HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output * DFN type package * Relative Humidity and Temperature Digital Output, IC interface * Fully calibrated * Lead free sensor, reflow solderable * Low power consumption * Fast response time The HTU21D(F) is a new digital humidity sensor with temperature output by MEAS. Setting new standards in terms of size and intelligence, it is embedded in a reflow solderable Dual Flat No leads (DFN) package with a small 3 x 3 x 0.9 mm footprint. This sensor provides calibrated, linearized signals in digital, IC format. FEATURES * Full interchangeability with no calibration required in standard conditions * Instantaneous desaturation after long periods in saturation phase * Compatible with automatized assembly processes, including Pb free and reflow processes * Individual marking for compliance to stringent traceability requirements APPLICATIONS * Home Appliance * Medical * Printers * Humidifier HTU21D(F) digital humidity sensors are dedicated humidity and temperature plug and play transducers for OEM applications where reliable and accurate measurements are needed. Direct interface with a micro-controller is made possible with the module for humidity and temperature digital outputs. These low power sensors are designed for high volume and cost sensitive applications with tight space constraints. Every sensor is individually calibrated and tested. Lot identification is printed on the sensor and an electronic identification code is stored on the chip - which can be read out by command. Low battery can be detected and a checksum improves communication reliability. The resolution of these digital humidity sensors can be changed by command (8/12bit up to 12/14bit for RH/T). With MEAS' improvements and miniaturization of this sensor, the performance-to-price ratio has been improved - and eventually, any device should benefit from its cutting-edge energy saving operation mode. Optional PTFE filter/membrane (F) protects HTU21D digital humidity sensors against dust and water immersion, as well as against contamination by particles. PTFE filter/membranes preserve a high response time. The white PTFE filter/membrane is directly stuck on the sensor housing. This membrane is allowing an IP67 compliant protection. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 1 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output NOMENCLATURE HTU2XY(F) With embedded PTFE filter: HTU2XYF Output Sensor: Y = D/A for Digital, I2C protocol = P for PWM interface, analog output Humidity accuracy : X = 0: +/-5%RH max tolerance @55%RH = 1: +/-3%RH max tolerance @55%RH HTU2XY Modules HTU2XYF Modules PERFORMANCE SPECS Maximum Ratings Ratings Storage Temperature Symbol Value Unit Tstg -40 to 125 C Supply Voltage (Peak) Vcc 3.8V Vdc Humidity Operating Range RH 0 to 100 %RH Temperature Operating Range Ta VDD to GND Digital I/O pins (DATA/SCK) to VDD Input current on any pin -40 to +125 C -0.3 to 3.6V V -0.3 to VDD+0.3 V -10 to +10 mA Graph above show peak conditions: less than 10% of the operating life Exposure to absolute maximum rating conditions for extended periods may affect the sensor reliability. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 2 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output ELECTRICAL AND GENERAL ITEMS (@T = 25C, @Vdd = 3V) Characteristics Symbol Min Voltage Supply VDD 1.5 Unit 3.0 3.6 V 0.14 A 450 500 A Sleep mode 0.06 0.5 W Average 8bit (2) 2.7 Sleep mode consumption (1) Measuring idd 300 Communication Heater Max 0.02 Current Power Dissipation Typ W digital 2-wire interface, IC protocol VDD=3V 5.5mW/T=+0.5-1.5C Storage -40C/125C (1) Conditions: Vdd = 3V, SCK= 400kHz at 25C (2) Conditions: Vdd = 3V, SCK= 400kHz, Temp<60C, duty cycle <10% SENSOR PERFORMANCE Relative Humidity (@T = 25C, @Vdd = 3V) Characteristics Resolution Symbol Typ Max Unit 12 bits 0.04 %RH 8 bits 0.7 %RH Humidity Operating Range RH Relative Humidity Accuracy typ @25C (20%RH to 80%RH) max 0 100 2 %RH %RH See graph 1 Replacement %RH fully interchangeable Temperature coefficient (from 0C to 80C) Tcc Humidity Hysteresis Measuring Time (1) Min -0.15 1 %RH/C %RH 12 bits 14 16 ms 11 bits 7 8 ms 10 bits 4 5 ms 8 bits 2 3 ms 10 LSB PSRR Recovery time after 150 hours of condensation t Long term drift 10 s 0.5 %RH/yr Response Time (at 63% of signal) from 33 to 75%RH RH 5 10 s values are recommended for calculating energy consumption while maximum values shall be applied for calculating waiting times in communication. (2) (1) Typical (2) At 1m/s air flow TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 