CPL Flight Environment - AAA PDF

Summary

This document covers the flight environment, including sections on airports, airspace, and flight information; ATC services; and ATC clearances. It details runway markings, taxiway markings, airport signs, runway incursions, and more. It's part of a commercial pilot course.

Full Transcript

The Flight Environment
A COMMERCIAL PILOT COURS E
Contents
The Flight Environment
Section A – Airports, Airspace, and Flight Information
Section B – ATC Services
Section C – ATC Clearances
THE FLIGHT ENVIRONMENT
Section A - Airports, Airspace, and Flight Information
Runway Markings
Runway Markings
A visual runway usually is marked with only
the runway number and a dashed white
centerline, but threshold markings might
be included if the runway is used, or
intended to be used, for international
commercial operations.
Aiming point markings might be included
on runways 4000 feet or longer used by jet
aircraft.
Runway Markings
A nonprecision instrument runway is used
with an instrument approach that does not
have an electronic flight slope for
approaching flight path information.
Precision instrument runways are served by
nonvisual precision approach aids, such as
the instrument landing system (ILS).
Besides the threshold markings,
touchdown zone markings begin 500 feet
from the landing threshold and provide
distance information in 500-foot
increments.
Taxiway Markings
Taxiway Markings

Taxiways are easily identified
by a continuous yellow
centerline stripe.
Hold lines, which are located
wherever the taxiway
intersects a runway, keep
aircraft clear of the runway in
use.
You should stop before the
hold line and proceed only
after you are cleared to do so
by the controller, and you
have checked for traffic.
Taxiway Markings

At airports equipped with an
instrument landing system, it is
possible for aircraft near the
runway to interfere with the ILS
signal.
In this case, an ILS hold line may be
placed farther from the runway to
prevent any interference, or you
may find two hold lines for some
runways.
Runway Markings

On runways with a displaced threshold, the
beginning portion of the landing zone is
marked with a solid white line with white
arrows leading up to it.
Although the pavement leading up to a
displaced threshold may not be used for
landing, it may be available for taxiing, the
landing rollout, and takeoffs.
Runway Markings

Blast pad/stopway areas are marked by
yellow chevrons and are not to be used for
landing, takeoff, or taxiing.
The stopway area is paved so that, in the
event of an aborted takeoff, an aircraft can
use it to decelerate and come to a stop.
It is also an area where propeller or jet
blast can dissipate without creating a
hazard to others.
Runway Markings

On some runways with a displaced
threshold, a demarcation bar separates the
displaced threshold area from a blast pod,
stopway, or taxiway that precedes the
runway.
Runway Markings

A yellow X indicates that an entire runway
or taxiway is closed.
A Notice to Airmen (NOTAM) may be
issued to inform pilots of runway closures.
A closed taxiway might be marked by Xs,
or it might simply be blocked off.
Taxiway Markings
Airport Signs
Airport Signs
Runway Incursion Avoidance

A runway incursion is any occurrence
at an aerodrome involving the
incorrect presence of an aircraft,
vehicle or person on the protected
area of a surface designated for the
landing and takeoff of aircraft.
Runway Incursion Avoidance
Land and Hold Short Operations
During land and hold short operations
(LAHSO), an aircraft is cleared to land and
stop on the runway, holding short of an
intersecting runway, intersecting taxiway, or
some other designated point on the runway.
To conduct LAHSO, you should have at least
a private pilot certificate and you must
understand your responsibilities.
As pilot in command, you should decline the
LAHSO clearance if you consider it unsafe.
If you accept a LAHSO clearance you must
adhere to it, just like any other ATC
clearance.
Land and Hold Short Operations
Lighting Systems
Approach Light System

The approach light system (ALS) helps you transition
from instrument to visual references during the
approach to landing.
Approach light systems use a configuration of lights
starting at the landing threshold and extending into
the approach area.
Lighting Systems
Approach Light System

Sequenced flashing lights (SFL) and
runway alignment indicator lights (RAIL)
consists of a series of brilliant blue-
white bursts of flashing light.
From your viewpoint, these systems
give the impression of a ball of light
traveling at high speed toward the
approach end of the runway.
Lighting Systems
Approach Light System

