METAL HARDWARE STRUCTURES

Brand Owner (click to sort) Address Description
ZEP ZEP SOLAR 161 Mitchell Blvd., Suite 104 San Rafael CA 94903 Metal hardware structures, namely, fasteners, couplings for use with installation and mounting of solar panels, splices, hardware in the nature of metal interconnectors and locking mechanisms for solar panels or arrays, feet for supporting solar panels or arrays, attachments, namely, mounts for solar panels or arrays, roofing and building flashings, standoffs for height adjustment of solar panels or arrays, anchors, locks, tools for assembling and installing solar panel connectors or mounting systems, and supports for mounting solar panels, for supporting solar modules, photovoltaic modules and solar collectors; Metal connectors for photovoltaic modules;Technology planning and consulting in the field of solar energy, specifically specializing in the design of photovoltaic equipment and photovoltaic systems; Design and development of computer software for design of photovoltaic equipment and photovoltaic systems;
ZEP COMPATIBLE ZEP SOLAR 161 Mitchell Blvd., Suite 104 San Rafael CA 94903 Metal hardware structures, namely, fasteners, couplings for use with installation and mounting of solar panels, splices, hardware in the nature of metal interconnectors and locking mechanisms for solar panels or arrays, feet for supporting solar panels or arrays, attachments, namely, mounts for solar panels or arrays, roofing and building flashings, standoffs for height adjustment of solar panels or arrays, anchors, locks, tools for assembling and installing solar panel connectors or mounting systems, and supports for mounting solar panels, for supporting solar modules, photovoltaic modules and solar collectors; Metal connectors for photovoltaic modules;COMPATIBLE;
ZEP GROOVE ZEP SOLAR 161 Mitchell Blvd., Suite 104 San Rafael CA 94903 Metal hardware structures, namely, fasteners, couplings for use with installation and mounting of solar panels, splices, hardware in the nature of metal interconnectors and locking mechanisms for solar panels or arrays, feet for supporting solar panels or arrays, attachments, namely, mounts for solar panels or arrays, roofing and building flashings, standoffs for height adjustment of solar panels or arrays, anchors, locks, tools for assembling and installing solar panel connectors or mounting systems, and supports for mounting solar panels, for supporting solar modules, photovoltaic modules and solar collectors; Metal connectors for photovoltaic modules;
ZEP SOLAR ZEP SOLAR 161 Mitchell Blvd., Suite 104 San Rafael CA 94903 Metal hardware structures, namely, fasteners, couplings for use with installation and mounting of solar panels, splices, hardware in the nature of metal interconnectors and locking mechanisms for solar panels or arrays, feet for supporting solar panels or arrays, attachments, namely, mounts for solar panels or arrays, roofing and building flashings, standoffs for height adjustment of solar panels or arrays, anchors, locks, tools for assembling and installing solar panel connectors or mounting systems, and supports for mounting solar panels, for supporting solar modules, photovoltaic modules and solar collectors; Metal connectors for photovoltaic modules;SOLAR;Technology planning and consulting in the field of solar energy, specifically specializing in the design of photovoltaic equipment and photovoltaic systems; Design and development of computer software for design of photovoltaic equipment and photovoltaic systems;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. According to some embodiments, arithmetic structures in logic elements result from combining inverters and pass gates (or other multiplexing hardware) with LUT hardware. According to other embodiments, arithmetic structures in logic elements result from combining dedicated adder hardware (e.g., including XOR units) and fracturable LUT hardware. According to other embodiments, arithmetic structures in logic elements result from providing complementary input connections between multiplexers and LUT hardware. In this way, the present invention enables the incorporation of arithmetic structures with LUT structures in a number of ways.