Desafíos del diseño energético con IBC no regulados

Lo esencial sobre la elección de IBC no regulados

Flex Power Modules ha desarrollado distintos tipos de IBC, como los no regulados, los regulados y la innovadora opción de relación regulada híbrida (HRR). Los diseñadores deben evaluar aspectos como el costo, la eficiencia y las necesidades específicas del sistema para seleccionar el enfoque más adecuado.

Unregulated IBCs have a fixed conversion ratio, such as 4:1 (meaning a 48 V input converts to a 12 V output), which enables them to achieve the highest efficiency, lowest cost, and smallest size. However, their output voltage is directly proportional to the input voltage, which means the PoL converter must be able to handle potentially large voltage variations.

Por otro lado, los IBC regulados utilizan un bucle de retroalimentación o de avance para controlar su voltaje de salida dentro de tolerancias mucho más estrictas, pero esto significa que el IBC tiene una menor eficiencia que su alternativa no regulada. No obstante, mantener un rango de voltaje de salida pequeño puede mejorar significativamente la eficiencia del convertidor PoL.

The HRR model blends both approaches, providing proportional regulation up to a set input voltage before switching to full regulation, combining the best features of both systems for many applications.

Overcoming IBC design challenges

Within these different approaches, there are multiple technical challenges that must be addressed to achieve an efficient, reliable IBC design.

Many engineers prefer to procure complete IBC modules from manufacturers, designed to meet these challenges whilst maximizing both performance and efficiency.

Implementaciones en la práctica

Los módulos de potencia Flex han introducido soluciones IBC no aisladas y no reguladas, como el BMR313, BMR314, y BMR320.

The BMR313 model excels in confined spaces, offering a 3 kW peak in a miniature form (23.4 x 17.8 x 7.65 mm), achieving a remarkable 908 W/cm³ power density with an input to output ratio of 4:1. The BMR313 leverages the advantages of the FD6000, onsemi’s latest generation, intermediate bus digital controller. At an input voltage of 54 V, the module’s efficiency is as high as 97.2% at 50% load (40 A).

Otro ejemplo de un IBC no aislado y no regulado con una relación 4:1 es el BMR314, que ofrece una potencia máxima de hasta 1,5 kW. Al igual que el BMR313, el BMR314 utiliza una huella LGA y una distribución de pines estándar de la industria para garantizar la seguridad del suministro y la segunda fuente de alimentación.

Additionally, the BMR320 is suitable for 40 V to 60 V inputs, and utilizes an 8:1 fixed ratio, which means that the output voltage ranges from 5 V to 7.5 V. This makes it ideal for applications that require a lower intermediate bus voltage that can be helpful to optimize overall system efficiency, when used in conjunction with downstream PoL converters, VRMs, or Integrated Power Stages such as the BMR510 and others.

Each module is equipped with a PMBus interface for ease of monitoring, configuration, and control, seamlessly integrating with Flex Power’s Designer software to facilitate sophisticated power system management.

Conclusión

Unregulated IBCs are increasingly popular in data center applications due to their superior efficiency and cost-effectiveness compared to regulated types.

Alongside the 4:1 and 8:1 input to output ratios mentioned previously, other ratios are being requested which allow system designers to optimize their overall system efficiency. Examples include 5:1, 6:1, and even 10:1, which Flex Power Modules is responding to through new product developments utilizing the latest topologies and component choices, as well as novel thermal management techniques to enable the highest power densities.

As demand for more robust and efficient power supplies continues to grow — driven by advancements in processor technology geared towards AI applications — power design engineers will maintain their focus on thermal management at high power densities, as they try and keep cooling costs down.

Fortunately, Flex Power Modules remains a global leader in IBC power modules, continually innovating to meet these evolving needs with reliable and efficient power solutions.