Examples of systems with sequenced
flashing lights include ALSF (Approach
Lighting System with Sequenced Flashing
Lights), MALSF (Medium-intensity
Approach Lighting System with
Sequenced Flashing Lights, and ODALS
(Omnidirectional Approach Lighting
System).
Lighting Systems
Runway end identifier lights (REIL) are
two synchronized flashing strobe lights
that are placed at the runway
threshold, one on each side of the
runway.
REILs appear with the green threshold
lights to help you see the runway
threshold in reduced visibility or
identify the threshold of a runway that
is surrounded by a preponderance of
other lighting or one that lacks
contrast with surrounding terrain.
Visual Glideslope Indicators

Visual glideslope indicators are light
systems which indicate your position in
relation to the desired glide path to the
runway.
One of the most frequently used
installations is the Visual Approach Slope
Indicator (VASI).
Visual Glideslope Indicators

If you are landing at a
controlled airport served
by a VASI, regulations
require that you maintain an
altitude at or above the
glide slope until a lower
altitude is necessary for a
safe landing
Visual Glideslope Indicators

Some airports may have a Pulsating Visual
Approach Slope Indicator (PVASI) which
projects a two-color visual approach path
into the final approach area.
A Tri-color VASI uses a single light unit to
project a three-color visual path.
Visual Glideslope Indicators
Visual Glideslope Indicators

The Precision Approach Path Indicator
(PAPI) has 2 or four lights installed in a
single row instead of far and near bars.
Visual Glideslope Indicators
Runway Lighting

Runway edge lights can be
classified according to their
brightness.
◦ High intensity runway lights (HIRLs)
are the brightest runway lights
available.
◦ Medium intensity runway lights
(MIRLs) and
◦ Low intensity runway lights (LIRLs)
are, as their names indicate, dimmer
in intensity.
Runway Lighting

Runway edge lights are white,
except on instrument runways,
where amber replaces white on
the last 2000 feet or half the
runway length, whichever is less,
to indicate a caution zone.
Runway Lighting

Bidirectional threshold lights mark
the ends of each runway. As you
approach for landing, the lights
appear green, indicating the
beginning of the landing portion of
the runway.
As viewed during takeoff in the
opposite direction, the threshold
lights appear red, marking the
departure end of the runway.
Displaced threshold lights also
appear green during approach to a
landing, do not land short of these
lights.
Runway Lighting

The absence of runway edge lights
prior to the green threshold lights
is another cue that no operations
are authorized short of the
displaced threshold.
However, if taxi, takeoff, and
rollout are permitted, runway edge
lights will mark the area short of
the displaced threshold.
Runway Lighting
Touchdown zone lighting (TDZL) helps you
identify the touchdown zone when
visibility is reduced.
It consists of a series of white lights flush-
mounted in the runway.
They begin approximately 100 feet from
the landing threshold and extend 3000
feet down the runway or to the midpoint
of the runway, whichever is less.
Runway Lighting

Runway centerline lights (RCLS) are
flush mounted in the runway to
help you maintain the centerline
during takeoff and landing.
As you approach the runway, the
centerline lights first appear white.
They change to alternating red and
white lights when you have 3000
feet of remaining runway, then
they show all red for the last 1000
feet of runway.
Runway Lighting

Taxiway lead of lights generally are
flush mounted alternating green
and yellow lights spaced at 50 foot
intervals.
They define the curved path of an
aircraft from a point near the
runway center line to the center of
the intersecting taxiway.
Runway Lighting
When installed, taxiway centerline
lights are green and taxiway edge
lights are blue.
Pilot-controlled Lighting
Pilot controlled lighting is the term used to
describe systems that you can activate by
keying the aircraft’s microphone, or mike,
on a specified frequency.
To operate pilot-controlled lighting, key
your mike seven times on the specified
frequency to turn all the lights on for
fifteen minutes at maximum intensity. Key
the mike five times for medium-intensity
lighting and three times for the lowest
intensity.
You must key the mike the required
number of times within a period of five
seconds
Airport Beacon

At night, airport beacons are used to guide
pilots to lighted airports.
These airport beacons are most effective
from one to ten degrees above the
horizon; however, you normally can see
them at altitudes well above the ten
degree angle.
Airport Beacon
The beacon is usually not operating
during the day unless the ceiling is
less than 1,000 feet and/or the
ground visibility is less than 3
statute miles, the normal VFR
minimums.
Obstruction Lighting

