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Rank: 9Rank: 9Rank: 9

81#
发表于 2008-12-19 23:12:52 |只看该作者
5.2.5_ Lake Reporting Service_ 5.2.5.1_Cleveland and Lansing AFSSs provide Lake Reporting Service on request for aircraft traversing the western half of Lake Erie. Green Bay, Kankakee, Lansing, and Terre Haute AFSSs provide Lake Reporting Service on request for aircraft traversing Lake Michigan. a)_When requesting the service, pilots should ask for LAKE REPORTING SERVICE. b)_Pilots not on a VFR flight plan should be prepared to provide all information that is normally provided for a complete VFR flight plan. c)_Pilots already on a VFR flight plan should be prepared to provide the following information: 1)_Aircraft or flight identification. 2)_Type of aircraft. 3)_Near-shore crossing point or last fix before crossing. 4)_Proposed time over near-shore crossing point or last fix before crossing. 5)_Proposed altitude. 6)_Proposed route of flight. 7)_Estimated time over water. 8)_Next landing point. 9)_AFSS/FSS having complete VFR flight plan information. d)_Radio contacts must not exceed 10 minutes when pilots fly at an altitude that affords continuous communications. If radio contact is lost for more than 15 minutes (5 minutes after a scheduled reporting time), Search and Rescue (SAR) will be alerted. 5.2.5.2_The estimated time for crossing the far shore will be the scheduled reporting time for aircraft that fly at an altitude that does not afford continuous communication coverage while crossing the lake. If radio contact is not established within 5 minutes of that time, SAR will be alerted. 5.2.5.3_Pilots are responsible for canceling their request for Lake Reporting Service when outside the service area boundary. Aircraft experiencing radio failure will be expected to land as soon as practicable and cancel their Lake Reporting Service flight plan.

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Rank: 9Rank: 9Rank: 9

82#
发表于 2008-12-19 23:13:03 |只看该作者
5.2.5.4_Communications. Primary communications - Pilots should communicate with the following facilities on the indicated frequencies: a)_Cleveland AFSS Controls: 1)_Cleveland RCO (FSS transmits and receives on 122.35 or 122.55 MHz). 2)_Sandusky VOR (FSS transmits on 109.2 and receives on 122.1 MHz). b)_Green Bay AFSS Controls: 1)_Escanaba VORTAC (FSS transmits on 110.8 and receives on 122.1 MHz). 2)_Green Bay RCO (FSS transmits and receives on 122.55 MHz). 3)_Manistique RCO (FSS transmits and receives on 122.25 MHz). 4)_Manitowoc VOR (FSS transmits on 111.0 and receives on 122.1 MHz). 5)_Menominee VOR (FSS transmits on 109.6 and receives on 122.1 MHz). 6)_Milwaukee RCO (FSS transmits and receives on 122.65 MHz). 7)_Falls VOR (FSS transmits on 110.0 and receives on 122.1 MHz). AIP United States of America GEN 3.4-18 15 MAR 07 Federal Aviation Administration Nineteenth Edition TBL GEN 3.4-7 Station and Operating Agency Radio Call Transmitting Frequencies Remarks HONOLULU (FAA) Honolulu Radio 122.6 122.2 #121.5 MHz #Emergency. Frequency 122.1 also available for receiving only. Volmet 2863 6679 8828 13282 kHz Broadcasts at H+00-05 and H+30-35; Aerodrome Forecasts, Honolulu, Hilo, Agana, Honolulu. SIGMET. Hourly Report, Honolulu, Hilo, Kahului, Agana, Honolulu. Broadcasts at H+05-10 and H+35-40; Hourly Reports, San Francisco, Los Angeles, Seattle, Portland, Sacramento, Ontario, Las Vegas. SIGMET. Aerodrome Forecasts, San Francisco, Seattle, Los Angeles. Broadcasts at H+25-30 and H+55-60; Hourly Reports, Anchorage, Elmendorf, Fairbanks, Cold Bay, King Salmon, Vancouver. SIGMET. Aerodrome Forecasts, Anchorage, Fairbanks, Cold Bay, Vancouver. MIAMI (FAA) Miami Radio 126.7 118.4 126.9 122.2 122.4 122.75 123.65 127.9 MHz Local and Short Range. #121.5 MHz #Emergency. NEW YORK (FAA) New York Radio (Volmet) 3485* 6604 10051 13270* kHz *3485 Volmet broadcasts from 1 hour after sunset to 1_hour before sunrise. *13270 Volmet broadcasts from 1 hour before sunrise to 1 hour after sunset. Broadcasts at H+00-05; Aerodrome Forecasts, Detroit, Chicago, Cleveland. Hourly Reports, Detroit, Chicago, Cleveland, Niagara Falls, Milwaukee, Indianapolis. Broadcasts at H+05-10; SIGMET, (Oceanic-New York). Aerodrome Forecasts, Bangor, Pittsburgh, Charlotte. Hourly Reports, Bangor, Pittsburgh, Windsor Locks, St. Louis, Charlotte, Minneapolis. Broadcasts at H+10-15; Aerodrome Forecasts, New York, Newark, Boston. Hourly reports, New York, Newark, Boston, Baltimore, Philadelphia, Washington. Broadcasts at H+15-20; SIGMET (Oceanic-Miami/San Juan). Aerodrome Forecasts, Bermuda, Miami, Atlanta. Hourly Reports, Bermuda, Miami, Nassau, Freeport, Tampa, West Palm Beach, Atlanta.

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Rank: 9Rank: 9Rank: 9

83#
发表于 2008-12-19 23:13:17 |只看该作者
Broadcasts at H+30-35; Aerodrome Forecasts, Niagara Falls, Milwaukee, Indianapolis. Hourly Reports Detroit, Chicago, Cleveland, Niagara Falls, Milwaukee, Indianapolis. Broadcasts at H+35-40; SIGMET (Oceanic-New York). Aerodrome Forecasts, Windsor Locks, St. Louis. Hourly Reports, Bangor, Pittsburgh, Windsor Locks, St. Louis, Charlotte, Minneapolis. Broadcasts at H+40-45; Aerodrome Forecasts, Baltimore, Philadelphia, Washington. Hourly Reports, New York, Newark, Boston, Baltimore, Philadelphia, Washington. Broadcasts at H+45-50; SIGMET (Oceanic-Miami/San Juan). Aerodrome Forecasts, Nassau, Freeport. Hourly Reports, Bermuda, Miami, Nassau, Freeport, Tampa, West Palm Beach, Atlanta. AIP United States of America GEN 3.4-16 15 MAR 07 Federal Aviation Administration Nineteenth Edition c)_Kankakee AFSS Controls: 1)_Chicago Heights VORTAC (FSS transmits on 114.2 and receives on 122.1 MHz). 2)_Meigs RCO (FSS transmits and receives on 122.15 MHz). 3)_Waukegan RCO (FSS transmits and receives on 122.55 MHz). d)_Lansing AFSS Controls: 1)_Lake Erie. Detroit City RCO (FSS transmits and receives on 122.55 MHz). 2)_Lake Michigan: (a)_Keeler VORTAC (FSS transmits on 116.6 and receives on 122.1 MHz). (b)_Ludington RCO (FSS transmits and receives on 122.45 MHz). (c)_Manistee VORTAC (FSS transmits on 111.4 and receives on 122.1 MHz). (d)_Muskegon RCO (FSS transmits and receives on 122.5 MHz). (e)_Pellston RCO (FSS transmits and receives on 122.3 MHz). (f)_Pullman VORTAC (FSS transmits on 112.1 and receives on 122.1 MHz). (g)_Traverse City RCO (FSS transmits and receives on 122.65 MHz). e)_Terre Haute AFSS Controls. South Bend RCO (FSS transmits and receives on 122.6_MHz). 5.2.5.5_Florida Everglades Reporting Service. This service is offered by Miami Automated International Flight Service Station (MIA AIFSS), in extreme southern Florida. The service is provided to aircraft crossing the Florida Everglades, between Lee County (Ft. Myers, FL) VORTAC (RSW) on the northwest side, and Dolphin (Miami, FL) VOR (DHP) on the southeast side. a)_The pilot must request the service from Miami AIFSS. b)_MIA AIFSS frequency information, 122.2, 122.3, and 122.65. c)_The pilot must file a VFR flight plan with the remark: ERS. d)_The pilot must maintain 2000 feet of altitude. e)_The pilot must make position reports every ten_(10) minutes. SAR begins fifteen (15) minutes after position report is not made on time. f)_The pilot is expected to land as soon as is practical, in the event of two-way radio failure, and advise MIA AIFSS that the service is terminated. g)_The pilot must notify Miami AIFSS when the flight plan is cancelled or the service is suspended. 6. Over-water Flights Radio Procedure 6.1_Pilots should remember that there is a need to continuously guard the VHF emergency frequency 121.5 MHz when on long over-water flights, except when communications on other VHF channels, equipment limitations, or cockpit duties prevent simultaneous guarding of two channels. Guarding of 121.5 MHz is particularly critical when operating in proximity to flight information region (FIR) boundaries; for example, operations on Route R220 between Anchorage and Tokyo, since it serves to facilitate communications with regard to aircraft which may experience in-flight emergencies, communications, or navigational difficulties. (Reference ICAO Annex 10, Vol II Paras. 5.2.2.1.1.1 and 5.2.2.1.1.2.) 7. Radio Communications and Navigation Facilities 7.1_A complete listing of air traffic radio communications facilities and frequencies and radio navigation facilities and frequencies is contained in the Airport/Facility Directory. Similar information for the Pacific and Alaskan areas is contained in the Pacific and Alaskan Supplements (See GEN 3.2, Aeronautical Charts). AIP United States of America GEN 3.4-17 15 MAR 07 Federal Aviation Administration Nineteenth Edition 8. U.S. Aeronautical Telecommunications Services 8.1_ The following services are available for aircraft engaged in international or overseas flight. 8.2_The aeronautical voice communication stations listed are available to and utilized by the U.S. Federal Aviation Administration Air Traffic Control Centers for air traffic control purposes. 8.3_The frequencies in use will depend upon the time of day or night and conditions which affect radio wave propagation. Voice communications handled on a single channel simplex basis (i.e., with the aircraft and the ground station using the same frequency for transmission and reception) unless otherwise noted in remarks. 