Digital-VC DVDs are updated every 28 days and are available by subscription only, For the latest information regarding publication availability visit the, Area Planning - Special Use Airspace - Planning Charts, Caribbean and South America - Low Altitude, Caribbean and South America - High Altitude, Europe, North Africa, and Middle East - Low Altitude, Europe, North Africa, and Middle East - High Altitude, VFR Arrival/Departure Routes - Europe and Korea, Aeronautical Chart Updating Manual (CHUM), Global Navigation and Planning Charts (GNC), Jet Navigation Charts (JNC) and Universal Jet Navigation Charts (JNU), Sight Reduction Tables for Air Navigation (PUB249). When installed in accordance with appropriate airworthiness installation requirements and operated in accordance with applicable operational guidance (e.g., aircraft flight manual and Advisory Circular material), the following systems qualify as a suitable RNAV system: An RNAV system with TSO-C129/-C145/-C146 equipment, installed in accordance with AC 20-138, Airworthiness Approval of Global Positioning System (GPS) Navigation Equipment for Use as a VFR and IFR Supplemental Navigation System, and authorized for instrument flight rules (IFR) en route and terminal operations (including those systems previously qualified for "GPS in lieu of ADF or DME" operations), or. Additional data elements will be added in subsequent releases to include: departure procedures, standard terminal procedures. For some navigation systems and operations, manual selection of scaling will be necessary, Pilots flying FMS equipped aircraft with barometric vertical navigation (Baro-VNAV) may descend when the aircraft is established on-course following FMS leg transition to the next segment. The root mean square error of the transformation will not exceed two pixels. 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 Certified Flight Instructor's (CFI) notebook is the critical reference material gathered throughout flight training. 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. Copyright 2023 CFI Notebook, All rights reserved. The Chart Supplement U.S. shows data that cannot be readily depicted in graphic form; e.g. Private Pilot Navigation Lesson Plans - CFI Notebook In the future, there will be an increased dependence on the use of RNAV in lieu of routes defined by ground-based navigation aids, RNAV routes and terminal procedures, including departure procedures (DPs) and standard terminal arrivals (STARs), are designed with RNAV systems in mind. The system must be able to retrieve the procedure by name from the aircraft navigation database, not just as a manually entered series of waypoints, Whenever possible, RNAV routes (Q- or T-route) should be extracted from the database in their entirety, rather than loading RNAV route waypoints from the database into the flight plan individually. Airplane Flight Controls Lesson - wificfi.com Because of the many uses of GPS in aviation (e.g., navigation, ADS-B, terrain awareness/warning systems), operators of aircraft using GPS need to be aware of these vulnerabilities, and be able to recognize and adjust to degraded signals. It is this concept that requires each NavSpec eligibility to be listed separately in the avionics documents or AFM. notebook-8/,$1 %/$1&+$5'. Navigation and Flight Planning - CFI Notebook The use of an automatic or manual runway update is an acceptable means of compliance with this requirement. LNAV/VNAV incorporates LNAV lateral with vertical path guidance for systems and operators capable of either barometric or SBAS vertical. The separate Equipment Requirements box will list ground-based equipment and/or airport specific requirements. Still looking for something? 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. Still looking for something? The data is provided as a GeoTIFF and distributed on DVD-R media and on the AeroNav Products website. Further, optional capabilities such as Radius-to-fix (RF) turns or scalability should be described in the AFM or avionics documents. GPS is also a necessary component of the Aircraft Terrain Awareness and Warning System (TAWS) - an aircraft safety system that alerts pilots of upcoming terrain. Preflight Planning - CFI Notebook Airway & Route Course Navigation - CFI Notebook Federal Aviation Administration - Pilot/Controller Glossary, FAR 91.103 that "Each pilot in command shall, before beginning a flight, become familiar with all available information concerning that flight" which includes, If you don't own an airplane, you probably rent your favorite aircraft at the same FBO each time you fly however, for many, that may not be a possibility, Variations in airplanes which you are licensed and probably signed off to rent by your local FBO must be considered, While normal procedures can generally be done at the pilot's pace, emergency procedures cannot, making their understanding crucial, Aircraft perform differently based on the environmentals and type of operation expected, Be cognizant of "what is different today" and brief to it up front, so factors like density altitude and weight and balance are taken into consideration, Review and print, or tab a copy of the arrival and departure airport, as required, Be wary of "expectation bias;" listen to what a controller actually says, not what you expect, Enroute sector boundaries can be found on enroute charts allowing you to anticipate where about a switch will occur, and to what frequency, Don't ignore what you are flying over as water conditions/temperatures and terrain may impact what you bring and how you may react to an emergency, Pilots must be familiar with what equipment is installed in the airplane, Just as important, pilots must be familiar with where that equipment is installed, The most obvious example is the instrument panel, where equipment like transponders maybe in a new location, even across the same brand of airplane but a different model, Less obvious examples are safety equipment. Each procedure is designated for use with a specific electronic navigational aid, such