Obstruction lights are installed on
prominent structures such as towers,
buildings and sometimes power lines.
Flashing red lights or high intensity strobe
lights warn you of the obstructions.
Aircraft Lighting

The approved aircraft position
lights for night operations are a
green light on the right wingtip,
a red light on the left wingtip,
and a white light on the tail.
In addition, flashing aviation red
or white anticollision lights are
required for night flight.
Aircraft Lighting

If you see a red position light to
the right of a green light, the
aircraft is flying toward you.
A steady red and flashing red
light indicate the aircraft is
crossing to your left and a
steady white light combined
with a flashing red light identify
an aircraft flying away from you.
Airspace Classifications

Airspace designation in Republic of the
Philippines:
◦ Class A Altitude
◦ Class B Big
◦ Class C Crowded
◦ Class D Dialogue
◦ Class E Elsewhere
◦ Class G Go for it (uncontrolled)
 ATC does not exercise control of
traffic and you are not required
to communicate with them when
operating in Class G airspace.
 Federal Airways, or Victor Airways,
are based on VOR or VORTAC navaids
and are identified by a V and the
airway number.
 In Class E airspace, you cannot fly
when the weather is below VFR
minimums unless you are
instrument rated, have filed an
IFR flight plan, and have received
a clearance from ATC.
 Airspace at an airport with a part-
time control tower is classified as
Class D airspace only when the
associated tower is in operation.

When departing a nontowered
satellite airport in Class D
airspace, contact the controlling
tower as soon as practicable after
takeoff.
 Prior to entering Class C airspace,
you must establish two-way
communication with the ATC and
maintain it while you are
operating within the airspace.

All aircraft operating in a Class C
area must be equipped with a
transponder with Mode C.
 A transponder is required within
30 NM of the Class B’s primary
airport from the surface to
10,000 ft MSL.

Prior to entering Class B
airspace, you are required to
obtain a clearance from ATC.
 A VFR corridor is airspace with
specific vertical and lateral
boundaries which allows you
through fly through Class B
airspace without clearance
from, or communication with
ATC.
 A To operate within Class A
airspace, you must be instrument
rated and your aircraft must be
transponder equipped, operate on
an IFR plan, and be under positive
ATC control.

Within Class A airspace, you are
required to set your altimeter to
the standard setting of 29.92
inches Hg so that all pilots maintain
their assigned altitudes using the
same altimeter reference.
Airspace Features Class A Class B Class C Class D Class E Class G
VFR Min. Vis. and Distance N/A N/A N/A N/A N/A Day 1 s.m. Clear of Clouds
from Clouds 1,200 AGL or
less. (regardless of MSL Night 3 s.m.
Altitude 500 ft Below
1,000 ft Above
2,000 ft Horizontal
VFR Minimum Visibility N/A 3 Statute Miles 3 Statute Miles 3 Statute Miles Below 10,000 ft MSL – Below 10,000 ft MSL –
3 s.m. Day 1 s.m.
Night 3 s.m.
At or Above 10,000 ft MSL –
5 s.m. At or Above 10,000 ft MSL –
5 s.m. (above 1,200 ft. AGL)
VFR Minimum N/A Clear of Clouds 500 ft Below 500 ft Below Below 10,000 ft MSL – Below 10,000 ft MSL –
Distance from Clouds 1,000 ft Above 1,000 ft Above 500 ft Below 500 ft Below
2,000 ft Horizontal 2,000 ft Horizontal 1,000 ft Above 1,000 ft Above
2,000 ft Horizontal 2,000 ft Horizontal
(above 1,200 ft AGL)
At or Above 10,000 ft MSL – At or Above 10,000 ft MSL –
1,000 ft Below 1,000 ft Below
1,000 ft Above 1,000 ft Above
1 s.m. Horizontal 1 s.m. Horizontal
(above 1,200 ft AGL)
Minimum Pilot Instrument Rating Private Pilot Certificate Student Pilot Certificate Student Pilot Certificate Student Pilot Certificate Student Pilot Certificate
Qualifications
Student Pilot Certificate
Endorsement
VFR Entry and Equipment IFR Flight Plan and IFR ATC Clearance Establish Radio Establish Radio None None
Requirements Clearance Required Communication Communication
Transponder with
Mode C Transponder with
Mode C
ATC Services All Aircraft Separation All Aircraft Separation IFR/IFR Separation IFR/IFR Separation IFR/IFR Separation VFR Traffic Advisories on
Request
IFR/VFR Separation VFR Traffic Advisories VFR Traffic Advisories on (Workload Permitting)
(Workload Permitting) Request
VFR Traffic Advisories (Workload Permitting)
(Workload Permitting)
Special VFR
a) If weather is below VFR minimums and
there is no conflicting traffic, you may
obtain a special VFR clearance from the
ATC facility having jurisdiction over the
affected airspace.
b) A special VFR clearance allows you to
enter, leave, or operate within the
surface areas of class B, C, D, or E
airspace if the visibility is at least 1
statute mile and you can remain clear of
clouds.
c) Special VFR is not permitted between
sunset and sunrise unless you have an
instrument rating and the aircraft is
equipped for instrument flight.
Airspeed Limitations