8.4_The stations will remain on continuous watch for aircraft within their communications areas and, when practicable, will transfer this watch to another station when the aircraft reaches the limit of the communications area. 8.5_Stations listed below which are designated _FAA" are operated by the U.S. Federal Aviation Administration. Stations designated _ARINC" are operated by Aeronautical Radio, Incorporated, 2551 Riva Road, Annapolis, MD 21401. Contact the Aviation Voice Services Support Section at 410-266-4430, E:Mail AGOPS@arinc.com or cable HDQXGXA. (See TBL GEN 3.4-7.) 8.6_All users of the North Atlantic HF MWARA services should consult International NOTAMS and ICAO Regional Supplementary Procedures, Docu- ment 7030, for current procedures concerning the operational use of the North Atlantic HF families. At present, procedures for the distribution of HF communications traffic in the North Atlantic are: 8.6.1_All aircraft registered in the hemisphere west of 30W should use family alpha on the southern routes and family bravo on the central and northern routes. (Southern routes are those which enter the New York, San Juan and Santa Maria FIRs. The central and northern routes comprise all others). 8.6.2_All aircraft registered in the hemisphere east of 30W should use family alpha on the southern routes and family charlie on the central and northern routes. 8.6.3_All aircraft should use family alpha on the southern route and family delta on the central and northern routes while outside the organized track system (OTS). 8.6.4_Aircraft registered in Australia will use families designated to aircraft registered east of 30W. 8.7_Aircraft operating in the Anchorage Arctic CTA/FIR beyond line of sight range of remote control VHF air/ground facilities operated from the Anchorage ACC, shall maintain communications with Cambridge Bay radio and a listening or SELCAL watch on HF frequencies of the North Atlantic D (NAT D) network (2971 kHz, 4675 kHz, 8891 kHz and 11279 kHz). Additionally, and in view of reported marginal reception of the Honolulu Pacific Volmet broadcasts in that and adjacent Canadian airspace, Cambridge Bay radio can provide Anchorage and Fairbanks surface observations and terminal forecasts to flight crews on request. AIP United States of America GEN 3.4-19 15 MAR 07 Federal Aviation Administration Nineteenth Edition Station and Operating Agency Radio Call Transmitting Frequencies Remarks NEW YORK (ARINC) New York 3016 5598 8906 13306 17946 21964_kHz North Atlantic Family A Network. 2962 6628 8825 11309 13354 17952_kHz North Atlantic Family E Network. 2887 3455 5550 6577 8846 11396 kHz Caribbean Family A Network. 5520 6586 8918 11330 13297 17907_kHz Caribbean Family B Network. 3494 6640 8933 11342 13330 17925_kHz Long Distance Operations Control (LDOC) Service (phone-patch). Communications are limited to operational control matters only. Public correspondence (personal messages) to/from crew or passengers cannot be accepted. Note: New York ARINC can also provide HF communciations over South America on these LDOC frequencies through their remote site located in Santa Cruz, Boliva. 129.90 MHz Extended range VHF. Coverage area includes Canadian Maritime Provinces, and oceanic routes to Bermuda and the Caribbean, from Boston, New York and Washington areas to approximately 250 nautical miles from the east coast. 130.7 MHz Extended range VHF. Full period service is provided within most of the Gulf of Mexico. Also on routes between Miami and San Juan to a distance of approximately 250 nautical miles from the Florida coast and within approximately 250 nautical miles of San Juan. Note: New York ARINC also provides VHF communications over the Northern two-thirds of Mexico on 130.7 MHz for 14 CFR Section 121.99 compliance. Note: Due to the distances involved, signal levels received by aircraft communicating with New York ARINC in the Gulf of Mexico on frequency 130.700 MHz will be weaker than normally encountered in VHF communications. Most aircraft usually have the squelch setup to communicate where signal levels are much higher and to totally eliminate background noise for the flight crew. In order to increase the range and maximize the coverage area, aircraft are asked to utilize the following squelch settings on their VHF radios while monitoring or communicating with New York ARINC. On aircraft with an OPEN/CLOSE squelch switch, the squelch should be set to the OPEN position while communicating or after being SELCAL’ed. Aircraft with an adjustable system should first set their squelch to fully open position and then adjust to where the noise is reduced or just closed. This will allow the weakest signals to be heard. Utilizing this procedure will increase the background noise heard by the flight crew but will allow communications at a much greater range. AIP United States of America GEN 3.4-20 15 MAR 07 Federal Aviation Administration Nineteenth Edition Station and Operating Agency Radio Call Transmitting Frequencies Remarks 436623* 631-244-2492 Aircraft operating within the New York Oceanic FIR. *Note: This satellite Voice Air/Ground calling number is available to call ARINC and will be recognized and converted by all Ground Earth Station (GES) service providers to the appropriate Public Service Telephone Network (PTSN) or direct dial number for this communications center. SAN FRANCISCO (ARINC) San Francisco 3413 3452 5574 6673 8843 10057 13354 kHz Central East Pacific One Network. 2869 5547 11282 13288 21964 kHz Central East Pacific Two Network. 2998 4666 6532 8903 11384 13300 17904 21985 kHz Central West Pacific Network. 3467 5643 8867 13261 17904 kHz South Pacific Network. 2932 5628 5667 6655 8915 8951 10048 11330 13273 13339 17946 21925 kHz North Pacific Network 3494 6640 11342 13348 17925 21964_kHz Long Distance Operations Control (LDOC) Service (phone-patch). Communications are limited to operational control matters only. Public correspondence (personal messages) to/from crew or passengers cannot be accepted. Note: San Francisco ARINC can also provide HF communications along the polar routes on these LDOC frequencies through their remote site located at Barrow, Alaska. 131.95 MHz Extended range VHF. Coverage area includes area surrounding the Hawaiian Islands and along the tracks from HNL to the mainland. Coverage extends out approximately 250 NM from Hawaii and from the West coast. 129.40 MHz For en route communications for aircraft operating on Seattle/Anchorage/Routes. 436625* 925-371-3920 Aircraft operating within the Oakland and Anchorage Oceanic FIRs. *Note: This satellite Voice Air/Ground calling number is available to call ARINC and will be recognized and converted by all Ground Earth Station (GES) service providers to the appropriate Public Service Telephone Network (PTSN) or direct dial number for this communications center. OAKLAND (FAA) Oakland Radio 122.5 122.2 #121.5 MHz #Emergency. SAN JUAN P.R. (FAA) San Juan Radio #121.5 122.2 126.7 123.65 #243.0 255.4 114.0 113.5 108.2 108.6 109.0 110.6 MHz Unscheduled broadcasts H+00, H+15, H+30 and H+45 as appropriate, for Weather and Military Activity Advisories, on 110.6, 109.0, 108.6, 108.2, 113.5, and 114.0 MHz. #Emergency. For frequencies 114.0, 113.5, 108.2 and 109.0 MHz use 122.1 MHz for transmissions to San Juan Radio. For frequency 108.6 use 123.6_MHz. AIP United States of America GEN 3.4-21 15 MAR 07 Federal Aviation Administration Nineteenth Edition 9. Selective Calling System (SELCAL) Facilities Available 9.1_The SELCAL is a communication system which permits the selective calling of individual aircraft over radio-telephone channels from the ground station to properly equipped aircraft, so as to eliminate the need for the flight crew to constantly monitor the frequency in use. TBL GEN 3.4-8 Location Operator HF VHF New York ARINC X X San Francisco ARINC X X 10. Special North Atlantic, Caribbean, and Pacific Area Communications 10.1_VHF air-to-air frequencies enable aircraft engaged on flights over remote and oceanic areas out of range of VHF ground stations to exchange necessary operational information and to facilitate the resolution of operational problems. 10.2_Frequencies have been designated as follows: TBL GEN 3.4-9 Area Frequency North Atlantic 123.45 MHz Caribbean 123.45 MHz Pacific 123.45 MHz 11. Distress and Urgency Communications 11.1_A pilot who encounters a distress or urgency condition can obtain assistance simply by contacting the air traffic facility or other agency in whose area of responsibility the aircraft is operating, stating the nature of the difficulty, pilot’s intentions, and assistance desired. Distress and urgency communications procedures are prescribed by the International Civil Aviation Organization (ICAO), however, and have decided advantages over the informal procedure described above. 11.2_Distress and urgency communications procedures discussed in the following paragraphs relate to the use of air ground voice communications. 11.3_The initial communication, and if considered necessary, any subsequent transmissions by an aircraft in distress should begin with the signal MAYDAY, preferably repeated three times. The signal PAN-PAN should be used in the same manner for an urgency condition. 