ATS Surveillance System is a generic term covering any ground-based system that enables the identification of aircraft to provide Air Traffic Services. It encompasses:
Any comparable ground-based system enabling aircraft identification
Fig 1.1 — The ATS Surveillance System family and their key distinctions
When is PSR Used?
⚠️ PSR Usage Rule
PSR systems should be used in circumstances where other ATS surveillance systems alone would not meet the air traffic services requirements.
PSR is the supplementary backstop — not the primary tool in modern ATC.
When Can SSR Be Used Alone?
✅ SSR Alone — Conditions for Separation
SSR systems (especially those with monopulse techniques or Mode S capability), or MLAT, may be used alone — including for separation between aircraft — provided both conditions are met:
✔ The carriage of SSR transponders is mandatory within the area
ADS-B, like PSR and SSR, is an ATS surveillance system. It allows ATC to automatically and repeatedly access data from all suitably equipped aircraft and both use and re-broadcast it to suitably equipped other aircraft within range.
🔑 Key Points — ADS-B
Dependent: Relies on the aircraft's own navigation systems (GPS/GNSS)
Automatic: No pilot input required — broadcasts continuously
Surveillance: Provides traffic picture to ATC and other aircraft
Broadcast: Signal goes to ALL receivers in range (unlike ADS-C which is point-to-point)
Moves from ground radar and navigational aids to precise satellite-based tracking
Forms the foundation for NextGen (Next Generation Air Transportation System)
ADS-C uses the same on-board systems as ADS-B to transmit similar information (position, altitude, speed, navigational intent, meteorological data) — but only to one or more specific Air Traffic Services Units (ATSU) or Aeronautical Operational Control (AOC) facilities — for surveillance and/or route conformance monitoring.
ADS-B (Broadcast)
Signal goes to ALL receivers within range
Used by ATC and other aircraft (TCAS/traffic display)
No specific "contract" required
Suitable for busy, high-density airspace
Ground stations re-broadcast to other aircraft
ADS-C (Contract)
Signal goes to specific ATSUs / AOC only
Based on an ADS contract between aircraft & ground
Contract defines type of data and reporting conditions
Used for oceanic / remote area surveillance
Aircraft can also send unsolicited emergency reports
⚠️ Critical Exam Distinction
Although the names are similar, ADS-C and ADS-B are two different applications.
Data provision under ADS-C is only generated in response to a request within the terms of an ADS contract held by the ground system. The contract identifies the types of information and the conditions under which reports are sent.
Some information types are included in every report; others are provided only if specified in the contract.
§ 04
Advantages of ADS-B
✅ Advantages — ADS-B (The Full List)
🌿 Environmentally friendly technology — enhances safety and efficiency
👨✈️ Pilots see what controllers see: displays showing other aircraft in the sky (first time in aviation history)
🌩️ Cockpit displays also pinpoint hazardous weather and terrain, and give important flight information such as temporary flight restrictions
🛬 Reduces runway incursions: cockpit and controller displays show the location of aircraft and equipped ground vehicles on airport surfaces — even at night or in heavy rainfall
🚨 Collision alerts: ADS-B applications give pilots indications or alerts of potential collisions
🗺️ Greater coverage: ground stations are much easier to place than radar — remote areas without radar coverage now have surveillance with ADS-B
📡 Satellite-based routing: aircraft fly more directly from Point A to Point B, saving time, money, and reducing fuel burn and emissions
⬇️ Reduces separation minima: improved accuracy of satellite signals over radar allows controllers to eventually reduce minimum separation and increase airspace capacity
🏗️ Foundation for NextGen: moves from ground radar and navigational aids to precise tracking using satellite signals
§ 05
MLAT — Multilateration Applications
📡 Definition — MLAT
Multilateration (MLAT) is a technology to accurately locate aircraft using Time Difference of Arrival (TDOA). It employs a number of ground stations placed in strategic locations around an airport.
Fig 5.1 — MLAT calculates aircraft position by measuring Time Difference of Arrival at multiple ground stations
🔑 MLAT Key Points
No additional avionics required — uses replies from Mode A, C and S transponders, as well as military IFF and ADS-B transponders
Individual aircraft will be at different distances from each ground station — their replies are received at fractionally different times
Advanced computer processing techniques use these individual time differences to precisely calculate aircraft position
MLAT is particularly useful in surface movement (airport ground) and terminal area applications
§ 06
Radar Applications
🔑 Radar Vectors — Headings
Radar vectors given to an aircraft will be related to magnetic headings only.
