The document discusses how the electric grid and internal power fluctuations can damage electronic equipment, costing businesses hundreds of billions annually. It notes that power issues are the top concern for industrial and commercial customers. As electronics become more sophisticated, relying on precise voltage levels, they are more vulnerable to even minor grid disturbances. The document then introduces Innovolt technology as a solution, claiming it can protect electronics from power issues and collect valuable power data for businesses.
1. The document discusses electricity grids and the transition to more distributed renewable energy sources. It covers the history and development of electricity grids and the increasing role of distributed generation through technologies like solar PV, wind, and microgrids.
2. Smart grids and policies like time-of-use pricing are described as ways to better manage supply and demand across generation, transmission, and consumption. Case studies from Germany, India, the USA, and other places are provided.
3. The document advocates for modernized grids and policies that enable more distributed energy resources in order to balance supply and demand more efficiently and support continued growth in renewable energy.
Power outages and disturbances cost businesses billions each year. Two reports found the leading causes of downtime are aging infrastructure and lack of investment in grid modernization. The EPRI CEIDS report also determined that power issues negatively impact the operations of industrial and digital economy companies.
This document summarizes a paper about different types of power problems. It begins by introducing the topic and defining key power quality issues like transients, interruptions, sag/swell, and waveform distortion. It then describes the causes and effects of different types of transients, including impulsive transients from lightning and oscillatory transients from switching operations. Standards for defining and measuring power problems are also discussed. The document provides examples and diagrams to illustrate power quality events. In summary, it provides an overview of common power problems, their characteristics, causes, and potential impacts.
Green Telecom & IT: Vinod sharma : Green TelecomBellLabs
This document discusses communication systems powered by renewable energy sources. It presents three key points:
1) Wireless networks consume a significant amount of energy, motivating the need for green communication techniques.
2) Fundamental limits on communication are explored for single nodes and networks powered by unpredictable renewable sources like solar and wind.
3) MAC protocols, scheduling, and routing algorithms are proposed to maximize throughput in energy harvesting multihop networks.
This document provides an overview of wireless power transfer through magnetic induction. It discusses the technology's potential benefits, such as reducing electronic waste and improving energy efficiency compared to wired charging. Current applications of wireless power include charging stands for smartphones, computer mice, and envisioned uses in electric vehicles and medical implants. Standards organizations have developed specifications to ensure compatibility between wireless power devices. The document also provides background on the physics principles behind wireless power transfer, such as electromagnetic induction and alternating current circuits.
This certificate is awarded to Bajaj Electricals Ltd for their delivery of a data center infrastructure management system package to more than 100 data centers, including over a dozen tier 3 facilities. Bajaj Electricals Ltd received the Data Center Critical Environment Team of the Year award for Asia Pacific in 2016 for their work delivering data center infrastructure management systems.
Extensive efforts have been made to harvest energy f from water in the form of raindrops, river and ocean wave, tidal and others. However, achieving a high-density of electrical power generation is challenging. Traditional hydraulic power generation mainly uses electromagnetic generators that are heavy, bulky, and become inefficient with water supply. Alternative, the water droplet or solid-based electric nano-generator, has so far generated peak power densities for less than one watt per square meter, owing to the limit at ions imposed by interfacial effects as seen in characterization of the charge generation and transfer that occur at solid-liquid or liquid-solid interfaces. Here we develop a device to harvest energy from impinging water droplet s by using an architecture that compromises a polytetrafluoroethylene film on an indium oxide substrate plus an aluminium electrode. We show that spreading of an impinged water droplet on the device bridges, the originally disconnect ed component s into a closed-loop electrical system, transforming the conventional interfacial effect into bulk effect, and so enhancing device that is limited by interfacial effects.
This document discusses methods for protecting water and wastewater treatment plants from lightning strikes and electrical surges. It identifies areas at high risk for lightning strikes, such as pump lift stations and radio antennas. Traditional surge protection methods using MOVs and SADs can be overwhelmed by lightning strikes. Newer triggered arc gap technology provides better protection against high-energy lightning strikes by diverting surge currents to ground. The document describes how triggered arc gaps and additional surge protectors were installed to protect a water treatment plant in Florida that experienced frequent lightning damage.
1. The document discusses electricity grids and the transition to more distributed renewable energy sources. It covers the history and development of electricity grids and the increasing role of distributed generation through technologies like solar PV, wind, and microgrids.