as ILS, VOR, NDB, RNAV, etc. Those subject areas are all listed below: Fundamentals of Instruction The Learning Process Human Behavior and Effective Communication The Teaching Process Teaching Methods Critique and Evaluation Table of Contents Areas of Operation: Single-Engine Land I. On procedures with both PBN elements and ground-based equipment requirements, the PBN requirements box will be listed first (See FIG 5-4-1. Supporting structures such as guy wires exist here as well, Some locations identify these obstructions with unique sequencing flashing white strobe light systems, However, many power lines do not require notice to the FAA and, therefore, are not marked and/or lighted, Many of those that do require notice do not exceed 200 feet AGL or meet the Obstruction Standard of 14 CFR Part 77 and, therefore, are not marked and/or lighted, Pilots are cautioned to remain extremely vigilant, especially in the case of seaplane and/or float-equipped aircraft, The majority of unmanned free balloons currently being operated have, extending below them, either a suspension device to which the payload or instrument package is attached or a trailing wire antenna, or both, Good judgment on the part of the pilot dictates that aircraft should remain well clear of all unmanned free balloons and flight below them should be avoided at all times, Pilots are urged to report any unmanned free balloons sighted to the nearest FAA ground facility with which communication is established to assist FAA ATC facilities in identifying and flight following unmanned free balloons operating in the airspace. Data such as weather, temporary flight restrictions, obstacles, or other geospatial data can be combined with d-VC data to support a variety of needs. Pilots are encouraged to turn on their landing lights when operating within 10 miles of an airport (day or night) At the conclusion of night operations, reset all the switches for day, as such, check after the aircraft has flown at night to make sure the previous pilot did not forget. (Reference AIM 1-1-3f). 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. 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. For example, an ILS with an RNAV missed approach would require a specific capability to fly the missed approach portion of the procedure. Copyright 2023 CFI Notebook, All rights reserved. RNP AR DP is intended to provide specific benefits at specific locations. If you are traveling at 100 knots ground speed for 6 minutes, how far will you travel? IFR En-Route Charts - CFI Notebook One engine inoperative during straight-and-level flight and turns (AMEL, AMES) Task C. One Engine Inoperative - Instrument Approach (AMEL, AMES) Task D. Approach with Loss of Primary Flight Instrument Indicators. Flight Instructor Lesson Plans - CFI Notebook | Privacy Policy | Terms of Service | Sitemap | Patreon | Contact, Federal Aviation Administration - Pilot/Controller Glossary, CFI Notebook.net - Airways and Route Course Navigation, Instrument Flying Handbook (1-6) IFR En-Route Charts, The objective of IFR en route flight is to navigate within the, 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, En route high-altitude charts provide aeronautical information for en route instrument navigation at or above 18,000' MSL, Information includes the portrayal of Jet and RNAV routes, identification and frequencies of radio aids, selected airports, distances, time zones, special use airspace, and related information, Established jet routes from 18,000' MSL to FL 450 use NAVAIDs not more than 260 NM apart, To effectively depart from one airport and navigate en route under instrument conditions, a pilot needs the appropriate IFR en route low-altitude chart(s), The IFR low altitude en route chart is the instrument equivalent of the sectional chart, When folded, the cover of the AeroNav Products en route chart displays an index map of the United States showing the coverage areas, Cities near congested airspace are shown in black type and their associated area chart is listed in the box in the lower left-hand corner of the map coverage box, Also noted is an explanation of the off-route obstruction clearance altitude (OROCA), The effective date of the chart is printed on the other side of the folded chart, Information concerning MTRs is also included on the chart cover, The en route charts are revised every 56 days, When the AeroNav Products en route chart is unfolded, the legend is displayed and provides information concerning airports, NAVAIDs, communications, air traffic services, and airspace, Airport information is provided in the legend, and the symbols used for the airport name, elevation, and runway length are similar to the sectional chart presentation, Associated city names are shown for public airports only, FAA identifiers are shown for all airports, ICAO identifiers are also shown for airports outside of the contiguous United States, Instrument approaches can be found at airports with blue or green symbols, while the brown airport symbol denotes airports that do not have instrument approaches, Stars are used to indicate the part-time nature of tower operations, Automatic Terminal Information Service (ATIS) frequencies, part-time or on request lighting facilities, and part-time airspace classifications, The minimum en route altitude (MEA) ensures a navigation signal strong enough for adequate reception by the aircraft navigation (NAV) receiver and obstacle clearance along the airway, Communication is not necessarily guaranteed with MEA compliance, The obstacle clearance, within the limits of the airway, is typically 1,000' in non-mountainous areas and 2,000' in designated mountainous areas, MEAs can be authorized with breaks in the signal coverage; if this is the case, the AeroNav Products en route chart notes "MEA GAP" parallel to the affected airway, MEAs are usually bidirectional; however, they can be single-directional, Arrows are used to indicate the direction to which the MEA applies, The minimum obstruction clearance altitude (MOCA), as the name