ARPS Symbols

Had to share a site a came across. https://aprs.tools/

If you’ve ever used ARPS, I’m sure you have all of the symbols and what they mean memorized. All kidding aside, I know that I know the more common ones and can make educated guesses at a few others. But there is no reason anyone should know all of them. In fact, with a site like APRS.tools, you should never have to! This site is awesome for it’s catalog of all the APRS symbols and being able to just hover over them to tell you what they are.

Ham Radio Signal Reporting

In amateur radio, or “ham radio,” signal reporting is a way for operators to describe the quality and strength of a radio signal that they are receiving from another operator. Signal reporting is often used in ham radio to help assess the effectiveness of different antennas, radios, and operating techniques, and to provide feedback to other operators about the performance of their equipment and stations.

There are various ways to do signal reporting in ham radio, but here is a general outline of the process:

  1. Listen to the signal: Begin by listening to the signal that you are receiving from the other operator. Pay attention to the quality and clarity of the audio, as well as any interference or noise that you may hear.
  2. Assess the strength of the signal: Use a signal strength meter or other tool to measure the strength of the signal that you are receiving. This can give you a more objective measure of the signal’s performance and can help you to make more accurate signal reports.
  3. Use the RST/RSQ system: The RST/RSQ system is a standard system for signal reporting in ham radio, and it is used to describe the quality and strength of a signal. The RST/RSQ system consists of three elements: readability, strength, and tone or quality.
    • A detailed list of which modes use RST or RSQ can be found below.
    • To make a signal report using the RST system, you would describe the readability of the signal on a scale from 1 to 5, with 1 being unreadable and 5 being perfectly readable. Next, you would describe the strength of the signal on a scale from 1 to 9, with 1 being very weak and 9 being extremely strong. Finally, you would describe the tone of the signal, using terms such as “sharp,” “flat,” or “normal.”

Here is an example of a signal report using the RST system: “Your signal is a 579, with a readability of 5, strength of 7, and tone of 9.” This would indicate that the signal is of high quality and is extremely strong, with a clear and sharp tone.

It is important to remember that signal reporting is subjective and can be influenced by a variety of factors, such as the quality of the equipment, the operating conditions, and the skill of the operator. As a result, it is always a good idea to use multiple methods and tools to


Mode: SSB

  • System: Readability, Strength, and Quality (RSQ)
  • Report Definitions:
    • R is a value from 1 to 5. The value 5 means easy to understand, and 3 means difficult to understand; 1 and 2 are rarely used.
    • S is a value from 1 to 9. This number generally corresponds to the radio’s signal-strength-meter reading on voice peaks.
    • Q is a value from Q1 to Q5. This number indicates overall quality. Q5 indicates excellent readability; reports below Q3 are rare.

Mode: CW

  • System: Readability, Strength, and Tone (RST)
  • Report Definitions:
    • R is a value from 1 to 5; the values mean the same as for SSB.
    • S is a value from 1 to 9; the values mean the same as for SSB.
    • T is a value from 1 to 9. The value 9 is a pure tone, and 1 is raspy noise. The letter C is sometimes added to indicate a chirpy signal.

Mode: Digital (alternative)

  • System: Readability, Strength, and Quality (RSQ)
    • FT8, MSK144, JT65, etc. – the signal report built into the messages is the signal-to-noise ratio.
  • Report Definitions:
    • R is a value from 1 to 5. The values mean the same as for SSB.
    • S is a value from 1 to 9. The values mean the same as for SSB.
    • Q is a value from 1 to 9, reflecting the quality of your signal’s modulation.

Mode: FM

  • System: Level of quieting
    • The signal report is for the station calling, not the repeater’s output signal strength.
  • Report Definitions:
    • Full quieting means that all noise is suppressed. Scratchy means that noise is present, possibly enough to disrupt understanding. Flutter means rapid variations in strength as a vehicle is moving. Just making it means that the signal is only strong enough to activate the repeater and not good enough for contact.

Ham Radio Modes

There are many different modes that amateur radio operators, or “hams,” can use to communicate with each other. Here are a few examples of modern ham radio modes:

  1. Voice: This is the most common mode, and it involves using a microphone and radio to transmit and receive audio messages. Ham radio operators can use voice mode to communicate with other hams around the world, or simply to chat with friends in their local area.
  2. Digital: Digital modes allow hams to transmit and receive text and other data using their radios. Popular digital modes include RTTY (radioteletype), PSK (phase-shift keying), and JT65 (a type of digital voice mode). Digital modes are often used for long-distance communication, and they can be more efficient and easier to use than voice mode.
  3. Satellite: Hams can use their radios to communicate via satellite using specialized equipment. This can allow them to communicate with other hams around the world, even if they are in remote or inaccessible locations.
  4. High-frequency (HF): HF bands are radio frequencies that are used for long-distance communication. Hams can use HF bands to communicate with other hams around the world, even if they are thousands of miles apart.
  5. Low-frequency (LF): LF bands are radio frequencies that are used for very long-distance communication, often across continents or even around the globe. Hams can use LF bands to communicate with other hams around the world, although these frequencies can be more challenging to work with due to atmospheric conditions and other factors.

