Peavey PVXp 10 DSP Operating Manual page 12

Sunlight/Heat
Avoid prolonged exposure to direct sunlight, as this may cause the unit to overheat and thermally shut off.
Excessively hot operating conditions can also cause a thermal shutdown.
Do not store in extremely hot or cold conditions or extremely high humidity. Always allow unit to come to room
temperature before use.
Cleaning
Never clean the PVXp™ 10 DSP while plugged in or turned ON! When the unit has been fully disconnected from
AC power sources, use a dry cloth to remove soil or other dirt. Never use strong solvents on the PVXp™ 10 DSP,
as they could damage the cabinet. Do not allow ANY fluids to drip inside the PVXp™ 10 DSP.
Touchup
For an overall finish enhancement and protective coating, use gloves to apply a plastic finish protector, such as
Armor-All® protectant or a similar product, to the surface of the plastic cabinet only. Note that the cabinet will be
slippery after these treatments; rub them down vigorously with a dry, lint-free cloth to minimize this.
Check for Secure Hardware
After the first few weeks of use and periodically thereafter, check the hardware of the PVXp™ 10 DSP for tight-
ness, including the rear panel screws and the screws that hold the baffle and rear cabinet together.
The unit is subject to a great deal of vibration, and this could cause them to loosen with use.
Architectural and Engineering Specifications
The powered loudspeaker system shall have a frequency response from 65 Hz to 20 kHz. The peak SPL with
inaudible distortion shall reach 122 dB with music as a source, when measured at a distance of 1M and driven
to full output capacity. The system shall utilize a Peavey Pro 10 10" heavy-duty woofer and a Peavey® RX™10N
dynamic compression driver. The nominal radiation pattern shall be 100° in the horizontal plane, and 60° in the
vertical plane. Axis of the vertical main polar lobe is angled down 10 degrees, resulting in the angular pattern
with respect to straight ahead being +20, -40 degrees.
The powered, bi-amplified loudspeaker system shall have an input channel consisting of a medium impedance
input connector consisting of one combo female XLR and 1/4" TRS phone jack on the rear panel.
There shall be a Thru (output) connector consisting of a male XLR jack and a 1/4" TRS jack.
The system power amplifiers shall have an unfiltered frequency response of 20 Hz to 20 kHz which deviates no
more than 0, -3 dB up to rated power, hum and noise better than 90 dB below rated power, and THD and IMD
typically of less than 0.5%.
The woofer amplifier shall be capable of 150W continuous into a 8 ohm nominal load, and the tweeter amplifier
shall be capable of 50 W continuous output into a 8 ohm load, and both shall incorporate independent signal
compression.
The input signal shall be electronically divided into high frequencies and low frequencies by a Linkwitz-Riley
fourth order slope line-level crossover at 3.1 kHz. The low frequencies shall be processed to provide bass boost,
subsonic filtering and overall response shaping, and the high frequencies shall be equalized for response-shaping.
The enclosure shall be constructed of injection-molded ABS with a UL flame rating, and reinforcing ribs inter-
nally. A handgrip shall be incorporated on each side near the woofer and towards the front, and on the right side
of the cabinet.