This document defines equipment requirements and codes for IFR flight plans. It provides tables describing common navigation equipment like VOR, ILS, DME; area navigation capabilities like RNAV, RNP; communication systems like ACARS, CPDLC, SATCOM; transponder types; and ADS-B/ADS-C options. It also lists default equipment included in the IVAO pilot interface software to facilitate filing accurate IFR flight plans.
Last four/five decades have seen revolutionary development in the field of electronics, computer and automation. Naturally avionics and C.N.S facilities also have adopted these technologies to the best of their advantage. The present paper shows how these technologies have modernized the aircraft cockpit and how C.N.S facilities have been modernised to give smooth and safe flying. The description is based on author’s observation of the development in civil aviation for the last more than four decades and future trends in this field
PRESENTATION BY P. XEFTERIS AND C. DIONISIO FOR THE ITALIAN INSTITUTE OF NAVIGATION. IT PROVIDES AN OVERVIEW OF ISSUES RELATED TO OPERATIONS AND TECHNOLOGIES FOR CARGO TRANSPORT UAVs OVER 150kG MGTW
Last four/five decades have seen revolutionary development in the field of electronics, computer and automation. Naturally avionics and C.N.S facilities also have adopted these technologies to the best of their advantage. The present paper shows how these technologies have modernized the aircraft cockpit and how C.N.S facilities have been modernised to give smooth and safe flying. The description is based on author’s observation of the development in civil aviation for the last more than four decades and future trends in this field
PRESENTATION BY P. XEFTERIS AND C. DIONISIO FOR THE ITALIAN INSTITUTE OF NAVIGATION. IT PROVIDES AN OVERVIEW OF ISSUES RELATED TO OPERATIONS AND TECHNOLOGIES FOR CARGO TRANSPORT UAVs OVER 150kG MGTW
OBJECTIVE
Familiarization of the student with avionics suite of Boeing-777 a 4th generation aircraft comprising of following Subsystems:
1) HMI
2) AIRDATA System
3) Radar System
4) Communication system
5) Navigation system
6) Computer(s)
7) Data bus(es)
“Sense and avoid”-what’s required for aircraft safety?
sensor and safety
aircraft safety using sensors
sensors for safety of people and aircraft traffic
seminar presentation
descriptive presentation
AE8006- UAV Unit -V( The development of UAV(Unmanned Aerial Vehicles) System)...BradHadden
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How to Make a Field invisible in Odoo 17Celine George
It is possible to hide or invisible some fields in odoo. Commonly using “invisible” attribute in the field definition to invisible the fields. This slide will show how to make a field invisible in odoo 17.
Instructions for Submissions thorugh G- Classroom.pptxJheel Barad
This presentation provides a briefing on how to upload submissions and documents in Google Classroom. It was prepared as part of an orientation for new Sainik School in-service teacher trainees. As a training officer, my goal is to ensure that you are comfortable and proficient with this essential tool for managing assignments and fostering student engagement.
OBJECTIVE
Familiarization of the student with avionics suite of Boeing-777 a 4th generation aircraft comprising of following Subsystems:
1) HMI
2) AIRDATA System
3) Radar System
4) Communication system
5) Navigation system
6) Computer(s)
7) Data bus(es)
“Sense and avoid”-what’s required for aircraft safety?
sensor and safety
aircraft safety using sensors
sensors for safety of people and aircraft traffic
seminar presentation
descriptive presentation
AE8006- UAV Unit -V( The development of UAV(Unmanned Aerial Vehicles) System)...BradHadden
https://www.picturando.com/fake/passports/https://mytempl.cc/4908059813https://generatormr.com/https://oldie.veriftools.ru/en/austria_dl/2.Telemetry system.
