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Introduction to NOVOSENSE Sensor Solution Applied in xEV

2023/03/14


Aiming at the important market segment of new energy vehicles, NOVOSENSE's rich sensor products enable automotive electronic solutions, including magnetic current sensor in the battery, motor and electric control system of the new energy vehicle, magnetic angle sensor in thermal management system, MEMS pressure sensor in BMS system, as well as various MEMS pressure sensors, oil pressure measuring sensors and signal conditioning chips for hybrid vehicles and traditional fuel vehicles.

 

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Caption 1: NOVOSENSE sensor solutions in new energy vehicles

 

Magnetic current sensor in the battery, motor and electric control system of the new energy vehicle

Magnetic current sensor is mainly used in the battery, motor and electric control system of the vehicle. OBC/DCDC uses Hall current sensor, which can realize current feedback and overcurrent protection by current sampling on the PFC end of OBC input side and the high voltage output end of DCDC. The detection current is generally tens of amps, the sampling delay is less than 3μs, and the sampling accuracy is about 3%. This application usually uses a wide-body SOIC-16-pin patch Hall current sensor.

 

In contrast, in electric drive systems, the current is usually up to hundreds of amps, so linear Hall current sensor or linear Hall sensor module shall be used. NOVOSENSE offers the patch coreless linear Hall current sensor NSM2020 and the linear Hall current sensor NSM203x series. The next-generation products are also under development.

 

The NSM201x comes in five models, with the even-ending NSM2012 and NSM2016 being 8-pin packages, and the odd-ending NSM2011, NSM2013 and NSM2015 being 16-pin packages. The difference is that the NSM2012 does not have an overcurrent protection output pin, and supports proportional output and fixed output.

 

NSM2016 supports overcurrent protection output and fixed output; NSM2011 supports proportional output, but does not support overcurrent protection output. NSM2013 supports fixed output and does not support overcurrent protection. NSM2015 supports both fixed output and overcurrent protected output.

 

OBC mainly uses chips with 16-pin package, that is, NSM2011 and NSM2015. NSM2011 and NSM2011 are wide-body 16-pin packaged patch Hall current sensors with measuring ranges from 20A to 100A, supporting 3.3V or 5V power supply, with bandwidth of 240kHz, and delay of 2.2μs. Due to the temperature compensation design and pre-delivery correction, the chip can achieve measurement accuracy of 2% in the whole temperature range, fully meeting the requirements of OBC sensor; The chip can reach insulation voltage of 5000V and basic insulation working voltage of 1550V.

 

In contrast, NSM2015 has a bandwidth of 320kHz, a delay of as low as 1.5μs, and a measurement accuracy of 2% in the full temperature range, with the same withstand voltage and reliability as those of NSM2011. The difference is that NSM2015 also supports overcurrent protection output and supports user overcurrent point configuration. Both NSM2011 and NSM2015 are compatible with mainstream competitive models in the market.

 

NSM203x Hall current sensors include NSM2031, NSM2031F, NSM2032 and NSM2033. NSM2031 and NSM2031F support 240kHz bandwidth and 2.2μs delay, and have the function of dynamic range OTP programming from 0.5 to 15mV/G. The NSM2031F supports overcurrent protection output, and the NSM2032 and NSM2033 support 400kHz bandwidth and 1.8us latency. Upgrading from OTP to MTP programming improves flexibility and helps customers improve batch production yield. NSM203x series adopts TO94 straight pin and folding pin package; The NSM2032 supports reference voltage output and the NSM2033 supports overcurrent protection output.

 

The parameters of the NSM2020 are similar to those of the NSM2033, but its TSSOP8 package makes it easier for OEMs to integrate current sampling capabilities, simplify system design and reduce overall cost. Because NOVOSENSE adopts the method of detecting the vertical magnetic field, the chip has strong suppression ability to the common mode magnetic field, and can realize the high-precision current detection without a shield.

 

For the above automotive-qualified magnetic current sensors, NOVOSENSE can provide automotive-qualified AEC-Q100 test report, PPAP file and safety certification.

 

Angle sensor in the thermal management system

The thermal management system of new energy vehicles requires water pumps and water valves to balance the temperature between different modules and components. For thermal management systems, NOVOSENSE has developed system solutions, including pump motor driver SoC, water valve feedback angle sensor, and BLDC motor commutation magnetic switch. NSM301x is a series of chips based on Hall principle. It adopts the angle detection principle of four Hall disks and completes angle measurement with Cordic angle calculation. MTP supports zero output data configuration, 4-segment linear calibration, etc., and the output angle accuracy can reach 1 degree or even as low as 0.2 degree after correction. NSM301x has various output forms, including analog, PWM, 3-wire SPI, UVW and so on. At present, this series of sensor chips has been mass produced.

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MEMS pressure sensor for BMS

To solve the thermal runaway problem of automotive BMS (battery management system), NOVOSENSE introduces the MEMS pressure sensor for early pressure detection of thermal runaway. The NSPASx series MEMS pressure sensors support a measurement range of 10 to 400kPa with an accuracy of better than ±1%. The NSPASx series MEMS pressure sensors can also be used for air bag pressure detection in car seats to improve seat comfort for passengers, as well as vacuum detection of vacuum pump in vacuum assisted brake systems.

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Sensors in hybrid/fuel car powertrain and fuel supply

Different from new energy vehicles, hybrid vehicles maintain the original fuel vehicle design. NOVOSENSE offers various types of MEMS pressure sensors, oil pressure measurement sensors and signal conditioning chips, which can be pin-to-pin compatible with other solutions on the market, depending on the model and application scenario. In addition, NOVOSENSE has developed a complete product roadmap for both resistive and capacitive pressure sensor signal conditioning ASICs, with different series of products supporting different output types, including analog output, SENT, LIN bus output, to meet different customer needs.


Sample application

For sample application or order, please email to sales@www.sunseasb.com, or call 0086-512-62601802-810.


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