PMR100HZP7FV
6432(2512)尺寸、用于电流检测的超低阻值贴片电阻器(AEC-Q200合格品)
PMR100HZP7FV
6432(2512)尺寸、用于电流检测的超低阻值贴片电阻器(AEC-Q200合格品)
用于电流检测的超低阻值贴片电阻器采用金属电阻元件,具有较低的电阻,能够承受大电流,并采用独特的设计,无需调整即可获得精确的电阻,从而实现准确的电流检测和大电流切换。
Lineup
主要规格
特性:
Automotive grade
Yes
Size[mm](inch)
6432(2512)
Rated Power[W]
8, 7
Resistance Tolerance
F (±1%)
Resistance range[Ω]
0.5m to 1.5m
Resistance(Min.)[Ω]
0.0005
Resistance(Max.)[Ω]
0.0015
Temperature Coefficient[ppm/°C]
-75 to 0, ±50
Operating Temperature[°C]
-65 to 175
Type
For current sensing
Operating Temperature (Max.)[°C]
175
Common Standard
AEC-Q200 (Automotive Grade)
特点:
- 2512尺寸实现了7W、8W的额定功率,有助于节省电路空间
- 电阻元件采用特殊合金,实现了优异的温度特性
- 用于电流检测:支持0.5mΩ起。
- ROHM电阻器已通过ISO9001 / IATF16949认证
- 符合AEC-Q200标准
Derating Curve:
产品概要
背景
电流检测用分流电阻器主要用于电机驱动电路、电源的过电流保护以及电池剩余电量检测,目前已被广泛应用于汽车、工业设备、消费电子设备等众多领域。要满足各种应用的节能要求,就需要使用高精度且高可靠性的分流电阻器进行精确的电路控制。此外,随着应用产品的功能改进,电路板上的安装密度越来越高,这就要求分流电阻器体积更小、功率更高。另外,在汽车领域,非常看重在高温环境下也能确保高电流检测精度。
电阻器是ROHM的创业产品,ROHM在电阻器产品开发方面始终走在行业前列。其中,金属板分流电阻器PMR系列因具备丰富的产品阵容而受到客户好评,目前已被用于众多应用中。此次,ROHM通过提高功率和扩大阻值范围,进一步扩大了小型大功率、支持在高温环境下使用、高精度的“PMR100”产品阵容。
概要
本产品通过采用温度特性优异的新材料和引脚温度降额,实现了8W的额定功率。
这在有保护膜的6432尺寸平面贴片型产品中属于业界超高额定功率。
与PMR100系列中的以往2W产品相比,本产品的额定功率提高了约4倍,与3W产品相比,额定功率提高了约2.67倍,
可以替换大型大功率产品,因此有助于应用产品的小型化。
另外,本产品还保证110℃的额定引脚温度(0.5mΩ的产品)和-65℃~+175℃的工作温度范围,确保在高温环境下也能稳定工作。
此外,还具有+75~0ppm/℃、±75ppm/℃的出色电阻温度系数(TCR),可实现高精度且可靠性高的电流检测。
应用示例
通用于众多领域的电流检测应用。
・车载:EPS、电动压缩机、水泵、油泵、车门电机、ADAS控制器等
・工业设备:工业设备用功率模块、功率调节器、电动工具、光伏逆变器、服务器电源、UPS(不间断电源)、基站电源等
・消费电子设备:白色家电(空调、吸尘器、冰箱、洗衣机)等
参考设计 / 应用评估套件
-
- Reference Design - REF68012
- 30A Shunt-based current sensing (uni-direction) with CSA on 24V system
In the automotive and industrial equipment fields, current sensing circuits are essential for applications such as current feedback, overcurrent limitation, and battery level monitoring. The shunt-based current sensing circuit is the most standard circuit for current measurement and monitoring. ROHM provides solutions that leverage the resistor technology it has developed since its founding, as well as the analog and thermal design technologies it has cultivated over many years, contributing to improved system performance, higher power efficiency, and higher reliability through high-precision current sensing.
The components you select will vary depending on the power supply system and detection current value. We have a lineup of reference designs for 12V, 24V, and 48V systems, as well as current sensing values from 20 to 100A. We publish not only the schematic design guide but also thermal evaluation data for shunt resistors. Thermal issues are an important factor in shunt-based current sensing. Please use these as design references to help reduce design man-hours.
This reference design is designed for 30A, uni-direction current sensing on 24V systems.
-
- Reference Design - REF68013
- 50A Shunt-based current sensing (uni-direction) with CSA on 48V system
In the automotive and industrial equipment fields, current sensing circuits are essential for applications such as current feedback, overcurrent limitation, and battery level monitoring. The shunt-based current sensing circuit is the most standard circuit for current measurement and monitoring. ROHM provides solutions that leverage the resistor technology it has developed since its founding, as well as the analog and thermal design technologies it has cultivated over many years, contributing to improved system performance, higher power efficiency, and higher reliability through high-precision current sensing.
The components you select will vary depending on the power supply system and detection current value. We have a lineup of reference designs for 12V, 24V, and 48V systems, as well as current sensing values from 20 to 100A. We publish not only the schematic design guide but also thermal evaluation data for shunt resistors. Thermal issues are an important factor in shunt-based current sensing. Please use these as design references to help reduce design man-hours.
This reference design is designed for 50A, uni-direction current sensing on 48V systems.
-
- Reference Design - REF68014
- 100A Shunt-based current sensing (uni-direction) with CSA on 48V system
In the automotive and industrial equipment fields, current sensing circuits are essential for applications such as current feedback, overcurrent limitation, and battery level monitoring. The shunt-based current sensing circuit is the most standard circuit for current measurement and monitoring. ROHM provides solutions that leverage the resistor technology it has developed since its founding, as well as the analog and thermal design technologies it has cultivated over many years, contributing to improved system performance, higher power efficiency, and higher reliability through high-precision current sensing.
The components you select will vary depending on the power supply system and detection current value. We have a lineup of reference designs for 12V, 24V, and 48V systems, as well as current sensing values from 20 to 100A. We publish not only the schematic design guide but also thermal evaluation data for shunt resistors. Thermal issues are an important factor in shunt-based current sensing. Please use these as design references to help reduce design man-hours.
This reference design is designed for 100A, uni-direction current sensing on 48V systems.
-
- Reference Design - REF68015
- 100A Shunt-based current sensing (bi-direction) with CSA on 48V system
In the automotive and industrial equipment fields, current sensing circuits are essential for applications such as current feedback, overcurrent limitation, and battery level monitoring. The shunt-based current sensing circuit is the most standard circuit for current measurement and monitoring. ROHM provides solutions that leverage the resistor technology it has developed since its founding, as well as the analog and thermal design technologies it has cultivated over many years, contributing to improved system performance, higher power efficiency, and higher reliability through high-precision current sensing.
The components you select will vary depending on the power supply system and detection current value. We have a lineup of reference designs for 12V, 24V, and 48V systems, as well as current sensing values from 20 to 100A. We publish not only the schematic design guide but also thermal evaluation data for shunt resistors. Thermal issues are an important factor in shunt-based current sensing. Please use these as design references to help reduce design man-hours.
This reference design is designed for 100A, bi-direction current sensing on 48V systems.
Videos & Catalogs
