Q-Codes Reference
Aviation Q-codes used in communications and meteorology — from QNH to QDM, with clear explanations of each.
Last reviewed: March 2026Q-codes are three-letter codes beginning with the letter Q, originally developed in 1909 for maritime radiotelegraphy to simplify communication between operators who did not share a common language. Each code can be used as a question (with a question mark) or a statement. Although most Q-codes have been superseded by plain-language radiotelephony in aviation voice communications, several remain in active daily use — particularly the pressure-setting codes QNH, QFE, and QNE, as well as bearing codes used in direction-finding. They are defined in the ITU Radio Regulations and referenced in ICAO Annex 10 (Aeronautical Telecommunications).
Pressure Setting Q-Codes
The pressure-setting Q-codes are among the most important concepts in aviation. They determine what your altimeter displays and are critical for terrain clearance, traffic separation, and safe approaches.
QNH — Altitude Above Mean Sea Level
QNH is the atmospheric pressure adjusted to mean sea level (MSL) using the International Standard Atmosphere (ISA). When QNH is set on the altimeter subscale, the instrument indicates altitude above mean sea level (AMSL). This is the most commonly used pressure setting in aviation worldwide.
- ATC provides the regional or aerodrome QNH to pilots.
- With QNH set, your altimeter reads aerodrome elevation when on the ground.
- Used for all flight below the transition altitude (typically 3,000–18,000 ft depending on the country).
- Ensures all aircraft in the same area share a common altitude reference, providing safe vertical separation from terrain and other traffic.
QFE — Height Above Aerodrome
QFE is the atmospheric pressure at the aerodrome reference point (runway threshold elevation). When QFE is set on the altimeter subscale, the instrument reads zero on the ground at that aerodrome and indicates height above aerodrome level during flight.
- Still used at some aerodromes in the United Kingdom, Russia, and several other countries.
- Convenient for circuit flying — pattern altitudes are read directly as height above the aerodrome.
- The main disadvantage is that QFE changes between aerodromes, so it cannot be used for en-route navigation or terrain clearance relative to sea level.
QNE — Standard Pressure (Flight Levels)
QNE refers to the indication on the altimeter when the standard pressure setting of 1013.25 hPa (29.92 inHg) is applied. The altimeter then indicates pressure altitude, and aircraft positions are expressed as flight levels (e.g., FL350 = 35,000 ft pressure altitude).
- Used above the transition altitude — the altitude at which pilots change from QNH to standard pressure.
- The transition level is the lowest flight level available above the transition altitude; the band between the two is the transition layer.
- Because all aircraft above the transition altitude use the same standard setting, vertical separation is maintained even though the true altitude may differ from the flight level.
- Transition altitude varies by country: 3,000 ft in parts of Europe, 5,000 ft in the UK, 18,000 ft in the USA and Canada.
QNH vs QFE vs QNE Comparison
| Code | Pressure Set | Altimeter Reads | On the Ground Shows | Typical Usage |
|---|---|---|---|---|
| QNH | Local pressure adjusted to MSL | Altitude AMSL | Aerodrome elevation | Below transition altitude; most common worldwide |
| QFE | Actual pressure at aerodrome level | Height above aerodrome | Zero (0 ft) | Circuit/pattern flying at specific aerodromes (UK, Russia) |
| QNE | Standard: 1013.25 hPa / 29.92 inHg | Pressure altitude (flight levels) | Pressure altitude of the aerodrome | Above transition altitude; all high-level en-route flight |
Critical safety note: Flying with the wrong pressure setting is a serious hazard. If QNH is lower than standard (1013.25 hPa) and you are using standard pressure, your true altitude is lower than what the altimeter indicates — risking controlled flight into terrain. The mnemonic is: “From high to low, look out below.”
