|
5-2-1.
Pre-taxi Clearance Procedures
a. Certain
airports have established pre-taxi clearance programs
whereby pilots of departing instrument flight rules (IFR)
aircraft may elect to receive their IFR clearances before
they start taxiing for takeoff. The following provisions are
included in such procedures:
1. Pilot
participation is not mandatory.
2.
Participating pilots call clearance delivery or ground
control not more than 10 minutes before proposed taxi time.
3. IFR
clearance (or delay information, if clearance cannot be
obtained) is issued at the time of this initial call-up.
4. When the
IFR clearance is received on clearance delivery frequency,
pilots call ground control when ready to taxi.
5. Normally,
pilots need not inform ground control that they have
received IFR clearance on clearance delivery frequency.
Certain locations may, however, require that the pilot
inform ground control of a portion of the routing or that
the IFR clearance has been received.
6. If a pilot
cannot establish contact on clearance delivery frequency or
has not received an IFR clearance before ready to taxi, the
pilot should contact ground control and inform the
controller accordingly.
b. Locations
where these procedures are in effect are indicated in the
Airport/Facility Directory.
5-2-2.
Pre-departure Clearance Procedures
a. Many
airports in the National Airspace System are equipped with
the Tower Data Link System (TDLS) that includes the
Pre-departure Clearance (PDC) function. The PDC function
automates the Clearance Delivery operations in the ATCT for
participating users. The PDC function displays IFR
clearances from the ARTCC to the ATCT. The Clearance
Delivery controller in the ATCT can append local departure
information and transmit the clearance via data link to
participating airline/service provider computers. The
airline/service provider will then deliver the clearance via
the Aircraft Communications Addressing and Reporting System
(ACARS) or a similar data link system or, for nondata link
equipped aircraft, via a printer located at the departure
gate. PDC reduces frequency congestion, controller workload
and is intended to mitigate delivery/readback errors. Also,
information from participating users indicates a reduction
in pilot workload.
b. PDC is
available only to participating aircraft that have
subscribed to the service through an approved service
provider.
c. Due to
technical reasons, the following limitations currently exist
in the PDC program:
1. Aircraft
filing multiple flight plans are limited to one PDC
clearance per departure airport within a 24-hour period.
Additional clearances will be delivered verbally.
2. If the
clearance is revised or modified prior to delivery, it will
be rejected from PDC and the clearance will need to be
delivered verbally.
d. No
acknowledgment of receipt or readback is required for a PDC.
e. In all
situations, the pilot is encouraged to contact clearance
delivery if a question or concern exists regarding an
automated clearance.
5-2-3.
Taxi Clearance
Pilots on IFR flight
plans should communicate with the control tower on the
appropriate ground control or clearance delivery frequency,
prior to starting engines, to receive engine start time,
taxi and/or clearance information.
5-2-4.
Taxi into Position and Hold (TIPH)
a. Taxi into
position and hold is an air traffic control (ATC) procedure
designed to position an aircraft onto the runway for an
imminent departure. The ATC instruction "POSITION AND HOLD"
is used to instruct a pilot to taxi onto the departure
runway in takeoff position and hold.
EXAMPLE-
Tower: "N234AR Runway 24L, position and hold."
b. This ATC
instruction is not an authorization to takeoff. In instances
where the pilot has been instructed to "position and hold"
and has been advised of a reason/condition (wake turbulence,
traffic on an intersecting runway, etc.) or the
reason/condition is clearly visible (another aircraft that
has landed on or is taking off on the same runway), and the
reason/condition is satisfied, the pilot should expect an
imminent takeoff clearance, unless advised of a delay. If
you are uncertain about any ATC instruction or clearance,
contact ATC immediately.
c.
If a takeoff clearance is not received within a
reasonable amount of time after clearance to position and
hold, ATC should be contacted.
EXAMPLE-
Aircraft: Cessna 234AR holding in position Runway 24L.
Aircraft: Cessna 234AR holding in position Runway 24L at
Bravo.
NOTE-
FAA analysis of accidents and incidents involving aircraft
holding in position indicate that two minutes or more
elapsed between the time the instruction was issued to
"position and hold" and the resulting event (e.g., landover
or go-around). Pilots should consider the length of time
that they have been holding in position whenever they HAVE
NOT been advised of any expected delay to determine when it
is appropriate to query the controller.
