Airway & Route Course Navigation - CFI Notebook That required capability will be listed in the PBN box. Continue searching. For times under 3 minutes, the small arrow may need to be utilized, Navigation logs, or NAVLOGs, is the printed, either physically or digitally, plan, This plan accounts for the environment's effects on the aircraft, as well as aircraft anomolies like deviation, NAVLOGs come in many forms and there is no perfect form; its about personal preference. | Privacy Policy | Terms of Service | Sitemap | Patreon | Contact, Advisory Circular (91-92) Pilot's Guide to a Preflight Briefing. However, selecting and inserting individual, named fixes from the database is permitted, provided all fixes along the published route to be flown are inserted.
Diversions - CFI Notebook In the U.S., a specific procedure's Performance-Based Navigation (PBN) requirements will be prominently displayed in separate, standardized notes boxes. The separate Equipment Requirements box will list ground-based equipment and/or airport specific requirements. It is not intended for every operator or aircraft. notebook-8/,$1 %/$1&+$5'. The objective of IFR en route flight is to navigate within the lateral limits of a designated airway at an altitude consistent with the ATC clearance Your ability to fly instruments safely and competently in the system is greatly enhanced by understanding the vast array of data available to the pilot on instrument charts CFI Notebook Aviation Information comes from a variety of sources, which requires a lifetime of dedication to perfect. EPU may also be referred to as Actual Navigation Performance (ANP) or Estimated Position Error (EPE), If unable to comply with the requirements of an RNAV or RNP procedure, pilots must advise air traffic control as soon as possible.
Flight Planning | Flight Planning - lavisencouleur.com Other methods providing an equivalent level of performance may also be acceptable, For procedures or routes requiring the use of GPS, if the navigation system does not automatically alert the flight crew of a loss of GPS, the operator must develop procedures to verify correct GPS operation, RNAV terminal procedures (DP and STAR) may be amended by ATC issuing radar vectors and/or clearances direct to a waypoint. Pilots transitioning to VOR navigation in response to GPS anomalies should refer to the Chart Supplement U.S. to identify airports with available conventional approaches associated with the VOR Minimum Operational Network (MON) program. The two terms, often used interchangeably, in fact mean different things: Courses are the direction which the aircraft is actually traveling (impacted by winds), Headings are the directions which the aircraft faces (where it is pointed). Leg transition normally occurs at the turn bisector for a fly-by waypoint. The aeronautical information includes airports, radio aids to navigation, Class B airspace and special use airspace, The topographic information includes city tint, populated places, principal roads, drainage patterns, and shaded relief, The one-sided chart is 59 x 36 inches and ships unfolded for wall mounting, Printed on the reverse side of selected TAC charts, The coverage is the same as the associated TAC, Flyway planning charts depict flight paths and altitudes recommended for use to bypass high traffic areas, Ground references are provided as a guide for visual orientation, Flyway planning charts are designed for use in conjunction with TACs and sectional charts and not to be used for navigation, 7-Volume booklet series contains data on airports, seaplane bases, heliports, NAVAIDs, communications data, weather data sources, airspace, special notices, and operational procedures, Coverage includes the conterminous U.S., Puerto Rico, and the Virgin Islands. cfi. (See paragraph 5-4-18.
Area Navigation (RNAV) - CFI Notebook navigation and flight planning diversions Diversions Introduction: Diversions are deviations from the original plan which are usually due to fuel, weather, aeromedical or systems While no one plans to divert, the first time the situation dictates a diversion, you should have already planned ahead On AeroNav Products charts, very high frequencies and ultra-high frequencies (VHF/UHF) NAVAIDs (e.g., VORs) are depicted in black, while low frequencies and medium frequencies (LF/MF) are depicted as brown. Call: (916) 427-7707. For example, while operating on a Q-Route (RNAV 2), the aircraft is considered to be established on-course when it is within 2 nm of the course centerline, Pilots must be aware of how their navigation system operates, along with any AFM limitations, and confirm that the aircraft's lateral deviation display (or map display if being used as an allowed alternate means) is suitable for the accuracy of the segment being flown.