2. Smart grids and policies like time-of-use pricing are described as ways to better manage supply and demand across generation, transmission, and consumption. Case studies from Germany, India, the USA, and other places are provided.
3. The document advocates for modernized grids and policies that enable more distributed energy resources in order to balance supply and demand more efficiently and support continued growth in renewable energy.
Power outages and disturbances cost businesses billions each year. Two reports found the leading causes of downtime are aging infrastructure and lack of investment in grid modernization. The EPRI CEIDS report also determined that power issues negatively impact the operations of industrial and digital economy companies.
This document summarizes a paper about different types of power problems. It begins by introducing the topic and defining key power quality issues like transients, interruptions, sag/swell, and waveform distortion. It then describes the causes and effects of different types of transients, including impulsive transients from lightning and oscillatory transients from switching operations. Standards for defining and measuring power problems are also discussed. The document provides examples and diagrams to illustrate power quality events. In summary, it provides an overview of common power problems, their characteristics, causes, and potential impacts.
Green Telecom & IT: Vinod sharma : Green TelecomBellLabs
This document discusses communication systems powered by renewable energy sources. It presents three key points:
1) Wireless networks consume a significant amount of energy, motivating the need for green communication techniques.
2) Fundamental limits on communication are explored for single nodes and networks powered by unpredictable renewable sources like solar and wind.
3) MAC protocols, scheduling, and routing algorithms are proposed to maximize throughput in energy harvesting multihop networks.
This document provides an overview of wireless power transfer through magnetic induction. It discusses the technology's potential benefits, such as reducing electronic waste and improving energy efficiency compared to wired charging. Current applications of wireless power include charging stands for smartphones, computer mice, and envisioned uses in electric vehicles and medical implants. Standards organizations have developed specifications to ensure compatibility between wireless power devices. The document also provides background on the physics principles behind wireless power transfer, such as electromagnetic induction and alternating current circuits.
This certificate is awarded to Bajaj Electricals Ltd for their delivery of a data center infrastructure management system package to more than 100 data centers, including over a dozen tier 3 facilities. Bajaj Electricals Ltd received the Data Center Critical Environment Team of the Year award for Asia Pacific in 2016 for their work delivering data center infrastructure management systems.
Extensive efforts have been made to harvest energy f from water in the form of raindrops, river and ocean wave, tidal and others. However, achieving a high-density of electrical power generation is challenging. Traditional hydraulic power generation mainly uses electromagnetic generators that are heavy, bulky, and become inefficient with water supply. Alternative, the water droplet or solid-based electric nano-generator, has so far generated peak power densities for less than one watt per square meter, owing to the limit at ions imposed by interfacial effects as seen in characterization of the charge generation and transfer that occur at solid-liquid or liquid-solid interfaces. Here we develop a device to harvest energy from impinging water droplet s by using an architecture that compromises a polytetrafluoroethylene film on an indium oxide substrate plus an aluminium electrode. We show that spreading of an impinged water droplet on the device bridges, the originally disconnect ed component s into a closed-loop electrical system, transforming the conventional interfacial effect into bulk effect, and so enhancing device that is limited by interfacial effects.
This document discusses methods for protecting water and wastewater treatment plants from lightning strikes and electrical surges. It identifies areas at high risk for lightning strikes, such as pump lift stations and radio antennas. Traditional surge protection methods using MOVs and SADs can be overwhelmed by lightning strikes. Newer triggered arc gap technology provides better protection against high-energy lightning strikes by diverting surge currents to ground. The document describes how triggered arc gaps and additional surge protectors were installed to protect a water treatment plant in Florida that experienced frequent lightning damage.
The document discusses a new paradigm that allows one to live life with wellness and dynamism in a sustainable way. It questions whether the current life is what one really wants and encourages paradignamising or dynamically sustaining the new paradigm with wellness before it's too late.
O documento descreve o conceito de nutrição da marca Cellagon, que produz sumos concentrados de frutas, legumes e plantas orgânicas. O Cellagon é rico em oligoelementos e antioxidantes, e ajuda a manter o equilíbrio ácido-base no corpo. Vários produtos Cellagon são apresentados como opções saudáveis para a saúde geral, o cérebro, a pele e o desempenho esportivo. O documento também destaca a parceria da Cellagon com equipes olímpicas alemãs.
The document summarizes a final year project to develop an incident reporting system. A team of 3 students led by Awald Hossain are developing a mobile and web application using Phonegap, jQuery, and Drupal to allow citizens to quickly report incidents through their smartphones. The system will provide real-time notification to authorities and allow for status updates of reported incidents. Future enhancements may include SMS integration, video uploads, and optimized response scheduling.
