{"success":true,"data":{"description":"<p><span class=\"main\"> Small, light and cool-running, these one-rack-unit <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Digital:] body=[&lt;table width=300&gt;&lt;td&gt;A digital system is a data technology that uses discrete (discontinuous) values. By contrast, non-digital (or analog) systems use a continuous range of values to represent information. Although digital representations are discrete, the information represented can be either discrete, such as numbers, letters or icons, or continuous, such as sounds, images, and other measurements of continuous systems.&lt;br&gt;&lt;br&gt;The word digital comes from the same source as the word digit and digitus (the Latin word for finger), as fingers are used for discrete counting.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Digital<\/span> <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Amps:] body=[&lt;table width=300&gt;&lt;td&gt;Units of measurement of electrical current.  Current is the flow of electrical charge carriers, usually electrons, through an electronic circuit. Using the analogy of water flowing through a pipe, current is the equivalent of the flow of water moving through it.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Amps<\/span> deliver more power than most two-rack-unit <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Amps:] body=[&lt;table width=300&gt;&lt;td&gt;Units of measurement of electrical current.  Current is the flow of electrical charge carriers, usually electrons, through an electronic circuit. Using the analogy of water flowing through a pipe, current is the equivalent of the flow of water moving through it.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Amps<\/span>. They have proven themselves in the most demanding venues. From DJs to <span class=\"dictionary\">Sound<\/span> professionals, everyone loves these <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Digital:] body=[&lt;table width=300&gt;&lt;td&gt;A digital system is a data technology that uses discrete (discontinuous) values. By contrast, non-digital (or analog) systems use a continuous range of values to represent information. Although digital representations are discrete, the information represented can be either discrete, such as numbers, letters or icons, or continuous, such as sounds, images, and other measurements of continuous systems.&lt;br&gt;&lt;br&gt;The word digital comes from the same source as the word digit and digitus (the Latin word for finger), as fingers are used for discrete counting.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Digital<\/span> wonders.<br \/><br \/>A <span class=\"dictionary\">Digital<\/span> <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Amp:] body=[&lt;table width=300&gt;&lt;td&gt;Generally, an amplifier is any device that will convert one signal (often with a very small amount of energy, a few milliwatts) into another signal (often with a larger amount of energy e.g. several hundred watts).  A power amplifier converts a low-power signal from a pre-amplifier into a high-power signal (tens to hundreds of watts) needed to drive a loudspeaker.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Amp<\/span>? Absolutely! Why <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Digital:] body=[&lt;table width=300&gt;&lt;td&gt;A digital system is a data technology that uses discrete (discontinuous) values. By contrast, non-digital (or analog) systems use a continuous range of values to represent information. Although digital representations are discrete, the information represented can be either discrete, such as numbers, letters or icons, or continuous, such as sounds, images, and other measurements of continuous systems.&lt;br&gt;&lt;br&gt;The word digital comes from the same source as the word digit and digitus (the Latin word for finger), as fingers are used for discrete counting.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Digital<\/span>? For starters, it's small and powerful. The <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Digital:] body=[&lt;table width=300&gt;&lt;td&gt;A digital system is a data technology that uses discrete (discontinuous) values. By contrast, non-digital (or analog) systems use a continuous range of values to represent information. Although digital representations are discrete, the information represented can be either discrete, such as numbers, letters or icons, or continuous, such as sounds, images, and other measurements of continuous systems.&lt;br&gt;&lt;br&gt;The word digital comes from the same source as the word digit and digitus (the Latin word for finger), as fingers are used for discrete counting.