 |
 |
 |
|
The Galaxy PA5X140 Powered Hot Spot packs more power than ever before into a complete sound system that’s smaller than a shoebox and weighs only 11 pounds.
The PA5X140 was designed to provide unsurpassed intelligibility and clarity in the vocal frequencies and can be positioned either on the floor or on a mic stand (with optional SA1 adapter) for even more control over stage volume and maximum gain before feedback. |
|
|
|
|
|
 |
|
 |
|
Features
- The internal Class H power has enough power to drive its internal speaker plus two additional 16 ohm HotSpot VC monitors for 3-position stage coverage. This powerhouse is loaded with an incredible Neolite Neodymium 5-inch driver that can easily handle up to 100W RMS because of its ferrofluid cooled voice coil and integrated convection cooling system.
- Features include 1/4-inch line level and XLR balanced mic level inputs both with individual volume controls, 24 volt phantom power, 3-band EQ, on-board compressor, and both speaker (1/4-inch) and line level outputs (RCA). Rugged ABS molded cabinet (7 x 11 x 7 inch) with speaker protection grill, stand socket, and strap handle.
- Galaxy Audio’s CORE Series X amplifiers are the product of rigorous engineering and the latest advances in technology. The Class H power supply configuration utilizes four output transistors, a low voltage pair and a high voltage pair. Its low voltage transistors are active with any signal. When demand on the amp exceeds the low voltage transistors’ capabilities, the high voltage transistors kick in and provide additional power. The result is an amplifier that runs cooler, weighs less, and is smaller and more efficient.
- Built-in compressor/limiter circuitry controls the amplifier’s gain, acting like a compressor on transient signals and a "brick wall" limiter on signals that continuously exceed a predetermined limit. The result is an apparent 6 dB increase in SPL without distortion. That’s twice the sound pressure!
- SmartALIC gain management adjusts the amplifier’s gain for differences between line level and mic signals, maximizing the signal-to-noise ratio of virtually any input source.
|
|
|
 |
|
 |
|
|
|