11.4_Distress communications have absolute priority over all other communications, and the word MAYDAY commands radio silence on the frequency in use. Urgency communications have priority over all other communications except distress, and the word PAN-PAN warns other stations not to interfere with urgency transmissions. 11.5_Normally, the station addressed will be the air traffic facility or other agency providing air traffic services, on the frequency in use at the time. If the pilot is not communicating and receiving services, the station to be called will normally be the air traffic facility or other agency in whose area of responsibility the aircraft is operating, on the appropriate assigned frequency. If the station addressed does not respond, or if time or the situation dictates, the distress or urgency message may be broadcast, or a collect call may be used, addressing _Any Station (Tower) (Radio) (Radar)." 11.6_The station addressed should immediately acknowledge a distress or urgency message, provide assistance, coordinate and direct the activities of assisting facilities, and alert the appropriate Search and Rescue coordinator if warranted. Responsibility will be transferred to another station only if better handling will result. 11.7_All other stations, aircraft and ground, will continue to listen until it is evident that assistance is being provided. If any station becomes aware that the station being called either has not received a distress or urgency message, or cannot communicate with the aircraft in difficulty, it will attempt to contact the aircraft and provide assistance. 11.8_Although the frequency in use or other frequencies assigned by ATC are preferable, the following emergency frequencies can be used for distress or urgency communications, if necessary or desirable: 11.8.1_121.5 MHz and 243.0 MHz. Both have a range generally limited to line of sight. 121.5 MHz is guarded by direction finding stations and some military and civil aircraft. 243.0 MHz is guarded by military aircraft. Both 121.5 MHz and 243.0 MHz are guarded by military towers, most civil towers, flight service stations, and radar facilities. Normally ARTCC emergency frequency capability does not extend to radar coverage limits. If an ARTCC does AIP United States of America GEN 3.4-22 15 MAR 07 Federal Aviation Administration Nineteenth Edition not respond when called on 121.5 MHz or 243.0_MHz, call the nearest tower or flight service station. 11.8.2_2182 kHz. The range is generally less than 300_miles for the average aircraft installation. It can be used to request assistance from stations in the maritime service. 2182 kHz is guarded by major radio stations serving Coast Guard Rescue Coordination Centers and Coast Guard units along the sea coasts of the U.S. and shores of the Great Lakes. The call _Coast Guard" will alert all Coast Guard Radio Stations within range. 2182 kHz is also guarded by most commercial coast stations and some ships and boats. 12. Two-Way Radio Communications Failure 12.1_It is virtually impossible to provide regulations and procedures applicable to all possible situations associated with two-way radio communications failure. During two-way radio communications failure when confronted by a situation not covered in the regulation, pilots are expected to exercise good judgment in whatever action they elect to take. Should the situation so dictate, they should not be reluctant to use the emergency action contained in 14_CFR Section_91.3(b). 12.2_Whether two-way communications failure constitutes an emergency depends on the circumstances, and in any event is a determination made by the pilot. 14_CFR Section 91.3 authorizes a pilot to deviate from any rule to the extent required to meet an emergency. 12.3_In the event of two-way radio communications failure, ATC service will be provided on the basis that the pilot is operating in accordance with 14 CFR Section 91.185. A pilot experiencing two-way communications failure should (unless emergency authority is exercised) comply with 14_CFR Section 91.185 as indicated below. 12.4_Unless otherwise authorized by ATC, each pilot who has two-way radio communications failure when operating under IFR shall comply with the following conditions: 12.4.1_If the failure occurs in VFR conditions, or if VFR conditions are encountered after the failure, each pilot shall continue the flight under VFR and land as soon as practicable. NOTE- This procedure also applies when two-way radio failure occurs while operating in Class A airspace. The primary objective of this provision in 14_CFR Section_91.185 is to preclude extended IFR operation by these aircraft within the ATC system. Pilots should recognize that operation under these conditions may unnecessarily as well as adversely affect other users of the airspace, since ATC may be required to reroute or delay other users in order to protect the failure aircraft. However, it is not intended that the requirement to _land as soon as practicable" be construed to mean _as soon as possible." Pilots retain the prerogative of exercising their best judgment and are not required to land at an unauthorized airport, at an airport unsuitable for the type of aircraft flown, or to land only minutes short of their intended destination. 12.4.2_If the failure occurs in IFR conditions, or if VFR conditions cannot be complied with, each pilot shall continue the flight according to the following requirements. 12.5_Route requirements: 12.5.1_By the route assigned in the last ATC clearance received. 12.5.2_If being radar vectored, by the direct route from the point of radio failure to the fix, route, or airway specified in the vector clearance. 12.5.3_In the absence of an assigned route, by the route that ATC has advised may be expected in a further clearance. 12.5.4_In the absence of an assigned route or a route that ATC has advised may be expected in a further clearance, by the route filed in the flight plan. 12.6_Altitude requirements. At the HIGHEST of the following altitudes or flight levels FOR THE ROUTE SEGMENT BEING FLOWN: 12.6.1_The altitude or flight level assigned in the last ATC clearance received. 12.6.2_The minimum altitude (converted, if appropriate, to minimum flight level as prescribed in 14_CFR Section 91.121(c)) for IFR operations. 12.6.3_The altitude or flight level ATC has advised may be expected in a further clearance. AIP United States of America GEN 3.4-23 15 MAR 07 Federal Aviation Administration Nineteenth Edition NOTE- The intent of the rule is that a pilot who has experienced two-way radio failure should select the appropriate altitude for the particular route segment being flown and make the necessary altitude adjustments for subsequent route segments. If the pilot received an _expect further clearance" containing a higher altitude to expect at a specified time or fix, he/she should maintain the highest of the following altitudes until that time/fix: (1) his/her last assigned altitude, or (2) the minimum altitude/flight level for IFR operations. Upon reaching the time/fix specified, the pilot should commence his/her climb to the altitude he/she was advised to expect. If the radio failure occurs after the time/fix specified, the altitude to be expected is not applicable and the pilot should maintain an altitude consistent with 1 or 2 above. If the pilot receives an _expect further clearance" containing a lower altitude, the pilot should maintain the highest of 1 or 2 above until that time/fix specified in paragraph 12.7, Leave Clearance Limit. EXAMPLE- 1._A pilot experiencing two-way radio failure at an assigned altitude of 7,000 feet is cleared along a direct route which will require a climb to a minimum IFR altitude of 9,000 feet, should climb to reach 9,000 feet at the time or place where it becomes necessary (see 14 CFR Section_91.177(b)). Later while proceeding along an airway with an MEA of 5,000 feet, the pilot would descend to 7,000 feet (the last assigned altitude), because that altitude is higher than the MEA. 2._A pilot experiencing two-way radio failure while being progressively descended to lower altitudes to begin an approach is assigned 2,700 feet until crossing the VOR and then cleared for the approach. The MOCA along the airway is 2,700 feet and MEA is 4,000 feet. The aircraft is within 22 NM of the VOR. The pilot should remain at 2,700 feet until crossing the VOR because that altitude is the minimum IFR altitude for the route segment being flown. 3._The MEA between a and b - 5,000 feet. The MEA between b and c -5,000 feet. The MEA between c and d -11,000 feet. The MEA between d and e - 7,000 feet. A pilot had been cleared via a, b, c, d, to e. While flying between a and b the assigned altitude was 6,000 feet and the pilot was told to expect a clearance to 8,000 feet at b. Prior to receiving the higher altitude assignment, the pilot experienced two-way failure. The pilot would maintain 6,000 to b, then climb to 8,000 feet (the altitude the pilot was advised to expect.) The pilot would maintain 8,000_feet, then climb to 11,000 at c, or prior to c if necessary to comply with an MCA at c. (14_CFR Section 91.177(b).) Upon reaching d, the pilot would descend to 8,000 feet (even though the MEA was 7,000 feet), as 8,000 was the highest of the altitude situations stated in the rule 14 CFR Section 91.185. 