Walkie-talkie
A walkie-talkie (more formally known as a handheld transceiver) is a hand-held portable, two-way radio transceiver. The first walkie-talkies were developed for military use during World War II, and spread to public safety and eventually commercial and jobsite work after the war. Major characteristics include a half-duplex channel (only one radio transmits at a time, though any number can listen) and a push-to-talk switch that starts transmission. Typical walkie-talkies resemble a telephone handset, possibly slightly larger but still a single unit, with an antenna sticking out of the top. Where a phone's earpiece is only loud enough to be heard by the user, a walkie-talkie's built-in speaker can be heard by the user and those in his immediate vicinity. Hand-held transceivers may be used to communicate between each other, or to vehicle-mounted or base stations.
History
The first radio receiver/transmitter to be nick-named "Walkie-Talkie" was the backpacked Motorola SCR-300, created by an engineering team in 1940 at the Galvin Manufacturing Company (fore-runner of Motorola). The team consisted of Dan Noble, who conceived of the design using frequency modulation, Henryk Magnuski who was the principal RF engineer, Marion Bond, Lloyd Morris, and Bill Vogel.
Motorola also produced the hand-held AM SCR-536 radio during World War II, and it was called the "Handie-Talkie" (HT). The terms are often confused today, but the original walkie talkie referred to the back mounted model, while the handie talkie was the device which could be held entirely in the hand (but had vastly reduced performance). Both devices ran on vacuum tubes and used high voltage dry cell batteries. Handie-Talkie became a trademark of Motorola, Inc. on May 22, 1951. The application was filed with the U.S. Patent and Trademark Office,and the trademark registration number is 71560123.
The abbreviation HT, derived from Motorola's "Handie Talkie" trademark, is commonly used to refer to portable handheld ham radios, with "walkie-talkie" used to designate more specialized commercial and personal radios. Surplus Motorola Handie Talkies found their way into the hands of ham radio operators immediately following World War II. Motorola's public safety radios of the 1950s and 1960s, were loaned or donated to ham groups as part of the Civil Defense program. To avoid trademark infringement, other manufacturers use designations such as "Handheld Transceiver" or "Handie Transceiver" for their products.
Al Gross also worked on the early technology behind the walkie-talkie between 1934 and 1941, and is sometimes said to actually have invented it.
Canadian Donald L. Hings was formally decorated for the invention of the walkie-talkie and its significance to the war effort.[1] Hing's model C-58 "Handy-Talkie" was in military service by 1942, following a secret R&D effort that began in 1940. The C-58 was in turn based on a civilian model originally developed by him in 1937.
Following World War II, Raytheon developed the SCR-536's military replacement, the AN/PRC-6. The AN/PRC-6 circuit uses 13 tubes (receiver and transmitter); a second set of 13 tubes is supplied with the unit as running spares. The unit is factory set with one crystal and may be changed to a different frequency in the field by replacing the crystal and re-tuning the unit. It uses a 24 inch whip antenna. There is an optional handset H-33C/PT that can be connected to the AN/PRC-6 by a 5 foot cable. A web sling is provided.
In the mid-1970s the Marine Corps initiated an effort to develop a squad radio to replace the unsatisfactory helmet-mounted AN/PRR-9 receiver and receiver/transmitter hand-held AN/PRT-4 (both developed by the Army). The AN/PRC-68 was first produced in 1976 by Magnavox, was issued to the Marines in the 1980s, and was adopted by the US Army as well.
Developments
Since even a powerful commercial walkie-talkie is limited to a few watts of power output and a small antenna (the physical size of the package limits both battery capacity and antenna size), hand-held communication range is typically quite short, not exceeding the line-of-sight distance to the horizon in open areas, and very much less in built-up areas, within buildings, or underground. Many radio services permit the use of a repeater which is located at some high point within the desired coverage area. The repeater listens on one frequency and retransmits on another, so that reliable hand-held to hand-held unit range can be extended to a few score miles (kilometers) or further, using repeaters linked together.
Some cellular telephone networks offer a push-to-talk handset that allows walkie-talkie-like operation over the ceullular network, without dialling a call each time. *
Walkie-talkies for public safety, commercial and industrial uses may be part of trunked radio systems, which dynamically allocate radio channels for more efficient use of limited radio spectrum.
