Fact-checked by Grok 2 weeks ago

Common traffic advisory frequency

The Common Traffic Advisory Frequency (CTAF) is a designated VHF radio frequency used by pilots for air-to-air communication and self-announcements of positions and intentions at airports without an operating air traffic control tower. It promotes situational awareness and collision avoidance in uncontrolled airspace.^[1] In the United States, the CTAF was established under Federal Aviation Administration (FAA) guidelines in the late 20th century to enable pilots to broadcast aircraft location, altitude, and maneuvers at non-towered airports, supporting safe operations without ground control.^[1] It is usually a pre-designated channel, such as a UNICOM, MULTICOM (122.9 MHz), or Flight Service Station frequency, and is indicated on aeronautical charts.^[1] Standard CTAF frequencies are in the 122.7–123.05 MHz range, including 122.8 MHz and 122.9 MHz, to reduce interference.^[1] Similar systems exist internationally, including in Australia (where it is also called CTAF) and the United Kingdom, to enhance safety at uncontrolled aerodromes.^[2]^[3]

Definition and Purpose

Definition

The Common Traffic Advisory Frequency (CTAF) is a designated very high frequency (VHF) radio frequency, typically within the 118.000 to 136.975 MHz aviation communications band, used exclusively for air-to-air communications among pilots operating at airports without an operating air traffic control tower.^[4]^[5] This frequency enables pilots to exchange essential information, such as aircraft positions and intentions, to maintain situational awareness in the airport vicinity.^[6] Unlike related aviation communication services, the CTAF refers specifically to the frequency itself rather than the operational service; for instance, a UNICOM frequency (a nongovernmental air-ground communication service providing airport information) or a MULTICOM frequency (a default 122.9 MHz channel for airports lacking other designated services) may be selected and published as the CTAF for a given airport.^[4]^[6] In regulatory terms, the CTAF is defined in the Federal Aviation Administration's (FAA) Aeronautical Information Manual (AIM) as a tool for implementing airport advisory practices at uncontrolled fields, where no ground-based air traffic control is available to coordinate movements. It is also detailed in the FAA's Pilot's Handbook of Aeronautical Knowledge as synonymous with the self-announcement protocol for safe operations at nontowered airports.^[6] This designation applies broadly to uncontrolled aerodromes, including small general aviation fields and remote airstrips, where pilots rely on voluntary broadcasts to share traffic information without mandatory two-way radio requirements.^[4]^[6]

Purpose and Importance

The Common Traffic Advisory Frequency (CTAF) serves as the primary communication channel at uncontrolled airports, enabling pilots to self-announce their aircraft positions, intentions, and movements to other traffic in the vicinity. This real-time exchange of information fosters situational awareness among pilots operating in shared airspace without air traffic control oversight, thereby reducing the likelihood of collisions during takeoff, landing, and pattern operations. By designating a single frequency for such announcements, CTAF facilitates orderly traffic flow and allows pilots to anticipate potential conflicts, such as converging flight paths or runway incursions.^[7] Mid-air collisions pose a significant risk at non-towered airports, where nearly all such incidents occur at altitudes below 1,000 feet, often in the traffic pattern during approach or departure. According to National Transportation Safety Board (NTSB) data, U.S. general aviation experienced an average of approximately 8 mid-air collisions annually from 2010 to 2021 (as of 2021), with about 45 percent occurring within the airport traffic area, underscoring the vulnerability of these environments.^[8]^[9] CTAF mitigates these hazards by promoting proactive communication, which has been shown to enhance pilot alertness and enable timely maneuvers to avoid conflicts, though its effectiveness depends on widespread radio use and accurate reporting.^[10] Beyond immediate safety benefits, CTAF plays a crucial role in supporting the expansion of general aviation by offering a low-cost, straightforward alternative to full air traffic control services at the thousands of smaller airports that lack towers. This is particularly vital for visual flight rules (VFR) operations, which dominate recreational and training flights, allowing efficient access to remote fields without the infrastructure demands of controlled airspace. However, CTAF is not a replacement for the fundamental see-and-avoid principle, and its success hinges on pilot compliance with broadcasting protocols and maintaining radio discipline to avoid frequency congestion or misunderstandings.^[7]^[11]