Navigation Q-Codes
Navigation Q-codes are used in direction-finding (DF) operations. Although modern navigation relies on VOR, DME, and GNSS, these codes still appear in exam syllabi and are occasionally used in ATC communications.
| Code | Definition | Direction Reference | Relative To |
|---|---|---|---|
| QDM | Magnetic heading to steer to reach the station (assuming zero wind) | Magnetic | TO station |
| QDR | Magnetic bearing of the aircraft FROM the station | Magnetic | FROM station |
| QTE | True bearing of the aircraft FROM the station | True | FROM station |
| QUJ | True heading to steer to reach the station (assuming zero wind) | True | TO station |
Memory aid for navigation Q-codes: Think of the letter D for “Direction” — QDM and QDR use magnetic references. QDM points you towards the station (M = “Me going to”), while QDR points away (R = “Radial” / away). QTE uses true bearing from the station (T = True). QUJ is the true heading to the station.
Communication Q-Codes
Most communication Q-codes have been replaced by plain-language phraseology in modern voice communications. However, some remain in use for HF (high-frequency) operations, VOLMET services, and written communications such as NOTAMs and flight plans.
| Code | As a Question | As a Statement | Status |
|---|---|---|---|
| QRX | When will you call again? | I will call you again at [time] | Limited |
| QSY | Shall I change frequency? | Change to frequency [freq] | Limited |
| QGE | What is my distance from your station? | Your distance from my station is [distance] | Obsolete |
| QRV | Are you ready? | I am ready | Obsolete |
| QSO | Can you communicate with [station]? | I can communicate with [station] | Obsolete |
| QRZ | Who is calling me? | You are being called by [station] | Obsolete |
| QSL | Can you acknowledge receipt? | I acknowledge receipt | Obsolete |
Complete Q-Code Reference Table
The table below lists all Q-codes commonly referenced in aviation, including those used in examinations, meteorology, communications, and navigation. Codes marked Active are regularly used in current aviation operations. Those marked Limited see occasional use (e.g., HF comms, written messages). Codes marked Obsolete are no longer used in routine voice communications but may appear in exam questions or historical references.
| Code | Meaning (Question) | Meaning (Statement) | Status |
|---|---|---|---|
| QAM | What is the latest weather at [location]? | The latest weather at [location] is… | Obsolete |
| QAN | What is the surface wind at [location]? | The surface wind at [location] is… | Obsolete |
| QBA | What is the horizontal visibility at [location]? | The horizontal visibility at [location] is… | Obsolete |
| QBB | What is the cloud base at [location]? | The cloud base at [location] is… | Obsolete |
| QBI | Is flight under IFR compulsory? | Flight under IFR is compulsory | Obsolete |
| QDL | Do you intend to send a series of QDM bearings? | I intend to send a series of QDM bearings | Obsolete |
| QDM | What magnetic heading should I steer to reach you (zero wind)? | The magnetic heading to reach me (zero wind) is… | Active |
| QDR | What is my magnetic bearing from you? | Your magnetic bearing from me is… | Active |
| QFE | What is the atmospheric pressure at aerodrome level? | The atmospheric pressure at aerodrome level is… | Active |
| QFU | What is the magnetic direction of the runway in use? | The magnetic direction of the runway in use is… | Limited |
| QGE | What is my distance from your station? | Your distance from my station is… | Obsolete |
| QGH | May I make a controlled descent through cloud? | You may make a controlled descent through cloud | Limited |
| QMH | Shift to transmit on [frequency]? | Shift to transmit on [frequency] | Obsolete |
| QNE | What will my altimeter read on landing if set to 1013.25 hPa? | Your altimeter will read [value] on landing with 1013.25 hPa set | Active |
| QNH | What is the altimeter setting to obtain altitude AMSL? | The altimeter setting to obtain altitude AMSL is… | Active |
| QNY | What is the present weather at [location]? | The present weather at [location] is… | Obsolete |
| QRA | What is the name of your station? | The name of my station is… | Obsolete |
| QRV | Are you ready? | I am ready | Obsolete |
| QRX | When will you call me again? | I will call you again at [time] on [frequency] | Limited |
| QRZ | Who is calling me? | You are being called by [station] | Obsolete |
| QSL | Can you acknowledge receipt? | I acknowledge receipt | Obsolete |
| QSO | Can you communicate with [station] directly? | I can communicate with [station] directly | Obsolete |
| QSP | Will you relay to [station]? | I will relay to [station] | Obsolete |
| QSY | Shall I change to transmission on [frequency]? | Change to transmission on [frequency] | Limited |
| QTE | What is my true bearing from you? | Your true bearing from me is… | Active |
| QTF | Will you give me the position of my aircraft by DF bearings? | The position of your aircraft by DF bearings is… | Limited |
| QUJ | What true heading should I steer to reach you (zero wind)? | The true heading to reach me (zero wind) is… | Active |
Regional Usage
Although ICAO standards provide a universal framework, the practical use of Q-codes — particularly pressure settings — varies significantly between countries and regions.