Walkie Talkies Today
Walkie-talkies are widely used in any setting where portable radio communications are necessary, including business, public safety, outdoor recreation, and the like, and devices are available at numerous price points from inexpensive analog units sold as toys up to ruggedized (i.e. waterproof or intrinsically safe) analog and digital units for use on boats or in heavy industry. Most countries, at the very least, will allow the sale of walkie-talkies for business, marine communications, and some personal uses such as CB radio, as well as amateur radio designs. Walkie-talkies, thanks to increasing use of miniaturized electronics, can be made very small, with some personal two-way UHF radio models being smaller than a pack of cigarettes (though VHF and HF units can be substantially larger due to the need for larger antennas and battery packs). In addition, as costs come down, it is possible to add advanced squelch capabilities such as CTCSS (analog squelch) and DCS (digital squelch) (often marketed as "privacy codes) to inexpensive radios, as well as voice scrambling and trunking capabilities. Some units (especially amateur HTs) also include DTMF keypads for remote operation of various devices such as repeaters. Some models include VOX capability for hands-free operation, as well as the ability to attach external microphones and speakers.
Consumer and commercial equipment differ in a number of ways; commercial gear is generally ruggedized, with metal cases, and often has only a few specific frequencies programmed into it (often, though not always, with a computer or other outside programming device; older units can simply swap crystals), since a given business or public safety agent must often abide by a specific frequency allocation. Consumer gear, on the other hand, is generally made to be small, lightweight, and capable of accessing any channel within the specified band, not just a subset of assigned channels. Some companies, such as Icom, manufacture consumer and amateur gear that is built to commercial standards, but still retains consumer-grade functionality.
Walkie-talkies as toys
Low-power versions, exempt from licence requirements, are also popular children's toys. Prior to the change of CB radio from licensed to un-licensed status, the typical toy walkie-talkie available in North America was limited to 100 milliwatts of power on transmit and using one or two crystal-controlled channels in the 27 MHz citizens' band channels using amplitude modulation (AM) only. Later toy walkie-talkies operated in the 49 MHz band, some with frequency modulation (FM), shared with cordless phones and baby monitors. The lowest cost devices are very simple electronically (single-frequency, crystal-controlled, generally based on a simple discrete transistor circuit where "grownup" walkie-talkies use chips), may employ superregenerative receivers, and may lack even a volume control, but they may nevertheless be elaborately designed, often superficially resembling more "grown-up" radios such as FRS or public safety gear. Unlike more costly units, low-cost toy walkie-talkies may not have separate microphones and speakers; the receiver's speaker typically doubles as a microphone while in transmit mode.
An unusual feature, common on children's walkie-talkies but seldom available otherwise even on amateur models, is a "code key", that is, a button allowing the operator to transmit Morse code or similar tones to another walkie-talkie operating on the same frequency. Generally the operator depresses the PTT button and taps out a message using a Morse Code crib sheet attached as a sticker to the radio; however, as Morse Code has fallen out of wide use outside amateur radio circles, some such units either have a grossly simplified code label or no longer provide a sticker at all.
In addition, personal UHF radios will sometimes be bought and used as toys, though they are not generally explicitly marketed as such (but see Hasbro's ChatNow line, which transmits both voice and digital data on the FRS band).
Amateur radio
Walkie-talkies (generally known as HTs or "handheld transceivers" by radio hams) are widely used among amateur radio operators; while converted commercial gear by companies such as Motorola are not uncommon, many companies such as Yaesu, Icom, and Kenwood design models specifically for amateur use. While superficially similar to commercial and personal units (including such things as CTCSS and DCS squelch functions, used primarily to activate amateur radio repeaters), amateur gear usually has a number of features that are not common to other gear, including:
- Connectors for external antennas (i.e. replacing the stock antenna with one of higher gain) or amplifiers.
- Wide-band receivers, often including radio scanner functionality, for listening to non-amateur radio bands.
- Multiple bands; while some operate only on specific bands such as 2 meters or 70 cm, others support several or all of the UHF and VHF amateur allocations available to the user.
- Amateur HTs are usually frequency-agile, meaning that since amateur allocations usually are not channelized, the user can dial in any frequency desired.
- Multiple modulation schemes: While most commercial and personal walkie-talkies operate using frequency modulation (though some CB gear uses amplitude modulation instead), amateur HTs can support either one of those as well as Morse code and digital modes such as radioteletype or PSK31. Whether consumer or commercial gear can support such modes is dependent largely on the manufacturer and the regulatory agency approving the design of the equipment.
A few amateur HTs also have TNCs built in to support packet radio without additional hardware.
As mentioned, high-end commercial walkie-talkies can sometimes be reprogrammed to operate on amateur frequencies; this is often done due to a perception that commercial gear is more solidly constructed or better designed than purpose-built amateur gear.