History

Origins and Development

The emergence of the Common Traffic Advisory Frequency (CTAF) can be traced to the post-World War II boom in general aviation, which saw a surge in private aircraft ownership and operations at thousands of small, untowered airports across the United States. This period marked a shift from visual flight rules reliant on see-and-avoid practices to the integration of radio communications for enhanced situational awareness at remote fields lacking control towers. As general aviation activity expanded rapidly in the late 1940s and 1950s, the need for standardized air-to-air coordination became evident, evolving from rudimentary radio use introduced as early as the 1920s but adapted for widespread civilian application.^[12]^[13] Informal use of UNICOM frequencies in the 1950s and 1960s laid the groundwork for CTAF, with UNICOM stations established in 1950 by the Federal Communications Commission to facilitate air-ground communications at non-towered airports, primarily for advisory services rather than pilot-to-pilot traffic alerts. By the 1970s and 1980s, rising mid-air collision incidents—highlighted as the most serious safety threat to U.S. aviation in a 1971 statement by the Secretary of Transportation and analyzed in subsequent National Transportation Safety Board studies—prompted the Federal Aviation Administration (FAA) to formalize self-announcement protocols. These factors drove the transition from ad hoc UNICOM practices to dedicated frequencies for traffic advisories, aiming to mitigate collision risks at uncontrolled fields.^[14] Key milestones in CTAF's development include the FAA's issuance of Advisory Circular 90-42F in 1990, which defined CTAF as a designated frequency for airport advisory practices at non-towered airports and recommended self-announcement procedures to promote safety. This was further codified in the Aeronautical Information Manual (AIM) around 1995, introducing a dedicated section on non-towered airport operations that standardized CTAF usage nationwide. The FAA's designation of CTAF frequencies addressed the needs of over 19,000 non-towered airports, ensuring consistent practices for the vast majority of U.S. general aviation facilities without air traffic control services.^[4]^[15]^[16] This U.S.-centric framework influenced international adoption, with countries like Australia incorporating similar self-announcement systems on dedicated frequencies.

International Adoption

The concept of the Common Traffic Advisory Frequency (CTAF), originating in the United States, began to influence international aviation practices in the early 1990s, with Australia adopting similar self-announce procedures as part of broader airspace reforms. In Australia, CTAF and related Mandatory Traffic Advisory Frequency (MTAF) protocols were introduced on December 12, 1991, through the Airspace Management and Air Traffic Services (AMATS) changes implemented by the then Civil Aviation Authority (CAA), which later evolved into the Civil Aviation Safety Authority (CASA) in 1995; this mirrored the U.S. model to enhance situational awareness at non-towered aerodromes in remote and uncontrolled airspace.^[17] However, adoption elsewhere remained limited due to variations in national airspace classifications and regulatory frameworks, with no widespread global standardization emerging in the subsequent decades. The International Civil Aviation Organization (ICAO) has exerted indirect influence through its standards on aeronautical telecommunications in Annex 10 and air traffic services in Annex 11, which emphasize VHF frequency allocations for air-ground communications but do not mandate a universal CTAF equivalent or self-announce protocol; instead, ICAO's Doc 9718 outlines spectrum requirements for civil aviation, leaving implementation to member states.^[18] Countries have developed analogous systems, such as Canada's use of Mandatory Frequency (MF) channels at non-towered aerodromes for pilot self-announcements of position and intentions, often distinct from the enroute VFR advisory frequency of 126.7 MHz monitored for flight information service broadcasts.^[19] In Europe, Aerodrome Flight Information Service (AFIS) frequencies facilitate similar self-announce practices at smaller fields, supplemented by dedicated air-to-air channels like 123.065 MHz and 123.135 MHz allocated in 2024 for general aviation coordination across the region.^[20] Challenges to broader CTAF adoption have been notable, particularly in Europe, where denser airspace and a regulatory preference for mandatory ground-based air traffic services—such as those under EASA oversight—have led to resistance against fully self-reliant procedures, favoring integrated systems like AFIS over standalone advisory frequencies. Recent virtual simulations, including VATSIM's 2024 trial of real-world CTAF protocols initially in the United States and expanded to divisions covering Canada and Mexico, have tested international applicability but remain focused on North American contexts without formal global endorsement.^[21] Today, the "CTAF" term is primarily associated with operations in the United States and Australia, while other nations employ comparable self-announce systems under local designations, reflecting ICAO's flexible approach to accommodating diverse operational environments without a prescriptive international standard.^[18]

