The power output range of the new module series is 370 to 380 W, the temperature coefficient is -0.26%/degree Celsius, and the efficiency is as high as 21.7%.
Japanese electronics manufacturer Panasonic has launched a new series of residential heterojunction panels that are compatible with its Evervolt lithium-ion storage solution for residential solar installations.
The new module series will be available in the third quarter of this year, with a power output range of 370 to 380 W and an efficiency of 21.2% to 21.7%.
The temperature coefficient of the panel is -0.26%/degree Celsius, and the manufacturer provides a 25-year product guarantee and a 25-year power output guarantee. It is said that at the end of the warranty period, these panels will be able to operate at 92% of their original performance.
In addition, the Japanese module manufacturer has launched a series of black versions of the same modules with power output ranging from 360 to 370 W and efficiency ranging from 20.6% to 21.2%. The company said in a statement: "The new module is the latest technological development in the roadmap of innovative solutions designed by us, taking into account the needs of homeowners and installers."
In addition, Panasonic said that its Evervolt battery cabinet has been improved to allow more batteries to be stacked and to store more energy in a smaller space. "The improved cabinet size is 29x47x18 inches, which is 22 square inches smaller than the previous EverVolt battery storage model," it explained. "In addition to providing AC coupling and DC coupling options, the battery storage system can also be reduced to as low as 11kWh of energy storage or expanded to 102kWh."
Panasonic launched its EverVolt storage system in September 2019. The storage capacity of the battery varies from 5.7 kWh to 34.2 kWh. The average backup capacity of the 5.7 kWh "mini" version of the storage system is 3 hours, the 11.4 kWh standard option is 6 hours, and the 17.1 kWh "plus" product is 9 hours.
This content is protected by copyright and cannot be reused. If you want to cooperate with us and want to reuse part of our content, please contact: editors@pv-magazine.com.
More articles by Emiliano Bellini
PL. Share all the technical details of personal and commercial applications of rooftop solar installation.
Please pay attention to our community standards.
Your email address will not be published. Required places have been marked *
Save my name, email, and website in this browser for the next time you comment.
By submitting this form, you agree that pv magazine will use your data to publish your comments.
Your personal data will only be disclosed or otherwise transmitted to third parties for use in spam filtering or technical maintenance of the website. Unless this is justified in accordance with applicable data protection regulations, or pv magazine is legally obliged to do so, no other transfers will be made to third parties.
You can revoke this consent at any time and it will take effect in the future, in which case your personal data will be deleted immediately. Otherwise, if pv magazine has processed your request or achieved the purpose of data storage, your data will be deleted.
For more information about data privacy, please refer to our data protection policy.
Legal Notice Terms and Conditions Privacy Policy © pv magazine 2021
This website uses cookies to calculate the number of visitors anonymously. Check our privacy policy. X
The cookie settings on this website are set to "Allow Cookies" in order to provide you with the best browsing experience. If you continue to use this website without changing the cookie settings or click "Accept" below, you agree to this.