The document provides an overview and market forecasts for the power and energy measurement industry from 2012 to 2017. It finds that the market is expected to grow from 25.3 million units in 2012 to 108.4 million units in 2017, driven by trends such as zero net energy and data center management. Applications like distributed power systems, metering, home automation, industrial automation, and building automation are analyzed and forecasts are provided for unit and revenue growth by application, wattage, and power supply over the period.
Beyond Brick and Mortar: Advanced Technology Platforms and Processes Power Sm...Cognizant
To optimize energy consumption and reduce operating costs, it is essential to better monitor and benchmark buildings' energy usage. Active demand management platforms are helping service providers respond to the dynamic energy requirements of modern buildings.
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According to the latest report by IMARC Group,the global datapower market exhibited moderate growth during 2015-2020.
Data center power is a component of the data center infrastructure management system, also known as DCIM. The DCIM offers administrative control over tools and processes related to the electricity supply in a data center facility.
The purpose of this paper is to examine the need for smart metering of facilities at the branch circuit level and
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7 Ways to unlock value from Smartmeter Big DataDerick Jose
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Data center power is a component of the data center infrastructure management system, also known as DCIM. The DCIM offers administrative control over tools and processes related to the electricity supply in a data center facility.
The purpose of this paper is to examine the need for smart metering of facilities at the branch circuit level and
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Verdantix Report: Urjanet Supports Growth of Energy Management EcosystemUrjanet
Read this report to learn more about why and how leading energy services and software firms are choosing Urjanet for their source of utility bill and interval data.
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Smart Grid Data Centers Distributed & ICTs Sustainability on Generation Energ...IJMTST Journal
Smart grid has modernized the way electricity is generated, transported, distributed, and consumed by integrating advanced sensing, communications, and control in the day-to-day operation of the grid. Electricity is a core utility for the functioning of society and for the services provided by information and communication technologies(ICTs). Several concepts of the smart grid, such as dynamic pricing, distributed generation, and demand management, have significantly impacted the operation of ICT services, in particular, communication networks and data centers. Ongoing energy-efficiency and operational expenditures reduction efforts in communication networks and data center shave gained another dimension with those smart grid concepts. In this paper, we provide a comprehensive survey on the smart grid-driven approaches in energy-efficient communications and data centers, and the interaction between smart grid and information and communication infrastructures. Although the studies on smart grid, energy-efficient communications, and green data centers have been separately surveyed in previous studies, to this end, research that falls in the intersection of those fields has not been properly classified and surveyed yet. We start our survey by providing background information on the smart grid and continue with surveying smart grid-driven approaches in energy-efficient communication systems, followed by energy, cost and emission minimizing approaches in datacenters, and the corresponding cloud network infrastructure. Through a communication infrastructure, a smart grid can improve power reliability and quality to eliminate electricity blackout.
It’s no wonder that smart meter rollouts have skyrocketed with supporting business case findings such as ComEd customers saving potentially $2.8 billion on their electric bills over the 20-year life of the smart meters. Largely due to the aggressive U.S. effort to modernize its electric grid pros and cons (for example PG&E will now offer ‘opt out option’) for smart meters are still aggressively being debated; nonetheless the number of smart meters installed in the U.S. has ballooned over the past several years – with just over fifty utilities deploying the bulk of the investment. Zpryme analyzed data from the EIA in an effort to not only breakdown smart meter deployments by utility but also to zero in on the drivers that will bridge the U.S. energy divide.
IRJET-A Novel Approach for Automatic Monitoring of Power Consumption using S...IRJET Journal
In Smart Grid, the smart meters are versatile role with intelligent capabilities in order to meet the consumer's demands and their each objective. Smart meter can measure and communicate detailed real time electricity usage, facilitate remote real time monitoring and control power consumptions and consumers are provided with real time pricing and analyzed usage information, which is a technical data to be transmitted to the grid, who are utility providers. More detailed feedback on each appliance to the user.This paper gives an overview of the security issues regarding power grids. It is targeted to use case scenarios, namely smart metering, and home gateway for applications like electric cars and home multimedia contents distribution over the power grid.
The changing world of energy is making it increasingly challenging to optimize power reliability, energy costs, and operational efficiency in critical power environments such as
hospitals, data centers, airports, and manufacturing facilities. Utility power grids are getting more dynamic, facility power distribution systems are becoming more complex, and
cyberattacks threaten network stability. More competitive pressures and environmental regulations are pushing expectations for energy efficiency and business sustainability higher than ever. Addressing these challenges requires new
digital tools designed specifically to enable faster response to opportunities and risks related to power system reliability and operations.
