| MW-High-power switching power supply |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
| | High-Power Switching Power Supply Switching power supply design is a relatively new approach that solves many of the problems that exist in linear power supply design, including transformer size and voltage regulation. In a switching power supply design, the input voltage is no longer reduced, but rectified and filtered at the input, then converted into a high-frequency pulse train by a chopper, and filtered and rectified again before the voltage reaches the output. The switching transistor used in the switching power supply is mostly switched between the fully open mode (saturation zone) and the fully closed mode (cut-off zone), both modes have the characteristics of low dissipation, and the conversion between the switching will have a higher dissipation, but the time is very short, so it is more energy-saving and produces less waste heat. Ideally, the switching power supply itself does not consume electrical energy. Voltage regulation is achieved by adjusting the timing of transistor conduction and circuit breaking. Conversely, in the process of generating the output voltage of a linear power supply, the transistor operates in the amplification area, which itself consumes electrical energy. The high conversion efficiency of the switching power supply is one of its major advantages, and because the switching power supply works at a high frequency, a transformer with a small size and light weight can be used, so the switching power supply will be smaller than the linear power supply, and the weight will be relatively light. | MW-KG | In Stock | New Sealed Under Guarantee | | |
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