Allicdata Part #: | VNP10N07-E-ND |
Manufacturer Part#: |
VNP10N07-E |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | STMicroelectronics |
Short Description: | MOSFET OMNIFET 70V 10A TO-220 |
More Detail: | N/A |
DataSheet: | VNP10N07-E Datasheet/PDF |
Quantity: | 1000 |
Voltage - Supply (Vcc/Vdd): | Not Required |
Base Part Number: | VN*10N |
Supplier Device Package: | TO-220AB |
Package / Case: | TO-220-3 |
Operating Temperature: | -- |
Fault Protection: | Current Limiting (Fixed), Over Temperature, Over Voltage |
Features: | -- |
Input Type: | Non-Inverting |
Rds On (Typ): | 100 mOhm (Max) |
Current - Output (Max): | 7A |
Series: | OMNIFET™, VIPower™ |
Voltage - Load: | 55V (Max) |
Interface: | On/Off |
Output Type: | N-Channel |
Output Configuration: | Low Side |
Ratio - Input:Output: | 1:1 |
Number of Outputs: | 1 |
Switch Type: | General Purpose |
Part Status: | Active |
Packaging: | Tube |
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PMIC - Power Distribution Switches, Load Drivers are widely used in many applications such as battery management, power management, and motor control. The VNP10N07-E is a power distribution switch, load driver IC specifically designed to provide the precise current control needed in low voltage and micro-AMP applications. This article will look at the application field and working principle of the VNP10N07-E.
Things to Consider with VNP10N07-E
In order to make sure VNP10N07-E do the job efficiently and safely, users should consider several aspects, such as:
- Maximum control voltage. This is the maximum control voltage that the IC can handle. It must not exceed the minimum power supply voltage or the maximum recommended operating temperature.
- Input current. The input current is the maximum amount of current that can be supplied to the load or from the load. It must not exceed the maximum rated current of the part.
- Output voltage. The output voltage is the maximum output voltage of the part. This should not exceed the maximum power supply voltage or the maximum recommended operating temperature.
- Control signal frequency. This is the frequency of the control signal that the IC will be using. It must not exceed the maximum frequency of the part.
The other factors such as package size, output current, operating temperature range, thermal resistance, maximum power dissipation should also be considered.
Application Fields of VNP10N07-E
The VNP10N07-E offers several features such as high input impedance, low power consumption, and low voltage operation which make it suitable for many applications. These include:
- Battery management. The VNP10N07-E can be used to control the current of a rechargeable battery in a variety of applications.
- Power management. The VNP10N07-E can be used to control the current of a variety of power supplies, such as DC/DC and AC/DC converters.
- Motor control. The VNP10N07-E can be used to control the current of a brushless DC motor. This can be used in a variety of applications, such as robotics and 3D printing.
- Sensor and data acquisition. The VNP10N07-E can be used to control the current of a variety of sensors, such as thermistors and thermocouples.
- LED control. The VNP10N07-E can be used to control the current and voltage of LEDs for lighting applications.
Working Principle of VNP10N07-E
The VNP10N07-E operates on a basic principle. The IC works by using a voltage signal to control the current supplied to the load. The voltage signal is applied to the control pin of the IC and the output current is determined by the value of the voltage signal. By controlling the voltage signal, the IC can control the current supplied to the load.
The VNP10N07-E includes two current sense pins, which can detect the current flowing through the load. The voltage at these pins is proportional to the current flowing through the load. This voltage is used to control the output current of the IC. The maximum current that can be supplied by the IC is determined by the value of the voltage applied to the control pin.
The VNP10N07-E is designed for low voltage and micro-AMP applications such as battery management, power management, and motor control. By providing precise current control and high input impedance, the VNP10N07-E is an ideal IC for applications that require low power dissipation and low voltage operation.
Conclusion
The VNP10N07-E is a power distribution switch, load driver IC specifically designed for low voltage and micro-AMP applications. It operates by using a voltage signal to control the current supplied to the load, and includes two current sense pins to detect the current flowing through the load. The VNP10N07-E is suitable for a variety of applications, such as battery management, power management, motor control, LED control, and data acquisition.
The specific data is subject to PDF, and the above content is for reference
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