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Digital<\/span> Series are one-rack-unit <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Amps:] body=[&lt;table width=300&gt;&lt;td&gt;Units of measurement of electrical current.  Current is the flow of electrical charge carriers, usually electrons, through an electronic circuit. Using the analogy of water flowing through a pipe, current is the equivalent of the flow of water moving through it.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Amps<\/span> that deliver more power than most two-rack-unit <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Amps:] body=[&lt;table width=300&gt;&lt;td&gt;Units of measurement of electrical current.  Current is the flow of electrical charge carriers, usually electrons, through an electronic circuit. Using the analogy of water flowing through a pipe, current is the equivalent of the flow of water moving through it.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Amps<\/span>. Plus, it's light. The next time you're setting up and tearing down your equipment, think about that. It's also a cool <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Amp:] body=[&lt;table width=300&gt;&lt;td&gt;Generally, an amplifier is any device that will convert one signal (often with a very small amount of energy, a few milliwatts) into another signal (often with a larger amount of energy e.g. several hundred watts).  A power amplifier converts a low-power signal from a pre-amplifier into a high-power signal (tens to hundreds of watts) needed to drive a loudspeaker.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Amp<\/span> - not just in the John Travolta way - but temperature-wise. And please don't think of <span class=\"dictionary\">Digital<\/span> amplifiers as not being up to par with the <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Amps:] body=[&lt;table width=300&gt;&lt;td&gt;Units of measurement of electrical current.  Current is the flow of electrical charge carriers, usually electrons, through an electronic circuit. Using the analogy of water flowing through a pipe, current is the equivalent of the flow of water moving through it.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Amps<\/span> you're used to. They've proven themselves in action in the most demanding venues. From DJs to <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Sound:] body=[&lt;table width=300&gt;&lt;td&gt;Sound is a travelling wave which is an oscillation of pressure transmitted through a solid, liquid, or gas, composed of frequencies within the range of hearing and of a level sufficiently strong to be heard, or the sensation stimulated in organs of hearing by such vibrations.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Sound<\/span> professionals, people everywhere are falling in love with them. If high  performance all night long is a requirement, you will too. <\/span><\/p>\r\n<p><span class=\"main\"><strong>Features:<\/strong><\/span><span class=\"main\"> <br \/>&bull; <\/span><span class=\"main\"><span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Class H:] body=[&lt;table width=300&gt;&lt;td&gt;If an amplifier has more than one voltage rail then it is designated Class H. Its operation involves changing the power supply voltage from a lower level to a higher level when larger output swings are required. For most musical program material the output stage is connected to the lower supply voltage, and automatically switches to the higher rails for large signal peaks. In fact the input signal actually modulates the higher supply voltage. This allows the power supply to track the audio input and provide just enough voltage for optimum operation of the output devices. Using multiple power supplies improves efficiency enough to allow significantly more power for a given size and weight.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Class H<\/span><\/span><br \/><span class=\"main\">&bull; <\/span><span class=\"main\">Space saving 1 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Rack Unit:] body=[&lt;table width=300&gt;&lt;td&gt;A rack unit or U (less commonly, RU) is a unit of measure used to describe the height of equipment intended for mounting in a 19-inch rack or a 23-inch rack (The dimension refers to the width of the equipment mounting frame in the rack i.e. the width of the equipment that can be mounted inside the rack). One rack unit is 1.75 inches (44.45 mm) high.&lt;br&gt;The size of a piece of rack mounted equipment is frequently described as a number in &quot;U&quot;. For example, one rack unit is often referred to as &quot;1U&quot;, 2 rack units as &quot;2U&quot; and so on.