Operational Procedures

Self-Announcement Protocols

Self-announcement protocols on the common traffic advisory frequency (CTAF) at non-towered airports involve pilots broadcasting their position, intentions, and other relevant information to enhance situational awareness and prevent collisions. These procedures are designed for air-to-air communication among aircraft operating in the vicinity, typically initiated when approaching within approximately 10 nautical miles of the airport. Pilots begin by monitoring the CTAF to listen for existing traffic before making their initial announcement, which includes the airport name followed by the aircraft type, call sign, position relative to the airport, altitude if applicable, and intended operations, such as entering the traffic pattern or departing.^[1] Subsequent position reports are made at key phases of the traffic pattern to maintain clear communication, including entering downwind, turning base, and aligning on final approach for landing, as well as during takeoff rolls and climbs. Standard phrasing emphasizes brevity to minimize frequency congestion, incorporating elements like the aircraft identifier (e.g., type and tail number), precise location, and specific intentions (e.g., "full-stop landing" or "touch-and-go"). For instance, a typical announcement might be: "[Airport name] traffic, Cessna One Two Three Alpha Bravo, 10 miles north, inbound for runway 27, [airport name]." Pilots are advised to avoid unnecessary details, such as weather observations or casual remarks, to ensure transmissions remain concise and focused on safety-critical information.^[1] Best practices include continuous monitoring of the CTAF starting about 10 nautical miles out, verbal acknowledgment of any conflicting traffic observed or announced by others (e.g., "Cessna 123, traffic in sight"), and adherence to the standard left-hand traffic pattern unless a right-hand pattern is charted for the active runway. Adjustments for wind or noise abatement may require deviations, but pilots should clearly state these in announcements to alert others. Failure to follow these protocols can lead to common errors, such as overly verbose calls that tie up the frequency and delay critical transmissions, or omitting intentions, which may result in misunderstandings and increased collision risk during pattern operations.^[1]

Integration with Other Services

At airports equipped with UNICOM (Universal Communications) service, the Common Traffic Advisory Frequency (CTAF) typically shares the same radio channel as the UNICOM frequency, enabling pilots to obtain essential ground-based advisories such as current wind direction, runway conditions, and local traffic information from airport staff while simultaneously conducting self-announcements for air-to-air coordination.^[4] This integration enhances situational awareness without requiring frequency changes, as UNICOM operators are authorized to provide non-ATC services like weather updates and fuel availability upon pilot request, though they cannot issue clearances or instructions.^[7] The Federal Aviation Administration (FAA) designates specific UNICOM frequencies (e.g., 122.7, 122.8, 122.725, 122.95, or 123.0 MHz) that double as CTAF at such locations to streamline operations at uncontrolled or part-time towered airports.^[6] In contrast, at remote or unattended airports lacking dedicated frequencies or ground services, the MULTICOM frequency of 122.9 MHz functions as the default CTAF, supporting pilot-to-pilot communications exclusively without any integration to airport advisory services.^[1] This setup is particularly common at off-airport landing sites or very small fields where no UNICOM or other infrastructure exists, ensuring a standardized channel for self-announcements to prevent midair collisions despite the absence of ground support.^[7] The FAA mandates the use of MULTICOM in aeronautical charts when no specific CTAF is published, promoting uniformity in areas with limited aviation resources.^[4] For airports with part-time control towers, seamless integration occurs during off-hours when the tower closes; in these scenarios, the CTAF reverts to the tower's published frequency (typically in the 118-136 MHz VHF band), allowing pilots to switch channels without disruption and continue self-announcement protocols on the familiar frequency.^[22] This transition is charted clearly on sectional aeronautical maps with a "C" indicator next to the frequency, alerting pilots to the dual use and minimizing communication errors during operational shifts.^[4] The FAA emphasizes that this reversion maintains continuity, as pilots already tuned to the tower frequency can immediately adapt to CTAF procedures upon closure announcements.^[7] Additionally, at select airports, the CTAF may integrate with a nearby Flight Service Station (FSS) frequency, where FSS specialists offer enroute weather briefings, flight following, and airport-specific advisories, complementing but not replacing the CTAF's primary role in local air-to-air traffic exchanges.^[7] Pilots are advised to establish two-way communication with the FSS on the CTAF before transmitting position reports, ensuring coordinated use without overlapping the self-announcement focus.^[4] This hybrid approach is most prevalent at remote fields co-located with FSS facilities, balancing broader flight services with localized traffic management.^[6]