3 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output GRAPH 1 : RELATIVE HUMIDITY ERROR BUDGET CONDITIONS AT 25C Delta Relative Humidity (%RH) 10 Maximal Tolerance Typical Tolerance 9 8 7 6 5 4 3 2 1 0 0 10 20 30 40 50 60 70 Relative Humidity (%RH) 80 90 100 HTU21D(F) sensors are specified for optimum accuracy measurements within 5 to 95%RH. Operation out of this range (< 5% or > 95% RH, including condensation) is however possible. TEMPERATURE COEFFICIENT COMPENSATION EQUATION For other temperatures than 25C, the following temperature coefficient compensation equation can be used and will guarantee Relative Humidity accuracy given in table1, from 0C to 80C: RH compensatedT RH actualT f (T ) RHactualT Ambient humidity in %RH, computed from HTU21D(F) sensor Tactual Humidity cell temperature in C, computed from HTU21D(F) sensor f (T ) RH correction (in %RH) is a linear function of the temperature T (C) as described below : f (T ) 0.15 * (25 T ) TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 4 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output TEMPERATURE Characteristics Symbol Resolution Typ Max Unit 14 bit 0.01 C 12 bit 0.04 C Temperature Operating Range Temperature Accuracy @25C Min T -40 +125 typ 0.3 max C See graph 2 Replacement C C fully interchangeable Measuring time (1) 14 bit 44 50 ms 13 bit 22 25 ms 12 bit 11 13 ms 11 bit 6 7 ms 25 LSB PSSR Long term drift 0.04 C/yr Response Time (at 63% of signal) from 15C to 45C T 10 s Typical values are recommended for calculating energy consumption while maximum values shall be applied for calculating waiting times in communication. (2) At 1m/s air flow (2) (1) GRAPH 2 : TEMPERATURE ERROR BUDGET Maximal Tolerance Typical Tolerance Delta Temperature (C) 2 1.8 1.6 1.4 1.2 1 0.8 0.6 0.4 0.2 0 -40 -20 0 20 40 60 Temperature (C) TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 80 100 120 Page 5 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output USER GUIDE HTU21D(F) Application Information * Soldering instructions: Lead free reflow soldering recommended process For soldering HTU21D (F) sensor standard reflow soldering ovens may be used. HTU21D(F) sensor as a humidity sensitive component (as classified by IPC/JEDEC J-STD-020 or equivalent documented procedure with peak temperature at 260C during up to 30 seconds for Pb-free assembly in IR/convection reflow ovens) must be handled in a manner consistent with IPC/JEDEC J-STD-033 or an equivalent documented procedure. IPC-1601 provides humidity control, handling and packing of PCBs. The HTU21D (F) sensor is qualified to withstand one lead free reflow soldering recommended process profile below according to JEDEC standard. Mount parts within 24 hours after printing solder paste to avoid potential dry up. For manual soldering, contact time must be limited to 5 seconds at up to 350C. For the design of the HTU21D(F) sensor footprint, it is recommended to use dimensions according to figure below. Recommended footprint for HTU21D(F) sensors. Values in mm. No specific conditioning of devices is necessary after soldering process, either manual or reflow soldering. Optimized performance in case of metrological measurements can be reached with stabilization of devices (24 hours at 25C / 55%RH). Similar process is advised after exposure of the devices to extreme relative humidity conditions. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 6 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output In no case, neither after manual nor reflow soldering, a board wash shall be applied. Therefore, it is strongly recommended to use a "no-clean" solder paste. In case of applications with exposure of the sensor to corrosive gases or condensed water (i.e. environments with high relative humidity) the soldering pads shall be sealed (e.g. conformal coating) to prevent loose contacts or short cuts. * Storage Conditions and Handling Instructions It is recommended to store HTU21D(F) sensor in its original packaging at following conditions: Temperature shall be in the range of -40C - 125C. * Temperature Effects Relative humidity reading strongly depends on temperature. Therefore, it is essential to keep humidity sensors at the same temperature as the air of which the relative humidity is to be measured. In case of testing or qualification the reference sensor and test sensor must show equal temperature to allow for comparing humidity readings. The HTU21D(F) sensor should be mounted in a way that prevents heat transfer from electronic sensor or that keeps it as low as possible. Advice can