REFERENCE-
Advisory Circulars 91-73A, Part 91 and Part 135 Single-Pilot
Procedures during Taxi Operations, and 120-74A, Parts 91,
121, 125, and 135 Flightcrew Procedures during Taxi
Operations
d. Situational
awareness during position and hold operations is enhanced by
monitoring ATC instructions/clearances issued to other
aircraft. Pilots should listen carefully if another aircraft
is on frequency that has a similar call sign and pay close
attention to communications between ATC and other aircraft.
If you are uncertain of an ATC instruction or clearance,
query ATC immediately. Care should be taken to not
inadvertently execute a clearance/instruction for another
aircraft.
e. Pilots
should be especially vigilant when conducting "position and
hold" operations at night or during reduced visibility
conditions. They should scan the full length of the runway
and look for aircraft on final approach or landing roll out
when taxiing onto a runway. ATC should be contacted anytime
there is a concern about a potential conflict.
f. When two or
more runways are active, aircraft may be instructed to
"POSITION AND HOLD" on two or more runways. When multiple
runway operations are being conducted, it is important to
listen closely for your call sign and runway. Be alert for
similar sounding call signs and acknowledge all instructions
with your call sign. When you are holding in position and
are not sure if the takeoff clearance was for you, ask ATC
before you begin takeoff roll. ATC prefers that you confirm
a takeoff clearance rather than mistake another aircraft's
clearance for your own.
g. When ATC
issues intersection "position and hold" and takeoff
clearances, the intersection designator will be used. If ATC
omits the intersection designator, call ATC for
clarification.
EXAMPLE-
Aircraft: "Cherokee 234AR, Runway 24L at November 4,
position and hold."
h. If landing
traffic is a factor during position and hold operations, ATC
will inform the aircraft in position of the closest traffic
that has requested a full-stop, touch-and-go, stop-and-go,
or an unrestricted low approach to the same runway. Pilots
should take care to note the position of landing traffic.
ATC will also advise the landing traffic when an aircraft is
authorized to "position and hold" on the same runway.
EXAMPLE-
Tower: "Cessna 234AR, Runway 24L, position and hold. Traffic
a Boeing 737, six mile final."
Tower: "Delta 1011, continue, traffic a Cessna 210 position
and hold Runway 24L."
NOTE-
ATC will normally withhold landing clearance to arrival
aircraft when another aircraft is in position and holding on
the runway.
i. Never land
on a runway that is occupied by another aircraft, even if a
landing clearance was issued. Do not hesitate to ask the
controller about the traffic on the runway and be prepared
to execute a go-around.
NOTE-
Always clarify any misunderstanding or confusion concerning
ATC instructions or clearances. ATC should be advised
immediately if there is any uncertainty about the ability to
comply with any of their instructions.
5-2-5.
Abbreviated IFR Departure Clearance (Cleared. . .as Filed)
Procedures
a. ATC
facilities will issue an abbreviated IFR departure clearance
based on the ROUTE of flight filed in the IFR flight plan,
provided the filed route can be approved with little or no
revision. These abbreviated clearance procedures are based
on the following conditions:
1.
The aircraft is on the ground or it has departed visual
flight rules (VFR) and the pilot is requesting IFR clearance
while airborne.
2. That a
pilot will not accept an abbreviated clearance if the route
or destination of a flight plan filed with ATC has been
changed by the pilot or the company or the operations
officer before departure.
3. That it is
the responsibility of the company or operations office to
inform the pilot when they make a change to the filed flight
plan.
4. That it is
the responsibility of the pilot to inform ATC in the initial
call-up (for clearance) when the filed flight plan has been
either:
(a) Amended,
or
(b) Canceled
and replaced with a new filed flight plan.