There are many other ham radio modes and techniques, and hams are always exploring and developing new ways to use their radios. Whether you are just starting out in amateur radio or you are an experienced operator, there is always something new to learn and explore in this exciting hobby.

Over the past few decades, there has been a significant evolution in the use of digital modes in amateur radio, also known as ham radio.

Voice Mode

Voice mode has been an important part of amateur radio, also known as ham radio, since the earliest days of the hobby. In voice mode, ham radio operators use a microphone and radio to transmit and receive audio messages with each other.

In the early days of ham radio, voice mode was the only way for hams to communicate with each other, and it remains a popular and important mode to this day. However, the evolution of technology has led to the development of many other modes, such as digital modes, which allow hams to transmit and receive text, data, and other types of information using their radios.

Despite the growth of other modes, voice mode remains an important part of amateur radio and is still widely used by hams around the world. Voice mode is often preferred for casual conversations and for making contact with other hams, particularly when working with less experienced operators or in emergency situations.

As technology continues to evolve, it is likely that voice mode will continue to play a vital role in amateur radio, and hams will continue to use it to communicate with each other in a variety of situations.

Digital Mode

In the early days of ham radio, most communication was done using voice mode, which involved using a microphone and radio to transmit and receive audio messages. While voice mode is still very popular, the development of digital modes has allowed hams to transmit and receive text, data, and other types of information using their radios.

One of the main advantages of digital modes is that they are often more efficient and easier to use than voice mode, particularly for long-distance communication. Digital modes also allow hams to transmit and receive information using computer software, which can make it easier to share and organize messages and data.

Here are a few of the digital modes that have been gaining in popularity amongst radio operators.

  1. FT8: This is a digital mode developed by Joe Taylor, K1JT, that is designed for fast and efficient communication over long distances. FT8 has become very popular in recent years, and it is widely used by hams around the world.
  2. WSPR: This is a digital mode developed by Joe Taylor, K1JT, that is designed for low-power communication over long distances. WSPR is often used by hams to test propagation conditions and to make contact with other hams around the world.
  3. JT65: This is a digital voice mode developed by Joe Taylor, K1JT, that is designed for efficient communication over long distances. JT65 is widely used by hams around the world, and it is particularly popular for making contact with other hams in distant locations.
  4. D-STAR: This is a digital voice and data mode developed by the Japan Amateur Radio League (JARL) that is used by hams around the world. D-STAR is popular for its high-quality audio and other advanced features, and it is often used for local and regional communication.
  5. DMR: This is a digital voice and data mode that is used by hams around the world. DMR is popular for its high-quality audio and other advanced features, and it is often used for local and regional communication.

These modes are used by hams around the world to communicate with each other, and they have helped to make amateur radio a more accessible and convenient hobby for many people.

As technology continues to evolve, it is likely that digital modes will continue to play an important role in amateur radio, and hams will continue to develop and use new and innovative ways to communicate with each other.

Satellite Mode

Satellite communication has played an important role in the evolution of amateur radio, also known as ham radio.

In the early days of ham radio, most communication was done using voice mode, which involved using a microphone and radio to transmit and receive audio messages. While voice mode is still very popular, the development of satellite communication has allowed hams to communicate with each other from virtually anywhere on the planet.

To use satellite mode, hams need specialized equipment and antennas that are capable of sending and receiving signals from satellites in orbit around the Earth. Many amateur radio satellites have been launched over the years, and they provide a convenient way for hams to communicate with each other, even if they are in remote or inaccessible locations.

In addition to providing long-distance communication, satellite mode has also helped to make amateur radio more accessible and convenient for many people. With the right equipment, hams can use satellite mode to communicate with each other from almost anywhere, even if they are traveling or on the go.

As technology continues to evolve, it is likely that satellite mode will continue to play an important role in amateur radio, and hams will continue to develop and use new and innovative ways to communicate with each other via satellite.

HF mode

High-frequency (HF) mode has played an important role in the evolution of amateur radio, also known as ham radio. HF bands are radio frequencies that are used for long-distance communication, and they are often preferred by hams for making contact with other operators around the world.

In the early days of ham radio, most communication was done using voice mode, which involved using a microphone and radio to transmit and receive audio messages. While voice mode is still very popular, the development of digital modes has allowed hams to transmit and receive text, data, and other types of information using their radios.