Radar control procedures will be used by ATC in preference to non-radar control procedures whenever ATS or the aircraft served will gain operational advantage.
Types of Radar Services
🎯
(i) Radar Control Service
For aircraft operating within controlled airspaces
💡
(ii) Radar Advisory Service
For aircraft operating within Class F airspace
ℹ️
(iii) Radar Flight Information Service
For identified aircraft operating in any part of FIR
⚠️ Two-Way Communication Requirement
The provision of any of the above types of radar service requires that aircraft remain in direct two-way communication with the unit providing the service.
Exception: Radar separation may be provided between two radar-identified aircraft even when only one of the aircraft is in direct communication with the radar unit.
Radar in Approach Control Service
✅ Approach Control — Radar Uses
Surveillance Radar is extensively used in approach control to:
Sequence the traffic
Vector aircraft to position for pilot-interpreted approach aids
Conduct surveillance radar approaches
Radar in Aerodrome Control Service
✅ Aerodrome Control — Radar Uses
Surveillance radar is used as an approach monitor aid
Surface Movement Radar (SMR) is used to control traffic on the ground in the movement area
Position Indication Display Formats
📺 How Position May Be Displayed
Position indications may be displayed as:
(a) Individual position symbols — e.g. PSR, SSR, ADS-B or MLAT symbols, or combined symbols
(b) PSR blips
(c) SSR responses
§ 07
Use of ATS Surveillance Service in Air Traffic Control Service
An aircraft without SSR transponder, OR an aircraft with a non-functioning SSR transponder
✅ Transponder Failure Procedures
Failure detected during flight: The aircraft (for whom carriage of transponder is mandatory) will normally be permitted to continue to operate to the next point of landing.
Failure detected before departure: The aircraft may be specifically authorised by ATC to operate without a serviceable transponder — provided a request is included in the flight plan.
§ 08
ATS Surveillance Service Identification Procedures
⚠️ Mandatory Rule — Identification Before Service
Before providing ATS surveillance service to an aircraft, radar identification shall be established by one of the methods in Doc 4444-PANS-ATM, and the pilot so informed.
If identification is subsequently lost, the pilot shall be informed accordingly and instructions will be issued so as to restore non-ATS surveillance service separation.
ADS-B Identification Procedures
Where ADS-B is used for identification, aircraft may be identified by:
📡 ADS-B — Identification Methods (3 Methods)
(a) Direct recognition of the aircraft identification in an ADS-B label
(b) Transfer of ADS-B identification
(c) Observation of compliance with an instruction to TRANSMIT ADS-B IDENT
SSR and/or MLAT Identification Procedures
Where SSR and/or MLAT is used for identification, aircraft may be identified by:
📡 SSR/MLAT — Identification Methods (6 Methods)
(a) Recognition of the aircraft identification in a SSR and/or MLAT label
(b) Recognition of an assigned discrete code, the setting of which has been verified, in a SSR and/or MLAT label
(c) Direct recognition of the aircraft identification of a Mode S-equipped aircraft in a SSR and/or MLAT label
(d) By transfer of identification
(e) Observation of compliance with an instruction to set a specific code
(f) Observation of compliance with an instruction to squawk IDENT
§ 09
PSR Identification Procedures
When SSR is not available, PSR identification may be achieved by the following methods:
Method 1 — Position Report Method
✅ Position Report Method
By correlating a particular radar position indication with an aircraft reporting:
Its position over or as bearing and distance from a point shown on the situation display; AND
By ascertaining that the track of the particular radar position is consistent with the aircraft path or reported heading
Method 2 — Departing Aircraft Method
✅ Departing Aircraft Method
By correlating an observed radar position indication with an aircraft known to have just departed, provided that:
Identification is established within 1 NM from the end of the runway used
Particular care should be taken to avoid confusion with aircraft:
Holding over or overflying the aerodrome
Departing from or making a missed approach over adjacent runways
Method 3 — The Turn Method
✅ The Turn Method
(a) An aircraft may be identified by ascertaining the aircraft heading, if circumstances require, and following a period of track observation by:
▶ Instructing the pilot to execute one or more changes of heading of 30 degrees or more and correlating the movements of one particular radar position indication with the aircraft's acknowledged execution of the instructions given; OR
▶ Correlating the movements of a particular radar position indication with manoeuvres currently executed by an aircraft having so reported
(b) When using these methods, the radar controller shall:
(i) Verify that the movements of not more than one radar position indication correspond with those of the aircraft
(ii) Ensure that the manoeuvre(s) will not carry the aircraft outside the coverage of the radar or the situation display
PSR ID Method
Key Requirement
Critical Limit
Position Report
Aircraft reports position over / bearing & distance from a known point
Track must be consistent with reported heading/path
Departing Aircraft
Aircraft known to have just departed a runway
Within 1 NM from end of runway used
Turn Method
Aircraft executes an instructed heading change
30° or more heading change
§ 10
Separation Minima
⚠️ Separation Minima — Core Rule
The separation minima specified shall only be applied between identified aircraft when there is reasonable assurance that identification will be maintained.
