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The bearing power of DC power socket is large, and the socket is not prone to fever and other phenomena. The inner core is made of high temperature resistant plastic material, ensuring no deformation under high temperature.
Featuring a reasonable structure design with large plug distance, each plug of the DC power socket can be used independently without mutual interference. The shrapnel utilizes high elastic phosphorus copper data, allowing for frequent plug and pull cycles without fatigue or sparking.
From AC sources (like 120V, 60 Hz lines) to DC sources, or constant frequency inverters and DC-DC converters for different voltage levels.
Converts AC voltage to pulsating DC voltage, allowing unidirectional current flow.
Suppresses pulsation in rectified waveforms, allowing DC components through.
Maintains stable voltage output despite changes in line voltage or load current.
The inner core is made of high-temperature resistant plastic to prevent deformation, and the contact shrapnel uses high elastic phosphorus copper for durability and spark prevention.
Yes, all products meet the requirements of the ROHS directive, ensuring they are environmentally friendly and safe for global use.
The socket is designed with a large bearing power capacity and heat-resistant materials, which prevents it from "fever" or overheating during operation.
The stability is achieved through a three-stage process: a Rectifier for conversion, a Low-pass filter to suppress pulsation, and a Voltage regulator to maintain a steady output.
Absolutely. They are widely applied in hospital medical equipment, security monitors, video intercoms, and infrared sensor products like security doors.
The reasonable structure design provides a large plug distance, allowing each plug to be used independently without affecting adjacent connections.