Frequencies and Designation

Standard Frequency Bands

The VHF frequency band allocated for aeronautical mobile communications, including common traffic advisory frequencies (CTAF), spans 117.975–137 MHz internationally per ICAO standards, with U.S. operations typically using 118.000 to 136.975 MHz for air-ground and air-to-air voice communications to ensure line-of-sight propagation without interference from other services.^[23]^[7] Within this band, CTAF operations are typically confined to the 122.000 to 123.000 MHz sub-band to minimize overlap with air traffic control (ATC) frequencies, which occupy lower portions for enroute and approach services. This segregation helps maintain clear channels for self-announce procedures at non-towered airports while protecting critical ATC communications.^[7] Common default CTAF frequencies include 122.7, 122.8, 122.725, 122.975, and 123.0 MHz in the United States, often used for UNICOM or dedicated CTAF at uncontrolled fields.^[7] The MULTICOM frequency of 122.9 MHz serves as a universal backup for self-announcements where no specific CTAF is published.^[7] In Australia, 126.7 MHz is the standard MULTICOM frequency for non-towered aerodromes, facilitating broadcasts in the vicinity of charted locations.^[24] To prevent interference, CTAF frequencies between nearby airports use standard 25 kHz channel spacing, with geographic separation (e.g., at least 60 statute miles preferred for shared frequencies) to allow co-channel reuse while minimizing adjacent-channel interference.^[25]^[26] In regions like Europe, finer 8.33 kHz channel spacing is mandated within the aeronautical band to increase capacity and reduce congestion, tripling the number of available channels compared to traditional 25 kHz spacing.^[27] Special cases include 123.5 MHz, designated for glider and balloon operations as an air-to-air and air-to-ground frequency to support training and coordination in uncontrolled airspace. Internationally, 123.45 MHz is reserved as a multicom channel for air-to-air communications over remote or oceanic areas, enabling position reporting without reliance on ATC.

Assignment and Charting

The assignment of Common Traffic Advisory Frequency (CTAF) frequencies is conducted by national aviation authorities through spectrum management to ensure efficient use of the radio spectrum. In the United States, the Federal Aviation Administration (FAA) designates CTAF frequencies for airports without operating control towers, taking into account factors such as the airport's geographic location, anticipated traffic volume, and proximity to other aviation facilities to prevent interference. For instance, when a UNICOM station serves as the CTAF, the Federal Communications Commission (FCC) licenses the frequency, with a preference for at least 60 statute miles of separation between airports sharing the same frequency to accommodate varying operational demands.^[7]^[26] Charting methods standardize the publication of CTAF frequencies to aid pilot situational awareness. On VFR sectional aeronautical charts, the CTAF is depicted for non-towered airports in magenta adjacent to the airport symbol, listing the frequency following any control tower (CT) information if applicable. More comprehensive details, including the specific frequency, operating hours, and associated services like UNICOM or MULTICOM, are provided in the Chart Supplement U.S., which serves as the primary reference for airport facilities.^[28]^[29] Frequencies may be revised periodically due to increasing congestion or spectrum reallocation, requiring coordination between licensing bodies and aviation regulators. Changes are disseminated through Notices to Air Missions (NOTAMs), which alert pilots to temporary or permanent updates, such as a shift from one UNICOM frequency to another. Pilots are advised to verify CTAF details using current charts, NOTAMs, or Flight Service Stations prior to operations. For real-time access, electronic tools like the ForeFlight app integrate Chart Supplement data and NOTAMs to enable quick CTAF lookups. Internationally, similar assignment and charting occur via Aeronautical Information Publications (AIPs), which detail frequencies for aerodromes lacking air traffic services.^[30]^[31]^[32]