Personal walkie-talkies
The personal walkie-talkie has become popular also because of the U.S. Family Radio Service (FRS) and similar unlicensed services (such as Europe's PMR446 and Australia's UHF CB) in other countries. While FRS walkie-talkies are also sometimes used as toys because mass-production makes them low cost, they have proper superheterodyne receivers and are a useful communication tool for both business and personal use. The boom in unlicensed transceivers has however been a source of frustration to users of licensed services that are sometimes interfered with (for example, FRS and GMRS overlap in the United States, resulting in substantial pirate use of the GMRS frequencies and requiring Canada to reallocate frequencies for unlicensed use due to heavy interference from US GMRS users, while the European PMR446 channels fall in the middle of a United States UHF amateur allocation and the US FRS channels interfere with public safety communications in the United Kingdom). Designs for personal walkie-talkies are in any case tightly regulated, generally requiring non-removable antennas (with a few exceptions such as CB radio and the United States MURS allocation) and forbidding modified radios.
Most personal walkie-talkies sold are designed to operate in UHF allocations, and are designed to be very compact, with buttons for changing channels and other settings on the face of the radio and a short, fixed antenna. Most such units are made of heavy, often brightly colored plastic, though some more expensive units have ruggedized metal or plastic cases. Commercial-grade radios are often designed to be used on allocations such as GMRS or MURS (the latter of which has had very little readily available purpose-built equipment). In addition, CB walkie-talkies are available, but less popular due to the propagation characteristics of the 27 MHz band and the general bulkiness of the gear involved.
While not frequency-agile in the same manner as amateur radio HTs, personal walkie-talkies are generally designed to give easy access to all available channels (and, if supplied, squelch codes) within the device's specified allocation.
Personal two-way radios are also sometimes combined with other electronic devices; Garmin's Rino series combine a GPS receiver in the same package as an FRS/GMRS walkie-talkie (allowing Rino users to transmit digital location data to each other), while DingoTel allows the interfacing of FRS gear to a VoIP connection. Some personal radios also include receivers for AM and FM broadcast radio and, where applicable, NOAA Weather Radio and similar systems broadcasting on the same frequencies.
While jobsite and government radios are often rated in power output, consumer radios are frequently and controversially rated in mile or kilometer ratings; because of the line of sight propagation of UHF signals, however, experienced users consider such ratings to be wildly exaggerated, and some manufacturers have begun printing range ratings on the package based on terrain as opposed to simple power output.
While the bulk of personal walkie-talkie traffic is in the 27 MHz area and in the 400-500 MHz area of the UHF spectrum, there are some units that use the 49 MHz band (shared with cordless phones, baby monitors, and similar devices) as well as the 900 MHz band (a company called TriSquare is, as of July 2007, marketing a series of walkie-talkies in the United States based on frequency-hopping spread spectrum technology operating in this frequency range under the name eXRS (eXtreme Radio Service -- despite the name, a proprietary design, not an official allocation of the US FCC)).
Specialized uses
In addition to standard commercial and consumer gear, walkie-talkie designs are also occasionally used for marine VHF and aviation communications, especially on smaller boats and aircraft where mounting a fixed radio might be impractical or expensive. While the operating requirements for such allocations are vastly different from land mobile usage, the technology is fundamentally the same. Often such units will have switches to provide quick access to emergency and information channels.
Intrinsically safe walkie-talkies are often required in heavy industrial settings where fire or explosive risks triggered by radio signals are possible.
See also
References
External links
- Build your own intercom or walkie talkie out of two old cordless phones
- Picture of a SCR-536 Handie-Talkie
- SCR-300-A Technical Manual
- U.S. Army Signal Corp Museum - exhibits and collections
- About.com - The Invention of Radio
- Al Gross, 2000 Lemelson-MIT Lifetime Achievement Award Winner, developed the "walkie-talkie".
- WGBH People and Discoveries - Lee de Forest "Father of Radio"
- RetroCom, a collection of vintage radio gear images and articles.
- Simple VHF walkie-talkie circuit (note: requires an experienced builder, and may be illegal to operate without a proper license from your local communications agency)
Further reading
Dunlap, Orrin E., Jr. Marconi: The man and his wireless. (Arno Press., New York: 1971)
Harlow, Alvin F., Old Waves and New Wires: The History of the Telegraph, Telephone, and Wireless. (Appleton-Century Co., New York: 1936)
Herrick, Clyde N., Radio: Theory and Servicing. (Reston Publishing Company, Inc., Viriginia 1975)
Martin, James. Future Developments in Telecommunications 2nd Ed., (Prentice Hall Inc., New Jersey: 1977)
Martin, James. The Wired Society. (Prentice Hall Inc., New Jersey: 1978)
Silver, H. Ward. Two-Way Radios and Scanners for Dummies. (Wiley Publishing, Hoboken, NH, 2005, ISBN 978-0-7645-9582-0)