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\"><span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Rack:] body=[&lt;table width=300&gt;&lt;td&gt;A 19-inch rack is a standardized frame or enclosure for mounting multiple equipment modules. Each module has a front panel that is 19 inches (480 mm) wide, including edges or ears that protrude on each side which allow the module to be fastened to the rack frame with screws.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Rack<\/span> Unit<\/span> design<\/span><br \/><span class=\"main\">&bull; <\/span><span class=\"main\">Superior <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Signal to Noise Ratio:] body=[&lt;table width=300&gt;&lt;td&gt;Signal-to-noise ratio (often abbreviated SNR or S\/N) is an electrical engineering measurement, also used in other fields (such as scientific measurement or biological cell signaling), defined as the ratio of a signal power to the noise power corrupting the signal. A ratio higher than 1:1 indicates more signal than noise.&lt;br&gt;In less technical terms, signal-to-noise ratio compares the level of a desired signal (such as music) to the level of background noise. The higher the ratio, the less obtrusive the background noise is.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\"><span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Signal to Noise:] body=[&lt;table width=300&gt;&lt;td&gt;Signal-to-noise ratio (often abbreviated SNR or S\/N) is an electrical engineering measurement, also used in other fields (such as scientific measurement or biological cell signaling), defined as the ratio of a signal power to the noise power corrupting the signal. A ratio higher than 1:1 indicates more signal than noise.&lt;br&gt;&lt;br&gt;In less technical terms, signal-to-noise ratio compares the level of a desired signal (such as music) to the level of background noise. The higher the ratio, the less obtrusive the background noise is.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Signal to <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Noise:] body=[&lt;table width=300&gt;&lt;td&gt;In sound production, noise can be classified as hum, buzz or hiss, crosstalk or digital hash.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Noise<\/span><\/span> Ratio<\/span><\/span><br \/><span class=\"main\">&bull; <\/span><span class=\"main\">60% lower <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Phase:] body=[&lt;table width=300&gt;&lt;td&gt;(&quot;In-phase\/Out-of-phase&quot;) Actually refers to the polarity of an electrical or acoustic signal. If two or more signals or devices are &quot;out-of-phase&quot; with respect to each other, cancellation or other disturbance of the combined output can result. Some examples of operating phase (polarity) definitions: &quot;Positive sound pressure causes positive output&quot; (microphones) or &quot;positive input causes positive acoustic output&quot; (speakers).&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Phase<\/span> impact<\/span><br \/><span class=\"main\">&bull; <\/span><span class=\"main\">Overheat, over-current, <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Voltage:] body=[&lt;table width=300&gt;&lt;td&gt;A unit of measure of electromotive force (resulting from a difference in electrical potential) equal to the force required to produce a current of one ampere through an element having a resistance of one ohm.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Voltage<\/span> and short circuit protection<\/span><br \/><span class=\"main\">&bull; <\/span><span class=\"main\">High quality PWM <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Digital:] body=[&lt;table width=300&gt;&lt;td&gt;A digital system is a data technology that uses discrete (discontinuous) values. By contrast, non-digital (or analog) systems use a continuous range of values to represent information. Although digital representations are discrete, the information represented can be either discrete, such as numbers, letters or icons, or continuous, such as sounds, images, and other measurements of continuous systems.&lt;br&gt;The word digital comes from the same source as the word digit and digitus (the Latin word for finger), as fingers are used for discrete counting.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Digital<\/span> convertors<\/span><br \/><span class=\"main\">&bull; <\/span><span class=\"main\">NL4 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Speakon:] body=[&lt;table width=300&gt;&lt;td&gt;The Speakon is a type of cable connector, originally manufactured by Neutrik, mostly used in professional audio systems for connecting loudspeakers to amplifiers. The same manufacturer produces another connector dubbed PowerCon, which is designed to carry mains power rather than audio signal. The audio and power designs cannot connect to each other.