by Morse Code or recorded voice announcement, and the time spacing of the identification. (c) If the owner desires to modify the facility, he shall submit the proposal to the Federal Aviation Administration and meet applicable requirements of the Federal Communications Commission, and must not allow any modification to be made without specific approval by the Federal Aviation Administration. (d) The owner's maintenance personnel shall participate in initial inspections made by the Federal Aviation Administration. In the case of subsequent inspections, the owner or his representative shall participate. (e) The owner shall provide a stock of spare parts, of such a quantity to make possible the prompt replacement of components that fail or deteriorate in service. (f) The owner shall shut down the facility by ceasing radiation, and shall issue a "Notice to Airmen" that the facility is out of service (except that private use facilities may omit "Notices to Airmen") upon receiving two successive pilot reports of its malfunctioning. Sec. 171.213 Reports. The owner of each facility to which this subpart applies shall make the following reports, at the times indicated, to the Federal Aviation Administration Regional Office for the area in which the facility is located: (a) Record of meter readings and adjustments (Form FAA-198). To be filled out by the owner or his maintenance representative with the equipment adjustments and meter readings as of the time of commissioning, with one copy to be kept in the permanent records of the facility and two copies to the appropriate Regional Office of the Federal Aviation Administration. The owner must revise the form after any major repair, modification, or retuning, to reflect an accurate record of facility operation and adjustment. (b) Facility maintenance log (FAA Form 6030-1). This form is a permanent record of all equipment malfunctioning met in maintaining the facility, including information on the kind of work and adjustments made, equipment failures, causes (if determined), and corrective action taken. The owner shall keep the original of each report at the facility and send a copy to the appropriate Regional Office of the Federal Aviation Administration at the end of the month in which it is prepared. (c) Radio equipment operation record (Form FAA-418), containing a complete record of meter readings, recorded on each scheduled visit to the facility. The owner shall keep the original of each month's record at the facility and send a copy of it to the appropriate Regional Office of the Federal Aviation Administration. [Doc. No. 10116, 35 FR 12716, Aug. 11, 1970, as amended by Amdt. 171-10, 40 FR 36110, Aug. 19, 1975] Subpart I--Interim Standard Microwave Landing System (ISMLS) Source: Docket No. 14120, 40 FR 36110, Aug. 19, 1975, unless otherwise noted. Sec. 171.251 Scope. This subpart sets forth minimum requirements for the approval and operation of non-Federal Interim Standard Microwave Landing System (ISMLS) facilities that are to be involved in the approval of instrument flight rules and air traffic control procedures related to those facilities. Sec. 171.253 Definitions. As used in this subpart: "Angular displacement sensitivity" (Glide Slope) means the ratio of measured DDM to the corresponding angular displacement from the appropriate reference line. "Collocated ground station" means the type of ground station which transmits two or more guidance signals simultaneously from a common location. "Course line" means the locus of points nearest to the runway centerline in any horizontal plane at which the DDM is zero. "Course sector (full)" means a sector in a horizontal plane containing the course line and limited by the loci of points nearest to the course line at which the DDM is 0.155. "Course sector (half)" means the sector in a horizontal plane containing the course line and limited by the loci of points nearest to the course line at which DDM is 0.0775. "DDM" means difference in depth of modulation. The percentage modulation depth of the larger signal minus the percentage modulation depth of the smaller signal, divided by 100. "Displacement sensitivity" (Localizer) means the ratio of measured DDM to the corresponding lateral displacement from the appropriate reference line. "Facility Performance Category I--ISMLS" means an ISMLS which provides guidance information from the coverage limit of the ISMLS to the point at which the localizer course line intersects the ISMLS glide path at a height of 200 feet or less above the horizontal plane containing the threshold. "Glide path" means that locus of points in the vertical plane containing the runway center line at which the DDM is zero, which, of all such loci, is the closest to the horizontal plane. "Glide path angle" () means the angle between a straight line which represents the mean of the ISMLS glide path and the horizontal. "Glide path sector (full)" means the sector in the vertical plane containing the ISMLS glide path and limited by the loci of points nearest to the glide path at which the DDM is 0.175. The ISMLS glide path sector is located in the vertical plane containing the runway centerline, and is divided by the radiated glide path in two parts called upper sector and lower sector, referring respectively to the sectors above and below the glide path. "Glide path sector (half)" means the sector in the vertical plane containing the ISMLS glide path and limited by the loci of points nearest to the glide path at which the DDM is 0.0875. "ISMLS Point 'A' " means an imaginary point on the glide path/localizer course measured along the runway centerline extended, in the approach direction, four nautical miles from the runway threshold. "ISMLS Point 'B' " means an imaginary point on the glide path/localizer course measured along the runway centerline extended, in the approach direction, 3500 feet from the runway threshold. "ISMLS Point 'C' " means a point through which the downward extended straight portion of the glide path (at the commissioned angle) passes at a height of 100 feet above the horizontal plane containing the runway threshold. "Interim standard microwave landing system" (ISMLS) means a ground station which transmits azimuth and elevation angle information which, when decoded and processed by the airborne unit, provides signal performance capable of supporting approach minima for V/STOL and CTOL operations and operates with the signal format and tolerances specified in Secs. 171.259, 171.261, 171.263, 171.265, and 171.267. "Integrity" means that quality which relates to the trust which can be placed in the correctness of the information supplied by the facility. "Mean corrective time" means the average time required to correct an equipment failure over a given period, after a service man reaches the facility. "Mean time between failures" means the average time between equipment failure over a given period. "Reference datum" means a point at a specified height located vertically above the intersection of the runway centerline and the threshold and through which the downward extended straight portion of the ISMLS glide path passes. "Split type ground station" means the type of ground station in which the electronic components for the azimuth and elevation guidance are contained in separate housings or shelters at different locations, with the azimuth portion of the ground station located at the stop end of the runway, and the elevation guidance near the approach end of the runway. Sec. 171.255 Requests for IFR procedures. (a) Each person who requests an IFR procedure based on an ISMLS facility that he owns must submit the following information with that request: (1) A description of the facility and evidence that the equipment meets the performance requirements of Secs. 171.259, 171.261, 171.263, 171.265, 171.267, and 171.269, and is installed in accordance with Sec. 171.271. (2) A proposed procedure for operating the facility. (3) A proposed maintenance organization and a maintenance manual that meets the requirements of Sec. 171.273. (4) A statement of intent to meet the requirements of this subpart. (5) A showing that the ISMLS facility has an acceptable level of operational reliability, maintainability and acceptable standard of performance. Previous equivalent operational experience with a facility with identical design and operational characteristics will be considered in showing compliance with this paragraph. (b) After the FAA inspects and evaluates the ISMLS facility, it advises the owner of the results and of any required changes in the ISMLS facility or in the maintenance manual or maintenance organization. The owner must then correct the deficiencies, if any, and operate the ISMLS facility for an inservice evaluation by the FAA. Sec. 171.257 Minimum requirements for approval. (a) The following are the minimum requirements that must be met before the FAA approves an IFR procedure for a non-Federal ISMLS facility: (1) The performance of the ISMLS facility, as determined by flight and ground inspection conducted by the FAA, must meet the requirements of Secs. 171.259, 171.261, 171.263, 171.265, 171.267, and 171.269. (2) The installation of the equipment must meet the requirements of Sec. 171.271. (3) The owner must agree to operate and maintain the ISMLS facility in accordance with Sec. 171.273. (4) The owner must agree to furnish periodic reports as set forth in Sec. 171.275 and agree to allow the FAA to inspect the facility and its operation whenever necessary. (5) The owner must assure the FAA that he will not withdraw the ISMLS facility from service without the permission of the FAA. (6) The owner must bear all costs of meeting the requirements of this section and of any flight or ground inspection made before the ISMLS facility is commissioned, except that the FAA may bear certain costs subject to budgetary limitations and policy established by the Administrator. (b) If the applicant for approval meets the requirements of paragraph (a) of this section, the FAA approves the ISMLS facility for use in an IFR procedure. The approval is withdrawn at any time that the ISMLS facility does not continue to meet those requirements. In addition, the ISMLS facility may be de-commissioned whenever the frequency channel is needed for higher priority common system service. Sec. 171.259 Performance requirements: General. (a) The ISMLS consists of the following basic components: (1) C-Band (5000 MHz-5030 MHz) localizer equipment, associated monitor system, and remote indicator equipment; (2) C-Band (5220 MHz-5250 MHz) glide path equipment, associated monitor system, and remote indicator equipment; (3) VHF marker beacons (75 MHz), associated monitor systems, and remote indicator equipment. (4) An ISMLS airborne receiver or a VHF/UHF ILS receiver modified to be capable of receiving the ISMLS signals. This modification requires the addition of a C-Band antenna, a converter unit, a microwave/ILS mode control, and a VHF/UHF receiver modification kit. (b) The electronic ground equipments in paragraph (a)(1), (2), and (3) of this section, must be designed to operate on a nominal 120/240 volt, 60 Hz, 3-wire single phase AC power source. (c) ISMLS ground equipment must meet the following service conditions: (1) AC line parameters, DC voltage, elevation, and duty: 120 V nominal value, 102 V to 138 V (+/-1 V).* 208 V nominal value, 177 V to 239 V (+/-2 V).* 240 V nominal value, 204 V to 276 V (+/-0.2 V).* AC line frequency (60 Hz), 57 Hz to 63 Hz (+/-0.2 Hz).* DC voltage (48 V), 44 V to 52 V (+/-0.5 V).