|Manufacturer Part Number: UCC27712QDQ1||Manufacturer / Brand: Texas Instruments|
|Part of Description: Gate Drivers Autom620-V,1.8A,2.8A HighSiLowSiGateDriv||Lead Free Status / RoHS Status: Lead free / RoHS Compliant|
|Ship From: HK/Shen Zhen||Shipment Way: DHL/Fedex/TNT/UPS|
|Product||IGBT, MOSFET Gate Drivers|
|Output Current||2.8 A|
|Package / Case||SOIC-8|
|Maximum Operating Temperature||+ 125 C|
|Minimum Operating Temperature||– 40 C|
|Operating Supply Current||3.8 mA|
|Product Type||Gate Drivers|
|Factory Pack Quantity||75|
|Unit Weight||0.006614 oz|
|Supply Voltage – Min||10 V|
|Supply Voltage – Max||20 V|
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What is UCC27712QDQ1?
UCC27712QDQ1 is a dual N-channel, low-side MOSFET driver IC (Integrated Circuit). It is designed to drive a wide range of high-side and low-side MOSFETs from a single power supply. The UCC27712QDQ1 features a wide operating voltage range from 4.5V to 18V, high frequency operation up to 1MHz, and low ON resistance of 0.7Ω. It is also equipped with a slew rate control pin for controlling the transient response of the output voltage. Its integrated thermal shutdown protection helps protect the IC from thermal overloads. This IC is ideal for applications such as motor control, power supplies, and LED lighting.
The UCC27712QDQ1 is available in a small, 8-pin SOIC package and is RoHS compliant. It is designed to improve system efficiency and minimize board space. It is also designed to reduce noise, EMI/RFI,and thermal stress. This IC is suitable for use in automotive, industrial, and consumer applications.
How to use UCC27712QDQ1?
Using the UCC27712QDQ1 is fairly straightforward. First, connect the power supply to the VCC and GND pins. Connect the logic inputs to the IN and ENA pins. Connect the MOSFETs to the OUT and GND pins, and connect the slew rate control pin to the appropriate voltage. Finally, connect the thermal shutdown pin to the appropriate voltage. Once the connections are complete, the IC can be used to drive a wide range of high-side and low-side MOSFETs.
Features and Specifications
• Operating Voltage Range: 4.5V to 18V
• High Frequency Operation: up to 1MHz
• Low ON Resistance: 0.7Ω
• Slew Rate Control Pin
• Integrated Thermal Shutdown Protection
• Small 8-pin SOIC Package
• RoHS Compliant
• Suitable for Automotive, Industrial, and Consumer Applications
• Improved System Efficiency
• Minimizes Board Space
• Reduces Noise, EMI/RFI, and Thermal Stress
Customer Reviews and Scores
The UCC27712QDQ1 has received positive reviews from customers who have used it in their projects. Customers have praised the IC for its wide range of features, compatibility with a variety of applications, and improved system efficiency. Customers have also noted that the IC is easy to use, and that it helps to reduce noise, EMI/RFI, and thermal stress.
Pros and Cons
• Wide range of features
• Compatible with a variety of applications
• Improved system efficiency
• Easy to use
• Reduces noise, EMI/RFI, and thermal stress
• Limited availability
Q: What is the operating voltage range of the UCC27712QDQ1?
A: The operating voltage range is 4.5V to 18V.
Q: Does the UCC27712QDQ1 have an integrated thermal shutdown protection?
A: Yes, the IC is equipped with an integrated thermal shutdown protection.
Q: What type of package does the IC come in?
A: The UCC27712QDQ1 is available in an 8-pin SOIC package.
Q: Is the IC RoHS compliant?
A: Yes, the IC is RoHS compliant.
Q: What applications is the UCC27712QDQ1 suitable for?
A: The IC is suitable for use in automotive, industrial, and consumer applications.
The UCC27712QDQ1 is a dual N-channel, low-side MOSFET driver IC. It features a wide operating voltage range, high frequency operation up to 1MHz, low ON resistance, and integrated thermal shutdown protection. It is available in a small 8-pin SOIC package and is RoHS compliant. It is suitable for use in automotive, industrial, and consumer applications, and helps to improve system efficiency and reduce noise, EMI/RFI, and thermal stress. Customers have praised the IC for its wide range of features and compatibility with a variety of applications.