Use by Country

United States

In the United States, the Common Traffic Advisory Frequency (CTAF) is regulated by the Federal Aviation Administration (FAA) under Title 14 of the Code of Federal Regulations (14 CFR) Part 91, which addresses careless or reckless operation (§91.13), right-of-way rules in traffic patterns (§91.113), and requirements for left turns in uncontrolled airspace (§91.126). The Aeronautical Information Manual (AIM) section 4-1-9 further mandates traffic advisory practices at airports without operating control towers, requiring radio-equipped pilots to self-announce their positions and intentions on the CTAF to promote see-and-avoid responsibilities and safe sequencing.^[1]^[7] These regulations apply to over 4,600 non-towered public-use airports, representing approximately 90% of the nation's 5,146 public airports as of 2025, where CTAF procedures are critical for managing the majority of general aviation operations.^[16] The designated CTAF frequency is commonly a UNICOM channel, such as 122.8 MHz, or the MULTICOM frequency of 122.9 MHz when no UNICOM service is available, as outlined in FAA guidance for non-towered facilities. Pilots must begin monitoring the CTAF at least 10 nautical miles from the airport and continue communications through landing or until departing the advisory area, with announcements including aircraft identification, position relative to the airport, and intended maneuvers.^[7]^[4] On FAA sectional aeronautical charts, the CTAF frequency appears adjacent to the airport symbol in magenta for non-towered airports, often annotated with a "C" to denote its role in self-announce procedures. For visual flight rules (VFR) operations, standard left-hand traffic patterns are required at these airports unless right patterns are charted with an "RP" notation, ensuring consistent entry and sequencing while using CTAF for coordination. Automated Surface Observing System (ASOS) and Automated Weather Observing System (AWOS) stations are integrated at many sites by broadcasting real-time weather data—such as wind, visibility, and altimeter settings—directly on the CTAF or associated UNICOM frequency, often triggered by microphone clicks to aid pilot decision-making without interrupting traffic advisories.^[28]^[1]^[33] FAA emphasis on CTAF compliance underscores its role in aviation safety, particularly at non-towered airports handling diverse general aviation traffic, where effective use of advisories helps mitigate runway incursions and near-misses that contributed to 1,757 reported runway incursions in 2024.^[34]

Australia

In Australia, the Civil Aviation Safety Authority (CASA) regulates the use of the Common Traffic Advisory Frequency (CTAF) for operations at all non-towered aerodromes, as outlined in the Aeronautical Information Publication (AIP) published by Airservices Australia.^[35] The term CTAF designates the VHF radio frequency employed for self-announcements by pilots to enhance situational awareness and promote safe separation in uncontrolled airspace, applying uniformly to certified aerodromes, licensed landing areas, and uncharted strips where applicable. The standard CTAF frequency is 126.7 MHz, designated as CTAF(R) for radio-equipped aerodromes, serving as the default for most locations unless a discrete frequency is charted.^[24] In remote areas, such as outback regions, specific discrete frequencies like 126.9 MHz may be assigned to avoid interference, particularly at aerodromes like Ayers Rock (Uluru), while steering clear of the lower 122 MHz band common elsewhere.^[36] These assignments prioritize clear communication in vast, sparsely populated areas where air traffic can include diverse operations like sightseeing flights and emergency medical services.^[37] Operational practices require pilots to make mandatory position and intention broadcasts on the CTAF when operating within the vicinity of an aerodrome, defined as a 10 nautical mile (NM) radius and altitudes up to 1,500 feet above ground level (AGL) that could pose collision risks. Reports must use metric units, such as kilometers for distances and meters for altitudes, and follow a standardized phraseology including location, aircraft type, callsign, position, level, and intentions—e.g., key calls for taxiing, inbound at 10 NM, entering the runway, and final approach.^[24] This protocol supports the "look, talk, turn" approach to circuit operations, ensuring timely awareness in busy or low-visibility conditions. For non-radio equipped fields, denoted in some contexts as CTAF(M) emphasizing mandatory broadcasts where possible, pilots rely on visual signals like light gun procedures or wing rocking for traffic coordination, supplemented by see-and-avoid techniques. Australia maintains 304 certified non-controlled aerodromes as of September 2024, with a strong emphasis on outback operations where CTAF usage mitigates risks from environmental factors like dust storms and limited radar coverage, fostering self-reliance among pilots in Class G airspace.^[38]^[39]