HF mode has also benefited from advances in technology, and hams can now use a variety of digital modes and techniques to communicate over HF bands. These modes are often more efficient and easier to use than voice mode, particularly for long-distance communication, and they have helped to make amateur radio more accessible and convenient for many people.

As technology continues to evolve, it is likely that HF mode will continue to play an important role in amateur radio, and hams will continue to develop and use new and innovative ways to communicate with each other over long distances.

LF Mode

Low-frequency (LF) mode has played a role in the evolution of amateur radio, also known as ham radio, although it is not as widely used as some of the other modes. LF bands are radio frequencies that are used for very long-distance communication, often across continents or even around the globe.

In the early days of ham radio, most communication was done using voice mode, which involved using a microphone and radio to transmit and receive audio messages. While voice mode is still very popular, the development of digital modes has allowed hams to transmit and receive text, data, and other types of information using their radios.

LF mode has also benefited from advances in technology, and hams can now use a variety of digital modes and techniques to communicate over LF bands. These modes are often more efficient and easier to use than voice mode, particularly for very long-distance communication, and they have helped to make amateur radio more accessible and convenient for many people.

However, LF bands can be more challenging to work with due to atmospheric conditions and other factors, and they are not as widely used as some of the other ham radio modes. Despite this, LF mode is still an important part of amateur radio, and hams continue to explore and develop new ways to use it to communicate with each other over long distances.

UHF, VHF, HF and LF

In amateur radio, also known as ham radio, UHF (ultra-high-frequency), VHF (very-high-frequency), HF (high-frequency), and LF (low-frequency) refer to different radio frequency bands that are used for communication.

UHF bands are radio frequencies that range from 300 MHz to 3 GHz, and they are often used for local or regional communication. UHF bands are popular among hams because they can provide good coverage over short to medium distances, and they are often less crowded than some of the other frequency bands.

VHF bands are radio frequencies that range from 30-300 MHz, and they are often used for local or regional communication. VHF bands are popular among hams because they can provide good coverage over short to medium distances, and they are often less crowded than some of the other frequency bands.

HF bands are radio frequencies that range from 3-30 MHz, and they are used for long-distance communication, often across continents or even around the globe. HF bands are popular among hams because they can be used to communicate with other hams around the world, and they can often be used to bypass local interference or other obstacles.

LF bands are radio frequencies that range from 30-300 kHz, and they are used for very long-distance communication, often across continents or even around the globe. LF bands are less commonly used than HF bands in ham radio, as they can be more challenging to work with due to atmospheric conditions and other factors. However, they can be useful for certain types of communication, such as during emergencies or when other modes are not available.

In general, hams use a variety of frequency bands and modes to communicate with each other, and the choice of frequency band and mode will depend on the specific needs and goals of the communication. Some hams may prefer to use UHF or VHF bands for local communication, while others may use HF (high-frequency) or LF (low-frequency) bands for long-distance communication.

What is Ham Radio?

Ham radio, also known as amateur radio, is a hobby that involves using radios to communicate with other people over short or long distances, without the use of the internet or commercial phone networks.

Ham radio operators, or “hams,” use a variety of equipment and frequencies to communicate, including voice, text, digital modes, and even images. Some hams use portable or mobile radios to communicate while on the go, while others set up permanent stations in their homes or other locations.

To become a ham radio operator, you will need to obtain a license from your country’s regulatory authority. This typically involves passing a written exam to demonstrate your understanding of radio theory, regulations, and operating procedures.

Once you have your license, you can start using ham radio to communicate with other hams around the world. You can participate in local or international ham radio clubs and organizations, or simply use your radio to chat with other hams in your area. Many hams also enjoy using their radios to assist with emergency communication efforts, such as during natural disasters or other emergencies.

Ham radio has a long and interesting history in the United States. The first amateur radio stations were established in the late 19th century, and the hobby has continued to grow and evolve over the years.

One of the early pioneers of amateur radio in the United States was Hiram Percy Maxim, who founded the American Radio Relay League (ARRL) in 1914. The ARRL is now the largest organization for amateur radio operators in the United States, and it serves as a clearinghouse for information, resources, and support for hams across the country.

During World War II, amateur radio operators played a vital role in providing communication support for the military, and many hams continue to provide emergency communication services during natural disasters and other emergencies.

In the late 20th and early 21st centuries, advances in technology have made it easier for amateur radio operators to communicate using digital modes and other techniques, and the hobby has continued to thrive and evolve. Today, there are over 750,000 licensed amateur radio operators in the United States, and the hobby is enjoyed by people of all ages and backgrounds. Ham radio can be a fun and rewarding hobby, and there are many resources available to help you get started, such as local ham radio clubs, online communities, and instructional videos.

US Amateur Radio Bands

The ARRL has created a very nice infographic that shows a breakdown of the various bands and the permissions that each license class has on that band.

