Eaton Power-Sure 800 Line Conditioner - 120V AC 2500VA 1750W
Every facet of our daily life is being automated by faster microprocessors and microprocessor-based equipment which require steady continuous power. As market pressures force the deregulation of the electrical industry, utility companies have less and less control over the quality of power supplied to sensitive electronic equipment. In industry, the effects of unreliable power can be seen in the erroneous motion of computer-controlled milling machines, causing irreparable damage to expensive manufacturing equipment or finished products. Additionally, poor power quality can cause motor driven equipment to operate inefficiently and overheat, causing premature failure. In data processing and medical applications, the effects of unreliable power can be translated into incorrect data, lost memory, premature component failure, mixed and garbled data and inaccurate diagnostics. Power conditioning alleviates these problems.
Technical Specifications:
Protection Type: Lightning, AC Surge, Harmonics, AC NoisePlug/Connector Type: NEMA 5-30PReceptacle Type: NEMA 5-20RReceptacles Detail: 4 x NEMA 5-20RLoad Capacity (VA): 2500 WLoad Capacity (Watt): 1750 WInput Voltage: 120 V ACOutput Voltage: 120 V ACMaximum Frequency: 60 HzHeight: 17.5"Width: 8.5"Depth: 12.8"Weight (Approximate): 68 lbAdditional Information: Line Regulation: +/- 2% Vout for +10% to -20% Vin at 100% Load, Load Regulation: +/-3% for 0% to 100% load, Immunity to Distortion: @40% THD Vin, 5% Max THD Vout, Ride-through Capability: 1 cycle, Voltage Recovery: 2 cycles to 95%, 3 cycles to 100%, K-Factor: K-30 Rated, Power Factor Correction: Input of 0.95 typical, Harmonic Attenuation: -23dB for load reflected harmonics, Galvanic Isolation: NEC 250-5d, 0.001 pf, Surge Protection: UL 1449 Rating 330v; ANSI/IEEE C62.41-Cat B3, Common Mode Noise Attenuation: 140 dB, Transverse Mode Noise Attenuation: 120 dB, Reliability: 200,000 hours (MTBF), Audible Noise: 1 meter A scale, 52dB to 56dB, Efficiency: Approx. 92% at full load