Rethink What Is Possible for PCB Current Sensing
Rethink What Is Possible for PCB Current Sensing
By Motaz Khadar, Strategic Marketing Manager, Allegro MicroSystems
Introduction
Across all markets, from renewable energy and motor drives to electric vehicles, electronic devices are challenged to be smaller, more efficient, and less expensive. This increases the complexity of printed circuit board (PCB) designs and pushes engineers to find innovative solutions. Because all these solutions require power, electrical current (I) and voltage (V) must be sensed and are mission critical in these applications. Having accurate current sensing makes controlling, protection, and monitoring feasible at various levels in the system.
在选择用于PCB设计的右电流传感器时,电流处理能力变得越来越重要。由于PCB内的热限制,PCB中的电流测量通常在大约100A中最大化。进入高于100 A通常需要一个复杂的解决方案,可以转化为更大的大小和更高的相关成本。然而,能够可靠地测量PCB电流以上100A也可以提供卓越的优点,例如效率提高和整体系统级成本降低。
Two common current sensing methods used today are shunt resistors and magnetic sensors. Both solutions use the voltage developed across a small-valued resistor (shunt) or a magnetic sensing element (such as Hall effect) with an integrated conductor to interpret the current value. While shunt methods usually offer very good resolution and accuracy, they suffer from energy inefficiency due to their ohmic losses and increased layout complexity associated with the shunt resistor connection and changing solder resistance over lifetime. Newer magnetic sensor options overcome these limitations – by offering standalone integrated solutions that make PCB current measurements up to 600 A possible due to their very small ohmic losses and compact size.
本文将讨论两种新的创新方法,可在PCB中测量高达600 A的电流:近无损霍尔的电流传感器,具有集成导体和无侵入式独立无核和无屏蔽差分霍尔电流传感器。
Near lossless Hall-based current sensors with an integrated conductor
各种市场的电子设备正在看到对更高电流密度解决方案的增加需求,以提高其整体效率并降低其成本。例如,诸如DC / DC转换器和车载充电器的电力转换应用,由亚博尊贵会员于碳化硅(SIC)等宽带隙晶体管增加,因此通过增加的宽带隙晶体管的电流密度快速增加,以实现电路小型化并提高整体效率系统。这些应用中的电流传感器理想地需要紧凑,高效,准确,亚博尊贵会员并提供高带宽以捕获这些高开关晶体管产生的非常快的电流波。
There are two popular solutions to this challenge today – shunt resistor-based solutions and magnetic sensors. For magnetic sensor options, Allegro MicroSystems offers a broad range of very low resistance, highly integrated current sensor packages with different current and voltage handling capabilities. Existing shunt solutions require complex layout and circuit implementation to achieve high current and voltage levels and typically have higher resistance. In contrast, Allegro’s current sensors are differentiated by their compact size and ease of use, as highlighted in Figure 1.
最近,急速地引入了两个新的surface-mount package options that can measure currents up to 500 A. The first is a module-like custom package that can detect currents up to 500 A with very small resistance (100 µΩ), while providing excellent working isolation voltage rating — a 1350 V basic working voltage. Dubbed the “CB” package, this has an integrated internal ferromagnetic concentrator that directs field from the current-carrying trace into the sensitive plane of the Hall element. Figure 2 indicates the different components that come together to form the CB package. Current travelling through the leadframe creates a magnetic field directed by the concentrator into the IC. The signal pins exit the overmolded package for connections to external circuitry. The nature of Hall-effect-based current sensors allows for inherent isolation, as the current-carrying leadframe does not need to be electrically connected to the IC. Plastic mold compound within the CB package also insulates the IC and signals pins from the leadframe. The CB package has been certified to UL specification 60950.
This package is a unique solution for high-density PCB design that allows customers to shrink their overall size with a simple, easy-to-use current sensor compared to other expensive, bulkier, and more complicated solutions such as shunts or larger modules. More details about the thermal performance can be found in thisapp note. Other alternative high current density packages include Allegro’s tiny (6.4 × 6.4 mm2) custom LR package, which can handle up to 500 V DC working voltage and 100 A+ current. A third offering is the new custom SOIC16W (MC) package that has a thick leadframe that allow this package to pass 80 A+ while offering excellent 1600 V basic isolation voltage. Figure 3 highlights the different packages temperature rise as various continuous current levels.
Standalone, non-invasive, core-free and shield-free Current Sensors
For applications that require non-invasive, high current density solutions, Allegro has recently introduced a new family of coreless current sensors, including the new ACS37612. This product family offers a true standalone solution for current measurement; these solutions enable designers to remove the cores and shields from their designs. These sensors measure currents up to 600 A flowing through a PCB with a typical accuracy of 1%. The differential Hall elements used to measure the magnetic field provide great immunity to stray magnetic fields without the need of a laminated shield required by competing solutions, which reduces the design size and bill of materials (BOM). See figure 4 for a basic overview of the principle of operation and implementation.
A: Basic theory of operation
B: Implementation method in a PCB
A typical application for such a solution is a traction inverter in electrical vehicles. During acceleration, hundreds of amps flow through the traction motor inverter. A precise measurement of such high currents is vital for safe operating performance. Engineers have traditionally relied on a low-hysteresis laminated core for such measurements—using three to six cores, depending on the number of phases in the motor.
The system coupling factor, which determines the current dynamic range, is determined by the sensitivity level of the ACS37612 and the PCB’s metal trace. The needed modification to the current carrying traces adds very small resistance, ~50 µΩ. This provides designers with a lot of manufacturing flexibility and the ability to easily increase the current sensing range at any phase of the design.
Eliminating the cores with the ACS37612 allows manufactures to reduce the space and weight of the inverters, thus increasing the efficiency of the electric vehicle. This non-invasive, contactless current sensor is designed to improve thermal efficiency relative to shunt solutions and is therefore ideal for reducing system energy consumption in 48 V e-motor platforms and high voltage inverters.
Conclusion
With the advancement of electronic systems, the need for efficient, high current capable, efficient PCB current sensors is becoming more important than ever due to the critical role that current measurements play. With simple, easy to use surface-mount current sensors, Allegro’s line of integrated conductor solutions addresses the market needs in terms of current and voltage isolation capabilities. For even more flexibility, designers may gravitate toward Allegro’s new coreless current sensors for true standalone, lossless, non-invasive current measurement. Both of these solutions set new standards on what is possible for PCB current sensing, allowing system designers to achieve new levels of efficiency and power density.
Originally published inElektronik Industrie,4月,2020年。可以在线找到原始文章here.Republished with permission.