Explain about different types of telemetry system used in dronehttps://www.meesho.com/astinia-non-woven-hanging-4-shelves-foldable-wardrobecloset-cloth-organizer-black-pack-of-2/p/2ylc39https://www.trading.com/us/promos/no-deposit-bonus0x0a98f1f4fB2fe28F47D0A51ba6A7171c42845F9Ehttps://www.babashyamstore.com/baba-shyam-store/cart-reviewhttps://www.babashyamstore.com/baba-shyam-store/cart-review
How to Make a Field invisible in Odoo 17Celine George
It is possible to hide or invisible some fields in odoo. Commonly using “invisible” attribute in the field definition to invisible the fields. This slide will show how to make a field invisible in odoo 17.
Instructions for Submissions thorugh G- Classroom.pptxJheel Barad
This presentation provides a briefing on how to upload submissions and documents in Google Classroom. It was prepared as part of an orientation for new Sainik School in-service teacher trainees. As a training officer, my goal is to ensure that you are comfortable and proficient with this essential tool for managing assignments and fostering student engagement.
The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
This is a presentation by Dada Robert in a Your Skill Boost masterclass organised by the Excellence Foundation for South Sudan (EFSS) on Saturday, the 25th and Sunday, the 26th of May 2024.
He discussed the concept of quality improvement, emphasizing its applicability to various aspects of life, including personal, project, and program improvements. He defined quality as doing the right thing at the right time in the right way to achieve the best possible results and discussed the concept of the "gap" between what we know and what we do, and how this gap represents the areas we need to improve. He explained the scientific approach to quality improvement, which involves systematic performance analysis, testing and learning, and implementing change ideas. He also highlighted the importance of client focus and a team approach to quality improvement.
The Indian economy is classified into different sectors to simplify the analysis and understanding of economic activities. For Class 10, it's essential to grasp the sectors of the Indian economy, understand their characteristics, and recognize their importance. This guide will provide detailed notes on the Sectors of the Indian Economy Class 10, using specific long-tail keywords to enhance comprehension.
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Ethnobotany and Ethnopharmacology:
Ethnobotany in herbal drug evaluation,
Impact of Ethnobotany in traditional medicine,
New development in herbals,
Bio-prospecting tools for drug discovery,
Role of Ethnopharmacology in drug evaluation,
Reverse Pharmacology.
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
Palestine last event orientationfvgnh .pptxRaedMohamed3
An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
1.4 modern child centered education - mahatma gandhi-2.pptx
IFR flight plan equipment.pdf
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IFR FLIGHT PLAN EQUIPMENT
INTRODUCTION
When filing a flightplan, aircraft operators are required to submit the list of equipment aboard their
aircraft for declaring:
Navigation capabilities dedicated to ATC management.
Regulatory equipment depending on flight type, flight rules.
Type of advanced surveillance systems for airport and airspace infrastructures management.
In addition to this equipment which is instrument-related, operators are required to report about the
surveillance equipment aboard their aircraft, otherwise called transponders.
In this particular document, the following subjects will be dealt with:
Common general aviation equipment including descriptions and goals.
Required equipment for IFR flights as per regulations.
Methodology to establish present equipment in an aircraft based on several examples of IFR
aircraft, more or less sophisticated.
IFR FLIGHT EQUIPMENT
CONVENTIONAL RADIO AND NAVIGATON
The table below groups the radio and navigation equipment used for IFR flights.
Letter Description
C
LOng RAnge Navigation (LORAN) C is a terrestrial radio navigation system using low
frequency
radio transmitters to determine the location and speed of the receiver (i.e the aircraft in
aviation context). This equipment is not compatible with our current flight simulators and now
obsolete.
D
Distance Measuring Equipment (DME) is a transponder-based radio navigation technology
that
measures distance between the equipment on ground and an aircraft by timing the
propagation delay of VHF or UHF radio signals.
F
Automatic Direction Finder (ADF) is a radio-navigation instrument that automatically and
continuously displays the relative bearing from the aircraft to a suitable radio station.