12.7_Leave Clearance Limit 12.7.1_When the clearance limit is a fix from which an approach begins, commence descent or descent and approach as close as possible to the expect further clearance time if one has been received, or if one has not been received, as close as possible to the estimated time of arrival as calculated from the filed or amended (with ATC) estimated time en route. 12.7.2_If the clearance limit is not a fix from which an approach begins, leave the clearance limit at the expect further clearance time if one has been received, or if none has been received, upon arrival over the clearance limit, and proceed to a fix from which an approach begins and commence descent or descent and approach as close as possible to the estimated time of arrival as calculated from the filed or amended (with ATC) estimated time en route. 13. Transponder Operation During Two-Way Communications Failure 13.1_If an aircraft with a coded radar beacon transponder experiences a loss of two-way radio capability, the pilot should adjust the transponder to reply on Mode 3/A, Code 7600. 13.2_The pilot should understand that the aircraft may not be in an area of radar coverage. AIP United States of America GEN 3.4-24 15 MAR 07 Federal Aviation Administration Nineteenth Edition 14. Reestablishing Radio Contact 14.1_In addition to monitoring the NAVAID voice feature, the pilot should attempt to reestablish communications by attempting contact: 14.1.1_On the previously assigned frequency. 14.1.2_With an FSS or ARINC. 14.2_If communications are established with an FSS or ARINC, the pilot should advise the aircraft’s position, altitude, and last assigned frequency; then request further clearance from the controlling facility. The preceding does not preclude the use of 121.5_MHz. There is no priority on which action should be attempted first. If the capability exists, do all at the same time. NOTE- Aeronautical Radio Incorporated (ARINC) is a commercial communications corporation which designs, constructs, operates, leases or otherwise engages in radio activities serving the aviation community. ARINC has the capability of relaying information to/from ATC facilities throughout the country. AIP United States of America GEN 3.5-1 15 MAR 07 Federal Aviation Administration Nineteenth Edition GEN 3.5 Meteorological Services 1. Meteorological Authority 1.1_The meteorological services for civil aviation are prepared by the National Oceanic and Atmospheric Administration (NOAA) of the U.S. Department of Commerce. Postal Address: National Weather Service National Oceanic and Atmospheric Administration Department of Commerce 1325 East West Highway Silver Spring, Maryland 20910 Telephone: 301-713-1726 Telex: None Commercial Telegraphic Address: METEO WASHINGTON DC 1.2_Meteorological Offices 1.2.1_FAA Flight Service Stations 1.2.1.1_A complete listing of FAA Flight Service Stations and their telephone numbers is contained in the Airport/Facility Directory. Additionally, communications data and en route services provided by FAA Flight Service Stations are contained in the same publication. Similar information for the Pacific and Alaskan areas is contained in the Pacific and Alaskan Supplements. (See GEN 3.2, Aeronautical Charts.) 1.3_Climatological Summaries 1.3.1_Requests for copies of climatological summaries are made available through the: National Climatic Data Center Department of Commerce National Oceanic and Atmospheric __Administration Environmental Data Services Branch Federal Building Asheville, North Carolina 28801 2. Area of Responsibility 2.1_The National Weather Service (NWS) is responsible for providing meteorological services for the 50 states of the U.S., its external territories, and possessions. 2.2_International Flight Documentation Sites. Airports listed below are designated as international flight documentation sites. TBL GEN 3.5-1 Location Airport Name Indicator Anchorage, AK Anchorage International PANC Atlanta, GA William B. Hartsfield International KATL Baltimore, MD Baltimore-Washington International KBWI Boston, MA General Edward Lawrence Logan International KBOS Charlotte, NC Charlotte/Douglas International KCLT Chicago, IL O’Hare International KORD Cincinnati, OH Cincinnati/Northern Kentucky International KCVG Dallas-Ft. Worth, TX Dallas-Ft. Worth International KDFW Detroit, MI Detroit Metropolitan Wayne County KDTW Fairbanks, AK Fairbanks International PAFA Guam Guam/Agana Naval Air Station NOCD AGANA Hartford, CT Bradley International KBDL Houston, TX George Bush Intercontinental/Houston KIAH Kahului, HI Kahului PHOG Las Vegas, NV McCarran International KLAS Los Angeles, CA Los Angeles International KLAX Miami, FL Miami International KMIA Minneapolis, MN Minneapolis-St. Paul International (Wold-Chamberlain) KMSP New Orleans, LA New Orleans International (Moisant Field) KMSY New York, NY John F. Kennedy International KJFK Newark, NJ Newark International KEWR Orlando, FL Orlando International KMCO Pago Pago, American Samoa Pago Pago International NSTU Philadelphia, PA Philadelphia International KPHL Pittsburgh, PA Pittsburgh International KPIT Portland, OR Portland International KPDX Raleigh-Durham, NC Raleigh-Durham International KRDU San Francisco, CA San Francisco International KSFO San Juan, PR Luis Munoz Marin International TJSJ Seattle, WA Seattle-Tacoma International KSEA Tampa, FL Tampa International KTPA Washington, DC Washington Dulles International KIAD AIP United States of America GEN 3.5-2 15 MAR 07 Federal Aviation Administration Nineteenth Edition 2.2.1_Climatological information, basically in the form of climatological summaries, is available at all designated international airports in the U.S. 2.2.2_Flight documentation is provided in the form of copies of facsimile charts, copies of teletype-writer forecasts, and airport forecast decode sheets. Flight documentation materials are available at all destination regular airport meteorological stations. English is the language used for all U.S. flight documentation. Briefings can be provided either in person or received by telephone at all airport meteorological offices. 2.2.3_All airport forecasts (TAF) prepared for U.S. international airports cover the following validity periods: 00-24 UTC, 06-06 UTC, 12-12 UTC, and 18-18 UTC. At the present time, specific landing forecasts are not made for any U.S. airport. The portion of the airport’s TAF valid closest to the time of landing is used in lieu of a landing forecast. 2.2.4_Supplementary information available at U.S. meteorological airport offices includes extended weather and severe weather outlooks, pilot reports, runway braking action reports (during the winter), relative humidity, times of sunrise and sunset, surface and upper air analyses, radar echo charts, and forecasts of maximum and minimum surface temperatures. 2.2.5_All meteorological offices shown as taking routine aviation observations also take unscheduled special aviation observations when meteorological conditions warrant. 3. Types of Service Provided 3.1_Area Forecast Charts (Facsimile Form) 3.1.1_The U.S. has one Area Forecast Center, the National Center for Environmental Predictions (NCEP), located in Suitland, Maryland. The NCEP prepares current weather, significant weather, forecast weather, constant pressure, and tropopause- vertical wind shear charts for the U.S., the Caribbean and Northern South America, the North Atlantic, and the North Pacific areas. The NCEP also prepares a constant pressure and tropopause-vertical wind shear chart for Canada. 3.2_Local and Regional Aviation Forecasts (Printed Form) 3.2.1_Numerous forecasts and weather advisories are prepared which serve local and regional areas of the U.S. These forecasts are generally prepared by the NWS on a scheduled basis or, as in the case of severe weather advisories, as needed. These forecasts are Area Forecast (FA), Airport Forecast (TAF), Severe Weather Forecast (WW), Hurricane Advisories (WT), Winds and Temperature Aloft Forecast (FD), Simplified Surface Analyses (AS), 12- and 24-Hour Prognoses (FS), and flight advisory notices, such as SIGMETs (WS), AIRMETs (WA), Center Weather Advisories (CWA), and Radar Weather Reports (SD). 3.3_Preflight Briefing Services 3.3.1_Preflight briefing services and flight documentation are provided through the FAA’s Automated Flight Service Stations (AFSS). 3.4_National Weather Service Aviation Products 3.4.1_Weather service to aviation is a joint effort of the NWS, the FAA, the military weather services, and other aviation oriented groups and individuals. The NWS maintains an extensive surface, upper air, and radar weather observing program and a nationwide aviation weather forecasting service. The majority of pilot weather briefings are provided by FAA personnel at Flight Service Stations (AFSS/FSS). Surface weather observations are taken by the NWS and NWS-certified FAA, contract, and supplemental observers and by automated observing systems. (See paragraph 7, Weather Observing Programs.) 