5000 watts power inverter

Unless a custom-made transformer is available, the circuit design is constrained by the transformer that is accessible. If the primary winding is not center-tapped, the design is limited to an AB driver. A center-tapped primary winding allows for the use of A, B, C, and AB inverter drivers, which can be supplied with 12 or 24 volts and 6 or 12 volts; however, the wattage cannot be altered. The transistors and MOSFETs should be rated for double the wattage. For example, the IRF640 has a rating of 200 volts, 16 amps, and 136 watts. This translates to 200 volts at 0.68 amps or 8.5 volts at 16 amps, not 200 volts at 16 amps. The IRF640 will heat up at 12 volts and 11 amps during continuous operation, so doubling the transistors and MOSFETs helps prevent overheating. The values of the active components from the AND gate output resistors to the rest of the inverter circuit depend on the power supply and the inverter transformer.

The request includes the need for diagrams of 2000-watt and 5000-watt inverters with chargers, as well as the values of the components, instructions on how to wind the transformer, and guidance on installing fittings on the inverter, such as fuses and sockets. The individual indicates they are a novice in electronics and expresses a desire for further communication.

The design of an inverter circuit, particularly one rated for 2000 watts or 5000 watts, requires careful consideration of the transformer specifications, as the transformer is critical to the inverter's performance. For a center-tapped transformer, the primary winding must be designed to allow for the selected inverter topology—A, B, C, or AB. The transformer must be capable of handling the required input and output voltages, with appropriate wire gauge selected to minimize losses and overheating.

For the transistors or MOSFETs, selection should be based on the maximum expected load. The IRF640 is a suitable choice; however, it is important to ensure that heat dissipation is adequately managed, possibly through the use of heatsinks or active cooling methods. The circuit should incorporate protective components such as fuses to prevent damage from overcurrent conditions.

The winding of the transformer is crucial, with the number of turns on the primary and secondary sides determined by the desired input and output voltages. The winding technique should ensure that the layers are tightly wound to reduce electromagnetic interference and maintain efficiency. Additionally, the installation of fittings, such as sockets and fuses, should follow standard practices to ensure safety and reliability, with clear labeling of connections to prevent incorrect wiring.

In summary, when designing an inverter circuit, it is essential to consider the transformer specifications, component ratings, and overall circuit layout to ensure efficient and safe operation.Unless you can get a custom made transformer your circuit design is ruled by the transformer available to you, if the primary winding is not center taped you are limited to an AB driver. The only transformer you can play with is a center tap primary, if the primary winding is center taped then you can use an A, B, C, and AB inverter driver and it can be supplied with 12 or 24

volts and 6 or 12 volts you can`t play with the watts. The transistors and mosfets should be watts doubled, take an IRF640 it is 200 volts 16 amps and 136 watts. That is 200 volts at 0. 68 amps to 8. 5 volts at 16 amps not 200 volts at 16 amps. An IRF640 will get hot at 12 volts 11 amps constant running doubling the transistors and mosfets will keep them from overheating.

From the And gate output resistors to the rest of the Inverter circuit the value of the active components depends on the power supply and the inverter transformer. please sir, can u send me 2000watts and 5000watts inverter diagrams with charger and also values of the come components and most especially how to coil the transformer and also how to install fittings on the inverter such as fuse, socket please sir am a novice at electronics.

Thanks sir love to hear from you. You can email me at; ekiyeemmanuel@rocketmail. com. love to hear from you stay blessed. please Pak, bisa u mengirim saya 2000watts dan diagram 5000watts inverter dengan charger dan juga nilai-nilai dari komponen datang dan terutama bagaimana kumparan transformator dan juga cara memasang fitting pada inverter seperti sekering, soket silakan Pak seorang pemula di elektronik. Terima kasih pak senang mendengar dari Anda. Anda dapat email saya di;noikinoi@gmail. com 🔗 External reference