United Kingdom

In the United Kingdom, there is no direct equivalent to the Common Traffic Advisory Frequency (CTAF) as used in other countries; instead, communication at smaller aerodromes relies on the Aerodrome Flight Information Service (AFIS) provided by licensed Flight Information Service Officers (FISOs) at licensed sites, or voluntary procedures at unlicensed aerodromes. AFIS delivers flight information such as known traffic, wind conditions, and runway status but does not issue clearances or instructions, distinguishing it from full air traffic control services. At unlicensed aerodromes, which include many grass strips and private sites, radio communication is optional, and pilots make voluntary self-announcements on the designated SAFETYCOM frequency of 135.480 MHz when operating in the vicinity to alert others of their position and intentions. This frequency serves as a common channel for air-to-air broadcasts within approximately 5-10 nautical miles or up to 1,000 feet above the aerodrome, supporting situational awareness without mandatory use.^[40] Procedures within the Aerodrome Traffic Zone (ATZ)—a protected airspace extending 2 nautical miles horizontally and up to 2,000 feet above the aerodrome—prioritize visual scanning and standard circuit joining patterns, with radio serving as a supplementary tool rather than a requirement. The Civil Aviation Authority (CAA) regulates these practices under CAP 410, the Manual of Aerodrome Flight Information Services, which outlines FISO responsibilities and emphasizes safe integration of traffic through information exchange and see-and-avoid principles. CAP 793 further provides guidance on safe operations at unlicensed aerodromes, recommending prior permission for landings and highlighting the optional nature of radio at informal sites like farm strips. A distinctive element is the Frequency Monitoring Code (FMC), a transponder squawk code selected by pilots to passively indicate they are monitoring a specific air traffic service frequency without active communication, thereby reducing radio workload while allowing controllers to identify and contact them if needed.^[41] This system supports operations across numerous small fields—estimated at over 1,000 unlicensed sites nationwide—where visual separation remains paramount over radio dependency.^[42]

