PMR100HZP7FV
6432(2512)Size, 전류 검출용 초저 저항 칩 저항기 (AEC-Q200 Qualified)
PMR100HZP7FV
6432(2512)Size, 전류 검출용 초저 저항 칩 저항기 (AEC-Q200 Qualified)
전류 검출용 초저 저항 칩 저항기는 고전류에 강한 금속 저항체를 사용하여 저저항 특기를 지니며, 트리밍리스 구조로 정밀한 저항값을 실현함으로써 정확한 전류 검출과 고전류 스위칭에 최적입니다.
Lineup
Product Detail
사양 :
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)
특징 :
- 2512사이즈로 7W, 8W의 정격 전력을 실현하여 회로 기판의 공간 절약에 기여합니다.
- 저항체에 특수 합금을 사용하여 뛰어난 온도 특성을 실현하였습니다.
- 전류 검출용: 0.5mΩ부터 대응합니다.
- ROHM 저항기는 ISO9001 / IATF16949 인증을 취득하였습니다.
- AEC-Q200에 대응합니다.
Supporting Information
배경
전류 검출 용도의 션트 저항기는 주로 모터 구동 회로 및 전원의 과전류 보호, 배터리의 잔량 검출에 사용되며, 자동차기기 및 산업기기, 민생기기 등 폭넓은 분야에서 사용되고 있습니다. 각종 어플리케이션에서 요구되는 저전력화를 실현하기 위해서는 고정밀도의 고신뢰성 션트 저항기를 통한 정밀한 회로 제어가 필요합니다. 또한, 어플리케이션의 기능 향상에 따라 기판의 고밀도화가 가속화되어 션트 저항기에는 소형화 및 고전력화가 요구되고 있습니다. 뿐만 아니라, 자동차 분야에서는 고온 환경에서도 높은 전류 검출 정밀도를 확보하는 것이 중요시되고 있습니다.
로옴은 지금까지 창업 제품인 저항기에 있어서, 업계를 선두하여 제품 개발을 추진해 왔습니다. 그 중에서도 금속판 션트 저항기 PMR 시리즈는 풍부한 라인업으로 좋은 평가를 받아 다양한 어플리케이션에 채용되고 있습니다. 이번에 한층 더 고전력화를 실현한 제품으로 저항치 범위를 확대함으로써, 소형 & 고전력으로 고온에 대응하고 고정밀도를 실현한 「PMR100」의 라인업을 확충하였습니다.
개요
본제품은 온도 특성이 우수한 새로운 재료를 채용하고 단자 온도 디레이팅을 도입하여 정격전력 8W를 달성하였습니다. 이는 보호막이 있는 플랫 칩 타입의 6432 사이즈 제품으로는 업계 최고 수준입니다. 기존품인 PMR100의 2W 제품 대비 정격전력을 약 4배, 3W 제품 대비 약 2.67배 향상시킴으로써 고전력 대형 타입을 대체하여 사용할 수 있으므로 어플리케이션의 소형화에 기여합니다. 또한, 정격 단자 온도 110℃ (0.5mΩ 제품의 경우) 및 사용온도 범위 -65℃~+175℃를 보증하여, 고온 환경에서도 안정적인 동작을 확보할 수 있습니다. 우수한 저항 온도 계수 (TCR) -75~0ppm/℃、±50ppm/℃로 고정밀도의 신뢰성이 높은 전류 검출이 가능합니다.
어플리케이션 예
폭넓은 어플리케이션의 전류 검출 용도에서 범용적으로 사용 가능합니다.
・자동차기기 : EPS, 전동 컴프레서, 워터 펌프, 오일 펌프, 도어 모터, ADAS 컨트롤러 등
・산업기기 : 산업기기용 파워 모듈, 파워 컨디셔너, 전동 공구, PV 인버터, 서버 전원, UPS (무정전 전원 장치), 기지국 전원 등
・민생기기 : 백색가전 (에어컨, 청소기, 냉장고, 세탁기) 등
레퍼런스 디자인 / 어플리케이션 평가 Kit
-
- 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.
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