NOTE-
The facility issuing a clearance may not have received the
revised route or the revised flight plan by the time a pilot
requests clearance.
b. Controllers
will issue a detailed clearance when they know that the
original filed flight plan has been changed or when the
pilot requests a full route clearance.
c. The
clearance as issued will include the destination airport
filed in the flight plan.
d. ATC
procedures now require the controller to state the DP name,
the current number and the DP transition name after the
phrase "Cleared to (destination) airport" and prior to the
phrase, "then as filed," for ALL departure clearances when
the DP or DP transition is to be flown. The procedures apply
whether or not the DP is filed in the flight plan.
e. STARs, when
filed in a flight plan, are considered a part of the filed
route of flight and will not normally be stated in an
initial departure clearance. If the ARTCC's jurisdictional
airspace includes both the departure airport and the fix
where a STAR or STAR transition begins, the STAR name, the
current number and the STAR transition name MAY be stated in
the initial clearance.
f. "Cleared to
(destination) airport as filed" does NOT include the en
route altitude filed in a flight plan. An en route altitude
will be stated in the clearance or the pilot will be advised
to expect an assigned or filed altitude within a given time
frame or at a certain point after departure. This may be
done verbally in the departure instructions or stated in the
DP.
g. In both
radar and nonradar environments, the controller will state
"Cleared to (destination) airport as filed" or:
1. If a DP or
DP transition is to be flown, specify the DP name, the
current DP number, the DP transition name, the assigned
altitude/flight level, and any additional instructions
(departure control frequency, beacon code assignment, etc.)
necessary to clear a departing aircraft via the DP or DP
transition and the route filed.
EXAMPLE-
National Seven Twenty cleared to Miami Airport
Intercontinental one departure, Lake Charles transition then
as filed, maintain Flight Level two seven zero.
2. When there
is no DP or when the pilot cannot accept a DP, the
controller will specify the assigned altitude or flight
level, and any additional instructions necessary to clear a
departing aircraft via an appropriate departure routing and
the route filed.
NOTE-
A detailed departure route description or a radar vector may
be used to achieve the desired departure routing.
3. If it is
necessary to make a minor revision to the filed route, the
controller will specify the assigned DP or DP transition (or
departure routing), the revision to the filed route, the
assigned altitude or flight level and any additional
instructions necessary to clear a departing aircraft.
EXAMPLE-
Jet Star One Four Two Four cleared to Atlanta Airport, South
Boston two departure then as filed except change route to
read South Boston Victor 20 Greensboro, maintain one seven
thousand.
4.
Additionally, in a nonradar environment, the controller
will specify one or more fixes, as necessary, to identify
the initial route of flight.
EXAMPLE-
Cessna Three One Six Zero Foxtrot cleared to Charlotte
Airport as filed via Brooke, maintain seven thousand.
h.
To ensure success of the program, pilots should:
1. Avoid
making changes to a filed flight plan just prior to
departure.
2. State the
following information in the initial call-up to the facility
when no change has been made to the filed flight plan:
Aircraft call sign, location, type operation (IFR) and the
name of the airport (or fix) to which you expect clearance.
EXAMPLE-
"Washington clearance delivery (or ground control if
appropriate) American Seventy Six at gate one, IFR Los Angeles."
3. If the
flight plan has been changed, state the change and request a
full route clearance.
EXAMPLE-
"Washington clearance delivery, American Seventy Six at gate
one. IFR San Francisco. My flight plan route has been
amended (or destination changed). Request full route
clearance."
4. Request
verification or clarification from ATC if ANY portion of the
clearance is not clearly understood.
5. When
requesting clearance for the IFR portion of a VFR/IFR
flight, request such clearance prior to the fix where IFR
operation is proposed to commence in sufficient time to
avoid delay. Use the following phraseology:
EXAMPLE-
"Los Angeles center, Apache Six One Papa, VFR estimating
Paso Robles VOR at three two, one thousand five hundred,
request IFR to Bakersfield."
5-2-6.
Departure Restrictions, Clearance Void Times, Hold for
Release, and Release Times
a. ATC may
assign departure restrictions, clearance void times, hold
for release, and release times, when necessary, to separate
departures from other traffic or to restrict or regulate the
departure flow.
1. Clearance Void
Times. A pilot may receive a clearance, when
operating from an airport without a control tower, which
contains a provision for the clearance to be void if not
airborne by a specific time. A pilot who does not depart
prior to the clearance void time must advise ATC as soon as
possible of their intentions. ATC will normally advise the
pilot of the time allotted to notify ATC that the aircraft
did not depart prior to the clearance void time. This time
cannot exceed 30 minutes. Failure of an aircraft to contact
ATC within 30 minutes after the clearance void time will
result in the aircraft being considered overdue and search
and rescue procedures initiated.
