businesswire | March 24, 2023
AVANGRID, a leading sustainable energy company and part of the Iberdrola Group, has announced today the signing of a power purchase agreement (PPA) with Meta to procure renewable energy from True North, a 240 MW solar farm under development in Falls County, Texas, and AVANGRID’s first solar facility in the state.
“We are proud to sign this agreement with a partner like Meta who, like us at AVANGRID, has a strong commitment to accelerating the energy transition in the U.S.,” said Pedro Azagra, AVANGRID’s CEO. “With projects like True North, we continue our mission of helping the country meet its ambitious clean energy goals, while also creating quality jobs and strengthening our local economies.”
“We’re excited to expand our partnership with AVANGRID to help bring new solar energy to support our local operations in Texas,” said Urvi Parekh, head of renewable energy at Meta. “True North will support our commitment to 100% renewable energy and represents additional investment and jobs for the region.”
Since 2020, Meta’s global operations have been supported by 100% renewable energy. The True North project will support Meta’s upcoming data center in neighboring Temple, their second data center facility in Texas.
True North, AVANGRID’s first solar farm in Texas, will deliver 240 MW of clean, renewable energy once it reaches commercial operations, which is expected by early 2025. During its construction and operation, True North will create over 200 local jobs and is expected to pay over $40 million in property taxes over 25 years in this state, in which the company already operates more than 1,250 MW of onshore wind facilities.
With more than 8.6 GW of installed renewable capacity, including 1.1 GW of solar projects operating and under construction, AVANGRID is the third largest renewable energy operator in the U.S. In total, the company has a strong pipeline of more than 25 GW under development, encompassing solar, onshore wind, offshore wind, and battery energy storage.
AVANGRID, Inc. aspires to be the leading sustainable energy company in the United States. Headquartered in Orange, CT with approximately $41 billion in assets and operations in 24 U.S. states, AVANGRID has two primary lines of business: networks and renewables. Through its networks business, AVANGRID owns and operates eight electric and natural gas utilities, serving more than 3.3 million customers in New York and New England. Through its renewables business, AVANGRID owns and operates a portfolio of renewable energy generation facilities across the United States. AVANGRID employs more than 7,500 people and has been recognized by JUST Capital in 2021, 2022 and 2023 as one of the JUST 100 companies – a ranking of America’s best corporate citizens. In 2023, AVANGRID ranked first within the utility sector for its commitment to the environment. The company supports the U.N.’s Sustainable Development Goals and was named among the World’s Most Ethical Companies in 2022 for the fourth consecutive year by the Ethisphere Institute. AVANGRID is a member of the group of companies controlled by Iberdrola, S.A.
businesswire | March 23, 2023
Capstone Green Energy Corporation, a global leader in carbon reduction and on-site resilient green energy solutions, announced that Horizon Power Systems, Capstone’s exclusive distributor for the Rocky Mountain States, Western Canada, Oklahoma, and Arizona, secured a follow-on order for two Capstone C1000 Signature Series microturbines. The order is scheduled to be commissioned during the third quarter of 2023.
“Capstone microturbines create loyal customers, and this order is a great example. This customer has been using Capstone Green Energy microturbine technology since 2010, and continues to return for additional systems,” said Darren Jamison, President and Chief Executive Officer of Capstone Green Energy. “They have implemented our low emission systems at multiple, remote, unstaffed facilities across their operations in Wyoming. Capstone microturbines continue to deliver reliable, low-emission power where the customer needs it most.”
The microturbine will power a remote natural gas compression facility and run on high-pressure natural gas (HPNG). The customer indicated that it selected Capstone based on its ongoing, positive experiences with Capstone products. Their current equipment has operated continuously for several years, despite being subjected to harsh conditions and extreme weather events.
“The customer’s current fleet of 15 microturbines have an average 99% uptime,” said Sam Henry, President of Horizon Power Systems. “The company knows the reliability and low maintenance of microturbine-based energy systems. Even with the catastrophic storms that have rolled through the Basin this year, the microturbine fleet has maintained its near-perfect uptime. Capstone microturbines meet Wyoming’s stringent air quality rules and make permitting very easy,” added Henry.
