Klipsch Audio Technologies

Klipsch Audio Technologies | Audio Lingo http://www.klipsch.com © 2008 Klipsch Audio Technologies Klipsch RSS Generator Klipsch Audio Technologies http://www.klipsch.com/logos/images/img-logo-bronze3d.gif http://www.klipsch.com 102 59 Klipsch Audio Technologies builds high performance loudspeakers and loudspeaker systems for superior sound quality. 60 en-us webmaster@klipsch.com (Webmaster) Sun, 12 Oct 2008 02:30:02 EST Sun, 12 Oct 2008 02:30:02 EST Modulation Fri, 12 Oct 2108 02:30:02 EST Loudness Level Fri, 12 Oct 2108 02:30:02 EST Ohm's Law Fri, 12 Oct 2108 02:30:02 EST Octave Fri, 12 Oct 2108 02:30:02 EST Inductor Fri, 12 Oct 2108 02:30:02 EST Harmonic Fri, 12 Oct 2108 02:30:02 EST Frequency Modulation Fri, 12 Oct 2108 02:30:02 EST Impedance Fri, 12 Oct 2108 02:30:02 EST Hertz (Hz) Fri, 12 Oct 2108 02:30:02 EST Parallel Fri, 12 Oct 2108 02:30:02 EST Sensitivity Fri, 12 Oct 2108 02:30:02 EST Reverberation Fri, 12 Oct 2108 02:30:02 EST Simple Point Source Fri, 12 Oct 2108 02:30:02 EST Series Fri, 12 Oct 2108 02:30:02 EST Resistance Fri, 12 Oct 2108 02:30:02 EST Power Fri, 12 Oct 2108 02:30:02 EST Phase Fri, 12 Oct 2108 02:30:02 EST Reflection (Surfaces) Fri, 12 Oct 2108 02:30:02 EST Power Response Fri, 12 Oct 2108 02:30:02 EST Frequency Fri, 12 Oct 2108 02:30:02 EST Class A By definition, Class A operation provides collector (output) current during the complete signal cycle (over a 360-degree interval). Because the device is always turned on, the theoretical maximum efficiency is only 50%.]]> Fri, 12 Oct 2108 02:30:02 EST Capacitor Fri, 12 Oct 2108 02:30:02 EST Class AB Fri, 12 Oct 2108 02:30:02 EST Class B In Class B operation, the bias point is set at cutoff, the output current varying for only about 180 degrees of the cycle. The device is biased with no collector current and therefore no power dissipated by the transistor. Only when a signal is applied does the transistor handle an average current, which increases for larger input signals. Theoretical efficiency is about 78.5%.]]> Fri, 12 Oct 2108 02:30:02 EST Bottoming Fri, 12 Oct 2108 02:30:02 EST Amplitude-Frequency Response (Magnitude Response) Fri, 12 Oct 2108 02:30:02 EST Absorption (Surfaces) Fri, 12 Oct 2108 02:30:02 EST Amplitude Modulation Fri, 12 Oct 2108 02:30:02 EST Acoustic Power Level (PWL) Fri, 12 Oct 2108 02:30:02 EST Clipping Fri, 12 Oct 2108 02:30:02 EST Directivity Pattern Fri, 12 Oct 2108 02:30:02 EST Diffusion (Surfaces) Fri, 12 Oct 2108 02:30:02 EST Efficiency Fri, 12 Oct 2108 02:30:02 EST Dynamic Range Fri, 12 Oct 2108 02:30:02 EST Diffraction Fri, 12 Oct 2108 02:30:02 EST Crossover Fri, 12 Oct 2108 02:30:02 EST Comb Filtering Comb filtering is the constructive and destructive interference between two similar sounds, but one being delayed relative to the other.]]> Fri, 12 Oct 2108 02:30:02 EST Decibel (dB) Fri, 12 Oct 2108 02:30:02 EST Current Fri, 12 Oct 2108 02:30:02 EST Transistor Fri, 12 Oct 2108 02:30:02 EST Transient Distortion Fri, 12 Oct 2108 02:30:02 EST Transformer Fri, 12 Oct 2108 02:30:02 EST Vented Enclosure Fri, 12 Oct 2108 02:30:02 EST Watt Fri, 12 Oct 2108 02:30:02 EST Voltage Fri, 12 Oct 2108 02:30:02 EST Volt Fri, 12 Oct 2108 02:30:02 EST Sound Intensity Fri, 12 Oct 2108 02:30:02 EST Sound Fri, 12 Oct 2108 02:30:02 EST Skin Effect Fri, 12 Oct 2108 02:30:02 EST Sound Pressure Level (SPL) Fri, 12 Oct 2108 02:30:02 EST Timbre Fri, 12 Oct 2108 02:30:02 EST Standing Wave Fri, 12 Oct 2108 02:30:02 EST Speed of Sound (C) Fri, 12 Oct 2108 02:30:02 EST