CFI Notebook | PDF | Risk Management | Flight Instructor - Scribd Weather products like windy.com offer additional insight into aviation weather forecasts and observations, Review your flight planning safety knowledge by taking the. RNP AR DP has lateral accuracy values that can scale to no lower than RNP 0.3 in the initial departure flight path. Still looking for something? Use of these reduced lateral accuracies will normally require use of the aircraft's autopilot and/or flight director. When operating below 18,000 feet MSL and: When operating above 18,000 feet MSL, maintain the altitude or flight level assigned by ATC, Account for changes in direction of flight along a flight plan and corresponding altitude changes to meet the standard, ATC may give other restrictions if you are under their control, say with, IFR Cruising Altitudes can be found by referencing FAR 91.179. Emergency Operations: Task A. At the alternate airport, pilots may plan for applicable alternate airport weather minimums using: Lateral navigation (LNAV) or circling minimum descent altitude (MDA); LNAV/vertical navigation (LNAV/VNAV) DA, if equipped with and using approved barometric vertical navigation (baroVNAV) equipment; RNP 0.3 DA on an RNAV (RNP) IAP, if they are specifically authorized users using approved baroVNAV equipment and the pilot has verified required navigation performance (RNP) availability through an approved prediction program, If the above conditions cannot be met, any required alternate airport must have an approved instrument approach procedure other than GPS that is anticipated to be operational and available at the estimated time of arrival, and which the aircraft is equipped to fly, This restriction does not apply to TSOC145() and TSOC146() equipped users (WAAS users), The low-strength data transmission signals from GPS satellites are vulnerable to various anomalies that can significantly reduce the reliability of the navigation signal. Continue searching. There are other objects or structures that could adversely affect your flight, such as construction cranes near an airport, newly constructed buildings, new towers, etc. Still looking for something? Designated to expedite clearance delivery and to facilitate transition between takeoff and en route operations, Furnishes pilots departure routing clearance information in graphic and textual form, Designated to expedite ATC arrival procedures and to facilitate transition between en route and instrument approach operations, They depict pre-planned IFR ATC arrival procedures in graphic and textual form, Each STAR procedure is presented as a separate chart and may serve either a single airport or more than one airport in a given geographical area, Full page airport diagrams are designed to assist in the movement of ground traffic at locations with complex runway/taxiway configurations and provided information for updating geodetic position navigational systems aboard aircraft, Airport diagrams are available for free download at the AeroNav website, Contains all terminal flight procedures for civil and military aviation in Alaska, Included are IAP charts, DP charts, STAR charts, airport diagrams, radar minimums, and supplementary support data such as IFR alternate minimums, take-off minimums, rate of descent tables, rate of climb tables and inoperative components tables, Revised every 56 days with provisions for a Terminal Change Notice, as required, Designated for preflight and en route flight planning for IFR/VFR flights, Depiction includes low altitude airways and mileage, NAVAIDs, airports, special use airspace, cities, time zones, major drainage, and directory of airports with their airspace classification, and a mileage table showing great circle distances between major airports, Revised annually, and is available either folded or unfolded for wall mounting, A VFR planning chart on the reverse side of the Puerto Rico-Virgin Islands VFR Terminal Area Chart, Includes mileage between airports of entry, a selection of special use airspace and a directory of airports with their available services, This chart is designed for VFR preflight planning and chart selection, It includes aeronautical and topographic information of the state of Alaska, The aeronautical information includes public and military airports; radio aids to navigation; and Class B, Class C, TRSA and special-use airspace, The topographic information includes city tint, populated places, principal roads, and shaded relief, The one sided chart is 58.5 x 40.75 inches and is designed for wall mounting. As wind gets factored in, even if a round trip with consistent winds, the time to fly becomes longer - headwinds/tailwinds will not cancel out (see: Suppose D = distance, TT = total time, AS = air speed, WS = wind speed, Then the equation for a direct headwind and tail wind is TT = D/(AS - WS) + D/(AS + WS) = 150/(100 - 50) + 150/(100 + 50) = 150/50 + 150/150 = 450/150 + 150/150 = 600/150 = 4, With WS = 0 the equation becomes TT = 150/100 + 150/100 = 300/100 = 3, You will travel 10% of speed in 6 minutes. Table of Contents Areas of Operation: Single-Engine Land I. RF turn capability is optional in RNP 0.3 eligibility. An RNAV system with DME/DME/IRU inputs that is compliant with the equipment provisions of AC 90-100A, U.S. Terminal and En Route Area Navigation (RNAV) Operations, for RNAV routes. While there is a high expectation of knowledge among pilots, none can do so without periodically referencing old topics. The use of an automatic or manual runway update is an acceptable means of compliance with this requirement. An example of a generic NAVLOG is provided below: Fill out the departure and arrival airport information including frequencies, traffic altitudes, and heights above ground, Fill in information concerning flight service or any item you will want to reference in regards to that airport, If you want, draw an airport diagram in the box but still carry a larger printed diagram for easier use and more detail, Determine a MSL cruise altitude based on weather and direction of flight, Calculate pressure altitude for your airport (important for performance calculations), Determine the temperature (important for performance calculations), Calculate density altitude (important for performance calculations), Determine a horsepower setting and the accompanying RPM settings, KTAS and Gallons per Hour, Used to plot any changes to a heading for the entire route to estimate times, distances and fuel used, Fuel Planning calculated with flight computer (arrow on GPH, read under time), List all checkpoints and associated distances, Write in any frequencies or IDs for route navigation, GS (first or second line only): copy from preflight log, In flight you will be filling in the other boxes as the flight progresses, Weight and balance as calculated normally, Fill out any weather information or notes you may have, Fill out the flight plan for flight service, All information is from the front of the navigation log, Filed before flight with the FSS so they can keep a track of you. This is limited only to systems that allow along-track waypoint construction, Pilots of FMS-equipped aircraft, who are assigned an RNAV DP or STAR procedure and subsequently receive a change of runway, transition or procedure, must verify that the appropriate changes are loaded and available for navigation, For RNAV 1 DPs and STARs, pilots must use a CDI, flight director and/or autopilot, in lateral navigation mode.