* *Note: Where discrete values of the above frequency or voltages are specified for testing purposes, the tolerances given in parentheses indicated by an asterisk apply to the test instruments used to measure these parameters. Elevation, 0 to 10,000 ft. above sea level. Duty, continuous, unattended. (2) Ambient conditions for localizer and glide path equipment: Temperature, -10 deg. C to +50 deg. C. Relative humidity, 5% to 90%. (3) Ambient conditions for marker beacon facilities and all other equipment installed outdoors (for example, antennae, field detectors, and shelters): Temperature, -50 deg. C. to +70 deg. C. Relative humidity, 5% to 100%. (4) All equipment installed outdoors must operate satisfactorily under the following conditions: Wind velocity, 0-100 MPH (not including gusts). Hail stones, 1/2 '' diameter. Rain, provide coverage through a distance of 5 nautical miles with rain falling at a rate of 50 millimeters per hour, and with rain falling at the rate of 25 millimeters per hour for the additional design performance range of the system. Ice loading, encased in 1/2 '' radial thickness of clear ice. (d) The ISMLS must perform in accordance with the following standards and practices for Facility Performance Category I operation: (1) The ISMLS must be constructed and adjusted so that, at a specified distance from the threshhold, similar instrumental indications in the aircraft represent similar displacements from the course line or ISMLS glide path, as appropriate, regardless of the particular ground installation in use. (2) The localizer and glide path components listed in paragraphs (a)(1) and (a)(2) of this section which form part of an ISMLS, must comply at least with the standard performance requirements specified herein. The marker beacon components listed in paragraph (a)(3) of this section which form part of an ISMLS, must comply at least with the standard performance requirements specified in Subpart H of this part. (3) The ISMLS must be so designed and maintained that the probability of operation is within the performance requirements specified in Sec. 171.273(k). (e) The signal format and pairing of the runway localizer and glide path transmitter frequencies of an ISMLS must be in accordance with the frequency plan approved by the FAA, and must meet the following signal format requirements: (1) The localizer and glide slope stations must transmit angular guidance information on a C-band microwave carrier on narrow, scanned antenna beams that are encoded to produce a modulation in space which, after averaging over several beam scans, is equivalent to the modulation used for conventional ILS as specified in Subpart C of this part, except that the frequency tolerance may not exceed +/-0.0001 percent. (2) Guidance modulation must be impressed on the microwave carrier of the radiated signal in the form of a summation of 90 Hz and 150 Hz sinusoidal modulation corresponding to the pointing direction of the particular beam which radiates the signal. (3) Each of the effective beam positions must be illuminated in a particular sequence for a short time interval. The modulation impressed on each beam must be a sample of the combined 90 Hz and 150 Hz waveform appropriate for that particular beam direction and time slot, and must be accomplished by appropriately varying the length of time the carrier is radiated during each beam illumination interval. (4) For those cases where the scanning beam fills the coverage space in steps, the incremental step must not exceed 0.6 times the beam width where the beam is in the proportional guidance sector. In the clearance region, the step may not exceed 0.8 times the beam width. (5) At least one pulse duration modulation (pdm) sample pulse per beam width of scan must be provided. (6) The minimum pulse duration must be 40 microseconds. (7) The minimum beam scan cycle must be 600 Hz. (8) The minimum duty ratio detectable by a receiver located anywhere in the coverage areas defined by this specification may not be less than 0.1. Detected duty ratio means the ratio of the average energy per scan detected at a point in space to the average energy per scan transmitted in all directions through the transmitting antenna. (9) The localizer must produce a C-band unmodulated reference frequency signal of sufficient strength to allow satisfactory operation of an aircraft receiver within the specified localizer and glide path coverage sectors. Pairing of this reference frequency with the localizer and glide slope frequencies must be in accordance with a frequency plan approved by the FAA. Sec. 171.261 Localizer performance requirements. This section prescribes the performance requirements for localizer equipment components of the ISMLS. (a) The localizer antenna system must: (1) Be located on the extension of the centerline of the runway at the stop end; (2) Be adjusted so that the course line be on a vertical plane containing the centerline of the runway served; (3) Have the minimum height necessary to comply with the coverage requirements prescribed in paragraph (j) of this section; (4) Be located at a distance from the stop end of the runway that is consistent with safe obstruction clearance practices; (5) Not obscure any light of the approach landing system; and (6) Be installed on frangible mounts or beyond the 1000' light bar. (b) On runways where limited terrain prevents the localizer antennae from being positioned on the runway centerline extended, and the cost of the land fill or a tall tower antenna support is prohibitive, the localizer antenna array may be offset, including a collocated ground station, so that the course intercepts the centerline at a point determined by the amount of the angular offset and the glide path angle. If other than a runway centerline localizer is used, the criteria in Subpart C of Part 97 of this chapter is applicable. (c) At locations where two separate ISMLS facilities serve opposite ends of of a single runway, an interlock must ensure that only the facility serving the approach direction being used will radiate. (d) The radiation from the localizer antenna system must produce a composite field pattern which is pulse duration modulated, the time average equivalent to amplitude modulation by a 90 Hz and 150 Hz tone. The localizer station must transmit angular guidance information over a C-band microwave carrier on narrow, scanned antenna beams that are encoded to produce a modulation in space which, after averaging over several beam scans, is equivalent to the modulation used for conventional ILS as specified in Subpart C of this part. The radiation field pattern must produce a course sector with one tone predominating on one side of the course and with the other tone predominating on the opposite side. When an observer faces the localizer from the approach end of the runway, the depth of modulation of the radio frequency carrier due to the 150 Hz tone must predominate on his right hand and that due to the 90 Hz tone must predominate on his left hand. (e) All horizontal angles employed in specifying the localizer field patterns must originate from the center of the localizer antenna system which provides the signals used in the front course sector. (f) The ISMLS course sector angle must be adjustable between 3 degrees and 9 degrees. The applicable course sector angle will be established and approved on an individual basis. (g) The ISMLS localizer must operate in the band 5000 MHz to 5030 MHz. The frequency tolerance may not exceed +/-0.0001 percent. (h) The emission from the localizer must be vertically polarized. The horizontally polarized component of the radiation of the course line may not exceed that which corresponds to a DDM error of 0.016 when an aircraft is positioned on the course line and is in a roll attitude of 20 degrees from the horizontal. (i) The localizer must provide signals sufficient to allow satisfactory operation of a typical aircraft installation within the localizer and glide path coverage sectors. The localizer coverage sector must extend from the center of the localizer antenna system to distances of 18 nautical miles minimum within +/-10 degrees from the front course line, and 10 nautical miles minimum between +/-10 degrees and +/-35 degrees from the front course line. The ISMLS localizer signals must be receivable at the distances specified up from a surface extending outward from the localizer antenna and within a sector in the elevation plane from 0.300 to 1.750 of the established glide path angle (). (j) Except as provided in paragraph (k) of this section, in all parts of the coverage volume specified in paragraph (i) of this section, the peak field strength may not be less than -87 dBW/m 2 , and must permit satisfactory operational usage of ISMLS localizer facilities. (k) The minimum peak field strength on the ISMLS glide path and within the localizer course sector from a distance of 10 nautical miles to a height of 100 feet (30 meters) above the horizontal plane containing the threshold, may not be less than +87 dBW/m 2 . (l) Above 16 degrees, the ISMLS localizer signals must be reduced to as low a value as practicable. (m) Bends in the course line may not have amplitudes which exceed the following: Zone Amplitude (DDM) (95 pct. probability) Outer limit of coverage to: ISMLS point "A" 0.031. ISMLS point "A" to ISMLS point "B" 0.031 at ISMLS point "A" decreasing at linear rate to 0.015 at ISMLS point "B". ISMLS point "B" to ISMLS point "C" 0.015. (n) The amplitudes referred to in paragraph (m) of this section are the DDMs due to bends as realized on the mean course line, when correctly adjusted. (o) The radio frequency carrier must meet the following requirements: (1) The nominal depth of modulation of the radio frequency carrier due to each of the 90 Hz and 150 Hz tones must be 20 percent along the course line. (2) The depth of modulation of the radio frequency carrier due to each of the 90 Hz and 150 Hz tones must be between 18 and 22 percent. (3) The frequency tolerance of the 90 Hz and 150 Hz modulated tones must be within +/-25 percent. (4) Total harmonic content of the 90 Hz tone may not exceed 10 percent. (5) Total harmonic content of the 150 Hz tone may not exceed 10 percent. However, a 300 Hz tone may be transmitted for identification purposes. (6) At every half cycle of the combined 90 Hz and 150 Hz wave form, the modulation tones must be phase-locked so that within the half course sector, the demodulated 90 Hz and 150 Hz wave forms pass through zero in the same direction within 20 degrees with phase relative to the 150 Hz component. However, the phase need not be measured within the half course sector. (p) The mean course line must be adjusted and maintained within +/-.015DDM from the runway centerline at the ISMLS reference datum. (q) The nominal displacement sensitivity within the half course sector at the ISMLS reference datum, must be 0.00145 DDM/meter (0.00044DDM/foot). However, where the specified nominal displacement sensitivity cannot be met, the displacement sensitivity must be adjusted as near as possible to that value. (r) The lateral displacement sensitivity must be adjusted and maintained within 17 percent of the nominal value. Nominal sector width at the ISMLS reference datum is 210 meters (700 feet). (s) The increase of DDM must be substantially linear with respect to angular displacement from the front course line where DDM is zero, up to angle on either side of the front course line where the DDM is 0.180. From that angle to +/-10 degrees, the DDM may not be less than 0.180. From +/-10 degrees to +/-35 degrees, the DDM may not be less than 0.155. (t) The localizer must provide for the simultaneous transmission of an identification signal which meets the following: (1) It must be specific to the runway and approach direction, on the same radio frequency carrier, as used for the localizer function. (2) Transmission of the identification signal may not interfere in any way with the basic localizer function. (3) The signal must be produced by pulse duration modulation of the radio frequency carrier resulting in a detected audio tone in the airborne VHF receiver of 1020 Hz +/-50Hz. (4) The depth of modulation must be between the limits of 10 and 12 percent. (5) The emissions carrying the identification signal must be vertically polarized. (6) The identification signal must employ the International Morse Code and consist of three letters. It must be preceded by the International Morse Code signal of the letter "M" followed by a short pause where it is necessary to distinguish the ISMLS facility from other navigational facilities in the immediate area. At airports where both an ISMLS and an ILS are in operation, each facility must have a different identification call sign. (7) The signal must be transmitted at a speed corresponding to approximately seven words per minute, and must be repeated at approximately equal intervals, not less than six times per minute, during which time the localizer is available for operational use. When the localizer is not available for transmission, the identification signal must be suppressed. Sec. 171.263 Localizer automatic monitor system. (a) The ISMLS localizer equipment must provide an automatic monitor system that transmits a warning to designated local and remote control points when any of the following occurs: (1) A shift of the mean course line of the localizer from the runway centerline equivalent to more than 0.015 DDM at the ISMLS reference datum. (2) For localizers in which the basic functions are provided by the use of a single-frequency system, a reduction of power output to less than 50 percent of normal or a loss of ground station identification transmissions. (3) Changes of displacement sensitivity to a value differing by more than 17 percent from nominal value for the localizer. (4) Failure of any part of the monitor itself. Such failure must automatically produce the same results as the malfunctioning of the element being monitored. (b) Within 10 seconds of the occurrence of any of the conditions prescribed in paragraph (a) of this section, including periods of zero radiation, localizer signal radiation must cease or the navigation and identification components must be removed. Sec. 171.265 Glide path performance requirements. This section prescribes the performance requirements for glide path equipment components of the ISMLS. These requirements are based on the assumption that the aircraft is heading directly toward the facility. (a) The glide slope antenna system must be located near the approach end of the runway, and the equipment must be adjusted so that the vertical path line will be in a sloping horizontal plane containing the centerline of the runway being served, and satisfy the coverage requirements prescribed in paragraph (g) of this section. For the purpose of obstacle clearance, location of the glide slope