Verdantix Report: Urjanet Supports Growth of Energy Management EcosystemUrjanet
Read this report to learn more about why and how leading energy services and software firms are choosing Urjanet for their source of utility bill and interval data.
Virtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power PlantVirtual Power Plant
Smart Grid Data Centers Distributed & ICTs Sustainability on Generation Energ...IJMTST Journal
Smart grid has modernized the way electricity is generated, transported, distributed, and consumed by integrating advanced sensing, communications, and control in the day-to-day operation of the grid. Electricity is a core utility for the functioning of society and for the services provided by information and communication technologies(ICTs). Several concepts of the smart grid, such as dynamic pricing, distributed generation, and demand management, have significantly impacted the operation of ICT services, in particular, communication networks and data centers. Ongoing energy-efficiency and operational expenditures reduction efforts in communication networks and data center shave gained another dimension with those smart grid concepts. In this paper, we provide a comprehensive survey on the smart grid-driven approaches in energy-efficient communications and data centers, and the interaction between smart grid and information and communication infrastructures. Although the studies on smart grid, energy-efficient communications, and green data centers have been separately surveyed in previous studies, to this end, research that falls in the intersection of those fields has not been properly classified and surveyed yet. We start our survey by providing background information on the smart grid and continue with surveying smart grid-driven approaches in energy-efficient communication systems, followed by energy, cost and emission minimizing approaches in datacenters, and the corresponding cloud network infrastructure. Through a communication infrastructure, a smart grid can improve power reliability and quality to eliminate electricity blackout.
It’s no wonder that smart meter rollouts have skyrocketed with supporting business case findings such as ComEd customers saving potentially $2.8 billion on their electric bills over the 20-year life of the smart meters. Largely due to the aggressive U.S. effort to modernize its electric grid pros and cons (for example PG&E will now offer ‘opt out option’) for smart meters are still aggressively being debated; nonetheless the number of smart meters installed in the U.S. has ballooned over the past several years – with just over fifty utilities deploying the bulk of the investment. Zpryme analyzed data from the EIA in an effort to not only breakdown smart meter deployments by utility but also to zero in on the drivers that will bridge the U.S. energy divide.
IRJET-A Novel Approach for Automatic Monitoring of Power Consumption using S...IRJET Journal
In Smart Grid, the smart meters are versatile role with intelligent capabilities in order to meet the consumer's demands and their each objective. Smart meter can measure and communicate detailed real time electricity usage, facilitate remote real time monitoring and control power consumptions and consumers are provided with real time pricing and analyzed usage information, which is a technical data to be transmitted to the grid, who are utility providers. More detailed feedback on each appliance to the user.This paper gives an overview of the security issues regarding power grids. It is targeted to use case scenarios, namely smart metering, and home gateway for applications like electric cars and home multimedia contents distribution over the power grid.
The changing world of energy is making it increasingly challenging to optimize power reliability, energy costs, and operational efficiency in critical power environments such as
hospitals, data centers, airports, and manufacturing facilities. Utility power grids are getting more dynamic, facility power distribution systems are becoming more complex, and
cyberattacks threaten network stability. More competitive pressures and environmental regulations are pushing expectations for energy efficiency and business sustainability higher than ever. Addressing these challenges requires new
digital tools designed specifically to enable faster response to opportunities and risks related to power system reliability and operations.
Big Data has made it easier to gain loyal and happy customers in the utilities industry. It improves the ability of companies to quickly identify underlying issues and nip complaints in the bud.
Through big data analytics, utilities can improve customer experience, address changing demands, solve experience-related issues, manage grids more efficiently and gain full control of their resources. Read this paper to find out more.
A smart meter is an electronic device
that records information such as
consumption of electric energy, voltage
levels, current, and power factor. Smart
meters communicate the information to
the consumer for greater clarity of
consumption behavior, and electricity
suppliers for system monitoring and
customer billing.
Evolving Distribution Grid article in Electric Perspectives magazine Jan-Feb 2015 edition. Article discusses emerging business opportunities for a utility Distribution Services Provider.