&lt;br&gt;A Speakon connector is designed with a locking system that may be designed for soldered or screw-type connections. Line connectors (female) mate with (male) panel connectors and typically a cable will have identical connectors at both ends. If it is needed to join cables, a coupler can be used (which essentially consists of two panel connectors mounted on the ends of a plastic tube). Recently the manufacturer has introduced a new series called STX which includes also male line connectors and female panel connectors (in the four-pole and eight-pole version only).&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Speakon<\/span> output connectors only<\/span><br \/><span class=\"main\">&bull; <\/span><span class=\"main\">Bridge mode not available<\/span><span class=\"main\"><strong> <\/strong><\/span><\/p>\r\n<p><span class=\"main\"><strong>Power:<\/strong><\/span><span class=\"main\"> <br \/>&bull; <\/span>8 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Ohms:] body=[&lt;table width=300&gt;&lt;td&gt;The unit by which resistance to electrical current is measured. From Ohm's Law (Current=Voltage\/Resistance, or in other words, Current=Voltage\/Ohms), a mathematical expression of the relationship between these three elements. It is also symbolized by the Greek capital letter omega (&amp;#937;).&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Ohms<\/span> - 1000 W<span class=\"main\"> <span class=\"main\"><br \/>&bull; <\/span>4 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Ohms:] body=[&lt;table width=300&gt;&lt;td&gt;The unit by which resistance to electrical current is measured. From Ohm's Law (Current=Voltage\/Resistance, or in other words, Current=Voltage\/Ohms), a mathematical expression of the relationship between these three elements. It is also symbolized by the Greek capital letter omega (&amp;#937;).&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Ohms<\/span> - 1700 W<\/span><span class=\"main\"> <span class=\"main\"><br \/>&bull; <\/span>2 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Ohms:] body=[&lt;table width=300&gt;&lt;td&gt;The unit by which resistance to electrical current is measured. From Ohm's Law (Current=Voltage\/Resistance, or in other words, Current=Voltage\/Ohms), a mathematical expression of the relationship between these three elements. It is also symbolized by the Greek capital letter omega (&amp;#937;).&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Ohms<\/span> - 3100 W<\/span><span class=\"main\"><strong>&nbsp;<\/strong><\/span><\/p>\r\n<p><span class=\"main\"><strong>Specifications:<\/strong><\/span><span class=\"main\"><span class=\"main\"> <br \/>&bull; <\/span>Inputs \/ imp: <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Balanced:] body=[&lt;table width=300&gt;&lt;td&gt;An audio line comprising three conductors: two carrying signal and a ground (shield) wire, in which one of the signal wires carries the sound and the other carries an inverted copy. When the signal reaches the destination, the inverted copy is flipped and added to the original. Any noise that has been induced into the signal is also inverted. When this is combined with the &quot;uninverted&quot; noise, it cancels it out. Balanced lines thus are less susceptible to hum and can carry audio signals over longer distances. Balanced audio lines typically use 3-pin XLR or 1\/4-inch tip-ring-sleeve, phone connectors.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Balanced<\/span> <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; XLR:] body=[&lt;table width=300&gt;&lt;td&gt;The XLR connector is an electrical connector design. XLR plugs and sockets are used mostly in professional audio and video electronics cabling applications, often for microphones. Home audio and video electronics normally use RCA connectors for line level signals generated by a preamplifier. Phone plugs are also used for microphones in home and computer applications.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">XLR<\/span> &amp; <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; TRS:] body=[&lt;table width=300&gt;&lt;td&gt;A TRS connector (tip, ring, sleeve) also called an audio jack, phone jack, phone plug, jack plug, stereo plug, mini-jack, mini-stereo, or headphone jack, is a common analog audio connector. It is cylindrical in shape, typically with three contacts, although sometimes with two (a TS connector) or four (a TRRS connector).&lt;br&gt;It was invented for use in telephone switchboards in the 20th century and is still widely used, both in its original 1\/4&quot; (exactly 6.35 mm) size and in miniaturized versions: 3.5 mm (approx. 