When is Procedural (Non-Radar) Separation Applied?
⚠️ Procedural Separation Minima Will Be Applied In:
(i) In the event of ATS surveillance service failure
(ii) In the area outside the ATS surveillance service coverage
(iii) To aircraft leaving ATS surveillance service coverage or entering an adjacent FIR — except where ATS surveillance service transfer is effected
ICAO Separation Minima — Radar / ADS-B / MLAT
📐 Horizontal Separation Minima — Visual Scale
Condition
Separation Minimum
Authority
Notes
Standard (Default) — Radar / ADS-B / MLAT
9.3 km (5.0 NM)
ICAO
Unless otherwise prescribed
Reduced — where capabilities at a given location so permit
5.6 km (3.0 NM)
ICAO
May be reduced but not below this minimum (unless category (b) applies)
Further Reduced — Succeeding aircraft on same final approach track within 18.5 km (10 NM) of runway end threshold
4.6 km (2.5 NM)
ICAO
Provided local factors permit such reduction
Fig 10.1 — ICAO Horizontal Radar Separation Minima (Note: values decrease from standard to final approach minimum)
⚠️ Critical Exam Values — Memorise These
Minimum
NM
km
Condition
Standard Horizontal
5.0 NM
9.3 km
Default — Radar / ADS-B / MLAT
Reduced
3.0 NM
5.6 km
Where ATS authority permits; local capabilities
Final Approach (same track)
2.5 NM
4.6 km
Within 10 NM (18.5 km) of runway threshold; local factors permit
Departing Aircraft ID
1 NM
—
PSR ID must be established within 1 NM of runway end
Turn Method heading change
—
—
30° or more
India — Separation Minima
🇮🇳 DGCA / AIP India — Separation Minima
DGCA For separation minima based on ATS surveillance systems in India, please refer to Chapter Six of the Air Regulations text.
The ICAO standard of 5.0 NM / 9.3 km applies unless otherwise prescribed by the appropriate ATS authority.
MLAT and PSR Blip Separation Application
✅ Separation Using MLAT Symbols / PSR Blips
Separation based on the use of MLAT position symbols and PSR blips shall be applied so that:
The distance between the centres of the position symbols and PSR blips, representing the positions of the aircraft concerned, is never less than a prescribed minimum.
§ 11
Speed Control Procedures
⚠️ Speed Control — Mandatory Limits (AIP India)
All aircraft (including arrivals and departures) operating below 10,000 ft shall fly at IAS not greater than 250 KT
All arriving aircraft operating below 10,000 ft within 15 NM radius of VOR/DME serving the aerodrome shall fly at IAS not greater than 220 KT
Additional speed control restrictions may be imposed for arriving and en-route aircraft by ATC whenever traffic conditions so require
Fig 11.1 — Speed control zones below 10,000 ft per AIP India
✅ ATC Suspension of Speed Control
ATC may suspend speed control by using the phrase:
"NO SPEED RESTRICTION"
This suspension applies when traffic conditions permit.
§ 12
Termination of ATS Surveillance Service
⚠️ Termination — Mandatory Notification
An aircraft that has been informed it is provided with ATS surveillance service should be informed immediately when for any reason ATS surveillance service is interrupted or terminated.
✅ Automatic Termination — Arriving Aircraft
ATS surveillance service is automatically terminated when an arriving aircraft receiving ATS surveillance service has been instructed to contact tower frequency.
Important: Position of aircraft from touchdown should be given to the aircraft before changing over the aircraft to tower.
§ 13
SSR Transponder — Operating Procedures (India)
⚠️ Transponder Operation — Mandatory Rule (India)
DGCA All aircraft carrying a serviceable transponder shall operate the transponder at all times during flight within Chennai, Delhi, Guwahati, Kolkata and Mumbai FIR — regardless of whether the aircraft is within or outside airspace where SSR is used for ATS.
