Do not use a line Isolation Transformer during this check. Leakage Current Hot Check (See below Figure) Plug the AC cord directly into the AC outlet. Do not lift the Picture tube by it's Neck. Due to high vacuum and large surface area of picture tube, extreme care should be used in handling the Picture Tube. Keep wires away from high voltage or high temperature parts. When replacing a high wattage resistor (Oxide Metal Film Resistor, over 1W), keep the resistor 10mm away from PCB. If any fuse (or Fusible Resistor) in this monitor is blown, replace it with the specified. It will also protect the receiver and it's components from being damaged by accidental shorts of the circuitry that may be inadvertently introduced during the service operation. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks. General GuidanceAn isolation Transformer should always be used during the servicing of a receiver whose chassis is not isolated from the AC power line. Do not modify the original design without permission of manufacturer.
#Lg pc1d manual
It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent X-RADIATION, Shock, Fire, or other Hazards. These parts are identified by in the Schematic Diagram and Replacement Parts List. SAFETY PRECAUTIONSIMPORTANT SAFETY NOTICEMany electrical and mechanical parts in this chassis have special safety-related characteristics. 19 REPLACEMENT PARTS LIST.20 SCHEMATIC DIAGRAM.
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Progress in Photovoltaics: Research & Applications Wiley CAUTIONBEFORE SERVICING THE CHASSIS, READ THE SAFETY PRECAUTIONS IN THIS MANUAL. The double‐side HJ solar cell with Jsc = 34♸ mA/cm2, Voc = 0♶45 V, FF = 73%, and an efficiency of 16♴% has been fabricated. After optimizing the deposition parameters of the n‐layer and the H2 pretreatment of solar cell, the single‐side HJ solar cells with Jsc = 34♶ mA/cm2, Voc = 0♶15 V, FF = 71%, and an efficiency of 15♲% have been achieved.
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Some simulated parameters of solar cells were obtained: the best results for Jsc = 39♴ mA/cm2, Voc = 0♶4 V, FF = 83%, and η = 21% have been achieved. This work improves the understanding of HJ solar cells to derive arguments for design optimization. Results of numerical modeling as well as experimental data obtained using HWCVD on µc‐Si (n)/a‐Si (i)/c‐Si (p) heterojunction are presented. A new technique for characterization of n‐type microcrystalline silicon (n‐µc‐Si)/intrinsic amorphous silicon (i‐a‐Si)/crystalline silicon (c‐Si) heterojunction solar cells from Pc1D is developed.
![lg pc1d lg pc1d](https://www.mdpi.com/electronics/electronics-08-00241/article_deploy/html/images/electronics-08-00241-g001.png)
By means of modeling and numerical computer simulation, the influence of emitter‐layer/intrinsic‐layer/crystalline‐Si heterostructures with different thickness and crystallinity on the solar cell performance is investigated and compared with hot wire chemical vapor deposition (HWCVD) experimental results. In this paper, we will present a Pc1D numerical simulation for heterojunction (HJ) silicon solar cells, and discuss their possibilities and limitations. Simulation and fabrication of heterojunction silicon solar cells from numerical computer and hot‐wire CVD Simulation and fabrication of heterojunction silicon solar cells from numerical computer and.