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How To Identify The Distributor Rotor Volume Is Not A Virtual Standard Jul 13, 2017



How to identify the Distributor Rotor volume is not a virtual standard

Today, Distributor Rotor manufacturers to share how to identify the Distributor Rotor capacity is not a virtual standard, I hope to help you!

Circuit conversion loss. It is believed that the rotor will heat up when it is charged, and according to the law of conservation of energy, the amount of heat that is emitted is actually the energy of the built-in battery.

Resistance losses. When charging the phone, the internal battery of the Distributor Rotor is connected to the cell phone battery through the circuit board and wire. We know that all conductors have a resistor, a conductor without a zero resistance (superconductor is not in this discussion). The main physical property of the resistance is to convert electrical energy into heat energy, so during the charging process, the conductor will have heat generation, and the heat generation will have energy dissipation and loss.

Voltage loss. The discharge voltage of lithium battery is not invariable, the safety range of discharge voltage is 4.2 v-2.7 V, and the power conversion can be different. The general discharge voltage range is between 3.6 and 3.9 volts, which gives the battery an 80% or even higher charge, and if the battery is outside the range, the loss of power will increase.

Power loss. The rotor is not only charging the battery when charging the phone, but also powering other parts, especially the screen is a big power hog.

Running losses. During the charging process, the rotor maintains its own operation and consumes power, which is also supplied by the internal core. Through these losses, the actual amount of electricity to reach the cell phone battery is about 85% of the actual power of 4400mAH, which is 3774mAH. From 6000mAH's core capacity to 3774mAH's actual output, about 38 percent of the electricity is lost.

How to identify the Distributor Rotor capacity is not a virtual standard

Today, the rotor factory of the shenzhen distributor gives you the ability to identify the rotor capacity of the dispenser. I hope it will help you!

Circuit conversion loss. It is known to all that the distributor's rotor will heat up when it is charged, and that according to the law of conservation of energy, the amount of heat emitted is the energy of the built-in battery.

Resistance losses. When charging the phone, the internal battery of the Distributor Rotor is connected to the cell phone battery through the circuit board and wire. We know that all conductors have a resistor, a conductor without a zero resistance (superconductor is not in this discussion). The main physical property of the resistance is to convert electrical energy into heat energy, so during the charging process, the conductor will have heat generation, and the heat generation will have energy dissipation and loss.

Voltage loss. The discharge voltage of lithium battery is not invariable, the safety range of discharge voltage is 4.2 v-2.7 V, and the power conversion can be different. The average discharge voltage range is between 3.6 and 3.9 V, which can release 80 percent or more of the battery, and if it is outside of that range, the loss of electricity will increase.

Power loss. The rotor is not only charging the battery when charging the phone, Distributor Rotor but also powering other parts, especially the screen is a big power hog.

Running losses. During the charging process, the rotor maintains its own operation and consumes power, which is also supplied by the internal core. Through these losses, the actual amount of electricity to reach the cell phone battery is about 85% of the actual power of 4400mAH, Distributor Rotor which is 3774mAH. From 6000mAH's core capacity to 3774mAH's actual output, about 38 percent of the electricity is lost.