Weartech Engineers Pvt .Ltd MP Nagar, BHOPAL, Madhya Pradesh

Feature Equipped with the "Boost and Buck" AVR to stabilize input voltage of the AC Microprocessor control Equipped with "AC Overload Protection" The design is simple and lightweight Fast Charging Charging Off mode Cold start function Overload protection and alarm Has a USB communication port  

A Surge | Spike Protector A surge protector is an electrical device commonly used to protect computers and related computer components from power surges. To fully understand what a surge protector does, you must first understand what a surge is. The typical electrical wiring found in homes (in INDIA) and offices, carries a standard voltage of 230 volts. If a spike or surge in the voltage occurs, causing the voltage to surpass the norm, damage can occur to the computer equipment. Electrical surges can occur from a number of sources, namely: lightning and the basic surges that occur while turning on the motors and compressors for refrigerators and air conditioners to name a few. A spike is a brief increase in the voltage intensity and a surge is an increase that endures a bit longer than a spike. In either case, the voltage increases generally endures for less than a second. Surge protectors can prevent many of the problems resulting from spikes and surges. A surge protector, often set up in strip or box form, contains a number of receptacles to plug equipment into. The surge protector itself is then plugged into a standard outlet. While it serves the basic purpose of giving homeowners and business owners additional receptacles to put to use, the greater impact of surge protectors is measured in terms of the protection they offer if a surge occurs. Though surge protectors come in all shapes, sizes, and price ranges, the typical model will route the increased voltage present during a surge to a grounding wire housed within the surge protector, thus allowing the normal 120 volts to continue on to the components plugged into the protector. Some models also have a fuse within the surge protector. These models work much the same way as a fuse or circuit breaker within a standard home or office electrical panel. When a surge occurs, the protector will route the increased voltage to the grounding wire, but if the voltage is too great, it will blow the fuse and the power to the computer components, for example, will be terminated. Though the computer lost power, at least it is protected and able to function once the surge protector fuse is replaced. EMERSON TVSS are the product unbeatable in that class of technology. Please go through the catalogue attached understand more about EMERSON TVSS. What is a Transient? A transient surge is a short blast or pulse of high energy that can either come in its natural form such as lightning or produced by other equipment. Transients caused by other equipment are usually caused by the discharge of stored energy in inductive and capacitive components. Some examples are Electric motors, such as those used in elevators, heating, air conditioning, refrigeration or other inductive loads. Two other sources are arc welders and furnace igniters. These transients are capable of causing significant damage to equipment and electronics. The transient causes damage to a device when the transient voltage exceeds the weakest exposed component's ability to withstand that voltage. Transients normally flow into equipment via electrical conductors, but other paths are common. These paths include: Telephone lines, data-com lines, measurement and control lines, DC power buses and neutral and ground lines. To protect against these surges designers recommend the installation of a TVSS devices that connects to all points of potential voltage threat and limit this voltage to a level below the equipment "withstand" voltage. The TVSS device absorbs or diverts all the energy present in the surge and clamping or holding the "let through" over voltage down to a level safe for exposed circuitry. TVSS protection is typically applied at several points throughout a facility. These locations include the service entrance point, distribution panels, branch panels and the individual circuit. As you can see a TVSS device is important to a mission critical electrical system and its benefits are great. A TVSS is a low cost protection device that will help to reduce downtime or production losses. It helps to extend lighting lamp and ballast life expectancy. The TVSS will help in reducing motor stress and overheating and is a constant protection of data processing and digital equipment. If your mission critical facility does not already have TVSS devices installed we highly recommend it. If you are not sure if your system has them installed we suggest asking your engineer or electrician to verify. It is a small price for additional peace of mind.

Liebert ITA 6 KVA Up to 0.8 power matching the characteristics of newest server. Compatible with single-phase and 3-phase power network (self adaptive). Supports parallel operation (maximum configuration is '3+1') without the need of parallel subrack. Super high power density, only 2U height for 4.8kW.