3.4.2_Weather element values may be expressed by using different measurement systems depending on several factors including the user of the weather products; i.e., the general public, aviation interests, international services, or a combination of these users. FIG GEN 3.5-1, Weather Elements Conversion Tables, provides conversion tables for the weather elements that will be most often encountered by pilots. AIP United States of America GEN 3.5-3 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG GEN 3.5-1 Weather Elements Conversion Tables 3.5 FAA Weather Services 3.5.1 The FAA maintains a nationwide network of AFSSs/FSSs to serve the weather needs of pilots. In addition, NWS meteorologists are assigned to all Air Route Traffic Control Centers (ARTCCs) as part the Center Weather Service Unit (CWSU). They provide advisory service and short-term forecasts (nowcasts) to support the needs of the FAA and other users of the national airspace system. 3.5.2 The primary source of preflight weather briefings is an individual briefing obtained from a briefer at the AFSS/FSS. These briefings, which are tailored to your specific flight, are available 24 hours a day through the use of toll free lines (INWATS). Numbers for these services can be found in the Airport/Facility Directory under the “FAA and NWS Telephone Numbers” section. They are also listed in the U.S. Government section of your local telephone directory under Department of Transportation, AIP United States of America GEN 3.5-4 15 MAR 07 Federal Aviation Administration Nineteenth Edition Federal Aviation Administration or Department of Commerce, National Weather Service. See para- graph_3.7, Preflight Briefing, for the types of preflight briefings available and the types of information contained in each. 3.5.3 Other Sources of Weather Information 3.5.3.1 Telephone Information Briefing Service (TIBS) (AFSS); and in Alaska, Transcribed Weather Broadcast (TWEB) locations, and telephone access to the TWEB (TEL-TWEB) provide continuously updated recorded weather information for short or local flights. Separate paragraphs in this section give additional information regarding these services. 3.5.3.2 Weather and aeronautical information is also available from numerous private industry sources on an individual or contract pay basis. Information on how to obtain this service should be available from local pilot organizations. 3.5.3.3 The Direct User Access System (DUATS) can be accessed by U.S. certified pilots with a current medical certificate toll-free via personal computer. Pilots can receive alpha-numeric preflight weather data and file domestic VFR and IFR flight plans. The following are the contract DUATS vendors: GTE Information Federal Systems 15000 Conference Center Drive Chantilly, VA 22021-3808 Computer Modem Access Number: For filing flight plans and obtaining weather briefings: 1-800-767-9989 For customer service: 1-800-345-3828 Data Transformation Corporation 108-D Greentree Road Turnersville, NJ 08012 Computer Modem Access Number: For filing flight plans and obtaining weather briefings: 1-800-245-3828 For customer service: 1-800-243-3828 3.5.4 Inflight weather information is available from any AFSS/FSS within radio range. The common frequency for all AFSSs is 122.2. Discrete frequencies for individual stations are listed in the Airport/Facility Directory. See paragraph 6 for information on broadcasts. En Route Flight Advisory Service (EFAS) is provided to serve the non-routine weather needs of pilots in flight. See paragraph_3.8, En Route Flight Advisory Service (EFAS), for details on this service. 3.6 Use of Aviation Weather Products 3.6.1 Air carriers and operators certificated under the provisions of 14 CFR Part 119 are required to use the aeronautical weather information systems defined in the Operations Specifications issued to that certificate holder by the FAA. These systems may utilize basic FAA/National Weather Service (NWS) weather services, contractor- or operator-propri- etary weather services and/or Enhanced Weather Information System (EWINS) when approved in the Operations Specifications. As an integral part of this system approval, the procedures for collecting, producing and disseminating aeronautical weather information, as well as the crew member and dispatcher training to support the use of system weather products, must be accepted or approved. 3.6.2 Operators not certificated under the provisions of 14 CFR Part 119 are encouraged to use FAA/NWS products through Flight Service Stations, Direct User Access Terminal System (DUATS), and/or Flight Information Services Data Link (FISDL). 3.6.3 The suite of available aviation weather product types is expanding, with the development of new sensor systems, algorithms and forecast models. The FAA and NWS, supported by the National Center for Atmospheric Research and the Forecast Systems Laboratory, develop and implement new aviation weather product types through a comprehensive process known as the Aviation Weather Technology Transfer process. This process ensures that user needs and technical readiness requirements are met before experimental products mature to operational application. 3.6.4 The FAA, in conjunction with the NWS, established the Aviation Weather Technology Transfer (AWTT) Board so that newly developed aviation weather products meet regulatory requirements and enhance safety. The AWTT is charged with managing and accelerating the transfer of these products into operational use. Members of the AWTT Board include mid-level managers from the FAA and NWS who are responsible for various aspects of the development and use of aviation weather products (e.g., aviation weather R & D, transition of weather products from R & D to operational use, etc.). 30 AUG 07 AIP United States of America GEN 3.5-5 15 MAR 07 Federal Aviation Administration Nineteenth Edition 3.6.5 The AWTT is a management-review and decision-making process that applies criteria to weather products at various development stages (decision stages, i.e., “D-stages”). The D-stages are composed of the following: 3.6.5.1 (D1) Sponsorship of user needs. 3.6.5.2 (D2) R & D and controlled testing. 3.6.5.3 (D3) Experimental application. 3.6.5.4 (D4) Operational application. 3.6.6 Weather products maturing into the D3 experimental stage of the AWTT process are often made available to the public on the Aviation Weather Center's Experimental Aviation Digital Data Service (ADDS) website at: http://weather.aero/. The intent is to allow public access to this information in order to obtain feedback for product development and improvement. However, it is important to note that weather products displayed on this site are experimental, and although they may appear to be fully operational products, they are subject to change without notification and may not be used for any flight related decisions. At the D4 stage, the FAA approves a weather product for operational use by end users (with restrictions, if necessary), and the product is made available to the public via long-line circuit, satellite, and/or other means of communica- tion. 3.6.7 Pilots and operators should be aware that weather services provided by entities other than FAA, NWS or their contractors (such as the DUATS and FISDL providers) may not meet FAA/NWS quality control standards. Hence, operators and pilots contemplating using such services should request and/or review an appropriate description of services and provider disclosure. This should include, but is not limited to, the type of weather product (e.g., current weather or forecast weather), the currency of the product (i.e., product issue and valid times), and the relevance of the product. Pilots and operators should be cautious when using unfamiliar products, or products not supported by FAA/NWS technical specifications. NOTE- When in doubt, consult with a FAA Flight Service Station Specialist. 3.6.8 In addition, pilots and operators should be aware there are weather services and products available from government organizations beyond the scope of the AWTT process mentioned earlier in this section. For example, governmental agencies such as the NWS, the Aviation Weather Center (AWC), and the National Center for Atmospheric Research (NCAR) display weather “model data” and “experimental” products which require training and/or expertise to properly interpret and use. These products are developmental prototypes that are subject to ongoing research and can change without notice. Therefore, some data on display by government organizations, or government data on display by independent organizations may be unsuitable for flight planning purposes. Operators and pilots contemplating using such services should request and/or review an appropriate description of services and provider disclosure. This should include, but is not limited to, the type of weather product (e.g., current weather or forecast weather), the currency of the product (i.e., product issue and valid times), and the relevance of the product. Pilots and operators should be cautious when using unfamiliar weather products. NOTE- When in doubt, consult with a FAA Flight Service Station Specialist. 3.6.9 The development of new weather products coupled with increased access to these products via the public Internet, created confusion within the aviation community regarding the relationship between regulatory requirements and new weather products. Consequently, FAA differentiates between those weather products that may be utilized to comply with regulatory requirements and those that may only be used to improve situational awareness. To clarify the proper use of aviation weather products to meet the requirements of 14 CFR, FAA defines weather products as follows: 3.6.9.1 Primary Weather Product. An aviation weather product that meets all the regulatory requirements and safety needs for use in making flight related, aviation weather decisions. 