The zone of interaction between the smart grid and the consumer has been characterized as 'the great unknown.' Yet ready or not'with the smart grid rapidly taking shape, a rush of companies swarming the market, state mandates kicking into effect, and actual deployments being built out'the smart grid is now poised to plunge headlong into this largely unexplored land of consumer demand. Yet so far, despite optimistic reconnaissance gathered from pilot projects and other preliminary tests, real-world expeditions into the new consumer frontier have met with a host of problems'from cost overruns to consumer resistance. So perhaps at this point it would be prudent to step back and reassess this terra incognita. The smart grid is currently conservatively valued at just over $20 billion in the United States and over $70 billion globally. Yet only about 10% of this amount is accounted for by consumer applications'mostly smart meters. The smart grid will only truly achieve its goals if it establishes positive two-way communications between utilities and consumers. This means that residential applications and services must necessarily gain significantly in share before the smart grid can realize its visionary promise. This study presents a wealth of insights into smart grid/consumer dynamics. It examines the issues involved in building positive two-way communications interactions, and the intrinsic negative resistance that can be expected. With a focus on residential applications and services, it provides an in-depth analysis of advanced metering infrastructure, smart meters, demand response, dynamic pricing, home energy management systems, home area networks, smart appliances, popular communications platforms, and futuristic technologies. The competitive situation is also discussed, showing how giants like Cisco, Duke Energy, and Google are entering a fledgling field so far dominated by relatively recent startups, such as Enernoc, Control4, and a flock of other companies. Other areas covered in this study include product and marketing trends, recent smart grid deployments, and consumer surveys regarding smart grid acceptance.
this slide shows what is smart grid ,its comparison between the electromechanical grids . smart meters and devises for the smart grid . benefit of smart grid . and a conclution
People are talking about the smart grid to television commercials on this topic, we have a plethora of activities around the world where engineers, policy makers, entrepreneurs, and businesses have shown a keen interest in various aspects of this technology. There are smart-grid-related funding opportunities, projects, seminars, conferences, and training programs going on in Europe, the United States, Japan, India and China to name a few. With all this hope and expectation about the smart grid, the question needs to be asked— what it will take to make it real. For the smart grid to be practical and beneficial to society, the following are some of the expectation from the civic society.
Energy efficiency in the UAE is a growing challenge due to the ever increasing penetration of personal appliances and an unsustainably high consumption of electrical energy. Electrical efficiency ratings provided by the manufacturers, based on ideal operating conditions, is an important criterion commonly used by consumers when purchasing appliances and electrical machines. We are proposing a versatile, highly scalable and portable smart electrical energy monitoring and metering device. We will design and prototype a single-phase, software-defined energy monitoring system with the aid of an embedded processor and the wireless GSM communication protocol. In contrast to simple contact based voltage and current measurement mechanisms, the proposed sophisticated and portable embedded device will be driven by a contact-less split core Current Transformer (CT) and a generic Potential Transformer (VT). Based on the sensed single phase voltage and current variables, the device will calculate and communicate, in real time, the key electrical energy parameters of average power, power factor and energy in units of Kilowatt-Hours (kWH) over a user-defined period of time. The calculated parameters are communicated to the consumer over the wireless GSM protocol. The calculated parameters can then be used to benchmark numerous single phase electrical.
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Advanced power and energy measurement is already providing opportunities for certain functions in
certain power supplies in certain applications. This report highlights where these functions, power
2. supplies and applications converge, and when they are likely to offer the greatest commercial prospects.
Topics include:
Background and Demand Characteristics
Utility Demand Response
Other Demand Characteristics
Market Drivers
Worldwide Power & Energy Measurement Forecasts
Application Forecasts
Wattage Forecasts
Power Supply Forecasts
Selected Company Profiles
Appendix A: Energy Management Systems: Conference Reports
Appendix B: Terms and Acronyms
Measuring real-time energy consumption, and adjusting power delivery at critical loads (as opposed to
simple “on-off” functions), are becoming increasingly important in today’s commercial, residential and
industrial environments. The ability to “fine-tune” energy usage requires sophisticated power monitoring
and measurement techniques.
Driven by such diverse trends as Zero Net Energy and data center infrastructure management, this type
of “advanced” power measurement has value in Distributed Power Systems, Metering, Home
Automation, Industrial Automation, and Building Automation. The market for Power & Energy
Measurement in these applications is projected to grow from 25.3 million units in 2012 to 108.4 million
units in 2017, a compound annual growth rate (CAGR) of 33.8%.
Each application has very specific dynamics, however, and is expected to grow at varying rates.
Applications need different levels of advanced power measurement, for instance. In other cases, a single
application will provide several opportunities. “Smart” meters, for instance, will provide board-level
power opportunities, with a subset of that market – “demand response” meters – leading to specific
power supply opportunities.
