The OHD3-75M is a versatile electronic component that belongs to the category of voltage regulators. This device is commonly used in various electronic applications to regulate and stabilize voltage levels, ensuring consistent and reliable power supply to connected circuits and components.
The OHD3-75M voltage regulator is designed to operate within a specific range of input voltages, typically between 4.5V and 7.5V, and provides a regulated output voltage of 3.3V with a maximum current output of 750mA. The device operates within a specified temperature range and offers low dropout voltage, making it suitable for various electronic applications.
The OHD3-75M features a standard pin configuration with input, output, and ground pins, along with additional pins for enabling and disabling the regulator and other control functions. The detailed pinout and configuration can be found in the product datasheet.
The OHD3-75M utilizes internal circuitry and feedback mechanisms to compare the output voltage with a reference voltage and adjust the output as necessary to maintain a stable voltage level. This process ensures that connected circuits receive consistent and regulated power supply.
The OHD3-75M finds extensive application in various electronic devices and systems, including: - Battery-powered devices - Embedded systems - Consumer electronics - Industrial control systems
In conclusion, the OHD3-75M voltage regulator serves as a crucial component in electronic circuits, providing reliable voltage regulation and stability. Its functional features, advantages, and application versatility make it an essential choice for various electronic designs.
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What is OHD3-75M?
What are the typical applications of OHD3-75M?
What are the key properties of OHD3-75M?
Is OHD3-75M compatible with other hydraulic fluids?
What are the recommended operating temperatures for OHD3-75M?
How often should OHD3-75M be replaced in a hydraulic system?
Does OHD3-75M require any special handling or storage considerations?
Can OHD3-75M be used in environmentally sensitive areas?
What are the potential risks associated with improper use of OHD3-75M?
Where can I find more detailed technical information about OHD3-75M?