Flights below 10,000 feet MSL
◦ Maximum indicated speed of 250
knots.

In Class C or D airpace, at or below
2,500 feet above the surface and
within 4 NM of the primary airport.
◦ Must not exceed 200 KIAS

In class B airspace and in VFR
corridors through class B airspace.
◦ Must not exceed 200 KIAS
Special Use Airspace

Special use airspace is used to
confine certain flight activities and
to place limitations on aircraft
operations which are not part of
these activities.
Special Use Airspace
Alert Areas

Areas shown on aeronautical
charts to inform you of unusual
types of aerial activities, such as
parachute jumping, glider towing,
or high concentration of student
pilot training are designated as
alert areas.
Responsibility for collision
avoidance in an alert area rests
with all pilots.
Special Use Airspace
Military Operations Areas

A military operations area
(MOA) is a block of airspace in
which military training and
other military maneuvers are
conducted.
VFR aircraft are not prevented
from flying through active
MOA’s, but it is wise to avoid
them when possible.
Special Use Airspace
Warning Areas

A warning area is airspace of
defined dimensions, extending
from three nautical miles outward
from the coast that contains
activity which may be hazardous to
nonparticipating aircraft.
Warning areas often contain
hazards such as aerial gunnery or
guided missiles.
Special Use Airspace
Restricted Areas

Restricted areas often have
invisible hazards to aircraft,
such as artillery firing, aerial
gunnery, or guided missiles.
Permission to fly through
restricted areas must be
granted by the controlling
agency.
Special Use Airspace
Prohibited Areas

Prohibited areas are established
for security or other reasons
associated with national welfare
and contain airspace within
which the flight of aircraft is
prohibited.
You must obtain permission
from the controlling agency to
operate within a prohibited area.
Special Use Airspace
Controlled Firing Areas

The distinguishing feature of a
controlled firing area, compared to other
special use airspace, is that its activities
are discontinued immediately when a
spotter aircraft, radar, or ground
lookout personnel determines an
aircraft might be approaching the area.
Other Airspace Areas
National Security Areas

National security areas (NSAs) are
established at locations where there is a
requirement for increased security and
safety of ground facilities.
At times, flight through an NSA may be
prohibited to provide a greater level of
security and safety.
Other Airspace Areas
Military Training Routes

Low-level, high speed military
training flights are conducted on
military training routes (MTRs).
Military aircraft are normally
operating speeds in excess of 250
knots along MTRs.
Routes at and below 1,500 feet
AGL are designed to be flown
under VFR.
Routes above 1,500 feet AGL are
developed primarily to be flown
under IFR.
Other Airspace Areas
Temporary Flight Restrictions

When necessary, temporary
flight restrictions are imposed
to protect persons or property
on the surface or in the air
from a specific hazard or
situation.
The objectives are to provide a
safe environment for
rescue/relief operations and to
prevent unsafe congestion of
sightseeing or other aircraft
above an incident or event
which may generate high
public interest.
Flight Information
Aeronautical Charts

Sectional charts are your primary
VFR navigation references and
depict topographic information,
visual landmarks and airport data.
Instrument charts are produced in
electronic and printed formats by
Jeppesen and the FAA.
Chart Supplements
Chart supplements include data that
cannot be readily depicted in graphic form
on charts.
This data applies to public and joint use
airports, seaplane bases, and heliports, as
well as navaids and airspace.
Chart Supplements
Each chart supplement contains 5 primary
sections:
The Airport/Facility Directory Legend
The Airport/Facility Directory
Notices
Associated Data
Airport Diagrams
Airport/Facility Directory

