Global Pvq has a total of 29 patents globally, out of which 10 have been granted. Of these 29 patents, more than 17% patents are active. Europe is where Global Pvq has filed the maximum number of patents, followed by Saudi Arabia and Germany. Parallelly, Germany seems to be the main focused R&D centre and also is the origin country of Global Pvq.
Global Pvq was founded in the year 1999. The Company develops, produces and sells mono and polycrystalline, silicon-based solar cells. As of May 2023, the market cap of Global Pvq is $334.6 Million.
Do read about some of the most popular patents of Global Pvq which have been covered by us in this article and also you can find Global Pvq patents information, the worldwide patent filing activity and its patent filing trend over the years, and many other stats over Global Pvq patent portfolio.
How many patents does Global Pvq have?
Global Pvq has a total of 29 patents globally. These patents belong to 22 unique patent families. Out of 29 patents, 5 patents are active.
How Many Patents did Global Pvq File Every Year?
Are you wondering why there is a drop in patent filing for the last two years? It is because a patent application can take up to 18 months to get published. Certainly, it doesn’t suggest a decrease in the patent filing.
|Year of Patents Filing or Grant||Global Pvq Applications Filed||Global Pvq Patents Granted|
How many Global Pvq patents are Alive/Dead?
How Many Patents did Global Pvq File in Different Countries?
Countries in which Global Pvq Filed Patents
|United States Of America||1|
Where are Research Centres of Global Pvq Patents Located?
10 Best Global Pvq Patents
WO2005086238A1 is the most popular patent in the Global Pvq portfolio. It has received 40 citations so far from companies like Global Solar Energy, PrimeStar Solar and Panasonic.
Below is the list of 10 most cited patents of Global Pvq:
|Publication Number||Citation Count|
List of Global Pvq Patents
|Global Pvq Patents||Title|
|EP3256795B1||Clamping Device And Method For Mounting A Solar Module|
|EP3176832B1||Thin Film Solar Module|
|SA517382108B1||Clamping Device And Method For Mounting A Solar Module|
|SA8495B1||A Clamping Device And A Method For Fixing A Solar Unit|
|CL60473B||Clamping Device For A Solar Module, In Which The Clamping Device Has Or Shapes At Least A First Housing Section To Receive An Edge Section Of The Solar Module.|
|US6721667B2||Method And System For Measuring Properties Of Deformable Material Specimens|
|EP1356022B1||Method And Apparatus To Grow And Mechanically Condition Cell Cultures|
|EP3076103A1||Assembly Of Parts And Assembly For Fastening At Least One Photovoltaic Module And Method For Producing An Assembly Of Parts|
|WO2020007420A1||Thin-Film Solar Module And Method For Producing A Thin-Film Solar Module|
|WO2019243230A1||Solar Module And Method For Producing A Solar Module|
|WO2016128429A1||Clamping Device And Method For Mounting A Solar Module|
|WO2016008964A1||Solar Module And Method For Producing A Solar Module|
|WO2015132334A1||Laminating Device And Method For Producing A Laminate|
|WO2015027996A1||Method For Producing Sub-Solar Modules Using Electrically Insulating Insulation Trenches In A Thin-Layer Solar Module, And Method For Producing A Thin-Layer Solar Module With Such Insulation Trenches|
|WO2015027997A1||Method For Laser-Structuring Thin Layers On A Substrate In Order To Produce Monolithically Connected Thin-Layer Solar Cells, And Method For Producing A Thin-Layer Solar Module|
|WO2013135537A1||Vacuum Deposition Source Heating System And Vacuum Deposition System|
|WO2012103885A4||Separating Device And Method For Producing A Crucible For Said Separating Device|
|WO2012022312A3||Solar Cell Module And Production Method Therefor|
|WO2011012404A3||Manufacturing Method And Manufacturing Device For Manufacturing Thin Film Solar Cells|
|WO2006089268A8||Gene And Cognate Protein Profiles And Methods To Determine Connective Tissue Markers In Normal And Pathologic Conditions|
|WO2005088731A1||Thin Film Solar Cell And Manufacturing Method|
|WO2005086238A1||Method And Apparatus For In-Line Process Control Of The Cigs Process|
|WO2004100250A1||A Thin-Film Solar Cell|
|DE60132626T2||Method And Device For The Cultivation And Mechanical Conditioning Of Cell Cultures|
|DE102015104428A1||Test Device And Method For Carrying Out An Electrical Insulation Test On Solar Modules|
|AT384780T||Method And Apparatus For Growing And Mechanical Conditioning Of Cell Cultures|
|JP3950797B2||Methods And Apparatus For Growing And Mechanically Conditioning Cell Cultures|
|CA2411524C||Method And Apparatus To Grow And Mechanically Condition Cell Cultures|
|IN2722MUMNP2012A||Solar Cell Module And Manufacturing Method Therefor|
What are Global Pvq key innovation segments?
What Technologies are Covered by Global Pvq?
The chart below distributes patents filed by Global Pvq