H High Frequency (HF) RadioTelephone (RTF). (Mainly used during oceanic flight)
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I
An Inertial Navigation System (INS) or Inertial Reference System (IRS) or Inertial Reference
Unit
(IRU) is a navigation aid that uses a computer, motion sensors (accelerometers) and rotation
sensors (gyroscopes) to continuously calculate the position, orientation, and velocity of a
plane.
K
Microwave Landing System (MLS) is an aviation approach and landing system providing most
accurate and reliable information for safe landings. This system overcomes the possible
limitations of the ILS. This equipment is not compatible with our current flight simulators.
L
Instrument Landing System (ILS) is a ground-based instrument approach system that
provides
precision guidance to an aircraft approaching and landing on a runway.
O
VHF Omni directional Range (VOR) is a type of radio navigation system for aircraft. The
system
relies on ground based transmitters which emit signals to a VOR receiver inside the aircraft.
The navigation signal allows the aircraft receiving equipment to determine a magnetic bearing
from the station to the aircraft.
S
It shall be specified if standard COM/NAV/approach aid equipment for the route to be flown is
carried and serviceable. If the letter S is used, standard equipment is considered to be VHF
RTF, VOR and ILS unless another combination is prescribed by the appropriate ATS authority.
T
Tactical Air Navigation (TACAN) is a navigation system in UHF, giving the air crew continuous
information as to its range and bearing from a beacon. It is similar to VOR but in UHF instead
of VHF. TACAN is primarily used by military aircraft.
U
Ultra High Frequency (UHF) Radio Telephone (RTF). Radio equipment onboard the aircraft
used
by military aircraft. This equipment is not compatible with our current flight simulators.
V Very High Frequency (VHF) Radio Telephone (RTF). Radio equipment onboard the aircraft.
W
Reduced Vertical Separation Minima (RVSM) of 300m (1000ft) separation between aircraft
provides six additional cruising levels between FL 290 and FL 410.
X
Minimum Navigation Performance Specification (MNPS): a set of standards which require
aircraft to
have a minimum navigation performance capability in order to operate in MNPS designated
airspace. The airspace is vertically defined between FL285 and FL410 and horizontally
includes the following OCCs: REYKJAVIK, SHANWICK, GANDER, SANTA MARIA and part of
NEW YORK.
Y Very High Frequency (VHF) with 8.33 kHz spacing channel: it was decided in 1994 to
introduce a
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further channel split from 25 kHz to 8.33 kHz.
Rule: Standard (S) equipment groups following equipment: VOR(O) + ILS(L) + VHF(V). S = LOV
S equipment will replace LOV in the flight plan declaration; you may not declare LOV in combination
with S. S equipment should be inserted as first letter in the flight plan equipment section.
AREA NAVIGATON CAPABILITY (RNAV)
The table below groups the appropriate possibilities for area navigation capability.
Letter Description
A
Ground-Based Augmentation System (GBAS) is a safety-critical system that augments the
GPS
Standard Positioning Service (SPS) and provides enhanced levels of service. It supports all
phases of approach, landing, departure, and surface operations within its area of coverage.
(Today, flight simulators are not compatible with this capability)
B
Localizer Performance with Vertical guidance (LPV). APproach with Vertical guidance (APV-
SBAS).
Space/Satellite Based Augmentation System (SBAS). The purpose of LPV is to fly ILS look-
alike procedures published as RNAV GNSS with LPV minima, by using SBAS. (Today, flight
simulators are not compatible with this capability)
G
Global Navigation Satellite System (GNSS). The term GNSS encompasses all the satellite
navigation systems such as GPS, GLONASS, GALILEO
R
R indicates the Performance Based Navigation (PBN) levels that can be met. It is used by ATC
for
clearance and routing purposes. The insertion of R in the field 10a requires PBN/ to be
present in field 18. The PBN sub-field contains the RNAV and/or RNP certifications and
operational approvals applicable for the flight.
Rule: PBN (R) demands additional information to be provided in field 18 with descriptor PBN/
Refer to the following documentation for more information about PBN: RNAV systems.