The Airport/Facility Directory (A/FD) contains a
descriptive listing of all airports, heliports, and
seaplane bases which are open to the public.
Airport listings in the Airport/Facility Directory
include the airport location, availability of radar
services, as well as communication and
navigation frequencies.
In addition to basic runway data, such as the
length, width, and composition, the A/FD lists
the types of runway lighting available, including
the type of visual glide slope indicator, if the
runway has one.
Airport/Facility Directory
Notices, Associated Data, and
Airport Diagrams
Notices to Airmen

National Notices to Airmen System provides you
with time-critical flight planning information
regarding a facility, service, procedure, or hazard
that is temporary or not known far enough in
advance to be included in the most recent
aeronautical charts or Chart Supplements.
Notices to Airmen

NOTAM(D) (distant NOTAM) information is
disseminated for all navigational facilities which are
part of the National Airspace System, all public use
airports, seaplane bases, and heliports listed in the
AF/D.
NOTAM(L) (local NOTAMs) are distributed locally
and contain information, such as taxiway closures,
personnel and equipment near or crossing runways,
and airport rotating beacon and lighting aid outages.
FDC NOTAMs contain regulatory information such
as temporary flight restrictions or amendments to
instrument approach procedures and other current
aeronautical charts.
Federal Aviation
Regulations

The code of Federal Regulations
(CFR) contains the official text of
public regulations issued by the
agencies of the Federal government.
The FARs are broken down into
numbered parts and then sections
which refer to a specific regulation.
Aeronautical Information Manual

Your official guide to basic flight
information and ATC procedures is the
Aeronautical Information Manual (AIM).
The AIM contains fundamental information
for both VFR and IFR flight operations
within the National Airspace Syatem.
Advisory Circulars

Advisory Circulars (ACs) are a
systematic means of providing pilots
with nonregulatory guidance and
information in a variety of subject
areas.
ACs also explain methods for
complying with FARs.
THE FLIGHT ENVIRONMENT
Section B – ATC Services
ADS-B System
The automatic dependent surveillance
broadcast system (ADS-B)
incorporates GPS, aircraft transmitters
and receivers, and ground stations to
provide pilots and ATC with specific
data about the position and speed of
aircraft.
In order to receive the signal and
display traffic information in your
aircraft, you must also have ADS-B In
capability.
ADS-B Services
The ADS-B system provides precise
real time data that immediately
indicates to controllers when an aircraft
deviates from its assigned flight path.
Aircraft equipped with ADS-B In
receive traffic data from other ADS-B
aircraft on a cockpit display of traffic
information (CDTI), which can be a
dedicated display or integrated into an
existing display, such as a GPS moving
map or multi-function display (MFD).
ADS-B Services
The ADS-B system displays aircraft with
transponders that are not ADS-B equipped
using the traffic information service-
broadcast (TIS-B).
ADS-B Services
ATC and pilots also can use ADS-B to
monitor aircraft surface movement.
ADS-B Services
In addition to traffic data, ADS-B can
provide the flight information service-
broadcast (FIS-B) to suitably-equipped
aircraft.
FIS-B Delivers a broad range of textual and
graphical weather products, as well as
other flight information, such as the
location of temporary flight restrictions
(TFRs) and special use airspace (SUA)
status.
Air Route Traffic Control Center
The facilities that provide air traffic control
service to aircraft operating on IFR flight
plans in controlled airspace are the air route
traffic control centers (ARTCCs).
They are also the central authority for
issuing IFR clearances, and they provide
nationwide monitoring of each IFR flight,
primarily during the enroute phase.
Air Route Traffic Control Center
The long-range radar equipment used in controlled
airspace to manage traffic is the air route surveillance
radar (ARSR) system.
ARSR Facilities relay traffic information to radar
controllers at ARTCCs to direct and coordinate IFR
traffic.
The controller has various techniques to ensure
adequate separation. Some of the most common
include route changes, radar vectoring, altitude
crossing restrictions for navaids and intersections,
altitude changes, and speed adjustments.
Air Route Traffic Control Center
Pilot Responsibilities

