Features
- Digital compensation of sensor offset, sensitivity, temperature drift and non-linearity
- Eight programmable analog gain and digital gain settings; accommodates bridges with spans < 1mV/V and high offset
- Internal or optional external temperature compensation for sensor correction and for corrected temperature out
- Diagnostic features (e.g., EEPROM signature, bridge connection checks, bridge short detection)
- 32-bit customer ID field for module traceability
- Digital single-pass calibration via I2C
- Fast power-up to data output response: 3ms
- Current consumption depends on programmed sample rate: as low as 200
Description
The ZSC31014 RBiciLite™ is a feature rich CMOS integrated circuit for high accuracy amplification and analog-to-digital conversion of a differential input signal. Perfect for low-cost applications, the ZSC31014 can perform offset, span, and 1st and 2nd order temperature compensation of the measured signal. Developed for correction of resistive bridge sensors, the ZSC31014 can also provide a corrected temperature output through an internal or external sensor measurement. Digital compensation of signal offset, sensitivity, temperature and non-linearity is accomplished via an internal digital signal processor running a correction algorithm. Calibration coefficients are stored in a highly reliable non-volatile EEPROM. Measured and corrected bridge values provided at the digital output pins can easily be configured as I2C or SPI. Programming of the ZSC31014 is made simple by the I2C interface and the PC-controlled calibration software provided in the IDT Evaluation Kit. Digital mating of the sensor with the signal conditioner is fast and precise, eliminating the overhead normally associated with trimming external components and multi-pass calibration routines.
Integrated diagnostics functions and low power stand-by-mode make the ZSC31014 attractive for a variety of battery-operated applications, particularly products involving the use of a microcontroller for networking sensors.
Parameters
| Attributes | Value |
|---|---|
| Function | Resistive SSC |
| Automotive Qual. | No |
| Supply Voltage (V) | 2.7 - 5.5 |
| Input Type | Single-bridge |
| Interface | I2C, SPI |
| Adj. Analog Gain | 1.5 - 1.5, 3 - 3, 6 - 6, 12 - 12, 24 - 24, 48 - 48, 96 - 96, 192 - 192 |
| Resolution (bits) | 14 |
| Sample Rate Max (KHz) | 2 |
| Temp. Range (°C) | -40 to +85°C, -40 to +125°C, -40 to 85°C, -40 to 125°C |
Renesas Boards & Kits
Evaluation Kit for ZSC31014
The ZSC31014KIT Evaluation Kit provides the hardware needed for configuration, calibration and evaluation of the ZSC31014 Sensor Signal Conditioner (SSC) IC. The user's PC can communicate with the ZSC31014 IC socketed on the ZSC31014 SSC Evaluation Board via the SSC Communication Board through a... Read More
Mass Calibration System for ZSC31014
The ZSC31014 Mass Calibration System provides the hardware needed for simultaneous configuration, calibration and evaluation of multiple ZSC31014 Sensor Signal Conditioner (SSC) ICs. The user's PC can communicate via the SSC Communication Board with multiple ZSC31014 ICs (DUTs) mounted on either... Read More
Support Communities
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To upgrade the performance of ZSC31014, is there a recommended replacement?
To upgrade the performance of ZSC31014, is there a recommended replacement?
Sep 27, 2023 -
How to calculate temperature inside SSC ZSC31014 ?
HelloDespite carefully examining all information I could get hold onI didn't find the formula which converts byte 3 and byte 4 of I2Creadout into a temperature !Who knows where to find it or how to do it ?Thanks in advanceWalter
Jul 29, 2024 -
ZSC31014 reads wrong values after Read_MR and sometimes in UPDATE_MODE on NPI-19 Series (Digital Pressure Sensor I2C)
Hello, I'm using the NPI-19 Digital Pressure Sensor ( https://www.amphenol-sensors.com/en/product-spotlights/npi-19 ) which has the ZSC31014 chip ( https://www.renesas.com/en/document/dst/zsc31014-datasheet ). I have some trouble reading ...
Jul 9, 2025
Support Communities
