TLE4971A075N5UE0001XUMA1, Board Mount Current Sensors CURRENT SENS ATV
см. техническую документацию
Описание
TLE4971A075N5UE0001XUMA1 is a TLE4971 high precision miniature coreless magnetic current sensor for AC and DC measurements with analogue interface and two fast over-current detection outputs. This well-established and robust monolithic hall technology enables accurate and highly linear measurement of currents with a full scale up to ±120A. The sensor is equipped with internal self diagnostic feature. Typical applications are on-board chargers as well as any kind of drives. The differential measurement principle allows great stray field suppression for operation in harsh environments. Two separate interface pins provide a fast output signal in case a current exceeds a pre-set threshold. The sensor is shipped as a fully calibrated product without requiring any customer end-of-line calibration. Application includes on board charger (OBC), electrical drives (up to 690V), auxiliary drives, photovoltaic inverter, EV-chargers, general purpose inverters power supplies.
• AEC-Q100 grade 1 qualified, pre-calibrated sensor, maximum junction temperature is 130°C
• 75A range, UL-certified product type, PG-TISON-8-5 package
• Integrated current rail with typical 220µohm insertion resistance enables ultra-low power loss
• SMD package with very small form factor, 8x8mm for easy integration and board area saving
• Single supply voltage range from 3.1V to 3.5V
• Highly accurate, scalable, DC and AC current sensing
• Typical bandwidth of 210kHz
• Excellent stability of offset over temperature and lifetime
• High robustness to voltage slew rates up to 10V/ns
• Differential sensor principle ensures superior magnetic stray field suppression
Технические параметры
Количество Выводов | 8вывод(-ов) |
Максимальная Рабочая Температура | 125°C |
Максимальное Напряжение Питания | 3.5В |
Минимальная Рабочая Температура | -40°C |
Минимальное Напряжение Питания | 3.1В |
Полоса Пропускания | 210кГц |
Стиль Корпуса Микросхемы Датчика | TISON |