NOTE-
1. Other IFR traffic for the airport where the
clearance is issued is suspended until the aircraft has
contacted ATC or until 30 minutes after the clearance void
time or 30 minutes after the clearance release time if no
clearance void time is issued.
2. Pilots
who depart at or after their clearance void time are not
afforded IFR separation and may be in violation of 14 CFR
Section 91.173 which requires that pilots receive an
appropriate ATC clearance before operating IFR in controlled
airspace.
EXAMPLE-
Clearance void if not off by (clearance void time) and, if
required, if not off by (clearance void time) advise
(facility) not later than (time) of intentions.
2. Hold for
Release. ATC may issue "hold for release"
instructions in a clearance to delay an aircraft's departure
for traffic management reasons (i.e., weather, traffic
volume, etc.). When ATC states in the clearance, "hold for
release," the pilot may not depart utilizing that IFR
clearance until a release time or additional instructions
are issued by ATC. In addition, ATC will include departure
delay information in conjunction with "hold for release"
instructions. The ATC instruction, "hold for release,"
applies to the IFR clearance and does not prevent the pilot
from departing under VFR. However, prior to takeoff the
pilot should cancel the IFR flight plan and operate the
transponder on the appropriate VFR code. An IFR clearance
may not be available after departure.
EXAMPLE-
(Aircraft identification) cleared to (destination) airport
as filed, maintain (altitude), and, if required (additional
instructions or information), hold for release, expect (time
in hours and/or minutes) departure delay.
3. Release
Times. A "release time" is a departure
restriction issued to a pilot by ATC, specifying the
earliest time an aircraft may depart. ATC will use "release
times" in conjunction with traffic management procedures
and/or to separate a departing aircraft from other traffic.
EXAMPLE-
(Aircraft identification) released for departure at (time in
hours and/or minutes).
4.
Expect Departure Clearance Time (EDCT). The EDCT is the
runway release time assigned to an aircraft included in
traffic management programs. Aircraft are expected to depart
no earlier than 5 minutes before, and no later than 5
minutes after the EDCT.
b. If
practical, pilots departing uncontrolled airports should
obtain IFR clearances prior to becoming airborne when
two-way communications with the controlling ATC facility is
available.
5-2-7.
Departure Control
a. Departure
Control is an approach control function responsible for
ensuring separation between departures. So as to expedite
the handling of departures, Departure Control may suggest a
takeoff direction other than that which may normally have
been used under VFR handling. Many times it is preferred to
offer the pilot a runway that will require the fewest turns
after takeoff to place the pilot on course or selected
departure route as quickly as possible. At many locations
particular attention is paid to the use of preferential
runways for local noise abatement programs, and route
departures away from congested areas.
b. Departure
Control utilizing radar will normally clear aircraft out of
the terminal area using DPs via radio navigation aids. When
a departure is to be vectored immediately following takeoff,
the pilot will be advised prior to takeoff of the initial
heading to be flown but may not be advised of the purpose of
the heading. Pilots operating in a radar environment are
expected to associate departure headings with vectors to
their planned route or flight. When given a vector taking
the aircraft off a previously assigned nonradar route, the
pilot will be advised briefly what the vector is to achieve.
Thereafter, radar service will be provided until the
aircraft has been reestablished "on-course" using an
appropriate navigation aid and the pilot has been advised of
the aircraft's position or a handoff is made to another
radar controller with further surveillance capabilities.
c. Controllers
will inform pilots of the departure control frequencies and,
if appropriate, the transponder code before takeoff. Pilots
should not operate their transponder until ready to start
the takeoff roll, except at ASDE-X facilities where
transponders should be transmitting "on" with altitude
reporting continuously while operating on the airport
surface if so equipped. Pilots should not change to the
departure control frequency until requested. Controllers may
omit the departure control frequency if a DP has or will be
assigned and the departure control frequency is published on
the DP.
5-2-8.