antenna system must be in accordance with the criteria specified in Subpart C of Part 97 of this chapter. (b) The radiation from the glide path antenna system must produce a composite field pattern which is pulse duration modulated by a 90 Hz and a 150 Hz tone, which is the time average equivalent to amplitude modulation. The pattern must be arranged to provide a straight line descent path in the vertical plane containing the centerline of the runway, with the 150 Hz tone predominating below the path and the 90 Hz tone predominating above the path to at least an angle equal to 1.75. As used in this section theta (), denotes the nominal glide path angle. The glide path angle must be adjusted and maintained within 0.075. (c) The glide path equipment must be capable of producing a radiated glide path from 3 to 9 degrees with respect to the horizontal. However, ISMLS glide path angles in excess of 3 degrees may be used to satisfy instrument approach procedures or to overcome an obstruction clearance problem, only in accordance with the criteria specified in Subpart C of Part 97 of this chapter. (d) The downward extended straight portion of the ISMLS glide path must pass through the ISMLS reference datum at a height ensuring safe guidance over obstructions and safe and efficient use of the runway served. The height of the ISMLS reference datum must be in accordance with Subpart C of Part 97 of this chapter. (e) The glide path equipment must operate in the band 5220 MHz to 5250 MHz. The frequency tolerance may not exceed +/-0.0001 percent. (f) The emission from the glide path equipment must be vertically polarized. (g) The glide path equipment must provide signals sufficient to allow satisfactory operation of a typical aircraft installation insectors of 8 degrees on each side of the centerline of the ISMLS glide path, to a distance of at least 10 nautical miles up to 1.75 and down to 0.45 above the horizontal or to such lower angle at which 0.22 DDM is realized. (h) To provide the coverage for glide path performance specified in paragraph (g) of this section, the minimum peak field strength within this coverage sector must be -82 dBW/m 2 . The peak field strength must be provided on the glide path down to a height of 30 meters (100 feet) above the horizontal plane containing the threshold. (i) Bends in the glide path may not have amplitudes which exceed the following: Amplitude (DDM) (95 pct. Zone probability) Outer limit of coverage to ISMLS point "C." 0.035. The amplitude referred to is the DDM due to bends as realized on the mean ISMLS glide path correctly adjusted. In regions of the approach where ISMLS glide path curvature is significant, bend amplitude is calculated from the mean curved path, and not the downward extended straight line. (j) Guidance modulation must be impressed on the microwave carrier of the radiated glide slope signal in the form of a unique summation of 90 Hz and 150 Hz sinusoidal modulation corresponding to the point direction of the particular beam which radiates the signal. Each of the effective beam positions must be illuminated in sequence for a short time interval. The scan rate must be synchronous with the 90 and 150 Hz tone base. The modulation impressed on each beam must be a sample of the combined 90 Hz and 150 Hz waveform appropriate for that particular beam direction and time slot. The actual modulation must be accomplished by appropriately varying the length of time the carrier is radiated during each beam illumination interval. (k) The nominal depth of modulation of the radio frequency carrier due to each of the 90 Hz and 150 Hz tones must be 40 percent along the ISMLS glide path. The depth of modulation may not deviate outside the limits of 37.5 percent to 42.5 percent. (l) The following tolerances apply to the frequencies of the modulating tones: (1) The modulating tones must be 90 Hz and 150 Hz within 2.5 percent. (2) The total harmonic content of the 90 Hz tone may not exceed 10 percent. (3) The total harmonic content of the 150 Hz tone may not exceed 10 percent. (m) At every half cycle of the combined 90 Hz and 150 Hz wave form, the modulation must be phase-locked so that, within the ISMLS half glide path sector, the demodulated 90 Hz and 150 Hz wave forms pass through zero in the same direction within 20 degrees of phase relative to the 150 Hz component. However, the phase need not be measured within the ISMLS half glide path sector. (n) The nominal angular displacement sensitivity must correspond to a DDM of 0.0875 at an angular displacement above and below the glide path of 0.12. The glide path angular displacement sensitivity must be adjusted and maintained within +/-25 percent of the nominal value selected. The upper and lower sectors must be as symmetrical as practicable within the limits prescribed in this paragraph. (o) The DDM below the ISMLS glide path must increase smoothly for decreasing angle until a value of 0.22 DDM is reached. This value must be achieved at an angle not less than 0.30 above the horizontal. However, if it is achieved at an angle above 0.45, the DDM value may not be less than 0.22 at least down to an angle of 0.45. [Doc. No. 14120, 40 FR 36110, Aug. 19, 1975; 40 FR 41093, Sept. 5, 1975; 40 FR 43719, Sept. 23, 1975] Sec. 171.267 Glide path automatic monitor system. (a) The ISMLS glide path equipment must provide an automatic monitor system that transmits a warning to designated local and remote control points when any of the following occurs: (1) A shift of the mean ISMLS glide path angle equivalent to more than 0.075. (2) For glide paths in which the basic functions are provided by the use of a single frequency system, a reduction of power output to less than 50 percent. (3) A change of the angle between the glide path and the line below the glide path (150 Hz predominating), at which a DDM of 0.0875 is realized by more than +/-0.0375. (4) Lowering of the line beneath the ISMLS glide path at which a DDM of 0.0875 is realized to less than 0.75 from the horizontal. (5) Failure of any part of the monitor itself. Such failure must automatically produce the same results as the malfunctioning of the element being monitored. (b) At glide path facilities where the selected nominal angular displacement sensitivity corresponds to an angle below the ISMLS glide path, which is close to or at the maximum limits specified, an adjustment to the monitor operating limits may be made to protect against sector deviations below 0.75 from the horizontal. (c) Within 10 seconds of the occurrence of any of the conditions prescribed in paragraph (a) of this section, including periods of zero radiation, glide path signal radiation must cease. Sec. 171.269 Marker beacon performance requirements. ISMLS marker beacon equipment must meet the performance requirements prescribed in Subpart H of this part. Sec. 171.271 Installation requirements. (a) The ISMLS facility must be permanent in nature, located, constructed, and installed according to accepted good engineering practices, applicable electric and safety codes, FCC licensing requirements, and paragraphs (a) and (c) of Sec. 171.261. (b) The ISMLS facility must have a reliable source of suitable primary power, either from a power distribution system or locally generated. Adequate power capacity must be provided for the operation of test and working equipment of the ISMLS. (c) The ISMLS facility must have a continuously engaged or floating battery power source for the ground station for continued normal operation if the primary power fails. A trickle charge must be supplied to recharge the batteries during the period of available primary power. Upon loss and subsequent restoration of power, the batteries must be restored to full charge within 24 hours. When primary power is applied, the state of the battery charge may not affect the operation of the ISMLS ground station. The battery must permit continuation of normal operation for at least two hours under the normal operating conditions. The equipment must meet all specification requirements with or without batteries installed. (d) There must be a means for determining, from the ground, the performance of the equipment including antennae, both initially and periodically. (e) The facility must have, or be supplemented by, ground-air or landline communications services. At facilities within or immediately adjacent to air traffic control areas, and that are intended for use as instrument approach aids for an airport, there must be ground-air communications or reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communication facility. Compliance with this paragraph need not be shown at airports where an adjacent Federal Aviation Administration facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to air traffic control zones or areas, and where extensive delays are not a factor, the requirements of this paragraph may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility, if an adjacent Federal Aviation Administration facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude for the controlled area. (f) Except where no operationally harmful interference will result, at locations where two separate ISMLS facilities serve opposite ends of a single runway, an interlock must ensure that only the facility serving the approach direction in use can radiate. EFFECTIVE DATE NOTE: Amdt. 171-16, 56 FR 65665, Dec. 17, 1991, revised paragraph (e) of Sec. 171.271 effective September 16, 1993. For the convenience of the user, the revised text is set forth as follows: Sec. 171.271 Installation requirements. (e) The facility must have, or be supplemented by, ground-air or landline communications services. At facilities within or immediately adjacent to controlled airspace and that are intended for use as instrument approach aids for an airport, there must be ground-air communications or reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communication facility. Compliance with this paragraph need not be shown at airports where an adjacent Federal Aviation Administration facility can communicate with aircraft on the ground at the airport and during the entire proposed instrument approach procedure. In addition, at low traffic density airports within or immediately adjacent to controlled airspace, and where extensive delays are not a factor, the requirements of this paragraph may be reduced to reliable communications (at least a landline telephone) from the airport to the nearest Federal Aviation Administration air traffic control or communications facility, if an adjacent Federal Aviation Administration facility can communicate with aircraft during the proposed instrument approach procedure, at least down to the minimum en route altitude for the controlled area. Sec. 171.273 Maintenance and operations requirements. (a) The owner of the facility must establish an adequate maintenance system and provide qualified maintenance personnel to maintain the facility at the level attained at the time it was commissioned. Each person who maintains a facility must meet at least the Federal Communications Commission's licensing requirements and show that he has the special knowledge and skills needed to maintain the facility, including proficiency in maintenance procedures and the use of specialized test equipment. (b) In the event of out-of-tolerance conditions or malfunctions, as evidenced by receiving two successive pilot reports, the owner must close the facility be ceasing radiation, and issue a "Notice to Airman" (NOTAM) that the facility is out of service. (c) The owner must prepare, and obtain approval of, an operations and maintenance manual that sets forth mandatory procedures for operations, periodic maintenance, and emergency maintenance, including instructions on each of the following: (1) Physical security of the facility. (2) Maintenance and operations by authorized persons. (3) FCC licensing requirements for operations and maintenance personnel. (4) Posting of licenses and signs. (5) Relation between the facility and FAA air traffic control facilities, with a description of the boundaries of controlled airspace over or near the facility, instructions for relaying air traffic control instructions and information, if applicable, and instructions for the operation of an air traffic advisory service if the facility is located outside of controlled airspace. (6) Notice to the Administrator of any suspension of service. (7) Detailed and specific maintenance procedures and servicing guides stating the frequency of servicing. (8) Air-ground communications, if provided, expressly written or incorporating appropriate sections of FAA manuals by reference. (9) Keeping of station logs and other technical reports, and the submission of reports required by Sec. 171.275. (10) Monitoring of the ISMLS facility. (11) Inspections by United States personnel. (12) Names, addresses, and telephone numbers of persons to be notified in an emergency. (13) Shutdowns for periodic maintenance and issue of "Notices to Airmen" for routine or emergency shutdowns. (14) Commissioning of the ISMLS facility. (15) An acceptable procedure for amending or revising the manual. (16) An explanation of the kinds of activities (such as construction or grading) in