Darnell has identified four markets that will benefit from advanced power and energy measurement
functions: Embedded AC-DC Power Supplies, Power Distribution Units; Motor Drives; and Telecom
Rectifiers. Embedded AC-DC power supplies are a strong unit market with healthy sales between 2012
and 2017. But all of these products have been targeted by companies making ICs for advanced power
measurement functions; and they are all likely to be good markets, both in terms of market share and
growth rates. Other power supplies, such as photovoltaic inverters and uninterruptible power supplies,
are not forecast, but their role in this market is put in perspective.
“Zero net energy” is one of the drivers that could lead to an increased need for accurate power and
energy measurement. Renewable energy micro-grids with decentralized management and control offer
3. increasing degrees of grid reliability, stability, and resiliency in the face of power outages. In this
situation, the role of the utility may expand over time to include both power management and power
generation (exporting and importing power). Such power generation and management includes PV
rooftops systems, PV/zero-energy homes and vehicle systems, and other distributed energy resource
systems. Linking PV systems at the community level can offer some of the economies of scale of utility-
scale PV applications. Many of these PV applications are already cost-effective for certain markets, and
they are likely to expand over the next few years. PV inverters, although not included in this forecast,
represent a potential, longer-term market.
At the front end, digital controllers are being designed with an integrated power factor correction (PFC)
function to provide more accurate input power metering. These new PFC controller designs, along with
new current sensing ICs, could be used in ac-dc power supplies at the front end to “intelligently solve
increasingly complex power management challenges” in future smart grid applications. PFC is a function
that could be integrated into power measurement products at the higher wattage levels where it has
been regulated and is required. PFC is not a requirement for power measurement, however, so not all
products with PFC are candidates for such measurement.
At a broad level, so-called “energy management systems” are being implemented in a variety of facilities,
but not all of these systems are “critical” or complex enough to require dynamic power measurement
and control. Economic factors will drive the “first wave” of implementations that can benefit from these
functions. Data centers, industrial facilities, commercial buildings, telecom sites, and utility demand
response are some of the applications where such power monitoring and measurement are both needed
and cost-effective. This report does not focus on power and energy management functions on the utility
side; it only addresses functions and equipment on the customer premises side, including commercial
buildings, industrial facilities and residences.
Demand response is expected to be the underlying driver for utilities’ use of energy management and
related power measurement systems. This includes smart meters, primarily. Although a single device, its
measurement use is spread over a number of applications that are frequently seen as separate markets,
including smart appliances, home automation, photovoltaics, and electric vehicle charging. Concurrently,
utilities are implementing energy management systems that can monitor, measure and control multiple
devices in a variety of settings. Since precise energy usage and measurement is the goal, leading to rate
reporting and adjustments, accurate data transmission is critical.
Such demand characteristics are opening up a new market that Darnell calls “demand response” meters.
This development is so new that companies are just beginning to consider it – making it a good “leading-
edge” opportunity.
Obstacles exist, however. Very few residences and other buildings currently make use of “smart devices”
because standards for communications and capabilities are still being worked out. A major issue is the
low percentage of utilities with time-of-use (TOU) rates, which are considered necessary for smart
appliance adoption and use. Several utilities are not planning to offer TOU rates for the general public
until the end of the forecast period, so smart appliances are expected to be a longer-term trend..
4. Digital power management is part of almost all energy management solutions, since “intelligent” data
communication is an essential feature of these systems. Accuracy of data acquisition and power
measurement is challenging from a number of perspectives, and its importance (and how precise it
needs to be) determines, in part, the market penetration rates used to derive a forecast. For instance, a
data center may only need to be “accurate enough” but still cost-effective: going above 3% accuracy may
involve a significant cost-adder. Utilities will need more accuracy, on the other hand.
Wattages will be a defining factor in the power measurement systems market, as well, with the higher
wattages expected to have the higher sales. In certain applications, PFC is a function that could be
integrated into power measurement products at these wattage levels where it is required, for example.
Due to their more complex architectures with multiple loads, Distributed Power Systems are already a
major market for general “energy management.” These are less price-sensitive markets, and they require
the more sophisticated measurement and control offered by such systems. Servers, for example, need
accurate ac- and dc-power measurement, active calibration of dc current measurements, sufficient VRM
slew rates to support advanced processor power management, and power system communication to
ensure that the entire system stays operational when redundancy is lost during “oversubscription”
events. The efficiency improvements that come from power measuring and real-time optimization can
off-set the extra cost.
Government regulations and trends such as zero net energy will drive the need for even more energy
efficiency and precise power measurement. PFC is already regulated at certain wattage levels, and the
Smart Grid is slowly getting standardized worldwide.