Operating Procedures — Pilots
✅ Transponder Mode & Code Procedures
i
Departing aircraft from aerodromes in Chennai, Delhi, Guwahati, Kolkata and Mumbai FIR shall be assigned an appropriate SSR code on departure. This SSR code setting shall continue unless instructed otherwise.
ii
International flights entering Chennai, Delhi, Guwahati, Kolkata and Mumbai FIR shall continue to maintain the SSR code being squawked in the adjacent FIR.
iii
Domestic flights shall operate the transponder on the last assigned code.
iv
Aircraft not assigned a SSR code shall operate transponder on Mode A3 code 2000 before entry into Chennai, Delhi, Guwahati, Kolkata and Mumbai FIR and maintain that code setting until otherwise instructed.
v
To avoid interference on radar display, the pilot shall NOT operate the transponder when the aircraft is on ground except:
When entering the runway for take-off, OR
Until vacating the runway after landing
🔑 Emergency / Special Transponder Codes — Memorise
Code
Condition
Meaning
7700
Emergency
General Emergency (distress)
7600
Communication Failure (Radio Failure)
NORDO — Lost communication
7500
Unlawful Interference
Hijack / Unlawful seizure of aircraft
2000
No SSR code assigned
Default code before entry into Indian FIR
🧠 Memory Aid — Emergency Codes
"7700 — Sevens, SAVE ME (Distress)" "7600 — SIXES, SILENT (Radio Failure)" "7500 — FIVE, HIJACK ALIVE (Unlawful Interference)"
Geometric height information shall NOT be used for separation.
Only pressure-altitude-derived level information and Mode C / ADS-B altitude data transmission are used for verification and separation.
Verification Procedure — Step by Step
✅ Mode C / ADS-B Altitude Verification Procedure
1
All aircraft must report the level/altitude maintaining/passing on first contact with a radar unit — to facilitate verification of Mode C altitude information / ADS-B altitude data transmission.
2
Verification shall be effected at least once by each suitably equipped ATC unit on initial contact with the aircraft — or as soon as possible thereafter. Verification is by simultaneous comparison with altimeter derived level information received from the aircraft by radio telephony.
3
If Mode C / ADS-B altitude data transmission is within the approved tolerance → pilot is NOT advised of verification.
4
If the displayed information is NOT within approved tolerance, or if a discrepancy in excess of the approved tolerance is detected subsequently: Pilot is advised and requested to check his pressure setting and confirm his level.
5
If, following confirmation of level and correct pressure setting, the discrepancy continues: Controller may request the pilot to stop his Mode C transmission.
📻 ATC Phraseology — Stop Mode C
If the Mode C discrepancy continues after confirmation:
"STOP SQUAWK CHARLIE. WRONG INDICATION""STOP ADS-B ALTITUDE DATA TRANSMISSION (WRONG)"
All questions are drawn directly from the DGCA/Doc 4444 question bank. Green-highlighted options are correct answers. Review the regulatory basis after each answer.
Q.01The minimum radar separation to be provided to aircraft established on the localizer course shall be:
A 2.0 NM between aircraft on adjacent localizer course
B 2.5 NM between aircraft on the same localizer course
C 5.0 NM between aircraft on the same localizer course
✅ Answer: B — 2.5 NM (4.6 km) is the minimum radar separation on the same final approach / localizer track within 10 NM of the runway threshold. This is the reduced minimum permitted when local factors allow.
Q.02Unless otherwise prescribed by the appropriate ATS authority, the horizontal radar separation minimum prescribed by ICAO shall be:
A 3.5 NM
B 8 NM
C 5.0 NM
✅ Answer: C — Unless otherwise prescribed, the horizontal separation minimum based on radar and/or ADS-B and/or MLAT systems shall be 9.3 km (5.0 NM) per ICAO Doc 4444.
Q.03Where ADS-B is used for identification, aircraft may be identified by the following procedure:
A Asking him to squawk assigned Mode A code C
B Direct recognition of the aircraft identification in an ADS-B label
C Recognition of an assigned discrete code, the setting of which has been verified
✅ Answer: B — Option C is an SSR/MLAT identification procedure, not ADS-B. ADS-B identification uses: (a) direct recognition in ADS-B label, (b) transfer of ADS-B identification, (c) TRANSMIT ADS-B IDENT compliance.
