Abstract: Processes of polymerizing polyolefins and synthesis of activators. The polymerization processes include polymerizing one or more (C2-C12)?-olefin monomers in the presence of at least one catalyst and at least one co-catalyst to produce a polyolefin. The co-catalyst includes a cation and an anion, in which the anion has a structure having a vinyl terminated alkene, one boron atom or more than one boron atoms, and at least four halogen atoms. The anion of the co-catalysts is incorporated into a polymer chain of the polyolefin.

Abstract: The disclosed systems and method for evaluating the integrity of media pads within an adiabatic cooling system includes at least one media compartment containing at least one media coupon that is representative of at least one of the media pads. The system is adapted to be fluidly coupled to a source of representative process water and to provide such water to the at least one media compartment. A source of airflow fluidly is also coupled to the at least one media compartment. The flow of representative process water and airflow to the media coupon within the media compartment simulates the operation of the adiabatic cooling system. The at least one media coupon may then be analyzed as representative of media pads within the adiabatic cooling system.

Abstract: A kit comprising one or more of the following one or more solar modules (10); one of more connectors (30); and one or more integrated flashing pieces (40), wherein the one or more solar modules, the one or more connectors, and the one or more integrated flashing pieces include a first buss (16) and a second buss (18); wherein the one or more solar modules, the one or more connectors, the one or more integrated flashing pieces, or a combination thereof include a capacitor between the first buss and the second buss so that the capacitor blocks direct current from passing through the first buss, the second buss, or both and allows an alternating: current signal, an alternating voltage signal or both to pass trough the first buss, the second buss, or both so that a discontinuity, partial discontinuity, or continuity of the one more solar modules, the one or more, connectors, the one or more integrated flashing pieces, or a combination of connections therebetween are detectable when the one or more solar modules,

Abstract: The present invention is premised upon an improved photovoltaic device (“PVD”) and method of use, more particularly to an improved photovoltaic device with an integral locator and electrical terminal mechanism for transferring current to or from the improved photovoltaic device and the use as a system.

Abstract: The present invention is premised upon a connector device and method that can more easily electrically connect a plurality of PV devices or photovoltaic system components and/or locate these devices/components upon a building structure. It also may optionally provide some additional sub-components (e.g. at least one bypass diode and/or an indicator means) and may enhance the serviceability of the device.

Abstract: The present invention is premised upon an improved photovoltaic device (“PVD”) and method of use, more particularly to an improved photovoltaic device with an integral locator and electrical terminal mechanism for transferring current to or from the improved photovoltaic device and the use as a system.

Abstract: A kit comprising one or more of the following one or more solar modules (10); one of more connectors (30); and one or more integrated flashing pieces (40), wherein the one or more solar modules, the one or more connectors, and the one or more integrated flashing pieces include a first buss (16) and a second buss (18); wherein the one or more solar modules, the one or more connectors, the one or more integrated flashing pieces, or a combination thereof include a capacitor between the first buss and the second buss so that the capacitor blocks direct current from passing through the first buss, the second buss, or both and allows an alternating: current signal, an alternating voltage signal or both to pass trough the first buss, the second buss, or both so that a discontinuity, partial discontinuity, or continuity of the one more solar modules, the one or more, connectors, the one or more integrated flashing pieces, or a combination of connections therebetween are detectable when the one or more solar modules,

Abstract: A method of detecting a discontinuity in: a solar array (10) comprising: locating a detecting device (200) in one or more working positions (56) along the solar array: inducing a signal (80) by applying a plurality of flashes of light to a solar module in the solar array: measuring (64) the signal at two different locations along the solar array; comparing the signals measured at two different locations to each other, and outputting (62) a result of the comparing step.

Abstract: The present invention is premised upon a connector device and method that can more easily electrically connect a plurality of PV devices or photovoltaic system components and/or locate these devices/components upon a building structure. It also may optionally provide some additional sub-components (e.g. at least one bypass diode and/or an indicator means) and may enhance the serviceability of the device.

Abstract: The present invention is premised upon an improved photovoltaic device (“PVD”) and method of use, more particularly to an improved photovoltaic device with an integral locator and electrical terminal mechanism for transferring current to or from the improved photovoltaic device and the use as a system.

Abstract: The present invention is premised upon a connector device and method that can more easily electrically connect a plurality of PV devices or photovoltaic system components and/or locate these devices/components upon a building structure. It also may optionally provide some additional sub-components (e.g. at least one bypass diode and/or an indicator means) and may enhance the serviceability of the device.

Abstract: A solar array system includes a plurality of power-generator modules, each power-generator module having an identical form factor and comprising a plurality of photovoltaic cells wired for power generation. The system also includes at least one sensor module having a substantially identical appearance and form factor as the power-generator modules and comprising a like plurality of photovoltaic cells. The operational state of the system is monitored by an array performance monitor, which measures signals sent from the various modules. At least one photovoltaic cell in the sensor module delivers a short-circuit current signal to the array performance monitor and at least one photovoltaic cell in the sensor module delivers an open-circuit voltage signal to the array performance monitor. These signals are used to calculate a theoretical power output of the array system, which is compared to the actual power output.

Abstract: The present invention is premised upon a connector device and method that can more easily electrically connect a plurality of PV devices or photovoltaic system components and/or locate these devices/components upon a building structure. It also may optionally provide some additional sub-components (e.g. at least one bypass diode and/or an indicator means) and may enhance the serviceability of the device.

Abstract: The present invention is premised upon an improved photovoltaic device (“PVD”) and method of use, more particularly to an improved photovoltaic device with an integral locator and electrical terminal mechanism for transferring current to or from the improved photovoltaic device and the use as a system.

Abstract: The present invention is premised upon a photovoltaic assembly system for securing and/or aligning at least a plurality of vertically adjacent (overlapping) photovoltaic device assemblies to one another. The securing function being accomplished by a clip member that may be a separate component or integral to one or more of the photovoltaic device assemblies.