SI7013 Datasheet, PDF(15/43 Page) Silicon Laboratories – I2C HUMIDITY AND TWO-ZONE TEMPERATURE SENSOR

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SI7013 Datasheet, PDF (15/43 Pages) Silicon Laboratories – I2C HUMIDITY AND TWO-ZONE TEMPERATURE SENSOR

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4. Functional Description

Si7013

Humidity

Sensor

Temp

Sensor

VSNS

1.25V

Ref

ADC

Vdd

Calibration

Memory

Control Logic

Si7013

AD0/VOUT

VINP

VINN

Analog

Input

I2C Interface

SDA

SCL

GND

Figure 8. Si7013 Block Diagram

The Si7013 is a digital relative humidity and temperature sensor that integrates temperature and humidity sensor

elements, an analog-to-digital converter, signal processing, calibration, polynomial non-linearity correction, and an

I2C interface all in a single chip. The Si7013 is individually factory-calibrated for both temperature and humidity,

with the calibration data stored in on-chip non-volatile memory. This ensures that the sensor is fully

interchangeable, with no recalibration or changes to software required. Patented use of industry-standard CMOS

and low-K dielectrics as a sensor enables the Si7013 to achieve excellent long term stability and immunity to

contaminants with low drift and hysteresis. The Si7013 offers a low power, high accuracy, calibrated and stable

solution ideal for a wide range of temperature, humidity, and dew-point applications including medical and

instrumentation, high reliability automotive and industrial systems, and cost-sensitive consumer electronics.

The auxiliary sensor input option exists to use the ADC with external inputs and reference. Suitable buffers are

included to allow the part to be connected to high impedance circuitry such as bridges or other types of sensors,

without introducing errors.

While the Si7013 is largely a conventional mixed-signal CMOS integrated circuit, relative humidity sensors in

general and those based on capacitive sensing using polymeric dielectrics have unique application and use

requirements that are not common to conventional (non-sensor) ICs. Chief among those are:

ï®ï The need to protect the sensor during board assembly, i.e., solder reflow, and the need to subsequently

rehydrate the sensor.

ï®ï The need to protect the sensor from damage or contamination during the product life-cycle.

ï®ï The impact of prolonged exposure to extremes of temperature and/or humidity and their potential effect on

sensor accuracy.

ï®ï The effects of humidity sensor âmemoryâ.

Each of these items is discussed in more detail in the following sections.

Rev. 0.95

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