be ventilation, reduction of copper layers between the HTU21D(F) sensor and the rest of the PCB or milling a slit into the PCB around the sensor (1mm minimum width). Example of HTU21D(F) sensor mounting with slits mills to minimize heat transfer * Materials Used for Sealing / Mounting For sealing and gluing (use sparingly), use high filled epoxy for electronic packaging and silicone. For any specific material please request to humidity.application@meas-spec.com. Window must remain uncovered. * Wiring Considerations and Signal Integrity Carrying the SCK and DATA signal parallel and in close proximity (e.g. in wires) for more than 10 cm may result in cross talk and loss of communication. This may be resolved by routing VDD and/or GND between the two data signals and/or using shielded cables. Furthermore, slowing down SCK frequency will possibly improve signal integrity. Power supply pins (VDD, GND) must be bypassed with a 100nF capacitor if wires are used. Capacitor should be placed as close as possible to the sensor. * ESD (ElectroStatic Discharge) ESD immunity is qualified according to: JEDEC JESD22-A114 method (Human Body Model at 4kV) for pads & open window JEDEC JESD22-A115 method (Machine Model 200V) ESDA ESD-STM5.3.1-1999 and AEC-Q100-011 (charged device model, 750V corner pins, 500V other pins) Latch-up immunity is provided at a force current of 100mA with Tamb=25C according to JEDEC JESD78. For exposure beyond named limits the sensor need additional protection circuit. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 7 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output INTERFACE SPECIFICATION N Function Comment 1 DATA Data bit-stream 2 GND Ground 3 NC Must be left unconnected 4 NC 5 VDD Supply Voltage 6 SCK Selector for RH or Temp PAD Must be left unconnected Ground or unconnected Typical application circuit, including pull-up resistor Rp and decoupling of VDD and GND by a capacitor. * Power Pins (VDD, GND) The supply voltage of HTU21D(F) sensors must be in the range of 1.5VDC - 3.6VDC. Recommended supply voltage is 3VDC (regulated). However the typical application circuit includes a pull-up resistor R on data wire and a 100nF decoupling capacitor between VDD and GND, placed as close as possible to the sensor. * Serial clock input (SCK) SCK is used to synchronize the communication between microcontroller and HTU21D(F) sensor. Since the interface consists of fully static logic there is no minimum SCK frequency. * Serial data (DATA)The DATA pin is used to transfer data in and out of the device. For sending a command to the HTU21D(F) sensor, DATA is valid on the rising edge of SCK and must remain stable while SCK is high. After the falling edge of SCK, the DATA value may be changed. For safe communication DATA shall be valid tSU and tHD before the rising and after the falling edge of SCK, respectively. For reading data from the HTU21D(F) sensor, DATA is valid tVD after SCK has gone low and remains valid until the next falling edge of SCK. An external pull-up resistor (e.g. 10k) on SCK is required to pull the signal high only for open collector or open drain technology microcontrollers. In most of the cases, pull-up resistors are internally included in I/O circuits of microcontrollers. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 8 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output ELECTRICAL CHARACTERISTICS * Input/output DC characteristics (VDD=3V, Temperature=25C unless otherwise noted) Characteristics Low level output VDD=3V voltage -4mA<IOL<0mA Symbol Min Typ Max Unit VOL 0 - 0.4 V VOH 70%VDD - VDD V High level output voltage Low level input voltage VIL 0 - 30%VDD V High level input voltage VIH 70%VDD - VDD V * Timing specifications of digital input/output pads for IC fast mode Characteristics Symbol Min Typ Max Unit SCK frequency fSCK 0 - 0.4 MHz SCK high time tSCKLH 0.6 - - s SCK low time tSCLL 1.3 - - s DATA set-up time tSU 100 - - ns DATA hold-time tHD 0 - 900 ns DATA valid-tile tVD 0 - 400 ns SCK/DATA fall time tF 0 - 100 ns SCK/DATA rise time tR 0 - 300 ns Capacitive load on bus line CB 0 - 500 pF * Timing diagram for digital input/output pads DATA directions are seen from the HTU21D(F) sensor. DATA line in bold is controlled by the sensor. DATA valid read time is triggered by falling edge of anterior toggle. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 9 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output COMMUNICATION PROTOCOL WITH HTU21D(F) SENSOR * Start-up sensor The HTU21D(F) sensor requires a voltage supply between 1.5V and 3.6V. After power up, the device needs at most 15ms while SCK is high for reaching idle state (sleep mode), i.e to be ready accepting commands from the MCU. No command should be sent before that time. Soft reset is recommended at start, refer p.13. * Start sequence (S) To initiate transmission, a start bit has to be issued. It consists of a lowering of the DATA line while SCK is high followed by lowering SCK. * Stop sequence (P) To stop transmission, a stop bit has to be issued. It consists of a heightening of the DATA line while SCK is high preceded by a heightening of the SCK. HTU21D(F) SENSOR LIST OF COMMANDS AND REGISTER ADRESSES For sample source code, please request to pic.info@te.com * Sending a command After sending the start condition, the subsequent IC header consist of a 7-bit IC device address 0x40 and a DATA direction bit (`0' for Write access : 0x80). The HTU21D(F) sensor indicates the proper reception of a byte by pulling the DATA pin low (ACK bit) after the falling edge of the 8th SCK clock. After the issue of a measurement command (0xE3 for temperature, 0xE5 for relative humidity), the MCU must wait for the measurement to complete. The basic commands are given in the table below: * Command Code Comment Trigger Temperature Measurement 0xE3 Hold master Trigger Humidity Measurement 0xE5 Hold master Trigger Temperature Measurement 0xF3 No Hold master Trigger Humidity Measurement 0xF5 No Hold master Write user register 0xE6 Read user register 0xE7 Soft Reset 0xFE Hold/No Hold master modes There are two different operation modes to communicate with the HTU21D(F) sensor: Hold Master mode and No Hold Master mode. In the first case, the SCK line is blocked (controlled by HTU21D(F) sensor) during measurement process while in the second case the SCK line remain open for other communication while the sensor is processing the measurement. No Hold Master mode allows for processing other IC communication tasks on a bus while the HTU21D(F) sensor is measuring. A communication sequence of the two modes is available below. In the Hold Master mode, the HTU21D(F) pulls down the SCK line while measuring to force the master into a wait state. By releasing the SCK line, the HTU21D(F) sensor indicates that internal processing is completed and that transmission may be continued. In the No Hold Master mode, the MCU has to poll for the termination of the internal processing of the HTU21D(F) sensor. This is done by sending a start condition followed by the IC header (`1' for Read access: 0x81) as shown below. If the internal processing is finished, the HTU21D(F) sensor acknowledges the poll of the MCU and data can be read by the MCU. If the measurement processing is not finished, the HTU21D(F) sensor answers no ACK bit and start condition must be issued once more. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 10 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output For both modes, since the maximum resolution of the measurement is 14 bits, the two last least significant bits (LSBs, bits 43 and 44) are used for transmitting status information. Bit 1 of the two LSBs indicates the measurement type (`0': temperature, `1': humidity). Bit 0 is currently not assigned. (Refer to Diagnostic Status for more information) S 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 0 0 0 0 0 0 0 ACK 1 1 1 0 0 1 0 1 ACK IC address + write S Command (see table p.9) 19 20 21 22 23 24 25 26 27 1 0 0 0 0 0 0 1 ACK 28 29 30 0 1 1 Measurement IC address + read Hold during measurement 31 32 33 34 35 36 37 38 1 1 1 0 0 ACK 1 0 Data (MSB) 39 40 41 42 43 44 45 0 0 0 0 1 0 ACK Data (LSB) 46 47 48 49 50 51 52 53 54 1 0 0 1 0 1 1 1 NACK Status P Checksum Hold Master communication sequence S 1 2 1 0 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 0 0 0 0 0 0 ACK 1 1 1 1 0 1 0 1 ACK IC address + write Command (see table p.9) Measurement S 19 20 21 22 23 24 25 26 27 1 0 0 0 0 0 0 1 NACK 19 20 21 22 23 24 25 26 27 1 0 0 0 0 0 0 1 ACK measuring IC address + read Measurement S continue measuring 28 29 30 0 1 1 IC address + read 31 32 33 34 35 36 37 38 1 1 1 0 0 ACK 1 0 Data (MSB) 39 40 41 42 43 44 45 0 0 0 0 1 0 ACK Data (LSB) 46 47 48 49 50 51 52 53 54 1 0 0 1 0 1 1 1 NACK Status P Checksum No Hold Master communication sequence Grey blocks are controlled by HTU21D(F) sensor. For Hold Master sequence, bit 45 may be changed to NACK followed by a stop condition to omit checksum transmission. For No Hold Master sequence, if measurement is not completed upon "read" command, sensor does not provide ACK on bit 27 (more of these iterations are possible). If bit 45 is changed to NACK followed by stop condition, checksum transmission is omitted. In those examples, the HTU21D(F) sensor output is SRH = `0111'1100'1000'0000 (0x7C80). For the calculation of physical values status bits must be set to `0'. Refer to "Conversion of signal outputs" section p.16. The maximum duration for measurement depends on the type of measurement and resolution chosen. Maximum values shall be chosen for the communication planning of the MCU. Refer to the table p.4 and p.6 regarding measuring time specifications. IC communication allows for repeated start conditions without closing prior sequence with stop condition. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 11 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output * Diagnostic Status Status Bit are implemented for internal diagnostic and data information (RH or Temperature) Diagnostic State "00" is triggered when: * sensor displays values -6%RH or values -46,85C * sensor is in open circuit condition Diagnostic State "11" is triggered when: * sensor displays values 119 %RH or values 128,87C * sensor is in short circuit condition DATA MSB DATA LSB Status Bit 00 00 00 00 00 00 00 00 XX XX XX XX XX XX XX 00 Temperature data XX XX XX XX XX XX XX 10 Humidity data 11 11 11 11 11 11 11 11 Diag State (Open circuit) Diag State (Short Circuit) A sensor is defective, only if the diagnostic state remains when external conditions change. * Soft reset This command is used for rebooting the HTU21D(F) sensor switching the power off and on again. Upon reception of this command, the HTU21D(F) sensor system reinitializes and starts operation according to the default settings with the exception of the heater bit in the user register. The soft reset takes less than 15ms. S 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 0 0 0 0 0 0 0 ACK 1 1 1 1 1 1 1 0 ACK IC address + write P Soft Reset Command Grey blocks are controlled by HTU21D(F) sensor. * User register The content of user register is described in the table below. Reserved bits must not be changed and default values of respective reserved bits may change over time without prior notice. Therefore, for any writing to user register, default values of reserved bits must be read first. The "End of Battery" alert/status is activated when the battery power falls below 2.25V. The heater is intended to be used for functionality diagnosis: relative humidity drops upon rising temperature. The heater consumes about 5.5mW and provides a temperature increase of about 0.5-1.5C. OTP reload is a safety feature and load the entire OTP settings to the register, with the exception of the heater bit, before every measurement. This feature is disabled per default and it is not recommended for use. Please use soft reset instead as it contains OTP reload. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 12 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output Bit #Bits Description/Coding 7,0 2 Measurement resolution Bit 7 Bit 0 RH 0 0 12 bits 0 1 8 bits 1 0 10 bits 1 1 11 bits Default `00' Temp 14 bits 12 bits 13 bits 11 bits `0' Status: End of Battery(1) `0': VDD>2.25V `1': VDD<2.25V 3, 4, 5 3 Reserved 2 1 Enable on-chip heater 1 1 Disable OTP reload (1) This status bit is updated after each measurement 6 1 `0' `0' `1' Cut-off value for "End of Battery" signal may vary by 0.1V. Reserved bits must not be changed. OTP reload active loads default settings after each time a measurement command is issued. * IC communication reading and writing the user register example In this example, the resolution is set to 8 bits / 12 bits (for RH/Temp) from default configuration. S 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 0 0 0 0 0 0 0 ACK 1 1 1 0 0 1 1 1 ACK 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 1 0 0 0 0 0 0 1 ACK 0 0 0 0 0 0 1 0 NACK IC address + write S Read Register Command IC address + read S Register content 37 38 39 40 41 42 43 44 45 46 47 1 0 0 0 0 0 0 0 ACK 1 1 IC address + write 48 49 50 51 52 53 54 1 0 0 1 1 0 ACK Write Register Command 55 56 57 58 59 60 61 62 63 0 0 0 0 0 0 1 1 ACK P Register Content to be written Grey blocks are controlled by HTU21D(F) sensor. * CRC Checksum HTU21D(F) sensor provides a CRC-8 checksum for error detection. The polynomial used is X8 + X5 + X4 + 1. Basic Considerations CRC stands for Cyclic Redundancy Check. It is one of the most effective error detection schemes and requires a minimal amount of resources. The types of errors that are detectable with CRC that is implemented in HTU21D(F) sensors are: * Any odd number of errors anywhere