About Capstone Green Energy
Capstone Green Energy is a leading provider of customized microgrid solutions and on-site energy technology systems focused on helping customers around the globe meet their environmental, energy savings, and resiliency goals. Capstone Green Energy focuses on four key business lines. Through its Energy as a Service (EaaS) business, it offers rental solutions utilizing its microturbine energy systems and battery storage systems, comprehensive Factory Protection Plan (FPP) service contracts that guarantee life-cycle costs, as well as aftermarket parts. Energy Generation Technologies (EGT) are driven by the Company's industry-leading, highly efficient, low-emission, resilient microturbine energy systems offering scalable solutions in addition to a broad range of customer-tailored solutions, including hybrid energy systems and larger frame industrial turbines. The Energy Storage Solutions (ESS) business line designs and installs microgrid storage systems creating customized solutions using a combination of battery technologies and monitoring software. Through Hydrogen & Sustainable Products (H2S), Capstone Green Energy offers customers a variety of hydrogen products, including the Company's microturbine energy systems.
Power Integrations | March 21, 2023
Power Integrations, the leader in high-voltage integrated circuits (ICs) for energy-efficient power conversion, today announced a 900-volt gallium-nitride (GaN) extension to the company’s InnoSwitch3™ family of flyback switcher ICs. The new ICs, which feature the company’s proprietary PowiGaN™ technology, deliver up to 100 watts with better than 93 percent efficiency, eliminating the need for heat sinks and streamlining design of space-challenged applications. InnoSwitch3 designs also offer exceptional light-load efficiency making them ideal for providing auxiliary power in electric vehicles during low-power sleep modes. The AEC-Q100-qualified InnoSwitch3-AQ family is particularly suitable for EVs based on 400-volt bus systems where the 900-volt PowiGaN switch provides more power and increased design margin―required for 12-volt battery-replacement systems―with enhanced efficiency over silicon-based converters.
“The dominant bus voltage for electric vehicles is 400 volts,” stated Peter Vaughan, automotive business development director at Power Integrations. “EV manufacturers are optimizing their new generation of 400-volt systems and re-engineering various power stages in the vehicle, such as the on-board charger. The 900-volt PowiGaN switch is extremely beneficial because it easily accommodates inductive noise spikes, yet it can operate from as low as 30 VDC, enabling systems to meet functional safety active discharge requirements. The extra power delivered by our GaN technology matches the increasing power demands of EV manufacturers, moreover, efficiency in power conversion―even in auxiliary systems―is important for both range extension and thermal management.”
In the industrial space, extra power and increased efficiency are extremely advantageous in applications such as appliances, three-phase motors and auxiliary power supply units (PSUs) in servers. The new 900-volt parts are pin-for-pin compatible with existing 725-volt and 750-volt InnoSwitch3-EP parts and offer increased safety margin which is ideal for countries with unstable line voltages.
“Our ability to deliver GaN parts rated at up to 900 volts demonstrates the reliability and ruggedness of our PowiGaN technology,” stated Silvestro Fimiani, senior product marketing manager at Power Integrations.
The new 900-volt InnoSwitch3-EP and InnoSwitch3-AQ off-line CV/CC flyback switcher ICs employ synchronous rectification, a valley switching discontinuous conduction mode (DCM) and continuous conduction mode (CCM) flyback controller. FluxLink™ communication technology enables the IC package to bridge the isolation barrier, optimizing efficiency and eliminating the need for optocouplers. PowiGaN technology enables InnoSwitch3-EP ICs to deliver up to 100 watts (230 volts alternating current [VAC] plus or minus 15 percent) without heat sinks. InnoSwitch3-EP devices incorporate multiple protection features including line over- and under-voltage protection, output over-voltage and over-current limiting, and over-temperature shutdown. Devices are available with standard and peak power delivery options. Automotive InnoSwitch3-AQ devices can also deliver 100 watts from a 400-volt bus and provide performance and protection features similar to those of the popular 1700-volt silicon-carbide InnoSwitch3-AQ ICs currently used in 800-volt EV systems.
Availability & Resources
Pricing for the new 900-volt GaN InnoSwitch3-EP devices for industrial applications start at $2.00 for 10,000-unit quantities. For the InnoSwitch3-AQ automotive-qualified devices or further information on all Power Integrations’ solutions, contact a Power Integrations sales representative or one of the company’s authorized worldwide distributors: Digi-Key, Farnell, Mouser and RS Components, or visit power.com.
About Power Integrations
Power Integrations, Inc. is a leading innovator in semiconductor technologies for high-voltage power conversion. The company’s products are key building blocks in the clean-power ecosystem, enabling the generation of renewable energy as well as the efficient transmission and consumption of power in applications ranging from milliwatts to megawatts.