resistance loss

resistance loss

[ri′zis·təns ‚lȯs]
(electricity)
Power loss due to current flowing through resistance; its value in watts is equal to the resistance in ohms multiplied by the square of the current in amperes.
McGraw-Hill Dictionary of Scientific & Technical Terms, 6E, Copyright © 2003 by The McGraw-Hill Companies, Inc.
References in periodicals archive ?
The company mentioned that its half-cell modules optimise interconnection technology, reduce resistance loss, boost current flow by increasing gaps between cells, resulting in an effective increase in power output.
As the content less than 6.5 [micro]m exceeds 71%, the prepared CPT shows high viscosity and large resistance loss in long pipeline transportation.
At the center frequency of 758 MHz (red plot), the resistance loss of the active inductor is nearly cancelled by the negative resistance of the active capacitor, leading to an ideal resonator in the circuit.
The total active power loss of the network transformer includes the winding resistance loss and no-load loss of the transformer.
According to the results, in above connections no resistance loss will be observed until the relative displacement angle of story equals to 0.04 radians.
6 cabling for this application, because the conductors are comparatively large, thus lowering the DC resistance loss. Presently, the market is wide open on exactly how to combine these two services on a single cable, but a standards-based wiring system and network standard eventually should determine a winner.
Thus in real application, type-b module might be a better choice, since the series resistance loss at the module level for this type of module is the lowest.
Because thermoelectric materials have a finite electric resistivity and a finite thermal conductivity, these devices are subject to two primary losses, electric resistance loss and thermal conduction, that increase the power input and reduce the net flow of heat from cold to hot.
The next day they tried to repeat the experiment, heating the same sample above 300 K and cooling it back down, but in the second cooling the high-temperature resistance loss did not occur.
According to JA Solar, its half-cell modules optimize interconnection technology, reduce resistance loss, boost current flow by increasing gaps between cells, result in an effective increase in power output, has a better temperature coefficient that leads to significant output power advantages under high temperature.