Infineon TLE4998C3CHAMA1

Board Mount Hall Effect / Magnetic Sensors Programmable Linear Hall Sensor

50mT,¡À100mT,¡À200mT 16bit PWM 4.5V 8mA 5mA 5.5V SOP 5.34mm*1mm

Hall Effect Sensor 5mA 5V Automotive 3-Pin SSO Ammo

Hall Effect Sensor, 50mT Min, 200mT Max, 3 Pin

MAGNETIC FIELD SENSOR-HALL EFFECT 50-200mT

TLE4998 PROGRAMMABLE LINEAR HALL EFFECT;

PG-SSO-3 Magnetic Sensors RoHS

SEN HALL EFFECT PWM PG-SSO-3-10

The linear Hall IC TLE4998C3C has been designed specifically to meet the requirements of highly accurate angle and position detection as well as for current measurement applications, PG-SSO-3, RoHS

The Infineon linear Hall IC TLE4998C3C has been designed specifically to meet the requirements of highly accurate angle and position detection as well as for current measurement applications. Two capacitors are integrated on the lead frame, making this sensor especially suitable for demanding EMC requirements The sensor provides a digital SPC (Short PWM Code) signal, based on the standardized SENT (Single Edge Nibble Transmission, SAE J2716) protocol. The SPC protocol allows transmissions initiated by the ECU. Two further operation modes are available: “range selection” for dynamical switching of the measurement range during operation ,“ID selection” to build a bus system with up to 4 ICs on a single output line and a common supply, which can be individually accessed by the ECU. Each transmission sequence contains an adjustable number of nibbles representing the magnetic field, the temperature value and a status information of the sensor. The output stage is an open-drain driver pulling the output pin to low only. Therefore, the high level needs to be obtained by an external pull-up resistor. This output type has the advantage that the receiver may use an even lower supply voltage (e.g. 3.3 V). In this case the pull-up resistor must be connected to the given receiver supply. The IC is produced in BiCMOS technology with high voltage capability, and it also has reverse-polarity protection. Digital signal processing using a 16-bit DSP architecture together with digital temperature compensation guarantee excellent long-time stability compared to analog compensation methods. While the overall resolution is 16 bits, some internal stages work with resolutions up to 20 bits.