Q.04An aircraft is considered to be maintaining its assigned level as long as the SSR mode C derived level information indicated that it is within:
A +/- 500 ft of the assigned level in non-RVSM airspace
B +/- 200 ft of the assigned level in RVSM airspace
C +/- 300 ft of the assigned level in RVSM airspace
✅ Answer: B — RVSM airspace tolerance is ±60 m (±200 ft). Non-RVSM is ±90 m (±300 ft). Note: Option B states 200 ft for RVSM which is correct per the text (±200 ft). ⚠️ Some interpretations use ±300 ft for non-RVSM. Per the source document: RVSM = ±200 ft; Other = ±300 ft.
Q.05An aircraft in climb or descent is considered to have crossed a level when the SSR mode C derived level information indicates that it has passed this level in the required direction by:
A +/- 300 ft
B More than 300 ft
C 300 ft
✅ Answer: B — The aircraft is considered to have crossed a level when SSR Mode C indicates it has passed through in the required direction by more than 300 ft (which aligns with the non-RVSM tolerance of ±300 ft / 90 m).
Q.06Secondary Surveillance Radar (SSR) information may be used alone in the provision of separation between aircraft provided:
A Instructions to pilot are acknowledged by him by making specific maneuver(s)
B Aircraft identification is established and maintained by use of discrete SSR codes
C It cannot be used for providing separation
✅ Answer: B — SSR alone can be used for separation provided aircraft identification is established and maintained by use of discrete SSR codes.
Q.07Radar identification of a departing aircraft can be achieved if a radar blip is observed within a certain distance from the end of the runway. Identification has to be achieved within:
A 1 NM
B 3 NM
C 5 NM
✅ Answer: A — PSR identification using the departing aircraft method must be established within 1 NM from the end of the runway used.
Q.08Separation based on the use of MLAT position symbols and PSR blips shall be applied so that:
A The distance between the centres of the position symbols and PSR blips, representing the positions of the aircraft concerned, is never less than a prescribed minimum
B The distance between the edges of the position symbols and PSR blips... is never less than a prescribed minimum
C The distance between the furthest edges... is never more than a prescribed minimum
✅ Answer: A — Separation is measured between the centres of the position symbols and PSR blips. The distance between centres must never be less than the prescribed minimum.
Q.09The air traffic control unit has reported "radar contact". What does that mean to the pilot?
A The aircraft is subject to positive control
B Position reports may be omitted
C The radar identity of the aircraft has been established
✅ Answer: C — "Radar contact" means the radar identity of the aircraft has been established. Further services are then provided based on this identification. Position reports may be omitted only when ATC specifically advises this.
Q.10When a RADAR operator says the following to an aircraft: "fly heading 030°", the pilot must fly heading:
A 030° magnetic in still air conditions (thereby flying the magnetic track)
B 030° compass in still air conditions (thereby flying the compass heading)
C 030° true, in still air conditions (thereby flying the true track)
✅ Answer: B — Radar vectors are related to magnetic headings only. The pilot flies the magnetic heading as indicated on the compass. In still air (no wind), the magnetic heading equals the magnetic track.
Q.11Which code shall be used on Mode "A" to provide recognition of an aircraft subjected to unlawful interference?
Q.12Upon intercepting the assigned radial, the controller advises you that you are on the airway and to "resume own navigation". This phrase means that:
A Radar services are terminated and you will be responsible for position reports
B You are to assume responsibility for your own navigation
C You are to contact the center at the next reporting point
✅ Answer: B — "Resume own navigation" means you assume responsibility for your own navigation (self-navigate using your instruments/FMS). Radar service itself may continue, but you navigate independently using the assigned route.
Q.13What does the ATC term "radar contact" signify?
A Your aircraft has been identified on the radar display and radar flight instructions will be provided until radar identification is terminated
B You will be given traffic advisories until advised that the service has been terminated or that radar contact has been lost
C ATC is receiving your transponder and will furnish vectors and traffic advisories until you are advised that contact has been lost
✅ Answer: A — "Radar contact" = aircraft identified on radar display. Radar flight instructions (which may include vectors and traffic advisories) will be provided until radar identification is terminated.
Q.14Where a "Secondary Surveillance Radar" (SSR) is not available, radar identification may be achieved by one of the following procedures:
A To instruct the pilot to execute one or more changes of 10°
B To instruct the pilot to execute one or more changes of 45°
C To instruct the pilot to execute one or more changes of 30° or more
✅ Answer: C — The Turn Method (PSR only) requires 30° or more heading change(s) to correlate the radar position with the specific aircraft.