A drilling fluid, or mud, is circulated during drilling operations to carry cuttings to the surface, control formation pressure and maintain wellbore stability, cool and lubricate the drill bit, and minimize damage to the reservoir. There are three main types of drilling fluid: gaseous (like air), aqueous (water-based fluids containing additives like bentonite or polymers), and non-aqueous (oil- or synthetic-based). Proper handling and cleaning methods are required due to potential health and safety hazards from some drilling fluid components.
This document outlines engagement training for case managers using motivational interviewing. It proposes training case managers in motivational interviewing techniques to improve their ability to engage with members and help members set and achieve health goals. The training will describe core motivational interviewing skills and how to apply them in assessments, goal setting, and care plans. Case managers will practice skills to reduce member resistance and facilitate continued engagement. The goals are for case managers to feel more comfortable engaging members, for members to be more satisfied, and for health outcomes to improve as a result of stronger relationships and follow through on care plans. Ongoing coaching and support for case managers after training is also emphasized.
The document discusses power quality issues and describes the Bill Zapper power conditioner. The Bill Zapper conditions power to protect equipment from common power problems like sags, surges, noise and poor power factor. It continuously monitors voltage and current and uses adaptive capacitor switching to improve power quality and reduce electricity costs by up to 30%. Key features include surge suppression, load monitoring and control, power factor correction and protection from over/under voltage, sags, noise and other issues.
This document discusses the seven main types of power problems that can affect electrical equipment: transients, interruptions, sags/undervoltage, swells/overvoltage, waveform distortion, voltage fluctuations, and frequency variations. It provides examples of what can cause each type of power problem and the impacts they can have on critical equipment. The document also notes the importance of having common standardized terms for describing power quality issues.
The document discusses a new paradigm that allows one to live life with wellness and dynamism in a sustainable way. It questions whether the current life is what one really wants and encourages paradignamising or dynamically sustaining the new paradigm with wellness before it's too late.
O documento descreve o conceito de nutrição da marca Cellagon, que produz sumos concentrados de frutas, legumes e plantas orgânicas. O Cellagon é rico em oligoelementos e antioxidantes, e ajuda a manter o equilíbrio ácido-base no corpo. Vários produtos Cellagon são apresentados como opções saudáveis para a saúde geral, o cérebro, a pele e o desempenho esportivo. O documento também destaca a parceria da Cellagon com equipes olímpicas alemãs.
The document summarizes a final year project to develop an incident reporting system. A team of 3 students led by Awald Hossain are developing a mobile and web application using Phonegap, jQuery, and Drupal to allow citizens to quickly report incidents through their smartphones. The system will provide real-time notification to authorities and allow for status updates of reported incidents. Future enhancements may include SMS integration, video uploads, and optimized response scheduling.
A drilling fluid, or mud, is circulated during drilling operations to carry cuttings to the surface, control formation pressure and maintain wellbore stability, cool and lubricate the drill bit, and minimize damage to the reservoir. There are three main types of drilling fluid: gaseous (like air), aqueous (water-based fluids containing additives like bentonite or polymers), and non-aqueous (oil- or synthetic-based). Proper handling and cleaning methods are required due to potential health and safety hazards from some drilling fluid components.
This document outlines engagement training for case managers using motivational interviewing. It proposes training case managers in motivational interviewing techniques to improve their ability to engage with members and help members set and achieve health goals. The training will describe core motivational interviewing skills and how to apply them in assessments, goal setting, and care plans. Case managers will practice skills to reduce member resistance and facilitate continued engagement. The goals are for case managers to feel more comfortable engaging members, for members to be more satisfied, and for health outcomes to improve as a result of stronger relationships and follow through on care plans. Ongoing coaching and support for case managers after training is also emphasized.
The document discusses power quality issues and describes the Bill Zapper power conditioner. The Bill Zapper conditions power to protect equipment from common power problems like sags, surges, noise and poor power factor. It continuously monitors voltage and current and uses adaptive capacitor switching to improve power quality and reduce electricity costs by up to 30%. Key features include surge suppression, load monitoring and control, power factor correction and protection from over/under voltage, sags, noise and other issues.