suggests, provides the same obstruction clearance as an MEA; however, the NAV signal reception is ensured only within 22 NM of the closest NAVAID defining the route, The MOCA is listed below the MEA and indicated on AeroNav Products charts by a leading asterisk (e.g., "*3400" - see Figure 1-2, V287 at bottom left), The minimum reception altitude (MRA) identifies the lowest altitude at which an intersection can be determined from an off-course NAVAID, If the reception is line-of-sight based, signal coverage only extends to the MRA or above, However, if the aircraft is equipped with distance measuring equipment (DME) and the chart indicates the intersection can be identified with such equipment, the pilot could define the fix without attaining the MRA, On AeroNav Products charts, the MRA is indicated by the symbol, The minimum crossing altitude (MCA) is charted when a higher MEA route segment is approached, The MCA is usually indicated when a pilot is approaching steeply rising terrain and obstacle clearance and/or signal reception is compromised, In this case, the pilot is required to initiate a climb so the MCA is reached by the time the intersection is crossed, On AeroNav Products charts, the MCA is indicated by the symbol, The maximum authorized altitude (MAA) is the highest altitude at which the airway can be flown with assurance of receiving adequate navigation signals, Chart depictions appear as "MAA-15000." Motivator: Cockpit management are the actions and procedures, starting with preflight, in which all necessary equipment, documents, checklists, and navigation charts appropriate for the flight are on board and easily accessible. While there is a high expectation of knowledge among pilots, none can do so without periodically referencing old topics. That required capability will be listed in the PBN box. NavSpecs should be considered different from one another, not "better" or "worse" based on the described lateral navigation accuracy. Certified Flight Instructor Notebook RNP AR DP has lateral accuracy values that can scale to no lower than RNP 0.3 in the initial departure flight path. VFR Navigation charts consist of the following: Designed for visual navigation of slow to medium speed aircraft, The topographic information consists of contour lines, shaded relief, drainage patterns, and an extensive selection of visual checkpoints and landmarks used for flight under VFR, Cultural features include cities and towns, roads, railroads, and other distinct landmarks, The aeronautical information includes visual and radio aids to navigation, airports, controlled airspace, special-use airspace, obstructions, and related data, Revised every 56 days, except most Alaskan charts are revised annually, TACs depict the airspace designated as Class B airspace, While similar to sectional charts, TACs have more detail because the scale is larger, Should be used by pilots intending to operate to or from airfields within or near Class B or class C airspace, Charted VFR Flyway Planning Charts are published on the back of the existing VFR Terminal Area Charts, Areas with TAC coverage are indication by a dot on the Sectional Chart indexes, Charts are revised every 56 days, except Puerto Rico-Virgin Islands revised annually, Designated primarily for helicopter operation in the Gulf of Mexico area, Information depicted includes offshore mineral leasing areas and blocks, oil drilling platforms, and high density helicopter activity areas, Covers the Grand Canyon National Park area and is designated to promote aviation safety, flight free zones, and facility VFR navigation in this popular area, The chart contains aeronautical information for general aviation for VFR pilots on one side and commercial VFR air tour operators on the other side, Caribbean 1 and 2 (CAC-1 and CAC-2) are designed for visual navigation to assist familiarization of foreign aeronautical and topographic information, The topographic information consists of contour lines, shaded relief, drainage patterns, and a selection of landmarks used for flight under VFR, A three-color chart series which shows current aeronautical information useful to helicopter pilots navigating in areas with high concentrations of helicopter activity, Information depiction includes helicopter routes, four classes of heliports with associated frequency and lighting capabilities, NAVAIDs, and obstructions, In addition, pictorial symbols, roads, and easily identified geographical features are portrayed, Have a longer life span than other charts and may be current for several years, updated as requested, Provide aeronautical information navigation under IFR conditions below 18,000' MSL, This four-color chart series includes airways; limits of controlled airspace; VHF NAVAIDs with frequency, identification, channel, geographic coordinates; airports with terminal air/ground communication; minimum en route and obstruction clearance altitudes; airway distances; reporting points; special use airspace; and military training routes, Scales vary from 1 inch = 5nm to 1 inch = 20nm, Area charts show congested terminal areas at large scale, They are included with subscriptions to any conterminous U.S. Set Low (full set, East or West sets), Designated for navigation at or above 18,000' MSL (up to FL 600), This four-color chart series includes the jet route structure; VHF NAVAIDs with frequency, identification, channel, geographic coordinates; selected airports; reporting points, Scales vary from 1 inch to 45nm to 1 inch = 18nm, TPPs are published in 24 loose-leaf or perfect bound volumes covering the conterminous U.S., Puerto Rico and the Virgin Islands, A Change Notice is published at the midpoint between revisions in bound volume format and is available on the internet for a free download at the AeroNav website, IAP charts portray the aeronautical data that is required to execute instrument approaches to airports, Each chart depicts the IAP, all related navigation data, communications information, and an airport sketch.
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