Small Room Cooling Liebert Provides Liebert DSE Precision Cooling System, 125kW   Liebert Challenger 3000 with Liebert iCOM, Precision Cooling System, 10.5 & 17.5kW   Liebert Mini-Mate2, Ceiling-Mounted Precision Cooling System, 3.5-28kW   Liebert Datamate Precision Cooling System, 5-10.5kW  

Feature  True Online double-conversion Rack-Mount UPS with 1/2/3 kVA Capacity  User friendly & Easy - shift LCD Display  Output Power Factor 0.8  50Hz/60Hz frequency converter mode  Emergency power off function (EPO)  Eco mode operation for energy saving (ECO)  Smart battery charger design for optimized battery performance  Charger capacity expansion to 8A for long-backup models  Input power factor correction 0.99  Wide input voltage range  Programmable power management outlets  Generator compatible  

Highly suitable for any industrial & commercial enterprise including process, manufacturing set up, hospitals, data centres, retail outlets. Ratings Available 30, 60, 100, 150, 300 A Three phase State-of-the-Art active filter, that dynamically cleans up Harmonics and improves Power Factor, for all types of electrical installations. It has dynamic control features and has no resonance effects, no reactive power circulation, no passive components Effect of Harmonics:  Overheating of Generator, motor, transformer. Over voltage conditosions on supply system.  Increased transformer losses (need to over-size) Nuisance tripping of circuit breakers  Improper operation of microprocessor-based equipment  Overheating and possible resonance with capacitors  Re-injection of harmonic currents into the utility network.  Neutral burnout.  Insulation breakdown.  Decreasing Distribution Capacity due to hot cable

Large Room Cooling Liebert Large Room Cooling designed basically Data center cooling and humidity control solutions Liebert DSE Precision Cooling System, 125kW Liebert DS Precision Cooling System, 28-105kW Liebert CW Chilled Water-based Data Center Cooling, 26-181kW Liebert CW Chilled Water-based Data Center Cooling, 26-181kW

Industrial & Telecom Cooling Liebert industrial infrastructure & Telecom Enclosures Liebert ICS, Industrial Cooling Series, 140-210kW   Liebert InteleCool2, Shelter Cooling System, 5.25-17.5kW

True online IGBT-based systems. Cold start on full load facility. Even under black out conditions the Powerbank can be switched on. 1+1 hot-standby configuration. Battery charging current selector. Input overvoltage cutoff devices - provides complete protection to system during high input voltage conditions. Up to 4 hours of backup possible with external charger. Excellent overload features 150% FL for 5 seconds. Output short circuit protection - Protects system from output faults at the load end. Battery charging current selection - optimizes battery charging which improves life of batteries.

Feature : Generator capability, Dynamic bypass.

We understand just how critical the data centre design is to your business and how vital it is to get it right. That's why our specialist data centre mechanical and electrical design teams are flexible and open-minded in their approach. They always strive to remove complexity and improve resilience whilst delivering innovation at every point. You can expect technical excellence with the highest levels of efficiency throughout. Our data centre design team build on our award-winning modular data centre infrastructure to provide you with a bespoke solution. This ensures you are given a data centre that not only meets the challenges of the latest high-density IT technology but provides flexibility and efficiency which exceeds the needs of your business

Data Center Cooling Liebert high density data center Economizer-based "free cooling" solutions High Density Cooling   Economizer Cooling Solutions

The Thyristor based Controlled Charger is designed to be compatible with all kinds of battery in use in industry. Be it VRLA, Non-VRLA or Ni-Cad making them the most versatile product range preferred across various sectors.   Key Features:   Automatic voltage Regulation using Digital/Microprocessor controlled Logic Soft start on the DC side Smoothing filter circuit to limit the AC ripple to the required levels Charger short circuit and overload protection Over voltage cutback Separate battery path current limiting Built in auto phase reversal operation Automatic Float/Boost changeover, based on current drawn by the battery Insulation class for magnetics as per IS standards Cabinet fabricating using CNC M/C Robotic welding