Regulations state that you may not act as pilot in
command of a flight conducted under IFR unless you
hold an instrument rating and meet the recency of
experience requirements for instrument flight as
specified under FAR Part 61.
In addition, your aircraft must meet the equipment and
inspection requirements of FAR Part 91.
If weather conditions are below VFR minimums, you
must file an IFR flight plan and obtain an IFR clearance
before departing from within, or prior to entering
controlled airspace.
Additional ARTCC Services
Separation From VFR Traffic

ATC‘s first priority is the separation of all IFR
aircraft from one another. However, if workload
permits, the controller might advise you of VFR
aircraft that could affect your flight.
FARs Require every pilot to see and avoid other
aircraft whenever possible even when they are
operated under positive radar control, as in
Class B airspace.
Additional ARTCC Services
Weather Avoidance

Approach controllers use ASR and can advise pilots of
four levels of precipitation intensity: light, moderate,
heavy and extreme.
Center controllers use WARP and can advise pilots of
three levels of precipitation intensity: moderate,
heavy, and extreme.
To ensure that ATC disseminates timely weather
information, each center has a meteorologist who
monitors the weather within the center's airspace and
advises pilots of hazardous weather affecting their
route of flight.
Additional ARTCC Services
Safety Alerts

A center controller will issue a safety alert when it
becomes apparent that your flight is in unsafe
proximity to terrain, obstructions, or other aircraft.
The second type of safety alert is called an aircraft
conflict alert. This service is provided when the
controller determines that the minimum separation
between an aircraft being controlled and another
aircraft could be compromised.
Additional ARTCC Services
Emergency Assistance

One advantage of IFR flight is the continual radio
contact with ATC. In addition, your flight is
continuously in radar contact.
If a problem arises, ATC is immediately available to
render a wide variety of services including:
Clearing conflicting traffic or giving priority to aircraft in
emergency situations.
Providing radar vectors and, if required, a reader
approach to the nearest suitable airport.
Alerting search and rescue (SAR) agencies in the area.
Terminal Facilities
Terminal Radar Approach Control

Approach and departure control services are
operated by Terminal radar approach control
(TRACON) facilities.
TRACON Controllers coordinate very closely
with the ARTCC to integrate arrival traffic from
the enroute state to the terminal area, and
transition departure traffic to the enroute phase.
Terminal Facilities
Control Tower

Control towers are responsible for the safe, orderly, an
expeditious flow of all traffic that is landing, taking off,
operating on and in the vicinity of an airport, and when
the responsibility has been delegated, towers can also
provide further separation of IFR traffic in terminal
areas.
When arriving IFR at a controlled airport, you are
sequenced by approach control for spacing and then
advised to contact the tower for landing clearance.
Terminal Facilities
Control Tower

When a control tower is operational, you are required
to obtain a clearance prior to operating in a movement
area. this clearance can be from ground control or the
tower operator.
Aircraft that are departing IFR are integrated into the
departure sequence by the tower. After takeoff, you
are required to remain on the tower frequency until you
are instructed to contact departure control.
Terminal Facilities
ATIS

Automatic Terminal Information Service
(ATIS) is the continuous broadcast of
non control airport information at
selected high activity terminal areas.
ATIS is used to improve controller
effectiveness and reduce frequency
congestion at busy airports.
ATIS It's updated whenever any official
weather is received, regardless of
content change.
Terminal Facilities
Clearance Delivery

Clearance delivery enables you to receive
an IFR clearance prior to contacting ground
control for taxi.
You can also use clearance delivery to
receive a departure control frequency and
transponder code when departing an
airport with a radar departure control.
ATC Services for VFR Aircraft

Traffic Advisories “RPC-1735, traffic at 12 o’clock, 4 miles eastbound, Cessna 172
at 5,000.”
Safety Alerts “RPC-1735, low altitude alert, climb to 8,000 immediately.”
Vectors RPC-1735, turn left heading 270, advise airport in sight.”
Sequencing RPC-1735, follow the Cessna turning final, do you have the
traffic in sight?”
Separation RPC-1735, cleared to enter Class B airspace, maintain 5,500.”
Interpreting Traffic Advisories
When giving traffic advisories and
safety alerts, ATC references traffic
from your airplane as if it were a clock
with 12 o'clock at the nose.
Keep in mind that wind correction
angles do not show up on the ATC
display.
THE FLIGHT ENVIRONMENT
Section C – ATC Clearances
ATC Clearances
Pilot Responsibilities

