Low dropout linear voltage regulators for stable 5V power supply
Manufacturer: rohm
# BD750L2FP - CE2 Product Series Introduction
## 1. Overview
The BD750L2FP - CE2 product series represents a cutting - edge solution in the field of power management and electronic control. Engineered with precision and innovation, this series is designed to meet the diverse and demanding requirements of modern electronic systems, offering high performance, reliability, and efficiency.
## 2. Key Features
### 2.1 High - Power Density
One of the standout features of the BD750L2FP - CE2 series is its exceptional power density. With advanced semiconductor technology and optimized circuit design, these devices can deliver a large amount of power within a relatively small form factor. This makes them ideal for applications where space is at a premium, such as in compact electronic devices, industrial control panels, and automotive electronics.
### 2.2 Wide Input Voltage Range
The series supports a wide input voltage range, which provides flexibility in various power supply scenarios. Whether it is powered by a low - voltage battery source or a high - voltage industrial power grid, the BD750L2FP - CE2 can adapt and operate stably. This wide input range also enhances the compatibility of the product with different power sources, reducing the need for additional voltage conversion stages in some applications.
### 2.3 High Efficiency
Efficiency is a crucial factor in power management, and the BD750L2FP - CE2 series excels in this regard. Through the use of advanced power conversion topologies and low - loss components, these devices can achieve high conversion efficiencies. This not only reduces power consumption and heat generation but also helps to extend the battery life in portable applications and lower the operating costs in industrial and commercial settings.
### 2.4 Multiple Output Channels
The product series offers multiple output channels, allowing it to power different components or subsystems within an electronic device simultaneously. Each output channel can be independently regulated, providing precise control over the voltage and current supplied to different loads. This feature is particularly useful in complex electronic systems where different components may require different power levels.
### 2.5 Protection Features
To ensure the safety and reliability of the connected electronic devices, the BD750L2FP - CE2 series is equipped with a comprehensive set of protection features. These include over - voltage protection (OVP), under - voltage protection (UVP), over - current protection (OCP), and over - temperature protection (OTP). In the event of an abnormal operating condition, these protection mechanisms will automatically activate to prevent damage to the device and the connected loads.
## 3. Technical Specifications
### 3.1 Input Voltage
The input voltage range of the BD750L2FP - CE2 series typically spans from [minimum input voltage] to [maximum input voltage], which can be adjusted according to specific application requirements.
### 3.2 Output Voltage and Current
Each output channel can provide a regulated output voltage within a specified range. For example, the output voltage of a particular channel may be adjustable from [minimum output voltage] to [maximum output voltage]. The maximum output current per channel can reach up to [maximum output current], depending on the specific model in the series.
### 3.3 Switching Frequency
The switching frequency of the power conversion stage is an important parameter that affects the size of the external components and the overall efficiency of the device. The BD750L2FP - CE2 series operates at a high switching frequency, typically in the range of [minimum switching frequency] to [maximum switching frequency], which allows for the use of smaller inductors and capacitors.
### 3.4 Operating Temperature Range
The series is designed to operate reliably in a wide temperature range, from [minimum operating temperature] to [maximum operating temperature]. This makes it suitable for use in harsh environmental
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