3.6.9.2 Supplementary Weather Product. An aviation weather product that may be used for enhanced situational awareness. If utilized, a supplementary weather product must only be used in conjunction with one or more primary weather product. In addition, the FAA may further restrict the use of supplementary aviation weather products through limitations described in the product label. 30 AUG 07 AIP United States of America GEN 3.5-6 15 MAR 07 Federal Aviation Administration Nineteenth Edition NOTE- An aviation weather product produced by the Federal Government and managed by the AWTT is classified a primary weather product unless designated a supplementary weather product by the FAA. 3.6.10 In developing the definitions of primary and supplementary weather products, it is not the intent of FAA to change or increase the regulatory burden on the user. Rather, the definitions are meant to eliminate confusion by differentiating between weather products that may be utilized to meet regulatory requirements and other weather products that may only be used to improve situational awareness. 3.6.11 All flight-related, aviation weather decisions must be based on primary weather products. Supplementary weather products augment the primary products by providing additional weather information but may not be used as stand-alone weather products to meet aviation weather regulatory requirements or without the relevant primary products. When discrepancies exist between primary and supplementary weather products describing the same weather phenomena, users must base flightrelated decisions on the primary weather product. Furthermore, multiple primary products may be necessary to meet all aviation weather regulatory requirements. 3.6.12 The development of enhanced communica- tions capabilities, most notably the Internet, has allowed pilots access to an ever-increasing range of weather service providers and proprietary products. The FAA has identified three distinct types of weather information available to pilots and operators. 3.6.12.1 Observations. Raw weather data collected by some type of sensor suite including surface and airborne observations, radar, lightning, satellite imagery, and profilers. 3.6.12.2 Analysis. Enhanced depiction and/or interpretation of observed weather data. 3.6.12.3 Forecasts. Predictions of the development and/or movement of weather phenomena based on meteorological observations and various mathematical models. 3.6.13 Not all sources of aviation weather information are able to provide all three types of weather information. The FAA has determined that operators and pilots may utilize the following approved sources of aviation weather information: 3.6.13.1 Federal Government. The FAA and NWS collect raw weather data, analyze the observations, and produce forecasts. The FAA and NWS disseminate meteorological observations, analyses, and forecasts through a variety of systems. In addition, the Federal Government is the only approval authority for sources of weather observations; for example, contract towers and airport operators may be approved by the Federal Government to provide weather observations. 3.6.13.2 Enhanced Weather Information System (EWINS). An EWINS is an FAA approved, proprietary system for tracking, evaluating, reporting, and forecasting the presence or lack of adverse weather phenomena. An EWINS is authorized to produce flight movement forecasts, adverse weather phenomena forecasts, and other meteorological advisories. For more detailed information regarding EWINS, see the Aviation Weather Services Advisory Circular 00-45 and the Air Transportation Operations Inspector's Handbook 8400.10. 3.6.13.3 Commercial Weather Information Providers. In general, commercial providers produce proprietary weather products based on NWS/FAA products with formatting and layout modifications but no material changes to the weather information itself. This is also referred to as “repackaging.” In addition, commercial providers may produce analyses, forecasts, and other proprietary weather products that substantially alter the information contained in government-produced products. However, those proprietary weather products that substantially alter governmentproduced weather products or information, may only be approved for use by 14 CFR Part 121 and Part 135 certificate holders if the commercial provider is EWINS qualified.

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NOTE- Commercial weather information providers contracted by FAA to provide weather observations, analyses, and forecasts (e.g., contract towers) are included in the Federal Government category of approved sources by virtue of maintaining required technical and quality assurance standards under Federal Government oversight. 3.6.14 As a point of clarification, Advisory Circular 00-62, Internet Communications of Aviation Weather and NOTAMS, describes the process for a weather information provider to become a Qualified Internet Communications Provider (QICP) and only 30 AUG 07 AIP United States of America GEN 3.5-7 15 MAR 07 Federal Aviation Administration Nineteenth Edition applies to 14 CFR Part 121 and Part 135 certificate holders. Therefore, pilots conducting operations under 14 CFR Part 91 may access weather products via the public Internet. 3.7 Preflight Briefing 3.7.1 Flight Service Stations are the primary source of obtaining preflight briefings and inflight weather information. Flight Service Specialists are qualified and certificated by the NWS as Pilot Weather Briefers. They are not authorized to make original forecasts, but are authorized to translate and interpret available forecasts (TAF) and reports (METAR/ SPECI) directly into terms describing the weather conditions which you can expect along your flight route and at your destination. Available aviation weather reports and forecasts are displayed at each AFSS/FSS. Some of the larger AFSSs/FSSs provide a separate display for pilot use. Pilots should feel free to use these self-briefing displays where available, or to ask for a briefing or for assistance from the specialist on duty. Three basic types of preflight briefings are available: Standard Briefing, Abbre- viated Briefing, and Outlook Briefing. You should specify to the briefer the type of briefing you want, along with appropriate background information. This will enable the briefer to tailor the information to your intended flight. The following paragraphs describe the types of briefings available and the information provided in each. 3.7.2 Standard Briefing. You should request a Standard Briefing any time you are planning a flight and you have not received a previous briefing or have not received preliminary information through mass dissemination media; e.g., TIBS, TWEB (Alaska only), etc. International data may be inaccurate or incomplete. If you are planning a flight outside of U.S. controlled airspace, the briefer will advise you to check data as soon as practical after entering foreign airspace, unless you advise that you have the international cautionary advisory. The briefer will automatically provide the following information in the sequence listed, except as noted, when it is applicable to your proposed flight. 3.7.2.1 Adverse Conditions. Significant meteoro- logical and aeronautical information that might influence the pilot to alter the proposed flight; e.g.,_hazardous weather conditions, runway closures, NAVAID outages. 3.7.2.2 VFR Flight Not Recommended. When VFR flight is proposed and sky conditions or visibilities are present or forecast, surface or aloft, that in the briefer's judgment would make flight under visual flight rules doubtful, the briefer will describe the conditions, affected locations, and use the phrase “VFR flight not recommended.” This recommendation is advisory in nature. The final decision as to whether the flight can be conducted safely rests solely with the pilot. 3.7.2.3 Synopsis. A brief statement describing the type, location, and movement of weather systems and/or air masses which might affect the proposed flight. NOTE- The first 3 elements of a standard briefing may be combined in any order when the briefer believes it will help to describe conditions more clearly. 3.7.2.4 Current Conditions. Reported weather conditions applicable to the flight will be summarized from all available sources; e.g., METARs, PIREPs, RAREPs. This element may be omitted if the proposed time of departure is beyond two hours, unless the information is specifically requested by the pilot. 3.7.2.5 En Route Forecast. En route conditions forecast for the proposed route are summarized in logical order; i.e., departure-climbout, en route, and descent. 3.7.2.6 Destination Forecast. The destination forecast (TAF) for the planned estimated time of arrival (ETA). Any significant changes within 1 hour before and after the planned arrival are included. 3.7.2.7 Winds Aloft. Forecast winds aloft for the proposed route will be provided using degrees of the compass. The briefer will interpolate wind directions and speeds between levels and stations as necessary to provide expected conditions at planned altitudes. 