When ATC issues a clearance, regulations specify that
you are not to deviate from it, except in an emergency,
unless an amended clearance is received or unless
complying with that clearance will cause you to violate a
rule or regulation.
If, in your opinion, a clearance is unsafe or not
appropriate, it is your responsibility to promptly request
an amended clearance.
If you find it necessary to deviate from your clearance
due to an emergency, or compliance with the clearance
would place your airplane in jeopardy, you must notify
ATC as soon as possible.
Pilot Responsibilities
See and Avoid
Pilot Responsibilities
IFR Climb and Descent Considerations

ATC expects you to maintain a continuous rate of climb of
at least 500 ft/min to your assigned cruising altitude.
Unless ATC advises “At pilot’s discretion,” you are expected
to climb or descend at an optimum rate consistent with your
airplane's performance to within 1000 feet of your assigned
altitude. Then attempt to climb or descend at a rate of
between 500 and 1,500 ft/min until you reach the assigned
altitude.
If, at any time, you are unable to climb or descend the rate
of at least 500 ft/min, advise ATC.
IFR Flight Plan and
ATC Clearance

You are required to file an IFR flight plan and obtain an
ATC clearance prior to flying in controlled airspace under
IFR, when the weather is below VFR minimums, and in
Class A airspace regardless of the weather.
You may cancel an IFR flight plan anytime you are
operating under VFR conditions outside of Class A
airspace. However, after you cancel IFR, you must
conduct the flight strictly in VFR conditions from that
point on.
If you encounter IFR weather again, you must remain in
VFR conditions while you find a new flight plan and obtain
an IFR clearance.
Elements of an IFR Clearance
Elements of an IFR Clearance
Clearance Limit

The clearance issued prior to departure normally
authorizes you to fly to your airport of intended landing.
However, because of delays at your destination, you
might be cleared to a fixed short of your destination.
If this happens, you will be given an expect further
clearance (EFC) time.
At some locations, you might be given a short-range
clearance, whereby a clearance is issued to affix within or
just outside of the departure terminal area.
Elements of an IFR Clearance
Departure Procedure

ATC can issue specific headings for you to fly and altitude
restrictions to separate your airplane from other traffic in
the terminal area.
Standard instrument departure procedures (SIDs) end
standard terminal arrival routes (STARs) are essentially
charted procedures that help simplify the issuance of a
clearance.
If you do not possess SID and STAR charts, or do not wish
to use these procedures, include the phrase “No SID No
STAR” in the remarks sections of your IFR flight plan.
Elements of an IFR Clearance
Route of Flight

Clearances are normally issued for altitude or flight level
and route filed by the pilot. However, due to traffic
conditions, it is sometimes necessary for ATC to specify
an altitude/flight level or route different from that
requested.
In addition, flow patterns have been established in certain
congested areas, or between congested areas, whereby
capacity is increased by routing all traffic on preferred
routes.
Elements of an IFR Clearance
Altitude Data

The altitude or flight level instructions in an ATC
clearance normally require that you “maintain” the altitude
or flight level at which the flight will operate when in
controlled airspace.
When possible, if the altitude assigned is different from
the altitude requested, ATC will inform you when to
expect a climb or descent clearance or when to request
an altitude change from another facility.
Elements of an IFR Clearance
Altitude Data

ATC may issue a cruise clearance in situations
where the road segment is relatively short and
traffic congestion is not a consideration.
The significance of a cruise clearance is that
you may operate at any altitude, from the
minimum IFR altitude up to and including, but
not above, the altitude specified in the
clearance.
Another important aspect of a cruise clearance
is that it also authorizes you to proceed and to
perform an approach at the destination airport.
Elements of an IFR Clearance
Holding Instructions

If you have been cleared to a fix other than the
destination airport and a delay is expected, it is
the responsibility of ATC to issue complete
holding instructions, unless the pattern is
charted on the enroute chart or approach
procedure.
In addition, the controller should issue an EFC
time, and a best estimate of any additional
enroute or terminal delay.
If the holding pattern is charted and the
controller does not issue complete holding
instructions, you are expected to hold as
depicted on the appropriate chart
Abbreviated IFR Departure
Clearance