Instrument Departure Procedures (DP) - Obstacle Departure
Procedures (ODP) and Standard Instrument Departures (SID)
Instrument departure
procedures are preplanned instrument flight rule (IFR)
procedures which provide obstruction clearance from the
terminal area to the appropriate en route structure. There
are two types of DPs, Obstacle Departure Procedures
(ODPs), printed either textually or graphically, and
Standard Instrument Departures (SIDs), always printed
graphically. All DPs, either textual or graphic may be
designed using either conventional or RNAV criteria. RNAV
procedures will have RNAV printed in the title, e.g., SHEAD
TWO DEPARTURE (RNAV). ODPs provide obstruction clearance via
the least onerous route from the terminal area to the
appropriate en route structure. ODPs are recommended for
obstruction clearance and may be flown without ATC clearance
unless an alternate departure procedure (SID or radar
vector) has been specifically assigned by ATC. Graphic ODPs
will have (OBSTACLE) printed in the procedure title, e.g., GEYSR
THREE DEPARTURE (OBSTACLE), or, CROWN ONE DEPARTURE (RNAV)
(OBSTACLE). Standard Instrument Departures are air traffic
control (ATC) procedures printed for pilot/controller use in
graphic form to provide obstruction clearance and a
transition from the terminal area to the appropriate en
route structure. SIDs are primarily designed for system
enhancement and to reduce pilot/controller workload. ATC
clearance must be received prior to flying a SID. All DPs
provide the pilot with a way to depart the airport and
transition to the en route structure safely. Pilots
operating under 14 CFR Part 91 are strongly encouraged
to file and fly a DP at night, during marginal Visual
Meteorological Conditions (VMC) and Instrument
Meteorological Conditions (IMC), when one is available. The
following paragraphs will provide an overview of the DP
program, why DPs are developed, what criteria are used,
where to find them, how they are to be flown, and finally
pilot and ATC responsibilities.
a.
Why are DPs necessary? The primary reason is to provide
obstacle clearance protection information to pilots. A
secondary reason, at busier airports, is to increase
efficiency and reduce communications and departure delays
through the use of SIDs. When an instrument approach is
initially developed for an airport, the need for DPs is
assessed. The procedure designer conducts an obstacle
analysis to support departure operations. If an aircraft may
turn in any direction from a runway, and remain clear of
obstacles, that runway passes what is called a diverse
departure assessment and no ODP will be published. A SID may
be published if needed for air traffic control purposes.
However, if an obstacle penetrates what is called the 40:1
obstacle identification surface, then the procedure designer
chooses whether to:
1. Establish a
steeper than normal climb gradient; or
2. Establish a
steeper than normal climb gradient with an alternative that
increases takeoff minima to allow the pilot to visually
remain clear of the obstacle(s); or
3. Design and
publish a specific departure route; or
4. A
combination or all of the above.
b. What
criteria is used to provide obstruction clearance during
departure?
1. Unless
specified otherwise, required obstacle clearance for all
departures, including diverse, is based on the pilot
crossing the departure end of the runway at least 35 feet
above the departure end of runway elevation, climbing to 400
feet above the departure end of runway elevation before
making the initial turn, and maintaining a minimum climb
gradient of 200 feet per nautical mile (FPNM), unless
required to level off by a crossing restriction, until the
minimum IFR altitude. A greater climb gradient may be
specified in the DP to clear obstacles or to achieve an ATC
crossing restriction. If an initial turn higher than 400
feet above the departure end of runway elevation is
specified in the DP, the turn should be commenced at the
higher altitude. If a turn is specified at a fix, the turn
must be made at that fix. Fixes may have minimum and/or
maximum crossing altitudes that must be adhered to prior to
passing the fix. In rare instances, obstacles that exist on
the extended runway centerline may make an "early turn" more
desirable than proceeding straight ahead. In these cases,
the published departure instructions will include the
language "turn left(right) as soon as practicable." These
departures will also include a ceiling and visibility
minimum of at least 300 and 1. Pilots encountering one of
these DPs should preplan the climb out to gain altitude and
begin the turn as quickly as possible within the bounds of
safe operating practices and operating limitations. This
type of departure procedure is being phased out.
NOTE-
"Practical" or "feasible" may exist in some existing
departure text instead of "practicable."