the vicinity of the ISMLS facility that may require shutdown or recertification of the ISMLS facility by FAA flight check. (17) Procedures for conducting a ground check of the localizer course alignment, width, and clearance, glide path elevation angle and course width, and marker beacon power, and modulation. (18) The following information concerning the ISMLS facility: (i) Facility component locations with respect to airport layout, instrument runways, and similar areas. (ii) The type, make, and model of the basic radio equipment that provides the service. (iii) The station power emission and frequencies of the ISMLS localizer, glide path, beacon markers, and associated compass locators, if any. (iv) The hours of operation. (v) Station identification call letters and method of station identification and the time spacing of the identification. (vi) A description of the critical parts that may not be changed, adjusted, or repaired without an FAA flight check to confirm published operations. (d) The owner or his maintenance representative must make a ground check of the ISMLS facility periodically in accordance with procedures approved by the FAA at the time of commissioning, and must report the results of the checks as provided in Sec. 171.275. (e) Modifications to an ISMLS facility may be made only after approval by the FAA of the proposed modification submitted by the owner. (f) The owner or the owner's maintenance representative must participate in inspections made by the FAA. (g) Whenever it is required by the FAA, the owner must incorporate improvements in ISMLS maintenance. (h) The owner or his maintenance representative must provide a sufficient stock of spare parts, including solid state components, or modules to make possible the prompt replacement of components or modules that fail or deteriorate in service. (i) FAA approved test instruments must be used for maintenance of the ISMLS facility. (j) The mean corrective maintenance time of the ISMLS equipment may not exceed 0.5 hours, with a maximum corrective maintenance time of not greater than 1.5 hours. This measure applies to failures of the monitor, transmitter and associated antenna assemblies, limited to unscheduled outage and out-of- tolerance conditions. (k) The mean time between failures of the ISMLS equipment may not be less than 1,500 hours. This measure applies to unscheduled outages, out-of- tolerance conditions, and failures of the monitor, transmitter, and associated antenna assemblies. (l) Inspection consists of an examination of the ISMLS equipment to ensure that unsafe operating conditions do not exist. (m) Monitoring of the ISMLS radiated signal must ensure a high degree of integrity and minimize the requirements for ground and flight inspection. The monitor must be checked periodically during the in-service test evaluation period for calibration and stability. These tests and ground checks of glide slope, localizer, and marker beacon radiation characteristics must be conducted in accordance with the maintenance requirements of this section. Sec. 171.275 Reports. The owner of the ISMLS facility or his maintenance representative must make the following reports at the indicated time to the appropriate FAA Regional Office where the facility is located. (a) Facility Equipment Performance and Adjustment Data (FAA Form 198). The FAA Form 198 shall be filled out by the owner or his maintenance representative with the equipment adjustments and meter readings as of the time of facility commissioning. One copy must be kept in the permanent records of the facility and two copies must be sent to the appropriate FAA Regional Office. The owner or his maintenance representative must revise the FAA Form 198 data after any major repair, modernization, or retuning to reflect an accurate record of facility operation and adjustment. In the event the data are revised, the owner or his maintenance representative shall notify the appropriate FAA Regional Office of such revisions, and forward copies of the revisions to the appropriate FAA Regional Office. (b) Facility Maintenance Log (FAAForm 6030--1). FAA Form 6030-1 is a permanent record of all the activities required to maintain the ISMLS facility. The entries must include all malfunctions met in maintaining the facility including information on the kind of work and adjustments made, equipment failures, causes (if determined) and corrective action taken. In addition, the entries must include completion of periodic maintenance required to maintain the facility. The owner or his maintenance representative must keep the original of each form at the facility and send a copy to the appropriate FAA Regional Office at the end of each month in which it is prepared. However, where an FAA approved remote monitoring system is installed which precludes the need for periodic maintenance visits to the facility, monthly reports from the remote monitoring system control point must be forwarded to the appropriate FAA Regional Office, and a hard copy retained at the control point. (c) Technical Performance Record (FAA Form 418). FAA Form 418 contains a record of system parameters, recorded on each scheduled visit to the facility. The owner or his maintenance representative shall keep the original of each month's record at the facility and send a copy of the form to the appropriate FAA Regional Office. Subpart J--Microwave Landing System (MLS) Source: Docket No. 20669, 51 FR 33177, Sept. 18, 1986, unless otherwise noted. Sec. 171.301 Scope. This subpart sets forth minimum requirements for the approval, installation, operation and maintenance of non-Federal Microwave Landing System (MLS) facilities that provide the basis for instrument flight rules (IFR) and air traffic control procedures. Sec. 171.303 Definitions. As used in this subpart: "Auxiliary data" means data transmitted in addition to basic data that provide ground equipment siting information for use in refining airborne position calculations and other supplementary information. "Basic data" means data transmitted by the ground equipment that are associated directly with the operation of the landing guidance system. "Beam center" means the midpoint between the -3 dB points on the leading and trailing edges of the scanning beam main lobe. "Beamwidth" means the width of the scanning beam main lobe measured at the -3 dB points and defined in angular units on the boresight, in the horizontal plane for the azimuth function and in the vertical plane for the elevation function. "Clearance guidance sector" means the volume of airspace, inside the coverage sector, within which the azimuth guidance information provided is not proportional to the angular displacement of the aircraft, but is a constant fly-left or fly-right indication of the direction relative to the approach course the aircraft should proceed in order to enter the proportional guidance sector. "Control Motion Noise (CMN)" means those fluctuations in the guidance which affect aircraft attitude, control surface motion, column motion, and wheel motion. Control motion noise is evaluated by filtering the flight error record with a band-pass filter which has corner frequencies at 0.3 radian/sec and 10 radians/sec for azimuth data and 0.5 radian/sec and 10 radians/sec for elevation data. "Data rate" means the average number of times per second that transmissions occur for a given function. "Differential Phase Shift Keying (DPSK)" means differential phase modulation of the radio frequency carrier with relative phase states of 0 degree or 180 degrees. "Failure" means the inability of an item to perform within previously specified limits. "Guard time" means an unused period of time provided in the transmitted signal format to allow for equipment tolerances. "Integrity" means that quality which relates to the trust which can be placed in the correctness of the information supplied by the facility. "Mean corrective time" means the average time required to correct an equipment failure over a given period, after a service technician reaches the facility. "Mean course error" means the mean value of the azimuth error along a specified radial of the azimuth function. "Mean glide path error" means the mean value of the elevation error along a specified glidepath of the elevation function. "Mean-time-between-failures (MTBF)" means the average time between equipment failures over a given period. "Microwave Landing System (MLS)" means the MLS selected by ICAO for international standardization. "Minimum glidepath" means the lowest angle of descent along the zero degree azimuth that is consistent with published approach procedures and obstacle clearance criteria. "MLS Approach Reference Datum" is a point at a specified height located vertically above the intersection of the runway centerline and the threshold. "MLS back azimuth reference datum" means a point 15 meters (50 feet) above the runway centerline at the runway midpoint. "MLS datum point" means a point defined by the intersection of the runway centerline with a vertical plane perpendicular to the centerline and passing through the elevation antenna phase center. "Out of coverage indication (OCI)" means a signal radiated into areas outside the intended coverage sector, where required, to specifically prevent invalid removal of an airborne warning indication in the presence of misleading guidance information. "Path Following Error (PFE)" means the guidance perturbations which could cause aircraft displacement from the desired course or glidepath. It is composed of the path following noise and of the mean course error in the case of azimuth functions, or the mean glidepath error in the case of elevation functions. Path following errors are evaluated by filtering the flight error record with a second order low pass filter which has a corner frequency at 0.5 radian/sec for azimuth data or 1.5 radians/sec for elevation data. "Path following noise (PFN)" means that portion of the guidance signal error which could cause displacement from the actual mean course line or mean glidepath as appropriate. "Split-site ground station" means the type of ground station in which the azimuth portion of the ground station is located near the stop end of the runway, and the elevation portion is located near the approach end. "Time division multiplex (TDM)" means that each function is transmitted on the same frequency in time sequence, with a distinct preamble preceding each function transmission. Sec. 171.305 Requests for IFR procedure. (a) Each person who requests an IFR procedure based on an MLS facility which that person owns must submit the following information with that request: (1) A description of the facility and evidence that the equipment meets the performance requirements of Secs. 171.309, 171.311, 171.313, 171.315, 171.317, 171.319, and 171.321 and is fabricated and installed in accordance with Sec. 171.323. (2) A proposed procedure for operating the facility. (3) A proposed maintenance organization and a maintenance manual that meets the requirements of Sec. 171.325. (4) A statement of intent to meet the requirements of this subpart. (5) A showing that the facility has an acceptable level of operational reliability and an acceptable standard of performance. Previous equivalent operational experience with a facility with identical design and operational characteristics will be considered in showing compliance with this subparagraph. (b) FAA inspects and evaluates the MLS facility; it advises the owner of the results, and of any required changes in the MLS facility or in the maintenance manual or maintenance organization. The owner must then correct the deficiencies, if any, and operate the MLS facility for an in-service evaluation by the FAA. Sec. 171.307 Minimum requirements for approval. (a) The following are the minimum requirements that must be met before the FAA approves an IFR procedure for a non-Federal MLS facility: (1) The performance of the MLS facility, as determined by flight and ground inspection conducted by the FAA, must meet the requirements of Secs. 171.309, 171.311, 171.313, 171.315, 171.317, 171.319, and 171.321. (2) The fabrication and installation of the equipment must meet the requirements of Sec. 171.323. (3) The owner must agree to operate and maintain the MLS facility in accordance with Sec. 171.325. (4) The owner must agree to furnish operational records as set forth in Sec. 171.327 and agree to allow the FAA to inspect the facility and its operation whenever necessary. (5) The owner must assure the FAA that he will not withdraw the MLS facility from service without the permission of the FAA. (6) The owner must bear all costs of meeting the requirements of this section and of any flight or ground inspection made before the MLS facility is commissioned. (b) [Reserved] Sec. 171.309 General requirements. The MLS is a precision approach and landing guidance system which provides position information and various ground-to-air data. The position information is provided in a wide coverage sector and is determined by an azimuth angle measurement, an elevation angle measurement and a range (distance) measurement. (a) An MLS constructed to meet the requirements of this subpart must include: (1) Approach