Datasheet Renesas ZSSC4132

ManufacturerRenesas
SeriesZSSC4132

Automotive Sensor Signal Conditioner for a Single Resistive Bridge with integrated LIN PHY

Datasheets

Short-Form Datasheet ZSSC4132
PDF, 277 Kb, Language: en, Revision: 20200603, File uploaded: Jul 14, 2020, Pages: 3
Automotive Resistive Sensor Signal Conditioner with LIN Interface
Extract from the document

Prices

Detailed Description

The ZSSC4132 is member of the Renesas family of CMOS integrated circuits for highly accurate amplification and sensor-specific correction of differential bridge sensor signals.

Featuring a maximum analog pre-amplification in the range of 150 to 200, the ZSSC4132 is adjustable to nearly all resistive bridges as well as voltage-source sensor types.

Digital compensation of offset, sensitivity, temperature drift, and nonlinearity is accomplished by a 16-bit RISC microcontroller. Calibration coefficients and configuration data are stored in the ZSSC4132 non-volatile memory (NVM), which is reliable in auto-motive applications. Measured values are provided via a LIN interface according to the LIN Specification Package 2.2A. The LIN interface enables trans-mission of sensor data as well as transmission of supplementary data. End-of-line calibration is also supported through this output pin based on the LIN protocol. The ZSSC4132 and the calibration equipment communicate digitally, so the noise sensitivity is greatly reduced. Digital calibration helps keep assembly costs low as no trimming by external devices or lasers is needed.

The ZSSC4132 is optimized for automotive environments by overvoltage and reverse-polarity protection circuitry, excellent electromagnetic compatibility, and multiple diagnostic features.

Status

ZSSC4132CE4RZSSC4132CE4W
Lifecycle StatusActive (Recommended for new designs)Active (Recommended for new designs)

Model Line

Series: ZSSC4132 (2)

Manufacturer's Classification

  • Sensor Products > Sensor Signal Conditioners (SSC / AFE) > Automotive Sensor Signal Conditioner for a Single Resistive Bridge with integrated LIN PHY