2. The 40:1
obstacle identification surface begins at the departure end
of the runway and slopes upward at 152 FPNM until reaching
the minimum IFR altitude or entering the en route structure.
3. Climb
gradients greater than 200 FPNM are specified when required
for obstacle clearance and/or ATC required crossing
restrictions.
EXAMPLE-
"Cross ALPHA intersection at or below 4000; maintain 6000."
The pilot climbs at least 200 FPNM to 6000. If 4000 is
reached before ALPHA, the pilot levels off at 4000 until
passing ALPHA; then immediately resumes at least 200 FPNM
climb.
4. Climb
gradients may be specified only to an altitude/fix, above
which the normal gradient applies.
EXAMPLE-
"Minimum climb 340 FPNM to ALPHA." The pilot climbs at least
340 FPNM to ALPHA, then at least 200 FPNM to MIA.
5. Some DPs
established solely for obstacle avoidance require a climb in
visual conditions to cross the airport or an on-airport
NAVAID in a specified direction, at or above a specified
altitude. These procedures are called Visual Climb Over the
Airport (VCOA).
EXAMPLE-
"Climb in visual conditions so as to cross the McElory
Airport southbound, at or above 6000, then climb via
Keemmling radial zero three three to Keemmling VORTAC."
c. Who is
responsible for obstacle clearance? DPs are designed so that
adherence to the procedure by the pilot will ensure obstacle
protection. Additionally:
1.
Obstacle clearance responsibility also rests with the
pilot when he/she chooses to climb in visual conditions in
lieu of flying a DP and/or depart under increased takeoff
minima rather than fly the climb gradient. Standard takeoff
minima are one statute mile for aircraft having two engines
or less and one-half statute mile for aircraft having more
than two engines. Specified ceiling and visibility minima
(VCOA or increased takeoff minima) will allow visual
avoidance of obstacles until the pilot enters the standard
obstacle protection area. Obstacle avoidance is not
guaranteed if the pilot maneuvers farther from the airport
than the specified visibility minimum prior to reaching the
specified altitude. DPs may also contain what are called Low
Close in Obstacles. These obstacles are less than 200 feet
above the departure end of runway elevation and within one NM
of the runway end, and do not require increased takeoff
minimums. These obstacles are identified on the SID chart or
in the Take-off Minimums and (Obstacle) Departure Procedures
section of the U. S. Terminal Procedure booklet. These
obstacles are especially critical to aircraft that do not
lift off until close to the departure end of the runway or
which climb at the minimum rate. Pilots should also consider
drift following lift-off to ensure sufficient clearance from
these obstacles. That segment of the procedure that requires
the pilot to see and avoid obstacles ends when the aircraft
crosses the specified point at the required altitude. In all
cases continued obstacle clearance is based on having
climbed a minimum of 200 feet per nautical mile to the
specified point and then continuing to climb at least 200
foot per nautical mile during the departure until reaching
the minimum enroute altitude, unless specified otherwise.
2. ATC may
assume responsibility for obstacle clearance by vectoring
the aircraft prior to reaching the minimum vectoring
altitude by using a Diverse Vector Area (DVA). The DVA has
been assessed for departures which do not follow a specific
ground track. ATC may also vector an aircraft off a
previously assigned DP. In all cases, the 200 FPNM climb
gradient is assumed and obstacle clearance is not provided
by ATC until the controller begins to provide navigational
guidance in the form of radar vectors.
NOTE-
When used by the controller during departure, the term
"radar contact" should not be interpreted as relieving
pilots of their responsibility to maintain appropriate
terrain and obstruction clearance which may include flying
the obstacle DP.
3. Pilots must
preplan to determine if the aircraft can meet the climb
gradient (expressed in feet per nautical mile) required by
the departure procedure, and be aware that flying at a
higher than anticipated ground speed increases the climb
rate requirement in feet per minute. Higher than standard
climb gradients are specified by a note on the departure
procedure chart for graphic DPs, or in the Take-Off Minimums
and (Obstacle) Departure Procedures section of the U.S.