Flight instructor - Wikipedia [Figure 1-4], Very high frequency omni-directional ranges (VORs) are the principal NAVAIDs that support the Victor and Jet airways, Many other navigation tools are also available to the pilot, For example, non-directional beacons (NDBs) can broadcast signals accurate enough to provide stand-alone approaches, and DME allows the pilot to pinpoint a reporting point on the airway, Though primarily navigation tools, these NAVAIDs can also transmit voice broadcasts, Tactical air navigation (TACAN) channels are represented as the two- or three-digit numbers following the three-letter identifier in the NAVAID boxes, The AeroNav Products terminal procedures provide a frequency-pairing table for the TACAN-only sites. NavSpecs should be considered different from one another, not "better" or "worse" based on the described lateral navigation accuracy. (See Paragraph 5-4-18, RNP AR Instrument Approach Procedures. Plot the winds on your E6B Flight Computer: Place the wind direction under the "True Index" arrow, Using a reference line on the E6B scale, measure up and plot the velocity, Rotate the compass rose until your True Course is under the True Index pointer, Move the entire compass until the plot is over your True Airspeed, Note which side of the True Index the plot falls, and by how much based on the scale provided, If it is located on the left of the line, it must be subtracted from the True Course, If it is located on the right of the line, it must be added to the True Course, Heading/courses can be expressed as either true or magnetic, True north is the direction along the earth's surface towards the geographic North Pole, It is the northerly point furthest from the equator (90N), True headings can therefore be measured on most aeronautical maps, including sectionals, by reference to true north, Draw a straight line between two points (airports, checkpoints, etc.) Also provides a means for pilots to update visual charts between edition dates, Published every 56 days while sectional and Terminal Area charts are generally revised every 6 months, Update Bulletins are available for free download from the AeroWeb website, Volumes are side-bound 5-3/8 x 8-1/4 inches, Civil/military flight information publication issued by FAA every 56 days, It is a single volume booklet designed for use with appropriate IFR or VFR charts, The Supplement Alaska contains an Chart Supplement U.S., airport sketches, communications data, weather data sources, airspace, listing of navigational facilities, and special notices and procedures, Volume is side-bound 5-3/8 x 8-1/4 inches, Designed for use with appropriate VFR or IFR en-route charts, Included are the Chart Supplement U.S., communications data, weather data sources, airspace, navigational facilities, special notices, and Pacific area procedures, IAP charts, DP charts, STAR charts, airport diagrams, radar minimums, and supporting data for the Hawaiian and Pacific Islands are included, FAA controllers to monitor transatlantic flights, this 5-color chart shows oceanic control areas, coastal navigation aids, oceanic reporting points, and NAVAID geographic coordinates, Designed for FAA controllers to monitor transoceanic flights, The show established intercontinental air routes, including reporting points with geographic positions, The OC is a 1:12,000 scale graphic depicting part 77, Objects Affecting Navigable Airspace surfaces, a representation of objects that penetrate these surfaces, aircraft movement and apron areas, navigational aids, prominent airport buildings, and a selection of roads and other planimetric detail in the airport vicinity, Also included are tabulations of runway and other operational data, A booklet designed to be used as a teaching aid and reference document, It describes the substantial amount of information provided on FAA's aeronautical chart and publications, It includes explanations and illustrations of chart terms and symbols organized by chart type, The users guide is available for free download at the AeroNav website, The DAICD is a combination of the NAVAID Digital Data File, the Digital Chart Supplement, and the Digital Obstacle File on one Compact Disk, These three digital products are no longer sold separately, The files are updated every 56 days and are available by subscription only, This file contains a current listing of NAVAIDs that are compatible with the National Airspace System, This file contains all NAVAIDs including ILS and its components, in the U.S., Puerto Rico, and the Virgin Islands plus bordering facilities in Canada, Mexico, and the Atlantic and Pacific areas, This file describes all obstacles of interest to aviation users in the U.S., with limited coverage of the Pacific, Caribbean, Canada, and Mexico, The obstacles are assigned unique numerical identifiers, accuracy codes, and listed in order of ascending latitude within each state or area, The CIFP is a basic digital dataset, modeled to an international standard, which can be used as a basis to support GPS navigation. ), Leg types used for procedure design are included in the aircraft navigation database, but not normally provided on