azimuth equipment, associated monitor, remote control and indicator equipment. (2) Approach elevation equipment, associated monitor, remote control and indicator equipment. (3) A means for the encoding and transmission of essential data words, associated monitor, remote control and indicator equipment. Essential data are basic data words 1, 2, 3, 4, and 6 and auxiliary data words A1, A2 and A3. (4) Distance measuring equipment (DME), associated monitor, remote control and indicator equipment. (5) Remote controls for paragraphs (a) (1), (2), (3), and (4) of this section must include as a minimum on/off and reset capabilities and may be integrated in the same equipment. (6) At locations where a VHF marker beacon (75 MHz) is already installed, it may be used in lieu of the DME equipment. (b) In addition to the equipment required in paragraph (a) of this section the MLS may include: (1) Back azimuth equipment, associated monitor, remote control and indicator equipment. When Back Azimuth is provided, a means for transmission of Basic Data Word 5 and Auxiliary Data Word A4 shall also be provided. (2) A wider proportional guidance sector which exceeds the minimum specified in Secs. 171.313 and 171.317. (3) Precision DME, associated monitor, remote control and indicator equipment. (4) VHF marker beacon (75 MHz), associated monitor, remote control and indicator equipment. (5) The MLS signal format will accommodate additional functions (e.g., flare elevation) which may be included as desired. Remote controls for paragraphs (b) (1), (3) and (4) of this section must include as a minimum on/ off and reset capabilities, and may be integrated in the same equipment. (6) Provisions for the encoding and transmission of additional auxiliary data words, associated monitor, remote control and indicator equipment. (c) MLS ground equipment must be designed to operate on a nominal 120/240 volt, 60 Hz, 3-wire single phase AC power source and must meet the following service conditions: (1) AC line parameters, DC voltage, elevation and duty: 120 VAC nominal value--102 V to 138 V (+/-1 V)* 240 VAC nominal value--204 V to 276 V (+/-2 V)* 60 Hz AC line frequency--57 Hz to 63 Hz (+/-0.2 Hz)* *Note: Where discrete values of the above frequency or voltages are specified for testing purposes, the tolerances given in parentheses indicated by an asterisk apply to the test instruments used to measure these parameters. Elevation--0 to 3000 meters (10,000 feet) above sea level Duty--Continuous, unattended (2) Ambient conditions within the shelter for electronic equipment installed in shelters are: Temperature, -10 deg.C to +50 deg.C Relative humidity, 5% to 90% (3) Ambient conditions for electronic equipment and all other equipment installed outdoors (for example, antenna, field detectors, and shelters): Temperature, -50 deg.C to +70 deg.C Relative humidity, 5% to 100% (4) All equipment installed outdoors must operate satisfactorily under the following conditions: Wind Velocity: The ground equipment shall remain within monitor limits with wind velocities of up to 70 knots from such directions that the velocity component perpendicular to runway centerline does not exceed 35 knots. The ground equipment shall withstand winds up to 100 knots from any direction without damage. Hail Stones: 1.25 centimeters (1/2 inch) diameter. Rain: Provide required coverage with rain falling at a rate of 50 millimeters (2 inches) per hour, through a distance of 9 kilometers (5 nautical miles) and with rain falling at the rate of 25 millimeters (1 inch) per hour for the additional 28 kilometers (15 nautical miles). Ice Loading: Encased in 1.25 centimeters (1/2 inch) radial thickness of clear ice. Antenna Radome De-Icing: Down to -6 deg.C (20 deg.F) and wind up to 35 knots. (d) The transmitter frequencies of an MLS must be in accordance with the frequency plan approved by the FAA. (e) The DME component listed in paragraph (a)(4) of this section must comply with the minimum standard performance requirements specified in Subpart G of this part. (f) The marker beacon components listed in paragraph (b)(4) of this section must comply with the minimum standard performance requirements specified in Subpart H of this part. Sec. 171.311 Signal format requirements. The signals radiated by the MLS must conform to the signal format in which angle guidance functions and data functions are transmitted sequentially on the same C-band frequency. Each function is identified by a unique digital code which initializes the airborne receiver for proper processing. The signal format must meet the following minimum requirements: (a) Frequency assignment. The ground components (except DME/Marker Beacon) must operate on a single frequency assignment or channel, using time division multiplexing. These components must be capable of operating on any one of the 200 channels spaced 300 KHz apart with center frequencies from 5031.0 MHz to 5090.7 MHz and with channel numbering as shown in Table 1a. The operating radio frequencies of all ground components must not vary by more than +/-10 KHz from the assigned frequency. Any one transmitter frequency must not vary more than +/-50 Hz in any one second period. The MLS angle/data and DME equipment must operate on one of the paired channels as shown in Table 1b. Table 1a--Frequency Channel Plan Channel No. Frequency (MHz) 500 5031.0 501 5031.3 502 5031.6 503 5031.9 504 5032.2 505 5032.5 506 5032.8 507 5033.1 508 5033.4 509 5033.7 510 5034.0 511 5034.3 * * * * * 598 5060.4 599 5060.7 600 5061.0 601 5061.3 * * * * * 698 5090.4 699 5090.7 Table 1b--Channels Channel pairing MLS VHF angle MLS freq. freq. Ch. DME No. MHz MHz No. * 1X ** 1Y * 2X ** 2Y * 3X ** 3Y * 4X ** 4Y * 5X ** 5Y * 6X ** 6Y * 7X ** 7Y * 8X ** 8Y * 9X ** 9Y * 10X ** 10Y * 11X ** 11Y * 12X ** 12Y * 13X ** 13Y * 14X ** 14Y * 15X ** 15Y * 16X ** 16Y 17X 108.00 17Y 108.05 5043.0 540 17Z 5043.3 541 18X 108.10 5031.0 500 18W 5031.3 501 18Y 108.15 5043.6 542 18Z 5043.9 543 19X 108.20 19Y 108.25 5044.2 544 19Z 5044.5 545 20X 108.30 5031.6 502 20W 5031.9 503 20Y 108.35 5044.8 546 20Z 5045.1 547 21X 108.40 21Y 108.45 5045.4 548 21Z 5045.7 549 22X 108.50 5032.2 504 22W 5032.5 505 22Y 108.55 5046.0 550 22Z 5046.3 551 23X 108.60 23Y 108.65 5046.6 552 23Z 5046.9 553 24X 108.70 5032.8 506 24W 5033.1 507 24Y 108.75 5047.2 554 24Z 5047.5 555 25X 108.80 25Y 108.85 5047.8 556 25Z 5048.1 557 26X 108.90 5033.4 508 26W 5033.7 509 26Y 108.95 5048.4 558 26Z 5048.7 559 27X 109.00 27Y 109.05 5049.0 560 27Z 5049.3 561 28X 109.10 5034.0 510 28W 5034.3 511 28Y 109.15 5049.6 562 28Z 5049.9 563 29X 109.20 29Y 109.25 5050.2 564 29Z 5050.5 565 30X 109.30 5034.6 512 30W 5034.9 513 30Y 109.35 5050.8 566 30Z 5051.1 567 31X 109.40 31Y 109.45 5051.4 568 31Z 5051.7 569 32X 109.50 5035.2 514 32W 5035.5 515 32Y 109.55 5052.0 570 32Z 5052.3 571 33X 109.60 33Y 109.65 5052.6 572 33Z 5052.9 573 34X 109.70 5035.8 516 34W 5036.1 517 34Y 109.75 5053.2 574 34Z 5053.5 575 35X 109.80 35Y 109.85 5053.8 576 35Z 5054.1 577 36X 109.90 5036.4 518 36W 5036.7 519 36Y 109.95 5054.4 578 36Z 5054.7 579 37X 110.00 37Y 110.05 5055.0 580 37Z 5055.3 581 38X 110.10 5037.0 520 38W 5037.3 521 38Y 110.15 5055.6 582 38Z 5055.9 583 39X 110.20 39Y 110.25 5056.2 584 39Z 5056.5 585 40X 110.30 5037.6 522 40W 5037.9 523 40Y 110.35 5056.8 586 40Z 5057.1 587 41X 110.40 41Y 110.45 5057.4 588 41Z 5057.7 589 42X 110.50 5038.2 524 42W 5038.5 525 42Y 110.55 5058.0 590 42Z 5058.3 591 43X 110.60 43Y 110.65 5058.6 592 43Z 5058.9 593 44X 110.70 5038.8 526 44W 5039.1 527 44Y 110.75 5059.2 594 44Z 5059.5 595 45X 110.80 45Y 110.85 5059.8 596 45Z 5060.1 597 46X 110.90 5039.4 528 46W 5039.7 529 46Y 110.95 5060.4 598 46Z 5060.7 599 47X 111.00 47Y 111.05 5061.0 600 47Z 5061.3 601 48X 111.10 5040.0 530 48W 5040.3 531 48Y 111.15 5061.6 602 48Z 5061.9 603 49X 111.20 49Y 111.25 5062.2 604 49Z 5062.5 605 50X 111.30 5040.6 532 50W 5040.9 533 50Y 111.35 5062.8 606 50Z 5063.1 607 51X 111.40 51Y 111.45 5063.4 608 51Z 5063.7 609 52X 111.50 5041.2 534 52W 5041.5 535 52Y 111.55 5064.0 610 52Z 5064.3 611 53X 111.60 53Y 111.65 5064.6 612 53Z 5064.9 613 54X 111.70 5041.8 536 54W 5042.1 537 54Y 111.75 5065.2 614 54Z 5065.5 615 55X 111.80 55Y 111.85 5065.8 616 55Z 5066.1 617 56X 111.90 5042.4 538 56W 5042.7 539 56Y 111.95 5066.4 618 56Z 5066.7 619 57X 112.00 57Y 112.05 58X 112.10 58Y 112.15 59X 112.20 59Y 122.25 ** 60X ** 60Y ** 61X ** 61Y ** 62X ** 62Y ** 63X ** 63Y ** 64X ** 64Y ** 65X ** 65Y ** 66X ** 66Y ** 67X ** 67Y ** 68X ** 68Y ** 69X ** 69Y 70X 112.30 ** 70Y 112.35 71X 112.40 ** 71Y 112.45 72X 112.50 ** 72Y 112.55 73X 112.60 ** 73Y 112.65 74X 112.70 ** 74Y 112.75 75X 112.80 ** 75Y 112.85 76X 112.90 ** 76Y 112.95 77X 113.00 ** 77Y 113.05 78X 113.10 ** 78Y 113.15 79X 113.20 ** 79Y 113.25 80X 113.30 80Y 113.35 5067.0 620 80Z 5067.3 621 81X 113.40 81Y 113.45 5067.6 622 81Z 5067.9 623 82X 113.50 82Y 113.55 5068.2 624 82Z 5068.5 625 83X 113.60 83Y 113.65 5068.8 626 83Z 5069.1 627 84X 113.70 84Y 113.75 5069.4 628 84Z 6069.7 629 85X 113.80 85Y 113.85 5070.0 630 85Z 5070.3 631 86X 113.90 86Y 113.95 5070.6 632 86Z 5070.9 633 87X 114.00 87Y 114.05 5071.2 634 87Z 5071.5 635 88X 114.10 88Y 114.15 5071.8 636 88Z 5072.1 637 89X 114.20 89Y 114.25 5072.4 638 89Z 5072.7 639 90X 114.30 90Y 114.35 5073.0 640 90Z 5073.3 641 91X 114.40 91Y 114.45 5073.6 642 91Z 5073.9 643 92X 114.50 92Y 114.55 5074.2 644 92Z 5074.5 645 93X 114.60 93Y 114.65 5074.8 646 93Z 5075.1 647 94X 114.70 94Y 114.75 5075.4 648 94Z 5075.7 649 95X 114.80 95Y 114.85 5076.0 650 95Z 5076.3 651 96X 114.90 96Y 114.95 5076.6 652 96Z 5076.9 653 97X 115.00 97Y 115.05 5077.2 654 97Z 5077.5 655 98X 115.10 98Y 115.15 5077.8 656 98Z 5078.1 657 99X 115.20 99Y 115.25 5078.4 658 99Z 5078.7 659 100X 115.30 100Y 115.35 5079.0 660 100Z 5079.3 661 101X 115.40 101Y 115.45 5079.6 662 101Z 5079.9 663 102X 115.50 102Y 115.55 5080.2 664 102Z 5080.5 665 103X 115.60 103Y 115.65 5080.B 666 103Z 5081.1 667 104X 115.70 104Y 115.75 5081.4 668 104Z 5081.7 669 105X 115.80 105Y 115.85 5082.0 670 105Z 5082.3 671 106X 115.90 106Y 115.95 5082.6 672 106Z 5082.9 673 107X 116.00 107Y 116.05 5083.2 674 107Z 5083.5 675 108X 116.10 508 108Y 116.15 5083.8 676 108Z 5084.1 677 109X 116.20 109Y 116.25 5084.4 678 109Z 5084.7 679 110X 116.30 110Y 116.35 5085.0 680 110Z 5085.3 681 111X 116.40 111Y 116.45 5086.6 682 111Z 5085.9 683 112X 116.50 112Y 116.55 5086.2 684 112Z 5086.5 685 113X 116.60 113Y 116.65 5086.8 686 113Z 5087.1 687 114X 116.70 114Y 116.75 5087.4 688 114Z 5087.7 689 115X 116.80 115Y 116.85 5088.0 690 115Z 5088.3 691 116X 116.90 116Y 116.95 5088.6 692 116Z 5088.9 693 117X 117.00 117Y 117.05 5089.2 694 117Z 5089.5 695 118X 117.10 118Y 117.15 5089.8 696 118Z 5090.1 697 119X 117.20 119Y 117.25 5090.4 698 119Z 5090.7 699 120X 117.30 120Y 117.35 121X 117.40 121Y 117.45 122X 117.50 122Y 117.55 123X 117.60 123Y 117.65 124X 117.70 ** 124Y 117.75 125X 117.80 ** 125Y 117.85 126X 117.90 ** 126Y 117.95 [ ...Table continues... ] DME parameters Interrogation Pulse codes Reply DME/P Mode Pulse DME/N IA FA codes Freq. micro- micro- micro- Freq. micro- MHz s s s MHz s 1025 12 962 12 1025 36 1088 30 1026 12 963 12 1026 36 1089 30 1027 12 964 12 1027 36 1090 30 1028 12 965 12 1028 36 1091 30 1029 12 966 12 1029 36 1092 30 1030 12 967 12 1030 36 1093 30 1031 12 968 12 1031 36 1094 30 1032 12 969 12 1032 36 1095 30 1033 12 970 12 1033 36 1096 30 1034 12 971 12 1034 36 1097 30 1035 12 972 12 1035 36 1098 30 1036 12 973 12 1036 36 1099 30 1037 12 974 12 1037 36 1100 30 1038 12 975 12 1038 36 1101 30 1039 12 976 12 1039 36 1102 30 1040 12 977 12 1040 36 1103 30 1041 12 978 12 1041 36 36 42 1104 30 1041 21 27 1104 15 1042 12 12 18 979 12 1042 24 30 979 24 1042 36 36 42 1105 30 1042 21 27 1105 15 1043 12 980 12 1043 36 36 42 1106 30 1043 21 27 1106 15 1044 12 12 18 981 12 1044 24 30 981 24 1044 36 36 42 1107 30 1044 21 27 1107 15 1045 12 982 12 1045 36 36 42 1108 30 1045 21 27 1108 15 1046 12 12 18 983 12 1046 24 30 983 24 1046 36 36 42 1109 30 1046 21 27 1109 15 1047 12 984 12 1047 36 36 42 1110 30 1047 21 27 1110 15 1048 12 12 18 985 12 1048 24 30 985 24 1048 36 36 42 1111 30 1048 21 27 1111 15 1049 12 986 12 1049 36 36 42 1112 30 1049 21 27 1112 15 1050 12 12 18 987 12 1050 24 30 987 24 1050 36 36 42 1113 30 1050 21 27 1113 15 1051 12 988 12 1051 36 36 42 1114 30 1051 21 27 1114 15 1052 12 12 18 989 12 1052 24 30 989 24 1052 36 36 42 1115 30 1052 21 27 1115 15 1053 12 990 12 1053 36 36 42 1116 30 1043 21 27 1116 15 1054 12 12 18 991 12 1054 24 30 991 24 1054 36 36 42 1117 30 1054 21 27 1117 15 1055 12 992 12 1055 36 36 42 1118 30 1055 21 27 1118 15 1056 12 12 18 993 12 1056 24 30 993 24 1056 36 36 42 1119 30 1056 21 27 1119 15 1057 12 994 12 1057 36 36 42 1120 30 1057 21 27 1120 15 1058 12 12 18 995 12 1058 24 30 995 24 1058 36 36 42 1121 30 1058 21 27 1121 15 1059 12 996 12 1059 36 36 42 1122 30 1059 21 27 1122 15 1060 12 12 18 997 12 1060 24 30 997 24 1060 36 36 42 1123 30 1060 21 27 1123 15 1061 12 998 12 1061 36 36 42 1124 30 1061 21 27 1124 15 1062 12 12 18 999 12 1062 24 30 999 24 1062 36 36 42 1125 30 1062 21 27 1125 15 1063 12 1000 12 1063 36 36 42 1126 30 1063 21 27 1126 15 1064 12 12 18 1001 12 1064 24 30 1001 24 1064 36 36 42 1127 30 1064 21 27 1127 15 1065 12 1002 12 1065 36 36 42 1128 30 1065 21 27 1128 15 1066 12 12 18 1003 12 1066 