| Region / Country | Pressure Setting Practice | Transition Altitude |
|---|---|---|
| United Kingdom | QNH used for en-route below TA. QFE still provided at many aerodromes, especially military and some GA fields. Pilots may request either. | Varies by airspace: typically 3,000–6,000 ft |
| Russia / CIS states | QFE traditionally used at aerodromes. QNH is increasingly adopted for international operations per ICAO recommendations. | Varies; often published per aerodrome |
| Continental Europe (ECAC) | QNH is the standard. QFE is rarely used. Some countries (France, Germany) use QNH exclusively. | Varies: 3,000–5,000 ft in most countries; harmonised transition altitude of 18,000 ft proposed |
| United States / Canada | Altimeter setting (equivalent to QNH) in inches of mercury (inHg). QFE is not used. Standard pressure above FL180. | 18,000 ft (FL180) |
| China | QNH used below transition altitude; standard pressure above. QFE available at some aerodromes on request. | Varies by aerodrome (typically 3,000–9,800 ft) |
| Middle East / Gulf States | QNH in hectopascals (hPa). Standard pressure above 13,000 ft at most locations. | 13,000 ft at many aerodromes |
Unit differences: QNH is given in hectopascals (hPa) in most of the world, but in inches of mercury (inHg) in the United States, Canada, and Japan. Always confirm the unit when receiving an altimeter setting, especially when flying internationally. 1013.25 hPa = 29.92 inHg.
Exam Tips — QNH, QFE & QNE
Q-codes relating to pressure settings are heavily tested in PPL, CPL, and ATPL examinations worldwide. Here are the key points examiners focus on:
Common exam questions and how to approach them:
- QNH vs QFE: You must know that QNH gives altitude (above MSL) while QFE gives height (above aerodrome). A favourite exam question asks what the altimeter reads on the ground with each setting — QNH shows aerodrome elevation; QFE shows zero.
- Transition altitude / transition level: Know that the transition altitude is where you change FROM QNH TO standard pressure (1013.25 hPa), and the transition level is the lowest usable flight level above it. The gap between them is the transition layer, which is never used as a cruising level.
- “From high to low” problems: Exams commonly present scenarios where an aircraft flies from a high-pressure area to a low-pressure area without updating QNH. The correct answer is that the true altitude is lower than indicated — a collision risk with terrain.
- QDM / QDR relationship: QDM and QDR differ by 180°. If your QDR (bearing FROM the station) is 090°, your QDM (heading TO the station) is 270°. Exams test this reciprocal relationship frequently.
- QTE vs QDR: The difference between QTE (true) and QDR (magnetic) is the magnetic variation at the station. Apply variation correctly: “Variation west, magnetic best (add); variation east, magnetic least (subtract).”
- Temperature corrections: In extremely cold conditions, QNH-based altimeter readings overestimate your true altitude. Some exams test whether you know to apply temperature corrections in cold weather operations (per ICAO Doc 8168).
Exam trap: Do not confuse QNE with a specific pressure value. QNE is not a pressure — it is the altimeter reading that results from setting standard pressure (1013.25 hPa). The standard pressure itself is just called “standard pressure” or “1013.”