ADDITONAL COMMUNICATON SYSTEMS
AIRCRAFT COMMUNICATIONS ADDRESSING REPORTING SYSTEM (ACARS)
The table below groups the corresponding capability related to ACARS operations:
Letter Description
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E1 Flight Management Computer (FMC) WayPoint Reporting (WPR) Aircraft Communications
Addressing Reporting System (ACARS). A number of airlines routinely receive ACARS position
reports from their aircraft via satellite as part of their Airline Operational Control (AOC) flight
monitoring. These position reports can be forwarded to an ATS provider and be used to
replace HF voice position reports. This method of delivery for aircraft position reports is known
as FMC WPR.
E2
Data link (D)-Flight Information Services (FIS) Aircraft Communications Addressing Reporting
System (ACARS). The flight information services provided can be weather reports and
operational data.
E3
Pre-Departure Clearance (PDC) Aircraft Communications Addressing Reporting System
(ACARS).
Pre-departure clearance from ATC can be received in the cockpit via the ACARS.
ACARS is a digital datalink system for transmission of short, relatively simple messages between
aircraft and ground stations via radio or satellite.
CONTROLLER-PILOT DATALINK COMMUNICATIONS (CPDLC)
The table below groups the corresponding capability related to CPDLC operations:
Letter Description
J1
Controller Pilot Data Link Communications (CPDLC) Aeronautical Telecommunication Network
(ATN) VHF DigitaL Mode 2 (VDL2). The ICAO VDL Mode 2 is the VDL version most
commonly used and in this version uses ground based communication network (ATN).
J2
Controller Pilot Data Link Communications (CPDLC Future Air Navigation Services (FANS) 1/A
High Frequency Data Link (HFDL). FANS 1/A provides controller-pilot data link
communications (CPDLC) and includes air traffic control clearances, pilot requests and
position reporting. FANS 1/A typically operates over satellite communications (SATCOM) and
is mostly used in Oceanic airspace. FANS 1/A over HFDL provides air traffic control (ATC)
communication coverage in the Polar region
J3
Controller Pilot Data Link Communications (CPDLC Future Air Navigation Services (FANS) 1/A
VHF Data Link (VDL) Mode A. FANS 1/A provides controller-pilot data link communications
(CPDLC) and includes air traffic control clearances, pilot requests and position reporting.
FANS 1/A typically operates over satellite communications (SATCOM) and is mostly used in
Oceanic airspace. VDL Mode A is also known as POA (Plain Old ACARS).
J4
Controller Pilot Data Link Communications (CPDLC Future Air Navigation Services (FANS) 1/A
VHF Data Link (VDL) Mode 2. FANS 1/A provides controller-pilot data link communications
(CPDLC) and include air traffic control clearances, pilot requests and position reporting. FANS
1/A typically operates over satellite communications (SATCOM) and is mostly used in
Oceanic airspace.
J5 Controller Pilot Data Link Communications (CPDLC Future Air Navigation Services (FANS)
1/A.
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FANS 1/A provides controller-pilot data link communications (CPDLC) and includes air traffic
control clearances, pilot requests and position reporting. FANS 1/A typically operates over
satellite communications and is mostly used in Oceanic airspace via the INMARSAT satellite
network.
J6
Controller Pilot Data Link Communications (CPDLC Future Air Navigation Services (FANS)
1/A.
FANS 1/A provides controller-pilot data link communications (CPDLC) and includes air traffic
control clearances, pilot requests and position reporting. FANS 1/A typically operates over
satellite communications and is mostly used in Oceanic airspace. This indicator specifies
that the data is transiting via the MTSAT satellite network
J7
Controller Pilot Data Link Communications (CPDLC Future Air Navigation Services (FANS)
1/A.
FANS 1/A provides controller-pilot data link communications (CPDLC) and includes air traffic
control clearances, pilot requests and position reporting. FANS 1/A typically operates over
satellite communications and is mostly used in Oceanic airspace. This indicator specifies
that the data is transiting via the IRIDIUM satellite network. It allows worldwide voice and data
communications including the poles, oceans and airways.