24 30 1003 24 1066 36 36 42 1129 30 1066 21 27 1129 15 1067 12 1004 12 1067 36 36 42 1130 30 1067 21 27 1130 15 1068 12 12 18 1005 12 1068 24 30 1005 24 1068 36 36 42 1131 30 1068 21 27 1131 15 1069 12 1006 12 1069 36 36 42 1132 30 1069 21 27 1132 15 1070 12 12 18 1007 12 1070 24 30 1007 24 1070 36 36 42 1133 30 1070 21 27 1133 15 1071 12 1008 12 1071 36 36 42 1134 30 1071 21 27 1134 15 1072 12 12 18 1009 12 1072 24 30 1009 24 1072 36 36 42 1135 30 1072 21 27 1135 15 1073 12 1010 12 1073 36 36 42 1136 30 1073 21 27 1136 15 1074 12 12 18 1011 12 1074 24 30 1011 24 1074 36 36 42 1137 30 1074 21 27 1137 15 1075 12 1012 12 1075 36 36 42 1138 30 1075 21 27 1138 15 1076 12 12 18 1013 12 1076 24 30 1013 24 1076 36 36 42 1139 30 1076 21 27 1139 15 1077 12 1014 12 1077 36 36 42 1140 30 1077 21 27 1140 15 1078 12 12 18 1015 12 1078 24 30 1015 24 1078 36 36 42 1141 30 1078 21 27 1141 15 1079 12 1016 12 1079 36 36 42 1142 30 1079 21 27 1142 15 1080 12 12 18 1017 12 1080 24 30 1017 24 1080 36 36 42 1143 30 1080 21 27 1143 15 1081 12 1018 12 1081 36 1144 30 1082 12 1019 12 1082 36 1145 30 1083 12 1020 12 1083 36 1146 30 1084 12 1021 12 1084 36 1147 30 1085 12 1022 12 1085 36 1148 30 1086 12 1023 12 1086 36 1149 30 1037 12 1024 12 1087 36 1150 30 1088 12 1151 12 1088 36 1025 30 1089 12 1152 12 1089 36 1026 30 1090 12 1153 12 1090 36 1027 30 1091 12 1154 12 1091 36 1028 30 1092 12 1155 12 1092 36 1029 30 1093 12 1156 12 1093 36 1030 30 1094 12 1157 12 1094 36 1031 30 1095 12 1158 12 1095 36 1032 30 1096 12 1159 12 1096 36 1033 30 1097 12 1160 12 1097 36 1034 30 1098 12 1161 12 1098 36 1035 30 1099 12 1162 12 1099 36 1036 30 1100 12 1163 12 1100 36 1037 30 1101 12 1164 12 1101 36 1038 30 1102 12 1165 12 1102 36 1039 30 1103 12 1166 12 1103 36 1040 30 1104 12 1167 12 1104 36 36 42 1041 30 1104 21 27 1041 15 1105 12 1168 12 1105 36 36 42 1042 30 1005 21 27 1042 15 1106 12 1169 12 1106 36 36 42 1043 30 1106 21 27 1043 15 1107 12 1170 12 1107 36 36 42 1044 30 1107 21 27 1044 15 1108 12 1171 12 1108 36 36 42 1045 30 1108 21 27 1045 15 1109 12 1172 12 1109 36 36 42 1046 30 1109 21 27 1046 15 1110 12 1173 12 1110 36 36 42 1047 30 1110 21 27 1047 15 1111 12 1174 12 1111 36 36 42 1048 30 1111 21 27 1048 15 1112 12 1175 12 1112 36 36 42 1049 30 1112 21 27 1049 15 1113 12 1176 12 1113 36 36 42 1050 30 1113 21 27 1050 15 1114 12 1177 12 1114 36 36 42 1051 30 1114 21 27 1051 15 1115 12 1178 12 1115 36 36 42 1052 30 1115 21 27 1052 15 1116 12 1179 12 1116 36 36 42 1053 30 1116 21 27 1053 15 1117 12 1180 12 1117 36 36 42 1054 30 1117 21 27 1054 15 1118 12 1181 12 1118 36 36 42 1055 30 1118 21 27 1055 15 1119 12 1182 12 1119 36 36 42 1056 30 1119 21 27 1056 15 1120 12 1183 12 1120 36 36 42 1057 30 1120 21 27 1057 15 1121 12 1184 12 1121 36 36 42 1058 30 1121 21 27 1058 15 1122 12 1185 12 1122 36 36 42 1059 30 1122 21 27 1059 15 1123 12 1186 12 1123 36 36 42 1060 30 1123 21 27 1060 15 1124 12 1187 12 1124 36 36 42 1061 30 1124 21 27 1061 15 1125 12 1188 12 1125 36 36 42 1062 30 1125 21 27 1062 15 1126 12 1189 12 1126 36 36 42 1063 30 1126 21 27 1063 15 1127 12 1190 12 1127 36 36 42 1064 30 1127 21 27 1064 19 1128 12 1191 12 1128 36 36 42 1065 30 1128 21 27 1065 19 1129 12 1192 12 1129 36 36 42 1066 30 1129 21 27 1066 15 1130 12 1193 12 1130 36 36 42 1067 30 1130 21 27 1067 15 1131 12 1194 12 1131 36 36 42 1068 30 1131 21 27 1068 15 1132 12 1195 12 1132 36 36 42 1069 30 1132 21 27 1069 15 1133 12 1196 12 1133 36 36 42 1070 30 1133 21 27 1070 15 1134 12 1197 12 1134 36 36 42 1071 30 1134 21 27 1071 15 1135 12 1198 12 1135 36 36 42 1072 30 1135 21 27 1072 15 1136 12 1199 12 1136 36 36 42 1073 30 1136 21 27 1073 15 1137 12 1200 12 1137 36 36 42 1074 30 1137 21 27 1074 15 1138 12 1201 12 1138 36 36 42 1075 30 1138 21 27 1075 15 1139 12 1202 12 1139 36 36 42 1076 30 1139 21 27 1076 15 1140 12 1203 12 1140 36 36 42 1077 30 1140 21 27 1077 15 1141 12 1204 12 1141 36 36 42 1078 30 1141 21 27 1078 15 1142 12 12.5 12 1142 36 36 42 1079 30 1142 21 27 1079 12 1143 12 1206 12 1143 36 36 42 1080 30 1143 21 27 1080 15 1144 12 1207 12 1144 36 1081 30 1145 12 1208 12 1145 36 1082 30 1146 12 1209 12 1146 36 1083 30 1147 12 1210 12 1147 36 1084 30 1148 12 1211 12 1148 36 1085 30 1149 12 1212 12 1149 36 1086 30 1150 12 1213 12 1150 36 1087 30 Notes: * These channels are reserved exclusively for national allotments. ** These channels may be used for national allotment on a secondary basis. The primary reason for reserving these channels is to provide protection for the secondary Surveillance Radar (SSR) system. 108.0 MHz is not scheduled for assignment to ILS service. The associated DME operating channel No. 17X may be assigned to the emergency service. (b) Polarization. (1) The radio frequency emissions from all ground equipment must be nominally vertically polarized. Any horizontally polarized radio frequency emission component from the ground equipment must not have incorrectly coded angle information such that the limits specified in paragraphs (b) (2) and (3) of this section are exceeded. (2) Rotation of the receiving antenna thirty degrees from the vertically polarized position must not cause the path following error to exceed the allowed error at that location. (c) Modulation requirements. Each function transmitter must be capable of DPSK and continuous wave (CW) modulations of the RF carrier which have the following characteristics. (1) DPSK. The DPSK signal must have the following characteristics: bit rate 15.625 KHz bit length 64 microseconds logic "0" no phase transition logic "1" phase transition phase transition less than 10 microseconds phase tolerance +/- 10 degrees The phase shall advance (or retard) monotonically throughout the transition region. Amplitude modulation during the phase transition period shall not be used. [ ...Illustration appears here... ] Figure 1. -DPSK Phase Characteristic (2) CW. The CW pulse transmissions and the CW angle transmissions as may be required in the signal format of any function must have characteristics such that the requirements of paragraph (d) of this section are met. (d) Radio frequency signal spectrum. The transmitted signal must be such that during the transmission time, the mean power density above a height of 600 meters (2000 feet) does not exceed -100.5 dBW/m2 for angle guidance and - 95.5 dBW/m2 for data, as measured in a 150 KHz bandwidth centered at a frequency of 840 KHz or more from the assigned frequency. (e) Synchronization. Synchronization between the azimuth and elevation components is required and, in split-site configurations, would normally be accomplished by landline interconnections. Synchronization monitoring must be provided to preclude function overlap. (f) Transmission rates. Angle guidance and data signals must be transmitted at the following average repetition rates: Average data Function rate (Hertz) Approach Azimuth 13+/-0.5 High Rate Approach Azimuth /1/ 39+/-1.5 Approach Elevation 39+/-1.5 Back Azimuth 6.5+/-0.25 Basic Data (/2/) Auxiliary Data (/3/) /1/ The higher rate is recommended for azimuth scanning antennas with beamwidths greater than two degrees. It should be noted that the time available in the signal format for additional functions is limited when the higher rate is used. /2/ Refer to Table 8a. /3/ Refer to Table 8c. (g) Transmission sequences. Sequences of angle transmissions which will generate the required repetition rates are shown in Figures 2 and 3. [ ...Illustration appears here... ] Figure 2. Transmission sequence pair which provide for all MLS angle guidance functions. [ ...Illustration appears here... ] Figure 3. Transmission sequence pair which provides for the MLS high rate approach azimuth angle guidance function. (h) TDM cycle. The time periods between angle transmission sequences must be varied so that exact repetitions do not occur within periods of less than 0.5 second in order to protect against synchronous interference. One such combination of sequences is shown in Figure 4 which forms a full multiplex cycle. Data may be transmitted during suitable open times within or between the sequences. [ ...Illustration appears here... ] Figure 4. A complete function multiplex cycle. (i) Function Formats (General). Each angle function must contain the following elements: a preamble; sector signals; and a TO and FRO angle scan organized as shown in Figure 5a. Each data function must contain a preamble and a data transmission period organized as shown in Figure 5b. [ ...Illustration appears here... ] Figure 5 - Function format. (1) Preamble format. The transmitted angle and date functions must use the preamble format shown in Figure 6. This format consists of a carrier acquisition period of unmodulated CW transmission followed by a receiver synchronization code and a function identification code. The preamble timing must be in accordance with Table 2. [ ...Illustration appears here... ] Figure 6 - Preamble organization. (i) Digital codes. The coding used in the preamble for receiver synchronization is a Barker code logic 11101. The time of the last phase transition midpoint in the code shall be the receiver reference time (see Table 2). The function identification codes must be as shown in Table 3. The last two bits (I11 and I12) of the code are parity bits obeying the equations: I6+I7+I8+I9+I10+I11=Even I6+I8+I10+I12=Even (ii) Data modulation. The digital code portions of the preamble must be DPSK modulated in accordance with Sec. 171.311(c)(1) and must be transmitted throughout the function coverage volume. (2) Angle function formats. The timing of the angle transmissions must be in accordance with Tables 4a, 4b, and 5. The actual timing of the TO and FRO scans must be as required to meet the accuracy requirements of Secs. 171.313 and 171.317. (i) Preamble. Must be in accordance with requirements of Sec. 171.311(i)(1). Table 2--Preamble Timing /1/ Event time slot begins at-- 15.625 kHz clock pulse Time Event (number) (milliseconds) Carrier acquisition: (CW transmission) 0 0 Receiver reference time code: I1=1 13 0.832 I2=1 14 0.896 I3=1 15 0.960 I4=0 16 1.024 I5=1 17 /2/ 1.088 Function identification: I6 18 1.152 I7 19 1.216 I8 20 1.280 I9 21 1.344 I10 (see table 1) 22 1.408 I11 23 1.472 I12 24 1.536 END PREAMBLE 25 1.600 /1/ Applies to all functions transmitted. /2/ Reference time for receiver synchronization for all function timing. Table 3--Function Identification Codes Code Function I6 I7 I8 I9 I10 I11 I12 Approach azimuth 0 0 1 1 0 0 1 High rate approach azimuth 0 0 1 0 1 0 0 Approach elevation 1 1 0 0 0 0 1 Back azimuth 1 0 0 1 0 0 1 Basic data 1 0 1 0 1 0 0 0 Basic data 2 0 1 1 1 1 0 0 Basic data 3 1 0 1 0 0 0 0 Basic data 4 1 0 0 0 1 0 0 Basic data 5 1 1 0 1 1 0 0 Dasic data 6 0 0 0 1 1 0 1 Auxiliary data A 1 1 1 0 0 1 0 Auxiliary data B 1 0 1 0 1 1 1 Auxiliary data C 1 1 1 1 0 0 0 (ii) Sector signals. In all azimuth formats, sector signals must be transmitted to provide Morse Code identification, airborne antenna selection, and system test signals. These signals are not required in the elevation formats. In addition, if the signal from an installed ground component results in a valid indication in an area where no valid guidance should exist, OCI signals must be radiated as provided for in the signal format (see Tables 4a, 4b, and 5). The sector signals are defined as follows: (A) Morse Code. DPSK transmissions that will permit Morse Code facility identification in the aircraft by a four letter code starting with the letter "M" must be included in all azimuth functions. They must be transmitted and repeated at approximately equal intervals, not less than six times per minute, during which time the ground subsystem is available for operational use. When the transmissions of the ground subsystem are not available, the identification signal must be suppressed. The audible tone in the aircraft is started by setting the Morse Code bit to logic "1" and stopped by a logic "0" (see Tables 4a and 4b). The identification code characteristics must conform to the following: the dot must be between 0.13 and 0.16 second in duration, and the dash between 0.39 and 0.48 second. The duration between dots and/or dashes must be one dot plus or minus 10%. The duration between characters (letters) must not be less than three dots. When back azimuth is provided, the code shall be transmitted by the approach azimuth and back azimuth within plus or minus 0.08 seconds. (B) Airborne antenna selection. A signal for airborne antenna selection shall be transmitted as a "zero" DPSK signal lasting for a six-bit period (see Tables 4a and 4b). Table 4a--Approach Azimuth Function timing Event time slot begins at-- 15.625 kHz clock pulse Time Event (number) (milliseconds) Preamble 0 0 Morse code 25 1.600 Antenna select 26 1.664 Rear OCI 32 2.048 Left OCI 34 2.176 Right OCI 36 2.304 To test 38 2.432 To scan /1/ 40 2.560 Pause 8.760 Midscan point 9.060 FRO scan /1/ 9.360 FRO test 15.560 End Function (Airborne) 15.688 End guard time; end function (ground) 15.900 /1/The actual commencement and completion of the TO and the FRO scan transmissions are dependent on the amount of proportional guidance provided. The time slots provided shall accommodate a maximum scan of plus or minus 62.0 degrees. Scan timing shall be compatible with