The Linn Isobarik, nicknamed "Bariks" or "Briks", is a loudspeaker designed and manufactured by Linn Products. The Isobarik is known for both its reproduction of low bass frequencies and being very demanding on amplifiers.
Launched in 1973, the Isobarik DMS, Linn's maiden and flagship loudspeaker was based on and named for the isobaric loading principle invented in the 1950s. The speaker exists also as the Isobarik PMS – destined for the professional market. Although discontinued in 1992, it remains popular among audiophiles.
While other loudspeaker manufacturers sought to outperform each other to produce more quantum bass output from their products, Linn was seeking clear undistorted low frequency bass. Linn theorised a design whose bass could go all the way to DC and be without fundamental resonance. [1] The quest for that extra octave of "dry and extended bass sound" and more accurate reproduction resulted in the Isobarik. [2]
Linn launched the original Isobarik DMS loudspeaker in 1973, [3] the year following the release of its first product, the Sondek LP12. "DMS" is the contraction for "domestic monitor system", and is designed to be driven passively in the home setting – it incorporated a crossover within the loudspeaker cabinet. The Isobarik PMS ("professional monitor system") loudspeaker launched in 1977, destined for the professional market is without the internal crossover. This latter configuration opens up more wiring and driving options, in particular active operation and tri-amping. [1] [4]
The Isobarik is so named as it employs the isobaric loading principle invented by Harry Olson in the 1950s: two bass units are mounted in a sealed container and driven in parallel so as to effectively double the speaker enclosure volume and extend its bass frequency response beyond what would be possible for otherwise identical speakers. Linn used a variant of the isobaric principle and patented the use of two bass drive units ("woofers") facing forward in an isobaric arrangement in early 1974. [1]
In 1988, Linn externalised the crossover of the DMS to boards with nominal 4-ohm impedance designed to lie flat at the base of the stands. Upon that change, the original distinction between DMS and PMS disappeared along with the suffix designation. [1] The "DMS" was thus discontinued, although "Isobarik PMS" remained on price lists until the speaker was discontinued in 1992. [Note 1]
Linn brochures dwell little on performance specifications, mentioning somewhat vaguely that the frequency response "varies by only a few db from 20 Hz to 20 KHz with the isobaric loading extending usable bass response to below 10 Hz". Linn also claimed "very low distortion" and "high sound pressure levels", without quantification. Recommended amplifier power rating is in the range of 50–500 watts. [4] [5] Hi-Fi for Pleasure noted that the speakers' impedance, although quoted at 3 ohms nominal, dipped considerably at some parts of the audio spectrum. [Note 2] This made the DMS Isobarik very hard for amplifiers to drive, potentially causing many amplifiers' output protection to trip. [4] Equally, the two heavy woofers in each Isobarik made them twice as power-hungry. [1] [4] Such demands happened to make Naim amplification the perfect match because of its high current delivery capabilities and its toleration of near short circuits. [4] The Isobarik was famously used as the acid test for the budget-priced NAD 3020 amplifier at its UK launch. [6] In the 1970s, the DMS Isobarik, available in a number of veneers, sold for £1,000. [4]
As part of their corporate philosophy, Linn intended significant dealer involvement in customer education and decision-making, and included teaching customers how to listen correctly for musical attributes. [2] The trial and evaluation of the product prior to purchase and dealer's expert installation are considered by Linn to be important parts of the value added of their top-end products. [2] [4] As such, no instructions were supplied with the product. [4] The Isobaric PMS retailed at £2,400 including stands in May 1991, and the 4-ohm crossover was priced at just under £500. [Note 1]
As a three-way loudspeaker system employing six individual drive units, each Isobarik kabinet has two tweeters, two midrange drivers and two woofers. [7] One driver of each frequency range faces forward; a second tweeter and midrange are mounted on the top surface of the enclosure, and one bass unit is hidden from view. While the bass units are isobaric loaded, the midrange is mounted in a terminated transmission line. [5] Crossover points are set at 375 Hz between the woofer and midrange, and 3 kHz between the tweeter and midrange. [5] The upward-firing drivers were designed to aid dispersion and improve the off-axis listening experience. [1] [7]
The Isobarik, like the Sara and Kan that were developed in the 1970s and 80s, was designed to work best near room boundaries. [8] Manufacturer's leaflets advise positioning of the speaker close to a rear wall and approximately 2 to 3 feet (60 to 90 cm) from corners. [4] [7] The trade-off is the less than solid stereo image. [1] Linn declared forthrightly that loudspeakers that were not designed to work tight against a wall were without merit. According to Art Dudley of Stereophile, Linn also maintained provocatively that "anyone who would design, manufacture, buy, sell, or positively review a loudspeaker made to be installed away from room boundaries was a fool". [8]
In early product manuals, Linn recommended using the Isobarik PMS in tri-amped configuration with Naim amplifiers. [1] Three NAP 250 amplifiers, fed by a 3-way Naim electronic crossover, would typically be used, one for each pair of the doubled-up treble, midrange and bass units. [9] From its introduction in 1984, the monaural NAP 135 can be used in a "6-pack" configuration. [10]