CPDLC system is designed to send more elaborate messages than ACARS in order to enhance
communications in particular in remote airspaces.
The ICAO VDL Mode 2 is the VDL version most commonly used. It was chosen for the Eurocontrol
Link 2000+ program and is specified as the primary link in the EU Single European Sky rule adopted
in January 2009 requiring all new aircraft flying in Europe after January 1, 2014 to be equipped with
CPDLC.
SATELLITE COMMUNICATION (SATCOM)
The table below groups the appropriate identifiers corresponding to SATCOM operations:
Letter Description
M1
Air Traffic Control (ATC) RadioTelephone (RTF) SATellite COMmunications (SATCOM) with
data
transiting via the INMARSAT satellite network.
M2
Air Traffic Control (ATC) RadioTelephone (RTF) SATellite COMmunications (SATCOM) with
data
transiting via the MTSAT satellite network.
M3
Air Traffic Control (ATC) RadioTelephone (RTF) SATellite COMmunications (SATCOM) with
data
transiting via the IRIDIUM satellite network.
Satellite communications are meant to enhance and improve communication quality over remote
airspaces. The way to communicate (one after another, phraseology, readbacks…) shall be observed
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to prevent any misunderstanding from one of the listeners. (Not applicable for IVAO)
CPDLC
The table below groups the appropriate identifiers corresponding to CPDLC operations and application of
performance-based communication, which prescribes RCP to an air traffic service in a specific area:
Letter Description
P1
Controller Pilot Data Link Communications (CPDLC) Required Communication Performance
(RCP) 400
P2
Controller Pilot Data Link Communications (CPDLC) Required Communication Performance
(RCP) 240
P3 SATellitte VOICE (SATVOICE) 400
OTHER CAPABILITIES
Letter Description
Z
Every equipment not recognized by a proper identifier must be added by a remark in field 18
under
designator NAV/ or COM/ or DAT/
The following remarks are common:
NAV/SBAS ACAS GBAS: Indicate that the aircraft is equipped with SBAS/ACAS/GBAS receiver.
NAV/TCAS: Indicate that the aircraft is equipped with TCAS
TRANSPONDER TYPES
MAIN TYPES
The table below groups different transponder types commonly found in IFR-dedicated aircraft.
Letter Description
E Transponder Mode S, with aircraft identification, pressure altitude and ADS-B
H Transponder Mode S, with aircraft identification, pressure altitude and enhanced surveillance
I Transponder Mode S, with aircraft identification but no pressure altitude
L
Transponder Mode S, with aircraft identification, pressure altitude, enhanced surveillance and
ADS-B
P Transponder Mode S, including pressure-altitude, but no aircraft identification.
S Transponder Mode S, including both pressure-altitude and aircraft identification.
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X Transponder Mode S, with neither pressure-altitude nor aircraft identification.
All IFR aircraft shall be equipped with at least a mode S transponder.
Mode S: Whilst traditional Secondary Surveillance Radar (SSR) stations interrogate all aircraft within
their range, Mode S (Select) establishes selective and addressed interrogations with aircraft within its
coverage. Such selective interrogation improves the quality and integrity of the detection,
identification and altitude reporting.
ADS-B/ADS-C OPTIONS
The table below groups all options associated with ADS-B and ADS-C.
Letter Description
B1 ADS-B with dedicated out capability
B2 ADS-B with dedicated in and out capability
D1 ADS-C with FANS 1/A capabilities
G1 ADS-C with ATN capabilities
U1 ADS-B out capability using UAT
U2 ADS-B in and out capability using UAT
V1 ADS-B out capability using VDL Mode 4
V2 ADS-B in and out capability using VDL Mode 4
ADS-B: Automatic Dependent Surveillance – Broadcast is a means for an aircraft to send its position
and various flight parameters periodically to anyone equipped with a receiver. Receptors are Air
Traffic Control stations and other aircraft with “in” capability. Broadcast frequency is usually once per
second during approach phase, and up to once per ten seconds when en-route.
