GBU6GL-6130M3/51 is a rectifier bridge belonging to the category of electronic components. It is commonly used in power supply applications and exhibits specific characteristics that make it suitable for various electrical systems. The product is typically packaged individually and comes with essential documentation outlining its specifications and usage guidelines.
The GBU6GL-6130M3/51 features the following specifications: - Maximum Average Forward Current: 6A - Maximum Repetitive Reverse Voltage: 1000V - Maximum Operating Temperature: 150°C - Mounting Type: Through Hole - Package / Case: GBU
The detailed pin configuration of GBU6GL-6130M3/51 includes four pins, each designated for specific functions related to rectification and current flow.
The functional features of GBU6GL-6130M3/51 include: - Efficient rectification of AC input to DC output - High current and voltage handling capabilities - Reliable performance under varying load conditions
GBU6GL-6130M3/51 operates on the principle of rectification, where it converts alternating current (AC) input into direct current (DC) output. This process involves the use of diodes arranged in a bridge configuration to ensure unidirectional current flow.
The GBU6GL-6130M3/51 is widely used in the following application fields: - Power supply units for industrial equipment - Battery charging systems - Motor drive circuits - Renewable energy systems
For users seeking alternative models, the following rectifier bridges can be considered as alternatives to GBU6GL-6130M3/51: - GBU8JL-6130M3/51 - GBU6GL-6130M4/51 - GBU6GL-6130M3/52
In conclusion, GBU6GL-6130M3/51 serves as a reliable rectifier bridge with specific characteristics and functional features suitable for diverse power supply applications.
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What is the GBU6GL-6130M3/51 used for in technical solutions?
What are the electrical specifications of the GBU6GL-6130M3/51?
How is the GBU6GL-6130M3/51 typically mounted in technical solutions?
What are the common applications of the GBU6GL-6130M3/51 in technical solutions?
What are the temperature and storage conditions for the GBU6GL-6130M3/51?
What are the key features of the GBU6GL-6130M3/51 that make it suitable for technical solutions?
Are there any recommended soldering or handling precautions for the GBU6GL-6130M3/51?
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Can the GBU6GL-6130M3/51 be used in automotive or aerospace applications?
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