This document discusses the seven main types of power problems that can affect electrical equipment: transients, interruptions, sags/undervoltage, swells/overvoltage, waveform distortion, voltage fluctuations, and frequency variations. It provides examples of what can cause each type of power problem and the impacts they can have on critical equipment. The document also notes the importance of having common standardized terms for describing power quality issues.
An electrical short circuit is the most common cause of accidental fires and occurs due to over current, insulation failures, human contact or over voltages. 100% of electrical short circuit fires are caused by the poor knowledge or carelessness of electricians. A regulated power supply is important for electronic appliances to provide constant DC power, which is typically achieved through an AC-DC converter using a rectifier, filter capacitor and regulator IC. The project designed a 12V power supply with a short circuit indication add-on circuit to detect shorts, immediately switching off the power supply to protect components.
The document discusses blackouts, which refer to a total loss of power to an area. Major blackouts in recent years have affected millions of people. Blackouts can last from minutes to weeks depending on their cause and the electrical network configuration. They are usually caused by a cascade of failures beginning with an initial fault, such as a power plant tripping offline or a transmission line failure overloading other systems. Better monitoring, improved infrastructure like superconducting cables, and a smart grid can help reduce risks of widespread blackouts.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Electrical power outage in nigeria history, causes and possible solutionsAlexander Decker
This document summarizes the history of power outages in Nigeria, identifies key causes, and proposes solutions. It analyzes data from 120 substations in Ondo State. Major causes of outages identified include low water levels, lack of gas for turbines, inadequate maintenance, and high distribution losses from old infrastructure and improper maintenance. Proposed solutions include introducing ring circuits, standby generation, solar street lighting, upgrading cable sizes, ensuring proper switchgear ratings, and developing an energy management system and sustainable maintenance program. The goal is to improve power supply reliability to support Nigeria's development goals.
The quality of power supply is very important in any power network particularly to electricity consumers. Power quality encompasses availability of supply, frequency and voltage magnitude as well as waveform characteristics of the power supply.
Power distribution system fault monitoring device for supply networks in NigeriaIJECEIAES
Electric power is the bedrock of our modern way of life. In Nigeria, power supply availability, sufficiency and reliability are major operational challenges. At the generation and transmission level, effort is made to ensure status monitoring and fault detection on the power network, but at the distribution level, particularly within domestic consumer communities there are no fault monitoring and detection devices except for HRC fuses at the feeder pillar. Unfortunately, these fuses are sometimes replaced by a copper wire bridge at some locations rendering the system unprotected and creating a great potential for transformer destruction on overload. This study is focused on designing an on-site power system monitoring device to be deployed on selected household entry power cables for detecting and indicating when phase off, low voltage, high voltage, over current, and blown fuse occurs on the building’s incomer line. The fault indication will help in reducing troubleshooting time and also ensure quick service restoration. After design implementation, the test result confirms design accuracy, device functionality and suitability as a low-cost solution to power supply system fault monitoring within local communities.
A Review of power quality problems, standards and solutionsIRJET Journal
This document provides a review of power quality problems, related standards, and solutions. It discusses the various types of power quality issues utilities and customers may face, such as voltage fluctuations, sags, swells, interruptions, harmonics, unbalance, surges, spikes, frequency variations, brownouts, and blackouts. It also outlines several relevant international standards for power quality from organizations like IEEE and IEC. These standards establish limits and guidelines for issues like harmonics, grounding, reliability, and power quality monitoring. Finally, the document lists some potential solutions to power quality problems, such as surge suppressors, voltage regulators, power conditioners, and uninterruptible power supplies.
The Effects of Technical and Non-Technical Losses on Power Outages in NigeriaDr. Hachimenum Amadi
Adequate and reliable electricity supply is widely accepted as a sine qua non for the rapid socio-economic development of any nation. Researchers, over the years, have attributed electricity supply failures mostly to dilapidated electrical equipment, poor maintenance culture etc. Only a few considered the contributions of transmission and distribution losses to frequent power outages. This paper fills the gap by focusing on the effects of technical and non-technical losses on power outages in Nigeria. This study emphasizes the need for more radical measures than are currently being applied to reduce system losses and make the nation’s electric power system holistically more efficient.
The Effects of Technical and Non Technical Losses on Power Outages in NigeriaDr. Hachimenum Amadi
1) The document discusses the effects of technical and non-technical losses on power outages in Nigeria. Technical losses are due to the physical properties of power systems, while non-technical losses are due to issues like theft or non-payment.
2) Higher levels of both technical and non-technical losses can lead to more frequent power outages as they reduce the efficiency of the electric power system. Case studies of a distribution network show increased losses and decreased efficiency during outage conditions.