ADS-C: Automatic Dependent Surveillance – Contract is a private ADS-B since aircraft needs to be
logged on the receiving station to transmit information. Usually this system relies on satellites which
are very expensive, resulting in less periodical update, about once per 10 minutes; and concerns
oceanic area.
IVAO PILOT INTERFACE SOFWARE DEFAULT EQUIPMENT
By default, the IVAO Pilot Interface provides equipment that may be included automatically in your flight
plan, independently of your cockpit instruments.
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IVAO pilot interface provides:
VHF receiver (2 channel) = letter V in the flight plan equipment section
VHF receiver possesses 8.33kHz frequency spacing = letter Y in the flight plan equipment
section
ACARS interface and METAR/ATIS request = letter E2 in the flight plan equipment section
Text interface = basic data link (CPDLC system) VHF DigitaL Mode 2 (VDL2) = letter J1 in the
flight plan equipment section
TCAS = letter Z in the flight plan equipment section + NAV/TCAS in remark section
Mode S transponder = letter /S in the flight plan transponder section
If pilot performs an ocean track over Atlantic and Pacific:
Text interface = Text position report for overseas tracks = Letter E1 in the flight plan equipment
section
Text interface = basic CPDLC system include air traffic control clearances, pilot requests and
position reporting = letter J4 or J5 or J6 or J7 in the flight plan equipment section (depending of the
satellite network chosen)
If pilot performs a polar track:
Text interface = basic CPDLC system include air traffic control clearances, pilot requests and
position reporting, High Frequency Data Link = letter J2
If pilot accepts to use advanced features that IVAO offers, you can include:
Text interface = Pre Departure Clearance ACARS = letter E3 in the flight plan equipment section.
Caution: Please remain logical when selecting equipment! Adding CPDLC or ACARS support to a
general aviation aircraft should make no sense. Refer to the methodology part for more information.
IFR-FLIGHT REGULATORY EQUIPMENT
RADIO AND NAVIGATON
VOR (O)
Any IFR aircraft shall be equipped with one VOR instrument and pilot must insert equipment O in his
flight plan.
RADIO REQUIREMENT (V)
Except when operating in uncontrolled airspace which is highly remote when operating under IFR
clearance, aircraft are required to carry a serviceable VHF radio. Thanks to IVAO pilot interface, you
must always include VHF radio aboard your aircraft as equipment letter V
8.33KHZ FREQUENCY SPACING (Y)
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For aircraft operating under instrument flight rules, the 8.33 kHz frequency spacing equipment is
currently required above FL195, and when transiting through any class A, class B and class C
airspace.
As the airspaces are crowded with aircraft, the need to switch some airspace using 8.33 kHz
frequency spacing is increasing; this equipment becomes more and more mandatory!
Thanks to the IVAO pilot interface interface, you are always equipped with 8.33 kHz VHF frequency
spacing radio and you must always include equipment Y in your flight plan.
REDUCED VERTICAL SEPARATION MINIMA (W)
All aircraft operating between FL285 and FL415 shall be RVSM since almost all airspaces are RVSM.
You must therefore include equipment letter W.
MINIMUM NAVIGATION PERFORMANCE SPECIFICATION (X)
Whenever operating between FL285 and FL415 over North Atlantic and entering specified control
areas, a MNPS certificate is required for all flights. You must then include letter X
AREA NAVIGATION (RNAV)
Some countries require basic RNAV capabilities at flight levels that may be used by basic IFR aircraft
that do not use very sophisticated instruments such as airliners. This basic RNAV capability requires
to use Performance Based Navigation (PBN) = letter R
In function of aircraft equipment, you shall use the following additional equipment:
Basic GPS embarked = letter G
Modern flight management computer = letter GI
Vintage inertial system = letter I
Vintage inertial systems can be found on A300, B707, B741 or Concorde. For your information, the first
version of the Airbus A320 was not including a GNSS receiver and primary means of navigation was
based on inertial navigation (IRS).
