Texas Instruments TPS2330 manual Telecom Hot-Swap EVM

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Chapter 2

With the rapid growth of internet and telecommunications in general, more and more electronic systems are required to run continuously. Therefore, redundant systems or modules may be required to prevent the crashing of systems. While redundant systems have proved feasible, they are also very costly. Further, a simple redundant system as a backup is often inadequate because any errant part in the backup can jeopardize the whole system. Thus, we should develop ways to update the system regularly or remove errant parts and insert new modules while the system is still running. Central to such requirements for today’s electronic systems is the hot-plug or hot-swap capability.

The TPS2330 is a single-channel hot-swap controller that uses external N-channel MOSFETs in hot-swap applications. The device integrates features such as overcurrent protection, inrush current control, output-power status reporting, and separation of load transients from actual load increases, which are the critical requirements for hot-swap applications. For a detailed description of functions and characteristics of the TPS2300, refer to the data sheet, literature number SLVS265A. Check data sheet and ordering information on Web site:

http://focus.ti.com/docs/prod/productfolder.jhtml?genericPartNumber=TPS2331

Because telecommunications applications often use –48-V or 48-V power supplies, a few external components (including a Zener diode and a resistor) are needed to make the TPS2330 suitable to meet the voltage requirements. To assist designers in the evaluation of the hot-swap controllers for such high- voltage applications, a set of evaluation modules has been developed: one is the 48-V telecom hot-swap EVM, and the other is an interface card.

The following chapters will present the schematics, layouts, and evaluation procedures for the EVM.

48-V Telecom Hot-Swap EVM

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Contents User’s Guide Important Notice Preface Page Running Title-Attribute Reference Running Title-Attribute Reference Chapter Introduction Telecom Hot-Swap EVM Telecom Hot-Swap EVM Schematic of the Interface Card SLVP155 Schematic of the 48-V Hot-Swap EVM SLVP184 Components on the Interface Card SLVP155, Bill of Materials Schematics of the EVM and the Interface Card Layouts of the EVM and the Interface Card Top Layer Top Assembly Top Layer Top Assembly Layouts of the EVM and the Interface Card Setup of the EVM 48-V, 1-A Supply Test Points Test Points

TPS2330 specifications

Texas Instruments (TI) has established itself as a leader in developing advanced power management solutions. Among its array of products, the TPS2330 stands out as a highly efficient power-path controller designed for various applications, including telecommunications, networking, and embedded systems. This device is a popular choice for engineers seeking an effective way to manage power availability from primary and backup sources.

One of the defining features of the TPS2330 is its dual input control. The controller is designed to manage two independent power sources, providing a seamless transition between them. This capability is critical in applications where reliability is paramount, as it allows for a primary power source (like an adapter) to be complemented by a secondary source (like a battery). The TPS2330 ensures that the load is always powered, even if the primary source fails, allowing for uninterrupted operation.

The TPS2330 also incorporates a sophisticated power-path management technology, which optimizes the flow of power to the load while minimizing losses. This technology enables efficient use of the connected power sources, ensuring that the highest priority source is utilized while maintaining flexibility. The device supports hot-swappable inputs, meaning users can connect or disconnect power sources without interrupting the operation of the circuit.

Another significant characteristic of the TPS2330 is its low quiescent current, which is essential for battery-powered applications. The device's efficiency minimizes power consumption during standby mode, extending battery life significantly. This feature is particularly valuable in IoT devices and portable electronics where power conservation is crucial.

Furthermore, the TPS2330 is built with a robust set of protections to enhance reliability. It has built-in overvoltage, undervoltage, and overcurrent protection, which safeguard connected devices from potential damage. These features are vital for preventing failures in critical applications, helping designers build more resilient systems.

In terms of ease of use, the TPS2330 has a simple design with straightforward external component requirements. This simplicity reduces development time, allowing engineers to quickly integrate the controller into their designs. The device also comes with a wide operating voltage range, making it versatile enough to meet various application needs.

Ultimately, Texas Instruments' TPS2330 is a powerful solution for managing dual power sources with reliability, efficiency, and protection once considered essential in modern electronic design. Its innovative features and technologies make it a go-to choice for engineers looking to enhance their power management designs effectively.