3) Reducing technical and non-technical losses through measures like upgraded meters, billing systems, maintenance programs, and enforcement against theft could strengthen Nigeria's electric grid and reduce power outage frequency, making the system more reliable and attractive to
Power quality issues arise from disturbances in the electric power supply that can negatively impact equipment. Common issues include voltage sags, swells, interruptions, harmonics, and spikes. Around 80% of problems originate from within industrial facilities due to large loads or improper wiring, while 20% come from external utility issues like weather events. Poor power quality can increase energy costs and cause equipment failures. Monitoring power quality helps identify disturbances and their sources to improve reliability and reduce costs. Various devices like filters, regulators, and compensators can help mitigate different power quality issues. Maintaining high power quality supports the economic operation of power systems and equipment.
Home is where the heart is. You want to spend more of your time enjoying the pleasures of home and hearth.
What are you really looking for in your home? At different times of your life there are different answers – new meanings to old words, new definitions of common phenomena. And the whole thinking will be further complicated by
technologies evolving faster every day.
The document discusses cyber security threats to the US power grid. It notes that the power grid consists of over 300,000 km of transmission lines operated by 500 companies. Cyber attacks on critical infrastructure like the power grid are increasing in frequency and sophistication, which could have severe consequences. For example, a DDoS attack costing just $40 could overwhelm network links and cause a blackout. The document also provides examples of past cyber attacks on energy systems like Stuxnet and the 2015 attack on Ukraine's power grid that left 700,000 residents without electricity for 7 hours.
International Journal of Computational Engineering Research (IJCER)ijceronline
International Journal of Computational Engineering Research(IJCER) is an intentional online Journal in English monthly publishing journal. This Journal publish original research work that contributes significantly to further the scientific knowledge in engineering and Technology.
Many of the mysteries of equipment failure,downtime, software and data corruption are the the result of a problematic supply of power. There is also a common problem with describing power problems in a a standard way. This white paper will describe the most common types of power disturbances, what can cause them, what they can do to your critical equipment, and how to safequard your equipment, using the IEEE standards for describing power quality problems.
IRJET- Electric Power Distribution Network Performance Assessment based o...IRJET Journal
This document analyzes the performance of a 33kV electric power distribution network in Western Ghana by computing reliability indices using outage data from the regional electricity company. Reliability indices like mean time to failure, mean time to repair, availability, and unavailability were calculated based on 2929 outages recorded over a period. Related studies on distribution network performance assessments in Nigeria, Cameroon and Bhutan were also reviewed. Common faults in electric distribution networks discussed include those from lightning, insulation breakdown, and objects falling on lines which can cause temporary or permanent outages.
Design and Implementation of a Single Phase Earth Fault RelayIJSRED
This document describes the design and implementation of a single phase earth fault relay with an alarm system. The relay was designed using an embedded system to reduce components, keep the system simple and cost effective. It consists of current sensors on the phase and neutral lines, a microcontroller to monitor current levels, and an alarm and switch driver to isolate the system if an imbalance is detected, indicating an earth fault. The objectives are to detect earth faults, measure phase and neutral currents, and disconnect power on a fault. This type of relay provides protection for electrical equipment and humans from earth faults.
The document describes a proposed modified bridge-type nonsuperconducting fault current limiter (NSFCL) for distribution networks. The NSFCL consists of a bridge rectifier, two DC reactors (one small in series and one large in parallel), and an IGBT semiconductor switch controlled by a command circuit. During normal operation, the IGBT is on and the parallel reactor is bypassed, making the NSFCL invisible. During a fault, the IGBT turns off, inserting the parallel reactor to limit fault current. Simulation results showed the design effectively limits fault current while minimally affecting normal operation.
IRJET- Mitigation Techniques of Power Quality Issues in Electrical Power SystemIRJET Journal
1. The document discusses various power quality issues such as voltage sags, swells, harmonics, transients, and their causes and consequences. It also describes different mitigation techniques for these issues including static VAR compensator (SVC), distribution static compensator (DSTATCOM), passive harmonic filters, and surge arresters.
2. The main objectives are to investigate suitable mitigation techniques, analyze mitigation using Mi Power software, and observe the effectiveness of SVC, DSTATCOM, harmonic filters, and surge arresters.