In order to decrease radio congestion and controller
workload, ATC issues an abbreviated IFR departure
clearance whenever possible.
This type of clearance uses the phrase “cleared as filed”
to indicate you have been cleared to fly the route as
contained in your IFR flight plan.
If you have filed a SID in your flight plan or an SID is in
use at the departure airport, the SID or SID transition
to be flown is included in the abbreviated clearance.
Although SIDs are included in the abbreviated
clearance, STARs are considered part of the routing
and normally are not stated in the body of the
clearance.
Departure Restrictions
A release time specifies the earliest time you may depart.
When ATC issues a hold for release, you may not depart
until you receive a release time or you are given
additional instructions.
If you are operating at an airport not served by an
operating control tower, ATC might find it necessary to
issue a clearance void time in conjunction with your IFR
departure clearance.
The wording, “clearance void if not off by…” indicates that
ATC expects you to be airborne by a certain time.
VFR on Top
A VFR-on-top clearance allows you to fly in VFR
conditions and at appropriate VFR cruising
altitudes of your choice.
ATC cannot initiate a VFR-on-top clearance.
After ATC approves your request, you must
maintain VFR conditions at all times.
Altitude selection must comply with the VFR
cruising altitude rules, which are based on the
magnetic course of the aircraft.
VFR on Top
This type of clearance allows you to change altitude in
VFR conditions after advising ATC of the intended
altitude changes.
An ATC authorization to maintain VFR on top does not
literally restrict you to on-top operations. You may
operate VFR on an IFR flight plan when you are above,
below, or between layers, or in the clear.
If at anytime VFR conditions cannot be maintained, you
must inform ATC and receive a new clearance before
you enter IFR conditions.
Climb to VFR on Top
Climb to VFR on top is a type of clearance that allows you to climb through a cloud, haze,
or smoke layer and then either cancel your IFR flight plan or operate VFR-on-top.
The ATC authorization will contain a top report (or a statement that no top report is
available) and a request to report upon reaching VFR-on-top.
Additionally, the ATC authorization might contain a clearance limit, routing, and an
alternative clearance if VFR-on-top is not reached by a specific altitude.
Approach Clearances
If only one approach procedure exists or if you are
authorized by ATC to perform the approach
procedure of your choice, you are issued a clearance,
such as “…cleared for approach.”
If more than one approach procedure is available at
the destination airport or if ATC restricts you to a
specific approach, the controller specifies, “…cleared
for ILS Runway 35 Right approach.”
Approach Clearances
When you plan to land on a runway that is not aligned with
the approach you are flying, the controller can issue a
circling approach clearance. In this case, the controller will
specify, “…cleared 4 RNAV (GPS) Runway 17 approach, circle
to land runway 23.”
When you request a contact approach, you may use this
procedure instead of the published procedure to expedite
your arrival, as long as the airport has a standard or special
instrument approach procedure, the reported ground
visibility is at least one statute mile, and you are able to
remain clear of clouds with at least one mile flight visibility
throughout the approach.
A contact approach cannot be initiated by ATC.
Approach Clearances
When operationally beneficial, ATC can authorize you to
conduct a visual approach to the airport in you of the
published approach procedure.
A visual approach can be initiated by you or the controller.
Before issuing a visual approach clearance, the controller
must verify that you have the airport, or a preceding
aircraft that you are to follow, in sight.
A visual approach clearance is authorized when the ceiling
is reported or expected to be at least 1000 feet AGL and
the visibility is at least three statute miles. You must remain
clear of the clouds at all times while conducting a visual
approach.
VFR Restrictions to an
IFR Clearance

During the issuance of an ATC clearance, the controller
might direct you to “maintain VFR conditions.” However, this
restriction is only issued when you request it.
In the case of a VFR departure, for example, you might
request a VFR climb, which would allow you to avoid the
departure procedure and climb on course.
When operating on an IFR flight plan with a VFR
restriction, you must remain in VFR conditions and
maintain your own traffic separation during the VFR
portion of your clearance.
A composite flight plan is a request to operate IFR on one
portion of a flight and VFR for another portion.
Clearance Readback
As the pilot in command, you should read back the
clearance given by the controller if you feel the
need for confirmation.
Additionally, controllers can request that you read
back a clearance when the complexity of the
clearance or any other factors indicate a need.
Clearance Shorthand
Clearance Shorthand
Proficiency in copying
clearances is the result of
practice and knowing
clearance terminology.
THE END