1\/8&quot;) and 2.5 mm (approx. 3\/32&quot;). The connector's name is an initialism derived from the names of three conducting parts of the plug: Tip, Ring, and Sleeve - hence, TRS.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">TRS<\/span> 1\/4\" connectors. Nominal <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Impedance:] body=[&lt;table width=300&gt;&lt;td&gt;Electrical impedance, or simply impedance, describes a measure of opposition to alternating current (AC). Electrical impedance extends the concept of resistance to AC circuits, describing not only the relative amplitudes of the voltage and current, but also the relative phases. When the circuit is driven with direct current (DC) there is no distinction between impedance and resistance; the latter can be thought of as impedance with zero phase angle.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Impedance<\/span> of 20k <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Ohms:] body=[&lt;table width=300&gt;&lt;td&gt;The unit by which resistance to electrical current is measured. From Ohm's Law (Current=Voltage\/Resistance, or in other words, Current=Voltage\/Ohms), a mathematical expression of the relationship between these three elements. It is also symbolized by the Greek capital letter omega (&amp;#937;).&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Ohms<\/span><\/span><span class=\"main\"> <br \/><span class=\"main\">&bull; <\/span>Outputs: <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Speakon:] body=[&lt;table width=300&gt;&lt;td&gt;The Speakon is a type of cable connector, originally manufactured by Neutrik, mostly used in professional audio systems for connecting loudspeakers to amplifiers. The same manufacturer produces another connector dubbed PowerCon, which is designed to carry mains power rather than audio signal. The audio and power designs cannot connect to each other.&lt;br&gt;A Speakon connector is designed with a locking system that may be designed for soldered or screw-type connections. Line connectors (female) mate with (male) panel connectors and typically a cable will have identical connectors at both ends. If it is needed to join cables, a coupler can be used (which essentially consists of two panel connectors mounted on the ends of a plastic tube). Recently the manufacturer has introduced a new series called STX which includes also male line connectors and female panel connectors (in the four-pole and eight-pole version only).&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Speakon<\/span> NL4MP<br \/> <span class=\"main\">&bull; <\/span><span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Frequency Response:] body=[&lt;table width=300&gt;&lt;td&gt;The actual range or span of frequencies from low to high that a unit can pass or reproduce. In terms of audio recording studios, this is usually limited to the range of 20 Hz to 20,000 Hz, which represents the full range of human hearing.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\"><span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Frequency:] body=[&lt;table width=300&gt;&lt;td&gt;The number of times a periodic waveform cycles, or repeats, over a period of time.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Frequency<\/span> Response<\/span>: 20 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Hz:] body=[&lt;table width=300&gt;&lt;td&gt;A unit of measure of the frequency of a vibrating object, such as a guitar string, speaker cone or electrical signal. Equivalent to cycles per second, it is named for Heinrich Hertz and abbreviated &quot;Hz.&quot;&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Hz<\/span> - 20 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; kHz:] body=[&lt;table width=300&gt;&lt;td&gt;Kilohertz, 1,000 Hertz, or one thousand cycles per second.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">kHz<\/span> (+0.1dB\/-3.0dB)<br \/> <span class=\"main\">&bull; <\/span><span class=\"dictionary\">THD<\/span> + N: &lt; 0.05 % 1KHz @ 1 <span class=\"dictionary\">Watt<\/span><br \/> <span class=\"main\">&bull; <\/span><span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Signal to Noise Ratio:] body=[&lt;table width=300&gt;&lt;td&gt;Signal-to-noise ratio (often abbreviated SNR or S\/N) is an electrical engineering measurement, also used in other fields (such as scientific measurement or biological cell signaling), defined as the ratio of a signal power to the noise power corrupting the signal. A ratio higher than 1:1 indicates more signal than noise.&lt;br&gt;In less technical terms, signal-to-noise ratio compares the level of a desired signal (such as music) to the level of background noise. The higher the ratio, the less obtrusive the background noise is.