References

[1]
[PDF] CTAF - Federal Aviation Administration
May 21, 1990 · 4. DEFINITIONS. a. COMMON TRAFFIC ADVlSORY FREQUENCY (CTAF) - A designated frequency for the purpose of carrying out airport advisory practices ...
[2]
Common Traffic Advisory Frequency (CTAF) Explained - Pilot Institute
Apr 10, 2023 · A Common Traffic Advisory Frequency (CTAF) is a radio frequency pilots use to communicate with each other.What is a CTAF (Common... · What Is the Difference... · Aeronautical Charts
[3]
AC 90-50D - Requirements for 760-Channel VHF Radio for ...
Describes and upgrades civil air traffic control frequencies in the very high frequency (118.000 to 136.975 MHz) band. The 136.000 to 136.975 MHz band became ...
[4]
[PDF] Chapter 14 (Airport Operations) - Federal Aviation Administration
The acronym CTAF, which stands for Common Traffic Advisory Frequency, is synonymous with this program. A CTAF is a frequency designated for the purpose of ...
[5]
Services Available to Pilots
### Summary of CTAF Information from FAA AIM Chapter 4, Section 1
[6]
[PDF] Airplane Flying Handbook (FAA-H-8083-3C) Chapter 8
⦁ Nearly all accidents occur at or near uncontrolled airports and at altitudes below 1,000 feet.
[7]
[PDF] FAA Blast Message, Arlington Airport Author: Tom Rogers, CFI-AI ...
Even more to the point the US averages 27 to 30 mid-air collisions each year. 62% percent of these are dual flights with a CFI onboard. The traffic patterns at ...
[8]
Avoiding Midair Collisions - AOPA
ASF data indicate that 45 percent of collisions occur in the traffic pattern, and of these, two-thirds occur during approach and landing when aircraft are on ...
[9]
Midair Collision - AOPA
An Air Safety Institute study of midair collisions revealed that 49 percent occurred in the traffic pattern or on approach to or departure from an airport.
[10]
GA envisioned a plane for everyone after World War II
Sep 28, 2020 · Aeronca promoted airports as part of its postwar plan to secure general aviation business. · Things were looking up, both figuratively and ...
[11]
History of AOPA
With the increased flying activity, communications became more important. AOPA pushed for additional radio frequencies for aviation. A plan to close many flight ...
[12]
[PDF] mode.' Allowing automated unicom operations should in Aviation ...
The unicom service was established in 1950 to provide for air-ground communications primarily between general aviation aircraft and airport facilities.
[13]
Aeronautical Information Manual (AIM) 4-1-9 (Non-Towered Airports)
Aug 26, 1995 · The acronym CTAF which stands for Common Traffic Advisory Frequency, is synonymous with this program. A CTAF is a frequency designated for the ...
[14]
Air Traffic By The Numbers | Federal Aviation Administration
Jul 30, 2025 · 527 airport traffic control towers 19,482 U.S. airports 5,146 public airports 14,336 private airports 21 air route traffic control centers ...
[15]
[PDF] Airspace-Related Occurrences Involving Regular Public Transport ...
MTAF and CTAF procedures were first introduced in Australia with the Airspace. Management and Air Traffic Services (AMATS) changes of 12 December 1991. The.
[16]
[PDF] Handbook on Radio Frequency Spectrum Requirements for Civil ...
Jun 16, 2021 · Each frequency band and its uses are described in detail, together with the approved ICAO policy statements for the civil aviation spectrum ...<|separator|>
[17]
[PDF] AIM 2024-2 — COM - Communications, Navigation and Surveillance
Oct 3, 2024 · The standard very high frequency (VHF) air-ground channel spacing in Canada is 25 kHz. ... At most of these outlets,. 126.7 MHz is not active or ...
[18]
New Common Air-to-Air Channels Established for European ...
May 17, 2024 · The newly allocated frequencies, 123.065 MHz and 123.135 MHz, will serve as the common air-to-air channels for pilots across Europe.
[19]
Real-World CTAF Implementation Expands to More Divisions
Aug 21, 2024 · VATSIM is excited to announce the extension of the real-world Common Traffic Advisory Frequency (CTAF) trial, originally set to conclude on August 31st, 2024.Missing: international simulations
[20]
[PDF] Advisory Circular - Federal Aviation Administration
Jun 6, 2023 · Where there is no tower, CTAF, or UNICOM station depicted for an airport on an aeronautical chart, use MULTICOM frequency 122.9 for. Page 7. 6/6 ...
