PerkinElmer
check quantity

3.8 kVA Power Conditioner for Optima 2x00/4x00/5x00/7x00/8x00-60 Hz

These power conditioners consistently provide power to your atomic absorption and ICP-OES systems. Damaged or compromised components, disrupted processes, lack of reliability – they all add up to frustration, broken schedules and costly downtime. The problem is caused by a host of power disturbances – some visible and many invisible – that threaten your equipment’s operation every year.

Part Number
List Price
Your Price
Quantity
N9307512
5500.00 USD
 
more
Buy Now

Please enter valid quantity

Please log in to add favorites.

NULL OR EMPTY CART

Overview

15.8A, 208/240V INPUT, 120/208/240 Output Isolation, Filtering and Surge Suppression C320P Input plug, (1)C320R, (4)5-20R Output Receptacles.

  • Conditioners provide clean power
  • Dual-output models can protect both high-voltage system loads and low-voltage peripherals at less expense and effort than installing two conditioners
  • Protects against: high-voltage surges, common-mode voltage, electrical noise, voltage swells and sags, power outages, unstable AC frequency, ground loops

Specifications

Product Compatibility Optima 5x00, Optima 4x00, Optima 2x00, Optima 7x00, Optima 8x00
Product Group Power Conditioner
Resources, Events & More
  • All

Flyer

Laboratory Solutions for Lubricant Analysis

Increasing demands for efficiency, productivity, data quality, and profitability pose ongoing challenges for lubricant testing laboratories, like yours, performing new lubricant or in-service oil analyses.

Whether you need to achieve quick turnaround times, minimize downtime, or maximize la ...

PDF 542 KB

White Paper

The Impact of Dirty Power on Analytical Instrumentation

One of the biggest fears of any laboratory manager, research scientist, or instrument technician is the thought that dirty power may be affecting their ability to effectively operate critical analytical instrumentation. Dirty power causes flickering lights and leads to stressed components that overh ...

PDF 1020 KB