accuracy requirements. Table 4b--High Rate Approach Azimuth and Back Azimuth Function Timing Event time slot begins at-- 15.625 kHz clock pulse Time Event (number) (milliseconds) Preamble 0 0 Morse Code 25 1.600 Antenna select 26 1.664 Rear OCI 32 2.048 Left OCI 34 2.176 Right OCI 36 2.304 To test 38 2.432 To scan /1/ 40 2.560 Pause 6.760 Midscan point 7.060 FRO scan /1/ 7.360 FRO test pulse 11.560 End function (airborne) 11.688 End guard time; end function (ground) 11.900 /1/ The actual commencement and completion of the TO and the FRO scan transmissions are dependent on the amount of proportional guidance provided. The time slots provided will accommodate a maximum scan of plus or minus 42.0 degrees. Scan timing shall be compatible with accuracy requirements. (C) OCI. Where OCI pulses are used, they must be: (1) greater than any guidance signal in the OCI sector; (2) at least 5 dB less than the level of the scanning beam within the proportional guidance sector; and (3) for azimuth functions with clearance signals, at least 5 dB less than the level of the left (right) clearance pulses within the left (right) clearance sector. Table 5--Approach Elevation Function Timing Event time slot begins at: 15.625 kHz clock pluse Time Event (number) (milliseconds) Preamble 0 0 Processor pause 25 1.600 OCI 27 1.728 To scan /1/ 29 1.856 Pause 3.406 Midscan point 3.606 FRO scan /1/ 3.806 End function (airborne) 5.356 End guard time; end function (ground) 5.600 /1/ The actual commencement and completion of the TO and FRO scan transmissions are dependent upon the amount of proportional guidance provided. The time slots provided will accommodate a maximum scan of -1.5 degrees to +29.5 degrees. Scan timing shall be compatible with accuracy requirements. The duration of each pulse measured at the half amplitude point shall be at least 100 microseconds, and the rise and fall times shall be less then 10 microseconds. It shall be permissible to sequentially transmit two pulses in each out-of-coverage indication time slot. Where pulse pairs are used, the duration of each pulse shall be at least 50 microseconds, and the rise and fall times shall be less then 10 microseconds. The transmission of out-of- coverage indication pulses radiated from antennas with overlapping coverage patterns shall be separated by at least 10 microseconds. Note: If desired, two pulses may be sequentially transmitted in each OCI time slot. Where pulse pairs are used, the duration of each pulse must be 45 (+/-5) microseconds and the rise and fall times must be less than 10 microseconds. (D) System test. Time slots are provided in Tables 4a and 4b to allow radiation of TO and FRO test pulses. However, radiation of these pulses is not required since the characteristics of these pulses have not yet been standardized. (iii) Angle encoding. The encoding must be as follows: (A) General. Azimuth and elevation angles are encoded by scanning a narrow beam between the limits of the proportional coverage sector first in one direction (the TO scan) and then in the opposite direction (the FRO scan). Angular information must be encoded by the amount of time separation between the beam centers of the TO and FRO scanning beam pulses. The TO and FRO transmissions must be symmetrically disposed about the midscan point listed in Tables 4a, 4b, 5, and 7. The midscan point and the center of the time interval between the TO and FRO scan transmissions must coincide with a tolerance of +/-10 microseconds. Angular coding must be linear with angle and properly decoded using the formula: V u= - (T0 -t) 2 where: u=Receiver angle in degrees. V=Scan velocity in degrees per microsecond. T0=Time separation in microseconds between TO and FRO beam centers corresponding to zero degrees. t=Time separation in microseconds between TO and FRO beam centers. The timing requirements are listed in Table 6 and illustrated in Figure 7. [ ...Illustration appears here... ] Figure 7. Azimuth Angle Scan Timing (Not to Scale) (B) Azimuth angle encoding. Each guidance angle transmitted must consist of a clockwise TO scan followed by a counterclockwise FRO scan as viewed from above the antenna. For approach azimuth functions, increasing angle values must be in the direction of the TO scan; for the back azimuth function, increasing angle values must be in the direction of the FRO scan. The antenna has a narrow beam in the plane of the scan direction and a broad beam in the orthogonal plane which fills the vertical coverage. (C) Elevation angle encoding. The radiation from elevation equipment must produce a beam which scans from the horizon up to the highest elevation angle and then scans back down to the horizon. The antenna has a narrow beam in the plane of the scan direction and a broad beam in the orthogonal plane which fills the horizontal coverage. Elevation angles are defined from the horizontal plane containing the antenna phase center; positive angles are above the horizontal and zero angle is along the horizontal. (iv) Clearance guidance. The timing of the clearance pulses must be in accordance with Figure 8. For azimuth elements with proportional coverage of less than +/-40 degrees (+/-20 degrees for back azimuth), clearance guidance information must be provided by transmitting pulses in a TO and FRO format adjacent to the stop/start times of the scanning beam signal. The fly-right clearance pulses must represent positive angles and the fly-left clearance pulses must represent negative angles. The duration of each clearance pulse must be 50 microseconds with a tolerance of +/-5 microseconds. The transmitter switching time between the clearance pulses and the scanning beam transmissions must not exceed 10 microseconds. The rise time at the edge of each clearance pulse must be less than 10 microseconds. Within the fly-right clearance guidance section, the fly-right clearance guidance signal shall exceed scanning beam antenna sidelobes and other guidance and OCI signals by at least 5 dB; within the fly-left clearance guidance sector, the fly left clearance guidance signal shall exceed scanning beam antenna sidelobes and all other guidance and OCI signals by at least 5 dB; within the proportional guidance sector, the clearance guidance signals shall be at least 5dB below the proportional guidance signal. Optionally, clearance guidance may be provided by scanning throughout the approach guidance sector. For angles outside the approach azimuth proportional coverage limits as set in Basic Data Word One (Basic Data Word 5 for back azimuth), proper decode and display of clearance guidance must occur to the limits of the guidance region. Where used, clearance pulses shall be transmitted adjacent to the scanning beam signals at the edges of proportional coverage as shown in Figure 8. The proportional coverage boundary shall be established at one beamwidth inside the scan start/stop angles, such that the transition between scanning beam and clearance signals occurs outside the proportional coverage sector. When clearance pulses are provided in conjunction with a narrow beamwidth (e.g., one degree) scanning antenna, the scanning beam antenna shall radiate for 15 microseconds while stationary at the scan start/stop angles. (3) Data function format. Basic data words provide equipment characteristics and certain siting information. Basic data words must be transmitted from an antenna located at the approach azimuth or back azimuth site which provides coverage throughout the appropriate sector. Data function timing must be in accordance with Table 7a. Table 6--Angle Scan Timing Constants Max value Pause of To V(deg/ Tm time Tt Function t(usec) (usec) usec) (usec) (usec) (usec) Approach azimuth 13,000 6,800 0.02 7,972 600 13,128 High rate approach azimuth 9,000 4,800 0.02 5,972 600 9,128 Approach elevation 3,500 3,350 0.02 2,518 400 N/A Back azimuth 9,000 4,800 -0.02 5,972 600 9,128 Table 7a--Basic Data Function Timing Event time slot begins at:/1/ 15.625 kHz clock pulse Time Event (number) (milliseconds) Preamble 0 0 Data transmission (bits I13-I30) 25 1.600 Parity transmission (bits I31-I32) 43 2.752 End function (airborne) 45 2.880 End guard time: end function (ground) 3.100 /1/ The previous event time slot ends at this time. Table 7b--Auxiliary Data Function Timing--(Digital) Event time slot begins at: 15.625 kHz clock pulse Time Event (number) (milliseconds) Preamble 0 0 Address transmission (bits I13-I20) 25 1.600 Data transmission: (bits I21-I69) 33 2.112 Parity transmission (bits I70-I76) 82 5.248 End function (airborne) 89 5.696 End guard time; end function (ground) 5.900 Table 7c--Auxiliary Data Function Timing--(Alphanumeric) Event time slot begins at: 15.615 kHz clock pulse Time Event (number) (milliseconds) Preamble 0 0 Address transmission (bits I13-I20) 25 1.600 Data transmission: (bits I21-I76 33 2.112 End function (airborne) 89 5.696 End guard time; (end function ground) 5.900 (i) Preamble. Must be in accordance with requirements of Sec. 171.311(i)(1). (ii) Data transmissions. Basic data must be transmitted using DPSK modulation. The content and repetition rate of each basic data word must be in accordance with Table 8a. For data containing digital information, binary number 1 must represent the lower range limit with increments in binary steps to the upper range limit shown in Table 8a. Data containing digital information shall be transmitted with the least significant bit first. (j) Basic Data word requirements. Basic Data shall consist of the items specified in Table 8a. Basic Data word contents shall be defined as follows: (1) Approach azimuth to threshold distance shall represent the minimum distance between the Approach Azimuth antenna phase center and the vertical plane perpendicular to the centerline which contains the landing threshold. (2) Approach azimuth proportional coverage limit shall represent the limit of the sector in which proportional approach azimuth guidance is transmitted. [ ...Illustration appears here... ] Figure 8. Clearance Pulse Timing for Azimuth Functions Table 8a--Basic Data Words LSB Data bit Data bit NZ Data item definition value value Basic Data Word No. 1 1 Preamble N/A 1 2 1 3 1 4 0 5 1 6 0 7 1 8 0 9 1 10 0 11 0 12 0 13 Approach azimuth to 100m 100m threshold distance (Om- 630m) 14 200m 15 400m 16 800m 17 1600m 18 3200m 19 Approach azimuth 2 deg. -2 deg. proportional coverage limit (negative limit) (0 deg. to -62 deg.) 20 -4 deg. 21 -8 deg. 22 -16 deg. 23 -32 deg. 24 Approach azimuth 2 deg. 2 deg. proportional coverage limit (positive limit) (0 deg. to +62 deg.) 25 4 deg. 26 8 deg. 27 16 deg. 28 32 deg. 29 Clearance signal type N/A 0=pulse; 1=SB 30 Spare Transmit zero 31 Parity: (13+14+15. . .+30 N/A N/A +31=odd) 32 Parity: (14+16+18. . .+30 N/A N/A +32=odd) Note 1: Transmit throughout the Approach Azimuth guidance sector at intervals of 1.0 seconds or less. Note 2: The all zero state of the data field represents the lower limit of the absolute value of the coded parameter unless otherwise noted. Basic Data Word No. 2 1 Preamble N/A 1 2 1 3 1 4 0 5 1 6 0 7 1 8 1 9 1 10 1 11 0 12 0 13 Minimum glide path (2.0 0.1 deg. 0.1 deg. deg. to 14.7 deg.) 14 0.2 deg. 15 0.4 deg. 16 0.8 deg. 17 1.6 deg. 18 3.2 deg. 19 6.4 deg. 20 Back azimuth status see note 4 21 DME status see note 6 22 23 Approach azimuth status see note 4 24 Approach azimuth status see lnote 4 25 Spare Transmit zero 26 ......do Do. 27 ......do Do. 28 ......do Do. 29 ......do Do. 30 ......do Do. 31 Parity: (13+14+15. . .+30 N/A N/A +31)=odd) 32 Parity: (14+16+18. . .+30 N/A N/A +32=odd) Note 1: Transmit throughout the Approach Azimuth guidance sector at intervals of 0.16 seconds or less. Note 2: The all zero state of the data field represents the lower limit of the absolute range of the coded parameter unless otherwise noted. Basic Data Word No. 3 1 Preamble N/A 1 2 1 3 1 4 0 5 1 6 1 7 0 8 1 9 0 10 0 11 0 12 0 13 Approach azimuth 0.5 deg. 0.5 deg. beamwidth (0.5 deg.-4.0 deg.) See note 7 14 1.0 deg. 15 2.0 deg. 16 Approach elevation 0.5 deg. 0.5 deg. beamwidth (0.5 deg. to 2.5 deg.) See note 7 17 1.0 deg. 18 Note: values greater than 2.0 deg. 2.5 deg. are invalid 19 DME distance (Om to 12.5m 12.5m 6387.5m 20 25.0m 21 50.0m 22 100.0m 23 200.0m 24 400.0m 25 800.0m 26 1600.0m 27 3200.0m 28 Spare Transmit zero 29 ......do Do. 30 ......do Do. 31 Parity: (13+14+15. . .+30 +31=odd) 32 Parity: (14+16+18. . .+30 N/A N/A +32=odd) Note 1: Transmit throughout the Approach Azimuth guidance sector at intervals of 1.0 seconds or less. Note 2: The all zero state of the data field represents the lower limit of the absolute range of the coded parameter unless otherwise noted. Basic Data Word No. 4 1 Preamble N/A 1 2 1 3 1 4 0 5 1 6 1 7 0 8 0 9 0 10 1 11 0 12 0 13 Approach azimuth magnetic 1 deg. 1 deg. orientation (0 deg. to 359 deg.) 14 2 deg. 15 4 deg. 16 8 deg. 17 16 deg. 18 32 deg. 19 64 deg. 20 128 deg. 21 256 deg. 22 Back azimuth magnetic 1 deg. 1 deg. orientation (0 deg. to 359 deg.) 23 2 deg. 24 4 deg. 25 8 deg. 26 16 deg. 27 32 deg. 28 64 deg. 29 128 deg. 30 256 deg. 31 Parity: (13+14+15. . .+30 N/A N/A +31=odd) 32 Parity: (14+16+18. . .