[21]
[DOC] https://www.icao.int/filebrowser/download/5535?fid...
The frequency band 117.975 – 137 MHz VHF band is allocated by the ITU to the Aeronautical Mobile (Route) Service (AM(R)S) and is used for air-ground voice ...Missing: FAA | Show results with:FAA
[22]
[PDF] Radio procedures in non-controlled airspace - CASA
Consider the following: » When operating in the vicinity of an aerodrome published on aeronautical charts, use the CTAF (126.7MHz or the discrete frequency) as ...
[23]
[PDF] SPECTRUM MANAGEMENT REGULATIONS AND PROCEDURES ...
Nov 17, 2005 · force (overload) potential, the FAA cosite standard for frequency separation is 0.5 MHz for VHF (118-137 MHz) and 1.0 MHz for UHF (225-400 ...
[24]
Communication Channel Spacing | SKYbrary Aviation Safety
Two main spacing standards are 25 kHz and 8.33 kHz. 8.33 kHz spacing divides 25 kHz into three, increasing available frequencies.
[25]
Air Traffic Services Process Brief -- Changing Unicom Frequencies
A common complaint heard at many non-towered airports is the frequency congestion on Unicom or CTAF frequency during a typical VFR weekend day.
[26]
[PDF] Aeronautical Chart Users' Guide
Feb 20, 2025 · This guide covers chart updates, color variation, reporting discrepancies, VFR charts, IFR enroute charts, TPP, and VFR terms and symbols.
[27]
None
### Summary of CTAF Assignment Criteria, Charting, Updates, and Pilot Resources from AC 90-66C
[28]
[PDF] NOTAMs Back to Basics: pilots - Federal Aviation Administration
Jul 16, 2025 · COM CTAF 122.725. CHANGED TO. 123.075… The CTAF frequency. 122.725 is changed to. 123.075. NOTAM Examples …AIRSPACE AEROBATIC ACFT WI AN. AREA ...
[29]
[PDF] 150-5200-28G-NOTAMs-2022.pdf - Federal Aviation Administration
May 25, 2022 · Currently, the FAA web-based Digital. NOTAM Manager is the preferred system for initiating NOTAMs. ... frequency has changed to 122.8 with ...
[30]
ForeFlight - Integrated Flight App for Pilots
ForeFlight is an integrated flight app on iPad, iPhone, and the web. Flight planning, aviation weather, maps and charts.Plans & Pricing · ForeFlight Mobile · Support · Web to Panel Flight Planning
[31]
[PDF] AC 150/5220-16E, Automated Weather Observing Systems (AWOS ...
Mar 10, 2017 · This FAA advisory circular contains the standard for non-Federal AWOS, which is a computerized system that automatically measures weather. It ...
[32]
Ending Serious Close Calls | Federal Aviation Administration
Jul 10, 2025 · The FAA and the aviation community are pursuing a goal of zero serious close calls by examining a combination of technical and human factors.
[33]
FAA Data Reveals 1,100 Runway Near Misses in 2024 - Newsweek
Jul 15, 2024 · According to the FAA, in the 12 months ended May 31, the total number of runway incursions reached 1,115.<|separator|>
[34]
https://www.faa.gov/airports/runway_safety/statistics
[35]
[PDF] Preliminary airspace review of Ayers Rock - December 2018
... Radio” on CTAF 126.9 MHz. Pilots are advised of the CA/GRS operating hours via, Automatic Aerodrome Information. Service (AAIS) on 126.55MHz. An Aerodrome ...
[36]
Frequency Assignment - Airservices Australia
Airservices will assign new CTAF channels only at the request of CASA. HF - High Frequency is the radio frequency spectrum between 3 MHz and 30 MHz. ICAO – ...
[37]
Reducing the collision risk around non-towered airports - ATSB
These factors are among those which contribute to Australia having more than 330 certified aerodromes ... Twice as many near-collisions are reported to the ATSB ...
[38]
Uncontrolled Aerodromes - Communications - SKYbrary
In the UK it is currently 135.475MHz whilst in Canada, 123.2 is used. The frequency is normally used within 5-10 NM and/or up to 1000 ft above the traffic ...
[39]
Frequency Monitoring Codes - CAA Infringement Tutorial
Select the most relevant Frequency Monitoring Code (FMC), colloquially known as a Listening Squawk, of the appropriate ATSU to indicate that you are monitoring ...
[40]
[PDF] General Aviation Airfields Study - Final Report - GOV.UK
Source: York Aviation GA Airfields database. On average, there are around 30 aircraft based at Category 3 airfields in the database, with smaller light aircraft ...