Transcription of Si7020-A20 - Silicon Labs
1 Rev. 6/22 Copyright 2022 by Silicon LaboratoriesSi7020-A20Si7020-A20I2C humidity AND TEMPERATURE SENSORF eaturesApplicationsDescriptionThe Si7020 I2C humidity and Temperature Sensor is a monolithic CMOS ICintegrating humidity and temperature sensor elements, an analog-to-digitalconverter, signal processing, calibration data, and an I2C Interface. The patenteduse of industry-standard, low-K polymeric dielectrics for sensing humidity enablesthe construction of low-power, monolithic CMOS Sensor ICs with low drift andhysteresis, and excellent long term stability. The humidity and temperature sensors are factory-calibrated and the calibrationdata is stored in the on-chip non-volatile memory. This ensures that the sensorsare fully interchangeable, with no recalibration or software changes Si7020 is available in a 3x3 mm DFN package and is reflow solderable.
2 It canbe used as a hardware- and software-compatible drop-in upgrade for existing RH/temperature sensors in 3x3 mm DFN-6 packages, featuring precision sensingover a wider range and lower power consumption. The optional factory-installedcover offers a low profile, convenient means of protecting the sensor duringassembly ( , reflow soldering) and throughout the life of the product, excludingliquids (hydrophobic/oleophobic) and Si7020 offers an accurate, low-power, factory-calibrated digital solution idealfor measuring humidity , dew-point, and temperature, in applications ranging fromHVAC/R and asset tracking to industrial and consumer platforms. Precision Relative humidity Sensor 4% RH (max), 0 80% RH high accuracy Temperature Sensor C (max), 10 to 85 C 0 to 100% RH operating range Up to 40 to +125 C operating range Wide operating voltage( to V) Low Power Consumption 150 A active current 60 nA standby current Factory-calibrated I2C Interface Integrated on-chip heater 3x3 mm DFN Package Excellent long term stability Optional factory-installed cover Low-profile Protection during reflow Excludes liquids and particulates HVAC/R Thermostats/humidistats Respiratory therapy White goods Indoor weather stations Micro-environments/data centers Automotive climate control anddefogging Asset and goods tracking Mobile phones and tabletsPatent Protected.
3 Patents pendingOrdering Information:See page AssignmentsTop ViewSi7020-A202 Rev. Block DiagramSi7020-A20 Rev. OF CONTENTSS ectionPage1. Electrical Specifications .. 42. Typical Application Circuits .. 123. Bill of Materials .. 134. Functional Description .. Relative humidity Sensor accuracy .. Hysteresis .. Prolonged Exposure to high humidity .. PCB Assembly .. Protecting the Sensor .. Bake/Hydrate Procedure .. Long Term Drift/Aging .. 185. I2C Interface .. Issuing a Measurement Command .. Reading and Writing User Registers .. Electronic Serial Number .. Firmware Revision .. Heater .. 256. Control Registers .. Register Descriptions .. 267. Pin Descriptions: Si7020 (Top View) .. 288. Ordering Guide .. 299. Package Outline .. Package Outline: 3x3 6-pin DFN .. Package Outline: 3x3 6-pin DFN with Protective Cover.
4 3110. PCB Land Pattern and Solder Mask Design .. 3211. Top Marking .. Si7020 Top Marking .. Top Marking Explanation .. 3312. Additional Reference Resources .. 34 Document Change List ..35Si7020-A204 Rev. Electrical SpecificationsUnless otherwise specified, all min/max specifications apply over the recommended operating 1. Recommended Operating ConditionsParameterSymbolTest ConditionMinTypMaxUnitPower TemperatureTAI and Y grade 40 +125 COperating TemperatureTAG grade 40 +85 CTable 2. General Specifications < VDD < V; TA = 40 to 85 C (G grade) or 40 to 125 C (I/Y grade); default conversion time unless otherwise ConditionMinTypMaxUnitInput Voltage HighVIHSCL, SDA VInput Voltage Low VILSCL, SDA pins Voltage RangeVINSCL, SDA pins with respect to VDDVI nput LeakageIILSCL, SDA pins 1 AOutput Voltage LowVOLSDA pin; IOL = mA; VDD = V pin; IOL = mA; VDD = V ConsumptionIDDRH conversion in progress 150180 ATemperature conversion in progress 90120 AStandby, 40 to +85 C2 AStandby, 40 to +125 C2 APeak IDD during powerup3 IDD during I2C operations4 Current5 IHEAT to a RH measurement will also automatically initiate a temperature measurement.
5 The total conversion time will be tCONV(RH) + tCONV(T).2. No conversion or I2C transaction in progress. Typical values measured at 25 Occurs once during powerup. Duration is <5 Occurs during I2C commands for Reset, Read/Write User Registers, Read EID, and Read Firmware Version. Duration is <100 s when I2C clock speed is >100 kHz (>200 kHz for 2-byte commands). 5. Additional current consumption when HTRE bit enabled. See Section Heater for more Time1tCONV12-bit RH 1012ms11-bit RH RH RH temperature temperature temperature temperature TimetPUFrom VDD V to ready for a conversion, 25 C 1825msFrom VDD V to ready for a conversion, full temperature range 80 After issuing a software resetcommand 515 Table 2. General Specifications (Continued) < VDD < V; TA = 40 to 85 C (G grade) or 40 to 125 C (I/Y grade); default conversion time unless otherwise a RH measurement will also automatically initiate a temperature measurement.