After Linn had started manufacturing electronics and upon the release of the Isobarik Aktiv crossover, Linn declared that the 'AKTIV' system comprises: the source components plus one Linn LK1 preamplifier, one Linn Aktiv Isobarik crossover, three Linn LK2 power amplifiers, one pair of Linn Isobarik loudspeakers and the necessary cables. [11]
The loudspeaker cabinet measures 15 × 15 × 30 inches (38 × 38 × 76 cm). [7] The extremely rigid 55-litre cabinet is constructed using 19mm high-density particle board that is strategically damped in places, and extensively braced. [4] According to the manufacturer, there is an array of stressed steel rods inside the enclosure to control energy flows. The techniques employed ensure that energy that would have caused the unwanted motion of the front panel and drivers is cancelled by a similar but opposite energy from the upward facing units, resulting in the minimum amount of resonances. [5] The cabinets were initially made by Linn in their own factory, but the manufacturing was later outsourced to furniture-makers Leon Levin of Glasgow. [1]
Although the speaker uses bought-in drivers, they have been rebuilt using stronger materials. Drivers' metal baskets are treated to reduce the effects of vibration, and the enclosure designed and constructed to control energy. [5] The drive units (T27, B110 and B139) were sourced from KEF in kit form, and two KEFKIT3 kits were judiciously used for each cabinet. [1] [Note 3] However, Linn found the T27 tweeter too fragile and replaced it with the more robust and better-sounding D2008 from Scan-Speak after a very short run; [1] the Scan-Speak tweeter was later changed to a Linn D20-LP-1, sourced from Hiquphon in Denmark. [1] [Note 4] The midrange KEF B110, known for its use in the LS3/5A BBC monitor, [13] is a 100mm-diameter unit to which Linn applied a layer of doping. [Note 5] The woofer is a KEF B139. [4]
Each unit of the Isobarik cabinet weighs 40 kilograms (88 lb), and is designed to be placed on stands that are 33 centimetres (13 in) tall so that the tweeter is positioned at the listener's ear-level. [4] The speaker is supplied with heavy stands made from welded square cross-section tubing, to which top and bottom spikes are fitted prior to positioning the speaker cabinet. [14]
Input connections are established through 3-pin XLR connectors. [4] Later versions and the PMS version have banana sockets (see image).
The Isobarik loudspeaker has received some polarised opinions, although Hi-fi News noted that the speaker kept its promise by managing to "play the lowest bass guitar notes cleanly and give an impression of unlimited bass extension". [1] [16] The Linn/Naim triamped active system, using a LP12 source, Naim amplification and electronic crossovers together with the Isobarik PMS, was regarded as the pinnacle of "flat-earther" hi-fi systems, [9] [16] and the speaker is integral to the general aura of mysticism that went with the Linn/Naim equipment. [1]
The Isobarik Sara is a product concurrent with the PMS for the whole of its life. This 2-way, 4-ohm, design was a physically much smaller product – measuring 425 × 332 × 244 mm (16.7 × 13.1 × 9.6 in)– that required tall speaker stands. Launched in 1978, it was Linn's entry-level loudspeaker until the Kan (a non-isobaric bookshelf speaker using the same Linn D20-LP-1 and KEF B110 drive units as its big brother) was released. The Kan was discontinued in 1990. [17]
In the late 1980s, Linn worked on a replacement for the Isobarik. The project bearing the codename "Isobarik LS2000" became the Keltik. [18] Although the final product does not bear the Isobarik name, the technology was mentioned in marketing materials and the product manual. [19] Other products bearing the trade-marked "Isobarik" name include the Melodik Active Isobarik Bass and the Majik Isobarik (2011– ) [20]
A loudspeaker is an electroacoustic transducer, that is, a device that converts an electrical audio signal into a corresponding sound. A speaker system, also often simply referred to as a "speaker" or "loudspeaker", comprises one or more such speaker drivers, an enclosure, and electrical connections possibly including a crossover network. The speaker driver can be viewed as a linear motor attached to a diaphragm which couples that motor's movement to motion of air, that is, sound. An audio signal, typically from a microphone, recording, or radio broadcast, is amplified electronically to a power level capable of driving that motor in order to reproduce the sound corresponding to the original unamplified electronic signal. This is thus the opposite function to the microphone, and indeed the dynamic speaker driver, by far the most common type, is a linear motor in the same basic configuration as the dynamic microphone which uses such a motor in reverse, as a generator.
Audio crossovers are a type of electronic filter circuitry that splits an audio signal into two or more frequency ranges, so that the signals can be sent to loudspeaker drivers that are designed to operate within different frequency ranges. The crossover filters can be either active or passive. They are often described as two-way or three-way, which indicate, respectively, that the crossover splits a given signal into two frequency ranges or three frequency ranges. Crossovers are used in loudspeaker cabinets, power amplifiers in consumer electronics and pro audio and musical instrument amplifier products. For the latter two markets, crossovers are used in bass amplifiers, keyboard amplifiers, bass and keyboard speaker enclosures and sound reinforcement system equipment.