Refer to the following documentation for more information about PBN: RNAV systems.
There is not a common flight level. Each country has defined its own limiting flight level. The following
table will provide regulations for several countries in Europe:
Country PBN is required above Country PBN is required above
Austria FL95 Italy FL95
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Belgium FL95 Netherlands FL95
France FL115 Spain FL150
Germany FL95 Switzerland FL100
Ireland FL95 UK GND
In IVAO, if you do not know the PBN regulation applicable to IFR flights, you can consider that above
FL95, the PBN is required.
The RNAV capability to be inserted shall take the PBN codes presented in the table below:
Area RNAV category All
sensors
GNSS DME/DME VOR/DME DME/DME/IRU LORAN
Oceanic
RNAV 10 A1 - - - - -
RNP 4 L1 - - - -
En-
route
RNAV 5 B1 B2 B3 B4 B5 B6
RNAV 2 C1 C2 C3 - C4 -
RNAV 1 D1 D2 D3 - D4 -
Terminal
RNAV D1 D2 D3 - D4 -
RNP 1 O1 O2 O3 - O4 -
Final
RNP APCH S1 - - - - -
RNP APCH with
BARO VNAV
S2 - - - - -
RNP AR APCH
with RF
T1 - - - - -
RNP AR APCH
without RF
T2 - - - - -
As aircraft requires PBN regulation, we will give you some examples of possibilities in function of your
equipment installed:
Equipment En-route Terminal Final
Basic GPS or basic FMC en-route only B2 - -
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Basic GPS with STAR included B2C2 D2 -
Vintage Inertial system (B707, concorde...) en-route only B5 - -
Vintage Inertial system (B707, concorde...) with STAR included B5C4 D4 -
Modern FMC en-route only B1C1 - -
Modern FMC with STAR included B1C1 D1O1 -
Modern FMC with STAR and LNAV Approach B1C1 D1O1 S1
Modern FMC with STAR and LNAV+VNAV Approach B1C1 D1O1 S2
If the aircraft performs a flight with oceanic track:
Equipment Oceanic
Basic GPS or basic FMC on oceanic track A1
Vintage Inertial system (B707, Concorde...) on oceanic track A1
Modern FMC on oceanic track A1L1
Example: PBN/B1C1D1O1S1; PBN/B2C2D2; PBN/B5C4D4
CONTROLLER-PILOT DATALINK COMMUNICATONS (CPDLC)
Some countries (like in Europe) require all aircraft flying above FL245 to be operating with CPDLC
based on ATN using VDL Mode 2. Your flightplan must state when appropriate the equipment letter
J1
TRANSPONDER REQUIREMENT (/S)
Thanks to the IVAO pilot interface interface, you are always equipped with a type S transponder.Pilots
shall fill the letter /S in transponder section of the flight plan or equivalent. Pilots may also file any
higher mode S transponder like /LB1 or /H for example to simulate a real flight plan.
Aircraft with lower standards (transponder A or C) shall not plan their flight as IFR.
SEE ALSO
12. 5/10/2021 IFR flight plan equipment - IVAO - International Virtual Aviation Organisation
https://mediawiki.ivao.aero/index.php?title=IFR_flight_plan_equipment&printable=yes&print_key=ec8b61fba86b646830fd6967b… 12/12
VFR flight plan equipment, IFR flight plan equipment methodology
REFERENCE
None
AUTHOR
VID 200696 - Creation
VID 150259 - Update
VID 531824 - Wiki Integration
DATE OF SUBMISSION
00:35, 23 February 2021
COPYRIGHT
This documentation is copyrighted as part of the intellectual property of the International Virtual
Aviation Organisation.
DISCLAIMER
The content of this documentation is intended for aviation simulation only and must not be used for
real aviation operations.