Terminal Procedures booklet for textual ODPs. The required
climb gradient, or higher, must be maintained to the
specified altitude or fix, then the standard climb gradient
of 200 ft/NM can be resumed. A table for the conversion of
climb gradient (feet per nautical mile) to climb rate (feet
per minute), at a given ground speed, is included on page D1
of the U.S. Terminal Procedures booklets.
d. Where are
DPs located? DPs will be listed by airport in the IFR
Takeoff Minimums and (Obstacle) Departure Procedures
Section, Section C, of the Terminal Procedures Publications
(TPPs). If the DP is textual, it will be described in TPP
Section C. SIDs and complex ODPs will be
published graphically and named. The name will be listed by
airport name and runway in Section C. Graphic ODPs will also
have the term "(OBSTACLE)" printed in the charted procedure
title, differentiating them from SIDs.
1. An ODP that
has been developed solely for obstacle avoidance will be
indicated with the symbol "T" on appropriate Instrument
Approach Procedure (IAP) charts and DP charts for that
airport. The "T" symbol will continue to refer users to TPP
Section C. In the case of a graphic ODP, the TPP Section C
will only contain the name of the ODP. Since there may be
both a textual and a graphic DP, Section C should still be
checked for additional information. The nonstandard takeoff
minimums and minimum climb gradients found in TPP Section C
also apply to charted DPs and radar vector departures unless
different minimums are specified on the charted DP. Takeoff
minimums and departure procedures apply to all runways
unless otherwise specified. New graphic DPs will have all
the information printed on the graphic depiction. As a
general rule, ATC will only assign an ODP from a nontowered
airport when compliance with the ODP is necessary for
aircraft to aircraft separation. Pilots may use the ODP to
help ensure separation from terrain and obstacles.
e.
Responsibilities.
1. Each pilot,
prior to departing an airport on an IFR flight should
consider the type of terrain and other obstacles on or in
the vicinity of the departure airport; and:
2. Determine
whether an ODP is available; and
3. Determine
if obstacle avoidance can be maintained visually or if the
ODP should be flown; and
4. Consider
the effect of degraded climb performance and the actions to
take in the event of an engine loss during the departure.
5. After an
aircraft is established on an ODP/SID and subsequently
vectored or cleared off of the ODP or SID transition, pilots
shall consider the ODP/SID canceled, unless the controller
adds "expect to resume ODP/SID."
6. Aircraft
instructed to resume a procedure which contains
restrictions, such as a DP, shall be issued/reissued all
applicable restrictions or shall be advised to comply with
those restrictions.
7. If an
altitude to "maintain" is restated, whether prior to or
after departure, previously issued "ATC" altitude
restrictions are cancelled. All minimum crossing altitudes
which are not identified on the chart as ATC restrictions
are still mandatory for obstacle clearance. If an assigned
altitude will not allow the aircraft to cross a fix at the
minimum crossing altitude, the pilot should request a higher
altitude in time to climb to the crossing restriction or
request an alternate routing. ATC altitude restrictions are
only published on SIDs and are identified on the chart with
"(ATC)" following the altitude. When an obstruction
clearance minimum crossing altitude is also to be published
at the same fix, it is identified by the term "(MCA)."
8. Pilots of
civil aircraft operating from locations where SIDs are
established may expect ATC clearances containing a SID. Use
of a SID requires pilot possession of the textual
description or graphic depiction of the approved current
SID, as appropriate. RNAV SIDs must be retrievable by the
procedure name from the aircraft database and conform to
charted procedure. ATC must be immediately advised if the
pilot does not possess the assigned SID, or the aircraft is
not capable of flying the SID. Notification may be
accomplished by filing "NO SID" in the remarks section of
the filed flight plan or by the less desirable method of
verbally advising ATC. Adherence to all restrictions on the
SID is required unless clearance to deviate is received.
9. Controllers
may omit the departure control frequency if a SID clearance
is issued and the departure control frequency is published
on the SID.
f. RNAV
Departure Procedures.
All public RNAV SIDs
and graphic ODPs are RNAV 1. These procedures
generally start with an initial RNAV or heading leg near the
departure runway end. In addition, these procedures require
system performance currently met by GPS or DME/DME/IRU RNAV
systems that satisfy the criteria discussed in AC 90-100A,
U.S. Terminal and En Route Area Navigation (RNAV)
Operations. RNAV 1 procedures require the aircraft's
total system error remain bounded by +1 NM for
95% of the total flight time.
|