UCC5320SCD
Manufacturer Part Number: UCC5320SCD | Manufacturer / Brand: Texas Instruments |
Part of Description: Isolated Gate Drivers 2-A/2-A, 3-k/5-kVRMS single-channel isolated gate driver with 12-V UVLO, bipolar supply 8-SOIC -40 to 125 | Lead Free Status / RoHS Status: Lead free / RoHS Compliant |
Ship From: HK/Shen Zhen | Shipment Way: DHL/Fedex/TNT/UPS |
Datasheets: |
Product parameters
Manufacturer | Texas Instruments |
RoHS | Details |
Product | Isolated Gate Drivers |
Output Voltage | 13.2 V to 33 V |
Output Current | 2.4 A |
Package / Case | SOIC-8 |
Mounting Style | SMD/SMT |
Series | UCC5320 |
Packaging | Tube |
Brand | Texas Instruments |
Development Kit | UCC5320SCEVM-058 |
Maximum Operating Temperature | + 125 C |
Minimum Operating Temperature | – 40 C |
Operating Supply Current | 1.67 mA |
Product Type | Isolated Gate Drivers |
Factory Pack Quantity | 75 |
Unit Weight | 0.006243 oz |
Moisture Sensitive | Yes |
Configuration | Inverting, Non-Inverting |
Supply Voltage – Min | 3 V |
Supply Voltage – Max | 15 V |
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UCC5320SCD is a General Purpose Power Management IC (PMIC) designed and manufactured by Texas Instruments. It is an integrated circuit that provides power management solutions for a wide variety of applications, from mobile phones and tablets to embedded systems and industrial automation. The UCC5320SCD integrates a wide array of features including a high-efficiency dual-mode boost converter, buck converter, linear regulator, low-dropout (LDO) regulator, and low-power mode. It is capable of providing up to 3A of output current and up to 5.5V of output voltage. It also features adjustable overvoltage and undervoltage protection, as well as thermal shutdown and current limiting. The UCC5320SCD is designed to meet the needs of applications with stringent power requirements and provides a cost-effective solution for power management.
The UCC5320SCD is an ideal solution for a variety of applications that require precise power management. It is ideal for applications where power efficiency is critical, such as medical and portable consumer electronics. It is also well-suited for applications that require precise power sequencings, such as embedded systems, industrial automation, and automotive applications. The UCC5320SCD also provides a flexible solution for applications that require a combination of power management solutions, such as battery-powered mobile devices.
How to work UCC5320SCD?
The UCC5320SCD is a highly integrated and configurable power management IC (PMIC) that is designed to provide a power management solution for a wide range of applications. It can be configured to work with a variety of power sources including batteries, AC adapters, DC-DC converters, or a combination of these. The UCC5320SCD consists of a dual-mode DC-DC buck-boost converter, a linear regulator, a low-dropout (LDO) regulator, and a low-power mode. It is capable of providing up to 3A of output current and up to 5.5V of output voltage. The IC also features adjustable overvoltage and undervoltage protection, as well as thermal shutdown and current limiting. The BAT54J is designed to meet the needs of applications with stringent power requirements and provides a cost-effective solution for power management.
To use the UCC5320SCD, it must first be configured according to the application’s power requirements. This includes setting the output voltage, current limit, and frequency. The power management IC also requires an external clock and/or an external resistor to set the frequency of the buck-boost converter. Once the IC has been configured, it can be connected to the power source and the load. The UCC5320SCD will then regulate the power from the source and deliver the required voltage and current to the load.
In summary, the UCC5320SCD is an integrated and configurable power management IC that is designed to provide a reliable and efficient power management solution for a wide range of applications. It is capable of providing up to 3A of output current and up to 5.5V of output voltage and features adjustable overvoltage and undervoltage protection, as well as thermal shutdown and current limiting. The IC requires configuration according to the application’s power requirements and can be connected to the power source and the load to deliver the required voltage and current to the load.