the procedure chart, The narrative depiction of the RNAV chart describes how a procedure is flown, The "path and terminator concept" defines that every leg of a procedure has a termination point and some kind of path into that termination point, A Track to Fix (TF) leg is intercepted and acquired as the flight track to the following waypoint, Track to a Fix legs are sometimes called point-to-point legs for this reason, Narrative: "direct ALPHA, then on course to BRAVO WP" [, A Direct to Fix (DF) leg is a path described by an aircraft's track from an initial area direct to the next waypoint, Narrative: "turn right direct BRAVO WP" [, A Course to Fix (CF) leg is a path that terminates at a fix with a specified course at that fix, A Radius to Fix (RF) leg is defined as a constant radius circular path around a defined turn center that terminates at a fix [, A Heading leg may be defined as, but not limited to, a Heading to Altitude (VA), Heading to DME range (VD), and Heading to Manual Termination, i.e., Vector (VM), Narrative: "climb heading 350 to 1500", "heading 265, at 9 DME west of PXR VORTAC, right turn heading 360", "fly heading 090, expect radar vectors to DRYHT INT", Pilots should be aware of their navigation system inputs, alerts, and annunciations in order to make better-informed decisions, In addition, the availability and suitability of particular sensors/systems should be considered, Operators using TSO-C129(), TSO-C196(), TSO-C145() or TSO-C146() systems should ensure departure and arrival airports are entered to ensure proper RAIM availability and CDI sensitivity, Operators should be aware that DME/DME position updating is dependent on navigation system logic and DME facility proximity, availability, geometry, and signal masking, Unique VOR characteristics may result in less accurate values from VOR/DME position updating than from GPS or DME/DME position updating, Inertial reference units and inertial navigation systems are often coupled with other types of navigation inputs, e.g., DME/DME or GPS, to improve overall navigation system performance, Note that specific inertial position updating requirements may apply, An FMS is an integrated suite of sensors, receivers, and computers, coupled with a navigation database, These systems generally provide performance and RNAV guidance to displays and automatic flight control systems, Inputs can be accepted from multiple sources such as GPS, DME, VOR, LOC and IRU, These inputs may be applied to a navigation solution one at a time or in combination, Some FMSs provide for the detection and isolation of faulty navigation information, When appropriate navigation signals are available, FMSs will normally rely on GPS and/or DME/DME (that is, the use of distance information from two or more DME stations) for position updates, Other inputs may also be incorporated based on FMS system architecture and navigation source geometry, Note that DME/DME inputs coupled with one or more IRU(s) are often abbreviated as DME/DME/IRU or D/D/I, Nav Specs are a set of aircraft and aircrew requirements needed to support a navigation application within a defined airspace concept, For both RNP and RNAV designations, the numerical designation refers to the lateral navigation accuracy in nautical miles which is expected to be achieved at least 95 percent of the flight time by the population of aircraft operating within the airspace, route, or procedure [, Typically RNAV 1 is used for DPs and STARs and appears on the charts, Aircraft must maintain a total system error of not more than 1 NM for 95 percent of the total flight time, Typically RNAV 2 is used for en route operations unless otherwise specified, T-routes and Q-routes are examples of this Nav Spec, Aircraft must maintain a total system error of not more than 2 NM for 95 percent of the total flight time, Typically RNAV 10 is used in oceanic operations, See AIM paragraph 4-7-1 for specifics and explanation of the relationship between RNP 10 and RNAV 10 terminology, Use of a suitable RNAV system as a Substitute Means of Navigation when a Very-High Frequency (VHF) Omni-directional Range (VOR), Distance Measuring Equipment (DME), Tactical Air Navigation (TACAN), VOR/TACAN (VORTAC), VOR/DME, Non-directional Beacon (NDB), or compass locator facility including locator outer marker and locator middle marker is out-of-service (that is, the navigation aid (NAVAID) information is not available); an aircraft is not equipped with an Automatic Direction Finder (ADF) or DME; or the installed ADF or DME on an aircraft is not operational, For example, if equipped with a suitable RNAV system, a pilot may hold over an out-of-service NDB, Use of a suitable RNAV system as an Alternate Means of Navigation when a VOR, DME, VORTAC, VOR/DME, TACAN, NDB, or compass locator facility including locator outer marker and locator middle marker is operational and the respective aircraft is equipped with operational navigation equipment that is compatible with conventional navaids, For example, if equipped with a suitable RNAV system, a pilot may fly a procedure or route based on operational VOR using that RNAV system without monitoring the VOR.