+30 N/A N/A +32=odd) Note 1: Transmit at intervals of 1.0 second or less throughout the Approach Azimuth guidance sector, except when Back Azimuth guidance is provided. See Note 8. Note 2: The all zero state of the data field represents the lower limit of the absolute range of the coded parameter unless otherwise noted. Basic Data Word No. 5 1 Preamble N/A 1 2 1 3 1 4 0 5 1 6 1 7 1 8 0 9 1 10 1 11 0 12 0 13 Back azimuth proportional 2 deg. -2 deg. coverage negative limit (0 deg. to -42 deg.) 14 -4 deg. 15 -8 deg. 16 -16 deg. 17 -32 deg. 18 Back azimuth proportional 2 deg. 2 deg. coverage positive limit (0 deg. to +42 deg.) 19 4 deg. 20 8 deg. 21 16 deg. 22 32 deg. 23 Back azimuth beamwidth 0.5 deg. 0.5 deg. (0.5 deg. to 4.0 deg.) See note 7 24 1.0 deg. 25 2.0 deg. 26 Back azimuth status See Note 10 27 ......do Do. 28 ......do Do. 29 ......do Do. 30 ......do Do. 31 Parity: (13+14+15. . .+30 N/A N/A +31=odd) 32 Parity: (14+16+18. . .+30 N/A N/A +32=odd) Note 1: Transmit only when Back Azimuth guidance is provided. See note 9. Note 2: The all zero state of the data filed represents the lower limit of the absolute range of the coded parameter unless otherwise noted. Basic Data Word No. 6 1 Preamble N/A 1 2 1 3 1 4 0 5 1 6 0 7 0 8 0 9 1 10 1 11 0 12 1 (13- MLS ground equipment 30) identification (Note 3) 13 Character 2 N/A B1 14 B2 15 B3 16 B4 17 B5 18 B6 19 Character 3 N/A B1 20 B2 21 B3 22 B4 23 B5 24 B6 25 Character 4 N/A B1 26 B2 27 B3 28 B4 29 B5 30 B6 31 Parity: (13+14+15. . .+30 N/A N/A +31=odd) 32 Parity: (14+16+18. . .+30 N/A N/A +32=odd) Note 1: Transmit at intervals of 1.0 second or less throughout the Approach Azimuth guidance sector, except when Back Azimuth guidance is provided. See note 8. Note 3: Characters are encoded using the International Alphabet Number 5, (IA-5): Note 4: Coding for status bit: 0=Function not radiated, or radiated in test mode (not reliable for navigation). 1=Function radiated in normal mode (for Back Azimuth, this also indicates that a Back Azimuth transmission follows). Note 5: Date items which are not applicable to a particular ground equipment shall be transmitted as all zeros. Note 6: Coding for status bits: I21 I22 0 0 DME transponder inoperative or not available. 1 0 Only IA mode or DME/N available. 0 0 FA mode, Standard 1, available. 1 1 FA mode, Standard 2, available. Note 7: The value coded shall be the actual beamwidth (as defined in Sec. 171.311 (j)(9) rounded to the nearest 0.5 degree. Note 8: When back Azimuth guidance is provided, Data Words 4 and 6 shall be transmitted at intervals of 1.33 seconds or less throughout the Approach Azimuth coverage and 4 seconds or less throughout the Back Azimuth coverage. Note 9: When Back Azimuth guidance is provided, Data Word 5 shall be transmitted at an interval of 1.33 seconds or less through out the Back Azimuth coverage sector and 4 seconds or less throughout the Approach Azimuth coverage sector. Note 10: Coding for status bit: 0=Function not radiated, or radiated in test mode (not reliable for navigation). 1=Function radiated in normal mode. (4) Minimum glidepath the lowest angle of descent along the zero degree azimuth that is consistent with published approach procedures and obstacle clearance criteria. (5) Back azimuth status shall represent the operational status of the Back Azimuth equipment. (6) DME status shall represent the operational status of the DME equipment. (7) Approach azimuth status shall represent the operational status of the approach azimuth equipment. (8) Approach elevation status shall represent the operational status of the approach elevation equipment. (9) Beamwidth the width of the scanning beam main lobe measured at the -3 dB points and defined in angular units on the antenna boresight, in the horizontal plane for the azimuth function and in the vertical plane for the elevation function. (10) DME distance shall represent the minimum distance between the DME antenna phase center and the vertical plane perpendicular to the runway centerline which contains the MLS datum point. (11) Approach azimuth magnetic orientation shall represent the angle measured in the horizontal plane clockwise from Magnetic North to the zero- degree angle guidance radial originating from the approach azimuth antenna phase center. The vertex of the measured angle shall be at the approach azimuth antenna phase center. Note: For example, this data item would be encoded 090 for an approach azimuth antenna serving runway 27 (assuming the magnetic heading is 270 degrees) when sited such that the zero degree radial is parallel to centerline. (12) Back azimuth magnetic orientation shall represent the angle measured in the horizontal plane clockwise from Magnetic North to the zero-degree angle guidance radial originating from the Back Azimuth antenna. The vertex of the measured angle shall be at the Back Azimuth antenna phase center. Note: For example, this data item would be encoded 270 for a Back Azimuth Antenna serving runway 27 (assuming the magnetic heading is 270 degrees) when sited such that the zero degree radial is parallel to centerline. (13) Back azimuth proportional coverage limit shall represent the limit of the sector in which proportional back azimuth guidance is transmitted. (14) MLS ground equipment identification shall represent the last three characters of the system identification specified in Sec. 171.311(i)(2). The characters shall be encoded in accordance with International Alphabet No. 5 (IA-5) using bits b1 through b6. Note: Bit b7 of this code may be reconstructed in the airborne receiver by taking the complement of bit b6. (k) Residual radiation. The residual radiation of a transmitter associated with an MLS function during time intervals when it should not be transmitting shall not adversely affect the reception of any other function. The residual radiation of an MLS function at times when another function is radiating shall be at least 70 dB below the level provided when transmitting. (l) Symmetrical scanning. The TO and FRO scan transmissions shall be symmetrically disposed about the mid-scan point listed in Tables 4a, 4b and 5. The mid-scan point and the center of the time interval between the TO and FRO scan shall coincide with a tolerance of plus or minus 10 microseconds. (m) Auxiliary data--(1) Addresses. Three function identification codes are reserved to indicate transmission of Auxiliary Data A, Auxiliary Data B, and Auxiliary Data C. Auxiliary Data A contents are specified below, Auxiliary Data B contents are reserved for future use, and Auxiliary Data C contents are reserved for national use. The address codes of the auxiliary data words shall be as shown in Table 8b. (2) Organization and timing. The organization and timing of digital auxiliary data must be as specified in Table 7b. Data containing digital information must be transmitted with the least significant bit first. Alphanumeric data characters must be encoded in accordance with the 7-unit code character set as defined by the American National Standard Code for Information Interchange (ASCII). An even parity bit is added to each character. Alphanumeric data must be transmitted in the order in which they are to be read. The serial transmission of a character must be with the lower order bit transmitted first and the parity bit transmitted last. The timing for alphanumeric auxiliary data must be as shown in Table 7c. (3) Auxiliary Data A content: The data items specified in Table 8c are defined as follows: (i) Approach azimuth antenna offset shall represent the minimum distance between the Approach Azimuth antenna phase center and the vertical plane containing the runway centerline. (ii) Approach azimuth to MLS datum point distance shall represent the minimum distance between the Approach Azimuth antenna phase center and the vertical plane perpendicular to the centerline which contains the MLS datum point. (iii) Approach azimuth alignment with runway centerline shall represent the minimum angle between the approach azimuth antenna zero-degree guidance plane and the runway certerline. (iv) Approach azimuth antenna coordinate system shall represent the coordinate system (planar or conical) of the angle data transmitted by the approach azimuth antenna. (v) Approach elevation antenna offset shall represent the minimum distance between the elevation antenna phase center and the vertical plane containing the runway centerline. (vi) MLS datum point to threshold distance shall represent the distance measured along the runway centerline from the MLS datum point to the runway threshold. (vii) Approach elevation antenna height shall represent the height of the elevation antenna phase center relative to the height of the MLS datum point. (viii) DME offset shall represent the minimum distance between the DME antenna phase center and the vertical plane containing the runway centerline. (ix) DME to MLS datum point distance shall represent the minimum distance between the DME antenna phase center and the vertical plane perpendicular to the centerline which contains the MLS datum point. (x) Back azimuth antenna offset shall represent the minimum distance between the back azimuth antenna phase center and the vertical plane containing the runway centerline. (xi) Back azimuth to MLS datum point distance shall represent the minimum distance between the Back Azimuth antenna and the vertical plane perpendicular to the centerline which contains the MLS datum point. (xii) Back azimuth antenna alignment with runway centerline shall represent the minimum angle between the back azimuth antenna zero-degree guidance plane and the runway centerline. Sec. 171.313 Azimuth performance requirements. This section prescribes the performance requirements for the azimuth equipment of the MLS as follows: (a) Approach azimuth coverage requirements. The approach azimuth equipment must provide guidance information in at least the following volume of space (see Figure 9): Table 8b---Auxiliary Data Word Address Codes No. I13 I14 I15 I16 I17 I18 I19 I20 1. 0 0 0 0 0 1 1 1 2. 0 0 0 0 1 0 1 0 3. 0 0 0 0 1 1 0 1 4. 0 0 0 1 0 0 1 1 5. 0 0 0 1 0 1 0 0 6. 0 0 0 1 1 0 0 1 7. 0 0 0 1 1 1 1 0 8. 0 0 1 0 0 0 1 0 9. 0 0 1 0 0 1 0 1 10. 0 0 1 0 1 0 0 0 11. 0 0 1 0 1 1 1 1 12. 0 0 1 1 0 0 0 1 13. 0 0 1 1 0 1 1 0 14. 0 0 1 1 1 0 1 1 15. 0 0 1 1 1 1 0 0 16. 0 1 0 0 0 0 1 1 17. 0 1 0 0 0 1 0 0 18. 0 1 0 0 1 0 0 1 19. 0 1 0 0 1 1 1 0 20. 0 1 0 1 0 0 0 0 21. 0 1 0 1 0 1 1 1 22. 0 1 0 1 1 0 1 0 23. 0 1 0 1 1 1 0 1 24. 0 1 1 0 0 0 0 1 25. 0 1 1 0 0 1 1 0 26. 0 1 1 0 1 0 1 1 27. 0 1 1 0 1 1 0 0 28. 0 1 1 1 0 0 1 0 29. 0 1 1 1 0 1 0 1 30. 0 1 1 1 1 0 0 0 31. 0 1 1 1 1 1 1 1 32. 1 0 0 0 0 0 1 0 33. 1 0 0 0 0 1 0 1 34. 1 0 0 0 1 0 0 0 35. 1 0 0 0 1 1 1 1 36. 1 0 0 1 0 0 0 1 37. 1 0 0 1 0 1 1 0 38. 1 0 0 1 1 0 1 1 39. 1 0 0 1 1 1 0 0 40. 1 0 1 0 0 0 0 0 41. 1 0 1 0 0 1 1 1 42. 1 0 1 0 1 0 1 0 43. 1 0 1 0 1 1 0 1 44. 1 0 1 1 0 0 1 1 45. 1 0 1 1 0 1 0 0 46. 1 0 1 1 1 0 0 1 47. 1 0 1 1 1 1 1 0 48. 1 1 0 0 0 0 0 1 49. 1 1 0 0 0 1 1 0 50. 1 1 0 0 1 0 1 1 51. 1 1 0 0 1 1 0 0 52. 1 1 0 1 0 0 1 0 53. 1 1 0 1 0 1 0 1 54. 1 1 0 1 1 0 0 0 55. 1 1 0 1 1 1 1 1 56. 1 1 1 0 0 0 1 1 57. 1 1 1 0 0 1 0 0 58. 1 1 1 0 1 0 0 1 59. 1 1 1 0 1 1 1 0 60. 1 1 1 1 0 0 0 0 61. 1 1 1 1 0 1 1 1 62. 1 1 1 1 1 0 1 0 63. 1 1 1 1 1 1 0 1 64. 0 0 0 0 0 0 0 0 Note 1: Parity bits I19 and I20 are chosen to satisfy the equations: I13+I14+I15+I16+I17+I18+I19=EVEN I14+I16+I18+I20=EVEN Table 8c--Auxiliary Data Word Maximun time (See between Least note Type of transmissions Bits Range of significant 6) Data content data (Seconds) used values bit A1 Preamble Digital 1.0 12 Address 8 Approach 10 -511 m to 1 m azimuth +511 m (See antenna note 3) offset Approach 13 0 m to 8 191 1 m azimuth to m MLS datum point distance Approach 12 -20.47 deg. 0.01 deg. azimuth to 20.47 antenna deg. (See alignment note 3) with runway centerline Approach 1 (See note 2) azimuth antenna coordinate system Spare 13 Parity 7 (See note 1) A2 Preamble Digital 1.0 12 Address 8 Approach 10 -511 m to 1 m elevation +511 m (See antenna note 3) offset MLS datum 10 0 m to 1 023 1 m point to m threshold distance Approach 7 -6.3 m to 0.1 m elevation +6.3 m (See antenna note 3) height Spare 22 Parity 7 (See note 1) A3 Preamble Digital (See note 4) 12 Address 8 DME offset 10 -511 m to 1 m +511 m DME to MLS 14 -8 191 m to 1 m datum point +8 191 m distance (See note 3) Spare 25 Parity 7 (See note 1) A4 Preamble Digital (See note 5) 12 Address 8 Back azimuth 10 -511 m to 1 m antenna +511 m (See note 3) Back azimuth 11 0 m to 2 047 1 m to MLS datum m point distance Back azimuth 12 -20.47 deg. 0.01 deg. antenna to 20.47 alignment deg. (See with runway note 3) centerline Spare 16 Parity 7 (See note 1) Note 1: Parity bits I70 to I76 are chosen to satisfy the equations which follow: For BIT I70: Even=(I13+...+I18)+I20+I22+I24+I25+I28+I29+I31+I32+I33+I35+I36+I38+I41+I44+I4 For BIT I71: Even=(I14+...+I19)+I21+I23+I25+I26+I29+I30+I32+I33+I34+I36+I37+I39+I42+I45+I4 For BIT I72: Even=(I15+...+I20)+I22+I24+I26+I27+I30+I31+I33+I34+I35+I37+I38+I40+I43+I46+I4 For BIT I73: Even=(I16+...+I21)+I23+I25+I27+I28+I31+I32+I34+I35+I36+I38+I39+I41+I44+I47+I4 For BIT I74: Even=(I17+...+I22)+I24+I26+I28+I29+I32+I33+I35+I36+I37+I39+I40+I42+I45+I48+I4 For BIT I75: Even=(I13+...+I17)+I19+I21+I23+I24+I27+I28+I30+I31+I32+I34+I35+I37+I40+I43+I4 For BIT I76: Even=I13+I14+...+I75+I76 Note 2