6 The total conversion time will be tCONV(RH) + tCONV(T).2. No conversion or I2C transaction in progress. Typical values measured at 25 Occurs once during powerup. Duration is <5 Occurs during I2C commands for Reset, Read/Write User Registers, Read EID, and Read Firmware Version. Duration is <100 s when I2C clock speed is >100 kHz (>200 kHz for 2-byte commands). 5. Additional current consumption when HTRE bit enabled. See Section Heater for more 1. I2C Interface Timing DiagramTable 3. I2C Interface Specifications1 VDD V; TA = 40 to +85 C (G grade) or 40 to +125 C (I/Y grade) unless otherwise ConditionMinTypMaxUnitHysteresisVHYSHigh -to-low versus low-to- high x VDD VSCLK Frequency2fSCL 400kHzSCL high sSCL Low sStart Hold sStart Setup sStop Setup sBus Free TimetBUFB etween Stop and sSDA Setup TimetDS100 nsSDA Hold TimetDH100 nsSDA Valid TimetVD;DATFrom SCL low to data valid sSDA Acknowledge Valid TimetVD;ACKFrom SCL low to data valid sSuppressed Pulse Width3tSPS50 values are referenced to VIL and/or Depending on the conversion command, the Si7020 may hold the master during the conversion (clock stretch).
7 At above 100 kHz SCL, the Si7020 may also hold the master briefly for user register and device ID transactions. At the highest I2C speed of 400 kHz the stretching will be <50 Pulses up to and including 50 ns will be 4. humidity VDD V; TA = 30 C; default conversion time unless otherwise ConditionMinTypMaxUnitOperating Range1 Non-condensing0 100%RHAccuracy2, 30 80% RH 3 4%RH80 100% RHSee Figure resolution %RH RMS11-bit resolution 10-bit resolution 8-bit resolution Response Time4 63%1 m/s airflow, with cover 18 S1 m/s airflow, without cover 17 Drift vs. Temperature %RH/ CHysteresis 1 %RHLong Term Stability3 < %RH/ humidity operating range is 20% to 80% RH (non-condensing) over 10 C to 60 C. Prolonged operation beyond these ranges may result in a shift of sensor reading, with slow recovery Excludes hysteresis, long term drift, and certain other factors and is applicable to non-condensing environments only.
8 See Section Relative humidity Sensor accuracy for more Drift due to aging effects at typical room conditions of 30 C and 30% to 50% RH. May be impacted by dust, vaporized solvents or other contaminants, , out-gassing tapes, adhesives, packaging materials, etc. See Section Long Term Drift/Aging .4. Response time to a step change in RH. Time for the RH output to change by 63% of the total RH 2. RH accuracy at 30 CSi7020-A20 Rev. 5. Temperature VDD V; TA = 40 to +85 C (G grade) or 40 to +125 C (I/Y grade) default conversion time, unless otherwise ConditionMinTypMaxUnitOperating RangeI and Y Grade 40 +125 CG Grade 40 +85 CAccuracy1 10 C< tA < 85 C C 40 < tA < 125 CFigure resolution C RMS13-bit resolution 12-bit resolution 11-bit resolution Response Time2 63%Unmounted device sSi7020-EB board sLong Term Stability C/ measurement resolution (default).
9 2. Time to reach 63% of final value in response to a step change in temperature. Actual response time will vary dependent on system thermal mass and 3. Temperature accuracy **Note: Applies only to I and Y grade devices beyond +85 6. Thermal CharacteristicsParameterSymbolTest ConditionDFN-6 UnitJunction to Air Thermal Resistance JAJEDEC 2-Layer board,No Airflow256 C/WJunction to Air Thermal Resistance JAJEDEC 2-Layer board,1 m/s Airflow224 C/WJunction to Air Thermal Resistance JAJEDEC 2-Layer board, m/s Airflow205 C/WJunction to Case Thermal Resistance JCJEDEC 2-Layer board22 C/WJunction to Board Thermal Resistance JBJEDEC 2-Layer board134 C/WTable 7. Absolute Maximum Ratings1 ParameterSymbolTest ConditionMinTypMaxUnitAmbient temperature under bias 55 125 CStorage Temperature2 65 150 CVoltage on I/O pins VDD+ VVVoltage on VDD with respect to GND ToleranceHBM 2kVCDM 250 maximum ratings are stress ratings only, operation at or beyond these conditions is not implied and may shorten the life of the device or alter its Special handling considerations apply; see application note, AN607: Si70xx humidity Sensor Designer s Guide.
10 Si7020-A2012 Rev. Typical Application CircuitsThe primary function of the Si7020 is to measure relative humidity and temperature. Figure 4 demonstrates thetypical application circuit to achieve these 4. Typical Application Circuit for Relative humidity and Temperature MeasurementSi7020-A20 Rev. Bill of Materials Table 8. Typical Application Circuit BOM for Relative humidity and Temperature Measurement ReferenceDescriptionMfr Part NumberManufacturerR1 Resistor, 10 k , 5%, 1/16 W, 0603CR0603-16W-103 JTVenkelR2 Resistor, 10 k , 5%, 1/16 W, 0603CR0603-16W-103 JTVenkelC1 Capacitor, F, 16 V, X7R, 0603C0603X7R160-104 MVenkelU1IC, digital Temperature/ humidity SensorSi7020-A20-GMSilicon LabsSi7020-A2014 Rev. Functional DescriptionFigure 5. Si7020 Block DiagramThe Si7020 is a digital relative humidity and temperature sensor that integrates temperature and humidity sensorelements, an analog-to- digital converter, signal processing, calibration, polynomial non-linearity correction, and anI2C interface all in a single chip.