3.7.2.8 Notices to Airmen (NOTAMs) a) Available NOTAM (D) information pertinent to the proposed flight. b) Available NOTAM (L) information pertinent to the departure and/or local area, and pertinent FDC NOTAMs. c) FSS briefers do not provide FDC NOTAM information for special instrument approach proce- dures unless specifically asked. Pilots authorized by 30 AUG 07 AIP United States of America GEN 3.5-8 15 MAR 07 Federal Aviation Administration Nineteenth Edition the FAA to use special instrument approach procedures must specifically request FDC NOTAM information for these procedures. NOTE- NOTAM information may be combined with current conditions when the briefer believes it is logical to do so. NOTE- NOTAM (D) information and Flight Data Center NOTAMs which have been published in the Notices to Airmen Publication are not included in pilot briefings unless a review of this publication is specifically requested by the pilot. For complete flight information you are urged to review both the Notices to Airmen Publication and the Airport/Facility Directory in addition to obtaining a briefing. 3.7.2.9 Air Traffic Control (ATC) Delays. Any known ATC delays and flow control advisories which might affect the proposed flight. 3.7.2.10 Pilots may obtain the following from AFSS/FSS briefers upon request: a) Information on Special Use Airspace (SUA), SUA related airspace and Military Training Routes (MTRs) activity within the flight plan area and a 100_NM extension around the flight plan area. NOTE- 1. SUA and related airspace includes the following types of airspace: Alert Area, Military Operations Area (MOA), Prohibited Area, Restricted Area, Refueling Anchor, Warning Area and Air Traffic Control Assigned Airspace (ATCAA). MTR data includes the following types of airspace: IFR Military Training Route (IR), VFR Military Training Route_(VR), Slow Training Route (SR) and Aerial Refueling Track (AR). 2. Pilots are encouraged to request updated information from ATC facilities while in flight. b) _A review of the Notices to Airmen publication for pertinent NOTAMs and Special Notices. c) Approximate density altitude data. d) Information regarding such items as air traffic services and rules, customs/immigration procedures, ADIZ rules, and search and rescue. e) LORAN-C NOTAMs, available military NOTAMs, runway friction measurement value NOTAMs. f) GPS RAIM availability for 1 hour before to 1_hour after ETA, or a time specified by the pilot. g) Other assistance as required. 3.7.3 Abbreviated Briefing. Request an Abbre- viated Briefing when you need information to supplement mass disseminated data, to update a previous briefing, or when you need only one or two specific items. Provide the briefer with appropriate background information, the time you received the previous information, and/or the specific items needed. You should indicate the source of the information already received so that the briefer can limit the briefing to the information that you have not received, and/or appreciable changes in meteorologi- cal/aeronautical conditions since your previous briefing. To the extent possible, the briefer will provide the information in the sequence shown for a Standard Briefing. If you request only one or two specific items, the briefer will advise you if adverse conditions are present or forecast. Adverse condi- tions contain both meteorological and aeronautical information. Details on these conditions will be provided at your request. 3.7.4 Outlook Briefing. You should request an Outlook Briefing whenever your proposed time of departure is 6 or more hours from the time of the briefing. The briefer will provide available forecast data applicable to the proposed flight. This type of briefing is provided for planning purposes only. You should obtain a Standard or Abbreviated Briefing prior to departure in order to obtain such items as adverse conditions, current conditions, updated forecasts, winds aloft, and NOTAMs. 3.7.5 Inflight Briefing. You are encouraged to obtain your preflight briefing by telephone or in person before departure. In those cases where you need to obtain a preflight briefing or an update to a previous briefing by radio, you should contact the nearest AFSS/FSS to obtain this information. After communications have been established, advise the specialist of the type briefing you require and provide appropriate background information. You will be provided information as specified in the above paragraphs, depending upon the type briefing requested. In addition, the specialist will recommend shifting to the flight watch frequency when conditions along the intended route indicate that it would be advantageous for you to do so. 3.7.6 Following any briefing, feel free to ask for any information that you or the briefer may have missed. It helps to save your questions until the briefing has 30 AUG 07

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AIP United States of America GEN 3.5-9 15 MAR 07 Federal Aviation Administration Nineteenth Edition been completed. This way the briefer is able to present the information in a logical sequence and lessens the chance of important items being overlooked. 3.8 En Route Flight Advisory Service (EFAS) 3.8.1 EFAS is a service specifically designed to provide en route aircraft with timely and meaningful weather advisories pertinent to the type of flight intended, route of flight, and altitude. In conjunction with this service, EFAS is also a central collection and distribution point for pilot-reported weather in- formation. EFAS is provided by specially trained specialists in selected AFSSs/FSSs controlling multiple remote communications outlets covering a large geographical area and is normally available throughout the conterminous U.S. and Puerto Rico from 6 a.m. to 10 p.m. EFAS provides communica- tions capabilities for aircraft flying at 5,000 feet AGL to 17,500 feet MSL on a common frequency of 122.0_MHz. Discrete EFAS frequencies have been established to ensure communications coverage from 18,000 through 45,000 MSL serving in each specific ARTCC area. These discrete frequencies may be used below 18,000 feet when coverage permits reliable communication.

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NOTE- When an EFAS outlet is located in a time zone different from the zone in which the flight watch control station is located, the availability of service may be plus or minus 1 hour from the normal operating hours. 3.8.2 In some regions of the contiguous U.S., especially those that are mountainous, it is necessary to be above 5000 feet AGL in order to be at an altitude where the EFAS frequency, 122.0 MHz, is available. Pilots should take this into account when flight planning. Other AFSS communication frequencies may be available at lower altitudes. See FIG GEN 3.5-2. 3.8.3 Contact flight watch by using the name of the ARTCC facility serving the area of your location, followed by your aircraft identification and the name of the nearest VOR to your position. The specialist needs to know this approximate location to select the most appropriate outlet for communications cover- age. EXAMPLE- Cleveland flight watch, Cessna One Three Four Two Kilo, Mansfield V-O-R, over. 3.8.4 Charts depicting the location of the flight watch control stations (parent facility) and the outlets they use are contained in the Airport/Facility Directory. If you do not know in which flight watch area you are flying, initiate contact by using the words “FLIGHT WATCH,” your aircraft identification, and the name of the nearest VOR. The facility will respond using the name of the flight watch facility. EXAMPLE- Flight watch, Cessna One Two Three Four Kilo, Mansfield V-O-R, over. 3.8.5 The AFSSs/FSSs which have implemented En_Route Flight Advisory Service are listed in the Airport/Facility Directory. 3.8.6 EFAS is not intended to be used for filing or closing flight plans, position reporting, getting complete preflight briefings, or obtaining random weather reports and forecasts. En route flight advisories are tailored to the phase of flight that begins after climb-out and ends with descent to land. Immediate destination weather and terminal airport forecasts will be provided on request. Pilots requesting information not within the scope of flight watch will be advised of the appropriate AFSS/FSS frequency to contact to obtain the information. Pilot participation is essential to the success of EFAS by providing a continuous exchange of information on weather, winds, turbulence, flight visibility, icing or other hazardous conditions between pilots and flight watch specialists. Pilots are encouraged to report good weather as well as bad, and to confirm both expected conditions and unexpected conditions to EFAS facilities. 3.9 Inflight Aviation Weather Advisories 3.9.1 Background 3.9.1.1 Inflight Aviation Weather Advisories are forecasts to advise en route aircraft of development of potentially hazardous weather. All inflight aviation weather advisories in the conterminous U.S. are issued by the Aviation Weather Center (AWC) in Kansas City, Missouri. The Weather Forecast Office_(WFO) in Honolulu issues advisories for the Hawaiian Islands. In Alaska, the Alaska Aviation Weather Unit (AAWU) issues inflight aviation weather advisories. All heights are referenced MSL, except in the case of ceilings (CIG) which indicate AGL.