A tweeter or treble speaker is a special type of loudspeaker that is designed to produce high audio frequencies, typically deliver high frequencies up to 100 kHz. The name is derived from the high pitched sounds made by some birds (tweets), especially in contrast to the low woofs made by many dogs, after which low-frequency drivers are named (woofers).
A woofer or bass speaker is a technical term for a loudspeaker driver designed to produce low frequency sounds, typically from 50 Hz up to 1000 Hz. The name is from the onomatopoeic English word for a dog's bark, "woof". The most common design for a woofer is the electrodynamic driver, which typically uses a stiff paper cone, driven by a voice coil surrounded by a magnetic field.
Linn Products is an engineering company that manufactures hi-fi and audio equipment. Founded by Ivor Tiefenbrun in Glasgow, Scotland, in 1973, the company is best known as the manufacturer of the Linn Sondek LP12 turntable.
Klipsch Audio Technologies is an American loudspeaker company based in Indianapolis, Indiana. Founded in Hope, Arkansas, in 1946 as 'Klipsch and Associates' by Paul W. Klipsch, the company produces loudspeaker drivers and enclosures, as well as complete loudspeakers for high-end, high-fidelity sound systems, public address applications, and personal computers.
Celestion is a British designer and exporter of professional loudspeakers.
The LEAK Sandwich was an innovative loudspeaker design introduced by the English hi-fi company H. J. Leak & Co. in 1961. Harold Leak engaged Don Barlow, who had devised a way of making the cone of the loudspeaker from expanded polystyrene foam sandwiched between two sheets of aluminium foil. This made it both very light and extremely stiff, and correspondingly accurate in sound.
Rudolph Thomas Bozak (1910–1982) was an audio electronics and acoustics designer and engineer in the field of sound reproduction. His parents were Bohemian Czech immigrants; Rudy was born in Uniontown, Pennsylvania. Bozak studied at Milwaukee School of Engineering; in 1981, the school awarded him an honorary doctorate in engineering. Bozak married Lillian Gilleski; the two had three daughters: Lillian, Mary and Barbara.
A full-range loudspeaker drive unit is defined as a driver which reproduces as much of the audible frequency range as possible, within the limitations imposed by the physical constraints of a specific design. The frequency range of these drivers is maximized through the use of a whizzer cone and other means. Most single driver systems, such as those in radios, or small computer speaker designs, cannot reproduce all of the audible frequencies or the entire audible audio range.
A loudspeaker enclosure or loudspeaker cabinet is an enclosure in which speaker drivers and associated electronic hardware, such as crossover circuits and, in some cases, power amplifiers, are mounted. Enclosures may range in design from simple, homemade DIY rectangular particleboard boxes to very complex, expensive computer-designed hi-fi cabinets that incorporate composite materials, internal baffles, horns, bass reflex ports and acoustic insulation. Loudspeaker enclosures range in size from small "bookshelf" speaker cabinets with 4-inch (10 cm) woofers and small tweeters designed for listening to music with a hi-fi system in a private home to huge, heavy subwoofer enclosures with multiple 18-inch (46 cm) or even 21-inch (53 cm) speakers in huge enclosures which are designed for use in stadium concert sound reinforcement systems for rock music concerts.
The Isobaric loudspeaker configuration was first introduced by Harry F. Olson in the early 1950s, and refers to systems in which two or more identical woofers operate simultaneously, with a common body of enclosed air adjoining one side of each diaphragm. In practical applications, they are most often used to improve low-end frequency response without increasing cabinet size, though at the expense of cost and weight.
Bi-amping and tri-amping is the practice of using two or three audio amplifiers to amplify different audio frequency ranges, with the amplified signals being routed to different speaker drivers, such as woofers, subwoofers and tweeters. Biamping can be done with a single power amplifier if the device has more than one amplifier, as the case with a stereo power amp. Triamping cannot be done with a stereo power amp; a mono power amp would need to be added or a home theatre receiver could be used. With bi-amping and tri-amping, an audio crossover is used to divide a sound signal into different frequency ranges, each of which is then separately amplified and routed to separate loudspeaker drivers. In some bass amplifiers using bi-amping, the woofer and horn-loaded tweeter are in the same speaker enclosure. In some bi-amp set-ups, the drivers are in separate speaker enclosures, such as with home stereos that contain two speakers and a separate subwoofer.
A guitar speaker is a loudspeaker – specifically the driver (transducer) part – designed for use in a combination guitar amplifier of an electric guitar, or for use in a guitar speaker cabinet. Typically these drivers produce only the frequency range relevant to electric guitars, which is similar to a regular woofer type driver, which is approximately 75 Hz — 5 kHz, or for electric bass speakers, down to 41 Hz for regular four-string basses or down to about 30 Hz for five-string instruments.
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