3. Among the mitigation methods, FACTS devices like DSTATCOM are most effective at overcoming voltage unbalance problems while requiring fewer electronic switches than other options like D
2. The Grid is Stealing Your Money
REVOLUTIONIZINGPOWERPROTECTION
The Electric Power Grid is Causing Your Electronic Equipment to Lockup and/or Fail
Prematurely, Often Producing a Costly Service Call and Replacement
SYSTEM LOCKUPS PART FAILURES INVALID DATA
Power in the U.S. and around the world is proving
itself unsuitable for operating sophisticated digital
electronic equipment
The hostile electric grid wreaks havoc on sophisticated
electronic components inside electronics
Businesses fall victim to the expensive effects
perpetrated by the electric grid around the world
Powerful Research
According to the Electronic Power Research Institute, daily loss-generating power disturbances have been
referred to as “the most important concern affecting most industrial and commercial customers,” annually
costing hundreds of billions of dollars to businesses in the United States alone (Source: EPRI).
3. The Grid is Stealing Your Money
REVOLUTIONIZINGPOWERPROTECTION
Service Costs Are Rising Drastically in Direct Correlation With Electronic Equipment
Becoming More Sophisticated and Being Deployed On Hostile Electric Grids
Rising Service Costs
Service costs for businesses operating in
$ $$
the U.S. and around the world continue to
rise at an increasing rate
Sophisticated Electronics
Electronic Equipment continues to
become more sophisticated due to the
integration of sensitive electronic micro-
components
International Power
Electric grids and internal facilities in both
developed and underdeveloped countries
are quickly proving to be unable to provide
today’s highly complex electronic equipment
with the quality of power required by $
manufacturers
Powerful Research
“Reducing power line disturbances has always been a critical concern for utilities. Recently,
however, new sources of disturbances have begun to proliferate just as many pieces of
equipment are becoming more sensitive to these same power disturbances (IEEE).”
4. The Dysfunctional Electric Grid
REVOLUTIONIZINGPOWERPROTECTION
AC electronic equipment plugged into an outlet or antiquated power
protection device will be effected by the hostile electric grid
Interconnected Electric Grid
The U.S. electric grid serves more than 143 million
residential, commercial, and industrial customers
through more than 6 million miles of transmission
and distribution lines.
Causes of Electric Grid Fluctuations
Large Facility Shift Shutoff
Acts of Nature
Arcing Faults
Power Distribution Failure
Systematic Utility Overload
Communications Error
Powerful Research
“Even though the U.S. electric grid is not broken
today, emerging challenges, if not met, could
substantially degrade the system’s reliability and
efficiency over the next few decades (MIT).”
5. Faulty Power Inside a Location
REVOLUTIONIZINGPOWERPROTECTION
Electronic Equipment is Most Often Negatively Impacted by Hostile Power
Fluctuations Produced Internally - Not From The Grid
Interconnected Internal Power
The most often cause of power fluctuations and
current inrushes are caused by an anomaly within
a specific location or building
Causes of Internal Power Fluctuations
Heavy Equipment Turn On
Tripped Circuit Board
Overloaded Circuits
Switching Power Mains
Starting Large Electrical Motors
Erratic Operation of Generators
Powerful Research
80% of hostile power fluctuations and current inrushes are
produced internally on a branch circuit within a building not
from the grid
6. What does this mean for your AC Electronic Equipment?
REVOLUTIONIZINGPOWERPROTECTION
Today’s Electronic Equipment Contain Highly Vulnerable Sophisticated
Microprocessors and Sensitive Components
Electronic Sophistication
A single microprocessor controls numerous operational
requirements for electronic equipment
Microprocessors require a specific voltage level to function
properly and any fluctuation outside the nominal range has
proven to cause electronic equipment to severely malfunction
Powerful Research
“Manufacturers design equipment to operate optimally within the range
of plus/minus 5% nominal voltage. Supply voltage outside the
acceptable range can result in inefficient operation and overheating,
leading to reduced equipment life (MIT: Future of Electric Grid).”
7. Innovolt Protects Your Electronics
REVOLUTIONIZINGPOWERPROTECTION
Innovolt Technology Protects Your Electronic Equipment From The Grid and Collects
Valuable Power Data That Businesses Can Leverage For Success
ELECTRONICS PROTECTION
Innovolt’s patented technology offers complete insulation for
sophisticated electronics from all power anomalies
Innovolt technology has the ability to quickly remediate
issues before any damaging effects occur
POWER DATA MANAGEMENT
All power data is collected and accessible with Innovolt’s
Power Data Management technology