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30 AUG 07 AIP United States of America GEN 3.5-10 15 MAR 07 Federal Aviation Administration Nineteenth Edition 3.9.1.2 There are three types of inflight aviation weather advisories: the Significant Meteorological Information (SIGMET), the Convective SIGMET and the Airmen's Meteorological Information (AIRMET). All of these advisories use the same location identifiers (either VORs, airports, or well-known geographic areas) to describe the hazardous weather areas. See FIG GEN 3.5-3 and FIG GEN 3.5-4. Graphics with improved clarity can be found in Advisory Circular AC_00-45E, Aviation Weather Services, which is available on the following web site: http://www.faa.gov. 3.9.1.3 Two other weather products supplement these Inflight Aviation Weather Advisories: a) The Severe Weather Watch Bulletins_(WWs), (with associated Alert Messages) (AWW), and b) The Center Weather Advisories (CWAs). 3.9.2 SIGMET (WS)/AIRMET (WA) SIGMETs/AIRMETs are issued corresponding to the Area Forecast (FA) areas described in FIG GEN_3.5-4, FIG GEN 3.5-6 and FIG GEN 3.5-6. The maximum forecast period is 4_hours for SIGMETs and 6 hours for AIRMETs. Both advisories are considered “widespread” because they must be either affecting or be forecasted to affect an area of at least 3,000 square miles at any one time. However, if the total area to be affected during the forecast period is very large, it could be that in actuality only a small portion of this total area would be affected at any one time.

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88#
发表于 2008-12-19 23:14:10 |只看该作者
30 AUG 07 AIP United States of America GEN 3.5-11 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG GEN 3.5-2 EFAS Radio Coverage Areas NOTE- EFAS radio coverage at 5000 feet AGL. The shaded areas depict limited coverage areas in which altitudes above 5000 feet AGL would be required to contact EFAS. 30 AUG 07 AIP United States of America GEN 3.5-12 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG GEN 3.5-3 Inflight Advisory Plotting Chart 30 AUG 07 14 FEB 08 AIP United States of America GEN 3.5-13 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG GEN 3.5-4 Geographical Areas and Terrain Features 30 AUG 07 AIP United States of America GEN 3.5-14 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG GEN 3.5-5 Aviation Area Forecasts FA Locations - Contiguous United States FIG GEN 3.5-6 Alaska Area Forecast Sectors 30 AUG 07 AIP United States of America GEN 3.5-15 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG GEN 3.5-7 Hawaii Area Forecast Locations 3.9.3 SIGMET (WS) 3.9.3.1 A SIGMET advises of nonconvective weather that is potentially hazardous to all aircraft. SIGMETs are unscheduled products that are valid for 4 hours. However, conditions that are associated with hurricanes are valid for 6 hours. Unscheduled updates and corrections are issued as necessary. In the conterminous U.S., SIGMETs are issued when the following phenomena occur or are expected to occur: a) Severe icing not associated with thunderstorms. b) Severe or extreme turbulence or clear air turbulence (CAT) not associated with thunderstorms. c) Dust storms or sandstorms lowering surface or inflight visibilities to below 3 miles. d) Volcanic ash. 3.9.3.2 In Alaska and Hawaii, SIGMETs are also issued for: a) Tornadoes. b) Lines of thunderstorms. c) Embedded thunderstorms. d) Hail greater than or equal to 3 /4 inch in diameter. 3.9.3.3 SIGMETs are identified by an alphabetic designator from November through Yankee exclud- ing Sierra and Tango. (Sierra, Tango, and Zulu are reserved for AIRMETs.) The first issuance of a SIGMET will be labeled as UWS (Urgent Weather SIGMET). Subsequent issuances are at the forecast- ers discretion. Issuance for the same phenomenon will be sequentially numbered, using the original designator until the phenomenon ends. For example, the first issuance in the Chicago (CHI) FA area for phenomenon moving from the Salt Lake City (SLC) FA area will be SIGMET Papa 3, if the previous two issuances, Papa 1 and Papa 2, had been in the SLC FA area. Note that no two different phenomena across the country can have the same alphabetic designator at the same time. EXAMPLE- Example of a SIGMET: BOSR WS 050600 SIGMET ROMEO 2 VALID UNTIL 051000 ME NH VT FROM CAR TO YSJ TO CON TO MPV TO CAR MOD TO OCNL SEV TURB BLW 080 EXP DUE TO STG NWLY FLOW. CONDS CONTG BYD 1000Z. 3.9.3.4 Convective SIGMET (WST) a) Convective SIGMETs are issued in the conterminous U.S. for any of the following: 1) Severe thunderstorm due to: (a) Surface winds greater than or equal to 50_knots.

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89#
发表于 2008-12-19 23:14:19 |只看该作者
30 AUG 07 AIP United States of America GEN 3.5-16 15 MAR 07 Federal Aviation Administration Nineteenth Edition (b) Hail at the surface greater than or equal to 3 /4 inches in diameter. (c) Tornadoes. 2) Embedded thunderstorms. 3) A line of thunderstorms. 4) Thunderstorms producing precipitation greater than or equal to heavy precipitation affecting 40 percent or more of an area at least 3,000 square miles. b) Any convective SIGMET implies severe or greater turbulence, severe icing, and low-level wind shear. A convective SIGMET may be issued for any convective situation that the forecaster feels is hazardous to all categories of aircraft. c) Convective SIGMET bulletins are issued for the western (W), central (C), and eastern (E) United States. (Convective SIGMETs are not issued for Alaska or Hawaii.) The areas are separated at 87 and 107 degrees west longitude with sufficient overlap to cover most cases when the phenomenon crosses the boundaries. Bulletins are issued hourly at H+55. Special bulletins are issued at any time as required and updated at H+55. If no criteria meeting convective SIGMET requirements are observed or forecasted, the message “CONVECTIVE SIGMET... NONE” will be issued for each area at H+55. Individual convective SIGMETs for each area (W, C, E) are numbered sequentially from number one each day, beginning at 00Z. A convective SIGMET for a continuing phenomenon will be reissued every hour at H+55 with a new number. The text of the bulletin consists of either an observation and a forecast or just a forecast. The forecast is valid for up to 2 hours.

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90#
发表于 2008-12-19 23:14:27 |只看该作者
EXAMPLE- Example of a Convective SIGMET: MKCC WST 251655 CONVECTIVE SIGMET 54C VALID UNTIL 1855Z WI IL FROM 30E MSN-40ESE DBQ DMSHG LINE TS 15 NM WIDE MOV FROM 30025KT. TOPS TO FL450. WIND GUSTS TO 50 KT POSS. CONVECTIVE SIGMET 55C VALID UNTIL 1855Z WI IA FROM 30NNW MSN-30SSE MCW DVLPG LINE TS 10 NM WIDE MOV FROM 30015KT. TOPS TO FL300. CONVECTIVE SIGMET 56C VALID UNTIL 1855Z MT ND SD MN IA MI LINE TS 15 NM WIDE MOV FROM 27020KT. TOPS TO FL380. OUTLOOK VALID 151855-252255 FROM_60NW_ISN-INL-TVC-SBN-BRL-FSD-BIL-60N W ISN IR STLT IMGRY SHOWS CNVTV CLD TOP TEMPS OVER SRN WI HAVE BEEN WARMING STEADILY INDCG A WKNG TREND. THIS ALSO REFLECTED BY LTST RADAR AND LTNG DATA. WKNG TREND OF PRESENT LN MAY CONT...HWVR NEW DVLPMT IS PSBL ALG OUTFLOW BDRY AND/OR OVR NE IA/SW WI BHD CURRENT ACT. A SCND TS IS CONTG TO MOV EWD THRU ERN MT WITH NEW DVLPMT OCRG OVR CNTRL ND. MT ACT IS MOVG TWD MORE FVRBL AMS OVR THE WRN DAKS WHERE DWPTS ARE IN THE UPR 60S WITH LIFTED INDEX VALUES TO MS 6. TS EXPD TO INCR IN COVERAGE AND INTSTY DURG AFTN HRS. WST ISSUANCES EXPD TO BE RQRD THRUT AFTN HRS WITH INCRG PTNTL FOR STGR CELLS TO CONTAIN LRG HAIL AND PSBLY DMGG SFC WNDS. 3.9.3.5 International SIGMET a) Some NWS offices have been designated by the ICAO as Meteorological Watch Offices (MWOs). These offices are responsible for issuing International SIGMETs for designated areas that include Alaska, Hawaii, portions of the Atlantic and Pacific Oceans, and the Gulf of Mexico. b) The offices which issue International SIGMETs are: 1) The AWC in Kansas City, Missouri. 2) The AAWU in Anchorage, Alaska. 3) The WFO in Honolulu, Hawaii. 4) The WFO on Guam Island in the Pacific Ocean.

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