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\"><span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Signal to Noise:] body=[&lt;table width=300&gt;&lt;td&gt;Signal-to-noise ratio (often abbreviated SNR or S\/N) is an electrical engineering measurement, also used in other fields (such as scientific measurement or biological cell signaling), defined as the ratio of a signal power to the noise power corrupting the signal. A ratio higher than 1:1 indicates more signal than noise.&lt;br&gt;&lt;br&gt;In less technical terms, signal-to-noise ratio compares the level of a desired signal (such as music) to the level of background noise. The higher the ratio, the less obtrusive the background noise is.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Signal to <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Noise:] body=[&lt;table width=300&gt;&lt;td&gt;In sound production, noise can be classified as hum, buzz or hiss, crosstalk or digital hash.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Noise<\/span><\/span> Ratio<\/span>: &gt; 101 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; dB:] body=[&lt;table width=300&gt;&lt;td&gt;The decibel (dB) is a logarithmic unit of measurement that expresses the magnitude of a physical quantity (usually power or intensity) relative to a specified or implied reference level. Since it expresses a ratio of two (same unit) quantities, it is a dimensionless unit. A decibel is one tenth of a bel (B).We perceive loudness of sound as the logarithm of the actual sound intensity, and dB (decibels) are a logarithmic scale.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">dB<\/span><br \/> <span class=\"main\">&bull; <\/span><span class=\"dictionary\"><span class=\"dictionary\">Damping<\/span> Factor<\/span>: &gt; 20 @ 50 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Hz:] body=[&lt;table width=300&gt;&lt;td&gt;A unit of measure of the frequency of a vibrating object, such as a guitar string, speaker cone or electrical signal. Equivalent to cycles per second, it is named for Heinrich Hertz and abbreviated &quot;Hz.&quot;&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Hz<\/span><br \/> <span class=\"main\">&bull; <\/span><span class=\"dictionary\">Slew Rate<\/span>: 40 V\/<span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; ms:] body=[&lt;table width=300&gt;&lt;td&gt;A millisecond (from milli- and second; abbreviation: ms) is a thousandth (1\/1000) of a second.&lt;br&gt;There are 86400000 (24x60x60x10x10x10) milliseconds in one day.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">ms<\/span><br \/> <span class=\"main\">&bull; <\/span>Input <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Sensitivity:] body=[&lt;table width=300&gt;&lt;td&gt;A measure of the relative efficiency of a speaker or loudspeaker system, often expressed as the number of decibels the unit will produce fed from a 1-watt signal measured at a distance of one meter.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Sensitivity<\/span>: 1.1 V<br \/> <span class=\"main\">&bull; <\/span>Power Input - 120 V @ 60 <span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; Hz:] body=[&lt;table width=300&gt;&lt;td&gt;A unit of measure of the frequency of a vibrating object, such as a guitar string, speaker cone or electrical signal. Equivalent to cycles per second, it is named for Heinrich Hertz and abbreviated &quot;Hz.&quot;&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">Hz<\/span>: NEMA 5-15p connector<br \/> <span class=\"main\">&bull; <\/span>Height: 1 <span class=\"dictionary\"><span class=\"dictionary\">Rack<\/span> Units<\/span> (<span class=\"dictionary\" title=\"header=[&lt;span class=boxoverheaderplain&gt;Definition of&lt;\/span&gt; RU:] body=[&lt;table width=300&gt;&lt;td&gt;A rack unit or U (less commonly, RU) is a unit of measure used to describe the height of equipment intended for mounting in a 19-inch rack or a 23-inch rack (The dimension refers to the width of the equipment mounting frame in the rack i.e. the width of the equipment that can be mounted inside the rack). One rack unit is 1.75 inches (44.45 mm) high.&lt;br&gt;&lt;br&gt;The size of a piece of rack mounted equipment is frequently described as a number in &quot;U&quot;. For example, one rack unit is often referred to as &quot;1U&quot;, 2 rack units as &quot;2U&quot; and so on.&lt;\/td&gt;&lt;\/tr&gt;&lt;\/table&gt;] cssheader=[boxoverheader] cssbody=[boxoverbody]\">RU<\/span>)<br \/> <span class=\"main\">&bull; <\/span>Width: 19\"<\/span><span class=\"main\"> <br \/>&bull; <\/span>Depth: 19\"<span class=\"main\"> <br \/>&bull; Weight: 18 lbs.<\/span><\/p>\r\n<p>&nbsp;<\/p>"}}