US Amateur Radio Bands - ARRL infographic

Source Link: ARRL Band Chart


The ARRL also has another really nice graphic that just displays all of the Technician privileges.

Tech-Band-Chart-ARRL

Source Link: ARRL Tech Bands

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Phonetic Alphabet

The phonetic alphabet is a commonly accepted way to pronounce letters in a way that is distinct as possible so as to be easily understood by those who exchanged voice messages by radio or telephone, regardless of language differences or the quality of the connection.

NATO phonetic alphabet image
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Q Signals

Q-signals are a type of radio shorthand that is based on old wireless and telegraph codes. By using these universal abbreviations, we can easily communicate with amateur operators who might speak a different language and share information with them.

While the full meanings of the Q-signals are listed below in a second table, they are often used casually and very informally in conversation. When listening, you hear them used to simply substitute or replace a word. Here is a list of those more common “short” meanings.

SignMeaning
QRAName
QRBDistance
QRGFrequency
QRKIntelligibility
QRLBusy
QRMInterference
QRNNoise
QROHigh power
QRPLow power
QRQHigh speed CW
QRSLow speed CW
QRSSVery low speed CW
QRTShut down the station
QRVReady
QRXStand by
QRZ?Who is calling me?
QSBFading
QSDDefective keying
QSKBreak in
QSLConfirmation or card to confirm contact
QSORadio contact
QSYChange frequency
QTCMessage
QTHLocation
QTRTime

The Q-signals that amateurs radios operators use are a subset of the larger collection of International Q-signals. While they are based on older systems, today we use them all the time in ham radio. Here is a more detailed “formal” list of commonly used Q-signals.

Note that the Q-signal is only considered a question if it is followed by a “?” character.

SignQuestionAnswer
QRAWhat is the name (or call sign) of your station?The name (or call sign) of my station is …
QRBHow far are you from my station?The distance between our stations is … nautical miles (or km).
QRGWill you tell me my exact frequency (or that of …)?Your exact frequency (or that of … ) is … kHz (or MHz).
QRHDoes my frequency vary?Your frequency varies.
QRIHow is the tone of my transmission?The tone of your transmission is (1: good, 2: variable 3: bad)
QRKWhat is the readability of my signals (or those of …)?The readability of your signals (or those of …) is … (1: bad .. 5: excellent).
QRLAre you busy?I am busy. (or I am busy with … ) Please do not interfere.
QRMDo you have interference?I have interference.
QRNAre you troubled by static noise?I am troubled by static noise.
QROShall I increase transmit power?Please increase transmit power.
QRPShall I decrease transmit power?Please decrease transmit power.
QRQShall I send faster?Please send faster (… words per minute).
QRSShall I send more slowly?Please send more slowly (… words per minute).
QRTShall I cease or suspend operation?I am suspending operation.
QRUHave you anything for me?I have nothing for you.
QRVAre you ready?I am ready.
QRXShall I standby? / When will you call me again?Please standby. / I will call you again at … (hours) on … kHz (or MHz).
QRZWho is calling me?You are being called by … (on … kHz (or MHz)).
QSAWhat is the strength of my signals (or those of … )?The strength of your signals (or those of …) is … (1: very weak .. 5: very strong).
QSBAre my signals fading?Your signals are fading.
QSDIs my keying defective?Your keying is defective.
QSKCan you hear me between your signals (while transmitting), and if so can I break in on your transmission?I can hear you between my signals (while transmitting); break in on my transmission.
QSLCan you acknowledge receipt?I am acknowledging receipt.
QSMShall I repeat the last telegram (message) which I sent you, or some previous telegram (message)?Repeat the last telegram (message) which you sent me (or telegram(s) (message(s)) numbers(s) …).
QSNDid you hear me (or …) on … kHz (or MHz)?I did hear you (or …) on … kHz (or MHz).
QSOCan you communicate with … direct or by relay?I can communicate with … direct (or by relay through …).
QSPWill you relay a message to …?I will relay a message to … .
QSSWhat working frequency will you use?I will use … kHz (or MHz).
QSUShall I send or reply on this frequency (or on … kHz (or MHz))?Please send or reply on this frequency (or on … kHz (or MHz)).
QSVShall I send a series of “V” on this frequency (or on … kHz (or MHz))?Please send a series of “V” on this frequency (or on … kHz (or MHz)).
QSXWill you listen to … on … kHz (or MHz)?I am listening to … on … kHz (or MHz).
QSYShall I change transmission frequency (to … kHz (or MHz))?Please change transmission frequency (to … kHz (or MHz)).
QSZShall I send each word or group more than once?Send each word or group twice (or … times).
QTCHow many telegrams (messages) have you to send?I have … telegrams (messages) for you (or for …).
QTHWhat is your position in latitude and longitude (or according to any other indication)?My position is … latitude, … longitude.
QTRWhat is the correct time?The correct time is … hours.

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