Smart metering has dramatically increased the need for products that offer precise measurements in
multi-phase metering, while simplifying designs and reducing costs. And Energy Star has established
energy efficiency guidelines for servers, which will have an impact on data centers.
Although still emerging, advanced power and energy measurement is already providing opportunities for
certain functions in certain power supplies in certain applications. This report highlights where these
functions, power supplies and applications converge, and when they are likely to offer the greatest
commercial prospects.
Table of Contents :
Introduction
Background and Demand Characteristics
Utility Demand Response
Other Demand Characteristics
Zero Net Energy (ZNE)
Standards and Regulations
Digital Power Management and Accuracy Requirements
Market Drivers
Power Factor Correction (PFC)
Worldwide Power & Energy Measurement Forecasts
5. Application Forecasts
Distributed Power Systems
Metering
Home Automation
Industrial Automation
Building Automation
Wattage Forecasts
Power Supply Forecasts
Selected Company Profiles
Allegro Microsystems
Analog Device
C&D Technologies
Cirrus Logic
Fairchild Semiconductor
Maxim Integrated Products
Microchip Technology Inc
Pulse Electronics
ROAL Electronics
STMicroelectronics
Texas Instruments
Appendix A: Energy Management Systems: Conference Reports
Appendix B: Terms and Acronyms.
List of Tables
Table 1 – Worldwide Power & Energy Measurement Market, by
Application (millions of units)
Table 2 – Worldwide Power & Energy Measurement Market, by
Application (excluding Metering) (millions of units)
Table 3 – Worldwide Power & Energy Measurement Market, Distributed
Power Systems (millions of units)
Table 4 – Worldwide Power & Energy Measurement Market,
Metering (millions of units)
Table 5 – Worldwide Power & Energy Measurement Market, Home
Automation (millions of units)
Table 6 – Worldwide Power & Energy Measurement Market,
Industrial Automation (millions of units)
Table 7 – Worldwide Power & Energy Measurement Market,
Building Automation (millions of units)
Table 8 – Worldwide Power & Energy Measurement Market, All
Applications Excluding Metering, by Wattage (millions of units)
Table 9 – Worldwide Power & Energy Measurement Market, by
Power Supply (excluding Metering) (millions of units)
List of Figures
6. Figure 1 – ADP1048 Advanced Input Power Monitoring Function, Block Diagram
Figure 2 – Pulse Electronics Rogowski Coil
Figure 3 – Worldwide Power & Energy Measurement Market, by
Application (millions of units)
Figure 4 – Worldwide Power & Energy Measurement Market, by
Application (excluding Metering) (millions of units)
Figure 5 – Worldwide Power & Energy Measurement Market, by
Application (market share)
Figure 6 – Worldwide Power & Energy Measurement Market, by
Application (excluding Metering) (market share)
Figure 7 – Where to Measure Power in the Data Center
Figure 8 – Cabinet Power Distribution Unit
Figure 9 – Worldwide Power & Energy Measurement Market,
Distributed Power Systems (millions of units)
Figure 10 – Worldwide Power & Energy Measurement Market,
Server by Power Supply (millions of units)
Figure 11 – Worldwide Power & Energy Measurement Market,
Storage by Power Supply (millions of units)
Figure 12 – Worldwide Power & Energy Measurement Market,
Network Equipment by Power Supply (millions of units)
Figure 13 – Worldwide Power & Energy Measurement Market,
Telecom by Power Supply (millions of units)
Figure 14 – Electricity Meter Block Diagram
Figure 15 – Worldwide Power & Energy Measurement Market,
Metering (millions of units)
Figure 16 – Monster Power Gateway and Power Center
Figure 17 – LG Electronics “Smart” Appliances
Figure 18 – Worldwide Power & Energy Measurement Market,
Home Automation (millions of units)
Figure 19 – Premium/Servo Industrial Drive Example
Figure 20 – Worldwide Power & Energy Measurement Market,
Industrial Automation (millions of units)
Figure 21 – Site Controls Energy Management Platform
Figure 22 – Worldwide Power & Energy Measurement Market,
Building Automation (millions of units)
Figure 23 – Worldwide Power & Energy Measurement Market, All
Applications (excluding Metering), by Wattage (millions of units)
Figure 24 – Worldwide Power & Energy Measurement Market, All
Applications (excluding Metering), by Wattage (market share)
Figure 25 – Worldwide Power & Energy Measurement Market, by
Power Supply (excluding Metering) (millions of units)
7. Figure 26 – Worldwide Power & Energy Measurement Market, by
Power Supply (excluding Metering) (market share)
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