Q.15When "Secondary Radar" is used, an aircraft may be identified by one of the following procedures:
A To request pilot to set transponder on position "OFF"
B To request pilot to switch from "ON" to "STBY"
C Observation of compliance with an instruction to operate transponder from "ON" to "STBY" and back to "ON"
✅ Answer: C — SSR identification by switching from ON → STBY → ON is equivalent to "squawk IDENT" type compliance verification. This correlates the radar response disappearance and reappearance with the specific aircraft.
Q.16The Air Traffic Control Service: do not prevent collisions with terrain.
A Wrong, they do prevent collisions with terrain
B Except when an aircraft is flying IFR in IMC
C Correct, except when an IFR flight is vectored by radar
✅ Answer: C — ATC does not generally prevent terrain collisions. However, when an IFR flight is being vectored by radar, the controller is responsible for providing terrain clearance, as the pilot is following ATC instructions rather than the published procedures that guarantee terrain clearance.
Q.17Which code shall be used on mode "A" to provide recognition of an emergency aircraft?
A Code 7600
B Code 7500
C Code 7700
✅ Answer: C — 7700 = Emergency (Distress / Urgency). This is the universal emergency transponder code recognised worldwide.
Q.18One of the functions ensured by a radar control unit for the provision of approach control service is:
A To conduct surveillance radar approaches
B To apply a horizontal separation less than 5 NM
C To provide instructions in order to reduce separations minima, if accepted by the pilots
✅ Answer: A — Surveillance radar is extensively used in approach control to conduct surveillance radar approaches (SRA), sequence traffic, and vector aircraft to position for approaches.
Q.19The primary duty provided by a radar unit is:
A To assist aircraft on the location of storms
B To provide radar separation
C To assist aircraft where navigation appears unsatisfactory
✅ Answer: B — The primary duty of a radar unit is to provide radar separation between identified aircraft — this is the core safety function of ATS surveillance service in ATC.
Q.20What is meant when departure control instructs you to "resume own navigation" after you have been vectored to an airway?
A Advisories will no longer be issued by ATC
B You are still in radar contact, but must make position reports
C You should maintain that airway by use of your navigation equipment
✅ Answer: C — "Resume own navigation" after being vectored to an airway means you should now maintain the airway using your own navigation equipment (VOR, FMS, GPS etc). You are responsible for staying on track.
Q.21All aircraft carrying serviceable transponder shall operate the transponder:
A At all times during flight, regardless of whether the aircraft is within or outside airspace where SSR is used for ATS purposes
B Only when the aircraft is flying within airspace where SSR is used for ATS purposes
C As and when required by the pilot
✅ Answer: A — Per DGCA / AIP India: All aircraft carrying a serviceable transponder shall operate the transponder at all times during flight within Chennai, Delhi, Guwahati, Kolkata and Mumbai FIR — regardless of whether SSR is used for ATS in that specific area.
SUMMARY
Quick Reference — All Critical Values
Parameter
Value
Condition / Notes
Standard Horizontal Separation (ICAO)
5.0 NM / 9.3 km
Radar / ADS-B / MLAT — default
Reduced Horizontal Separation
3.0 NM / 5.6 km
Where ATS authority permits; local capability
Final Approach Separation (same track)
2.5 NM / 4.6 km
Within 10 NM (18.5 km) of runway threshold; local factors permit
Departing Aircraft PSR ID — limit
1 NM
Must identify within 1 NM from end of runway
Turn Method — minimum heading change
30° or more
For PSR identification when SSR unavailable
RVSM altitude tolerance (Mode C / ADS-B)
±200 ft / ±60 m
RVSM airspace — hard limit
Non-RVSM altitude tolerance (Mode C / ADS-B)
±300 ft / ±90 m
Non-RVSM airspace; ATS may specify smaller
Speed limit — below 10,000 ft (all flights)
250 KT IAS
AIP India — arrivals and departures
Speed limit — arrivals within 15 NM of VOR/DME
220 KT IAS
AIP India — below 10,000 ft
Emergency transponder code
7700
Distress / General Emergency
Radio failure transponder code
7600
Communication failure (NORDO)
Unlawful interference transponder code
7500
Hijack / Unlawful seizure
Default code (no SSR assigned) — India
Mode A3 — 2000
Before entry into Chennai/Delhi/Guwahati/Kolkata/Mumbai FIR