within the data transmission * All double-bit errors anywhere within the transmission * Any cluster of errors that can be contained within an 8-bit window (1-8 bits incorrect) * Most larger clusters of errors TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 13 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output A CRC is an error-detecting code commonly used in digital networks and storage devices to detect accidental changes to raw data. Blocks of data entering these systems get a short check value attached, based on the remainder of a polynomial division of their contents; on retrieval the calculation is repeated, and corrective action can be taken against presumed data corruption if the check values do not match. CRCs are so called because the check (data verification) value is a redundancy (it expands the message without adding information) and the algorithm is based on cyclic codes. CRCs are popular because they are simple to implement in binary hardware, easy to analyze mathematically, and particularly good at detecting common errors caused by noise in transmission channels. Because the check value has a fixed length, the function that generates it is occasionally used as a hash function. CRC for HTU21D(F) sensors using IC Protocol When HTU21D(F) sensors are run by communicating with the standard IC protocol, an 8-bit CRC can be used to detect transmission errors. The CRC covers all read data transmitted by the sensor. CRC properties for HTU21D(F) sensors communicating with IC protocol are listed in the table below. CRC with IC protocol Generator polynomial Initialization Protected data Final Operation X8 + X5 + X4 + 1 0x00 Read data none CRC calculation To compute an n-bit binary CRC, line the bits representing the input in a row, and position the (n+1)-bit pattern representing the CRC's divisor (called a "polynomial") underneath the left-hand end of the row. This is first padded with zeroes corresponding to the bit length n of the CRC. If the input bit above the leftmost divisor bit is 0, do nothing. If the input bit above the leftmost divisor bit is 1, the divisor is XORed into the input (in other words, the input bit above each 1-bit in the divisor is toggled). The divisor is then shifted one bit to the right, and the process is repeated until the divisor reaches the right-hand end of the input row. Since the left most divisor bit zeroed every input bit it touched, when this process ends the only bits in the input row that can be nonzero are the n bits at the right-hand end of the row. These n bits are the remainder of the division step, and will also be the value of the CRC function. The validity of a received message can easily be verified by performing the above calculation again, this time with the check value added instead of zeroes. The remainder should equal zero if there are no detectable errors. CRC examples The input message 11011100 (0xDC) will have as result 01111001 (0x79). The input message 01101000 00111010 (0x683A: 44.8%RH) will have as result 01111100 (0x7C). The input message 01001110 10000101 (0x4E85: 7.04C) will have as result 01101011 (0x6B). TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 14 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output CONVERSION OF SIGNAL OUTPUTS Default resolution is set to 12-bit relative humidity and 14-bit temperature readings. Measured data are transferred in two byte packages, i.e. in frames of 8-bit length where the most significant bit (MSB) is transferred first (left aligned). Each byte is followed by an acknowledge bit. The two status bits, the last bits of LSB, must be set to `0' before calculating physical values. To accommodate/adapt any process variation (nominal capacitance value of the humidity die), tolerances of the sensor above 100%RH and below 0%RH must be considered. As a consequence: * 118%RH corresponds to 0xFF which is the maximum RH digital output that can be sent out from the ASIC. RH output can reach 118%RH and above this value, there will have a clamp of the RH output to this value. -6%RH corresponds to 0x00 which is the minimum RH digital output that can be sent out from the ASIC. RH output can reach -6%RH and below this value, there will have a clamp of the RH output to this value. Relative Humidity conversion With the relative humidity signal output SRH, the relative humidity is obtained by the following formula (result in %RH), no matter which resolution is chosen: RH 6 125 S RH 216 In the example given p.10, the transferred 16-bit relative humidity data is 0x7C80: 31872. The relative humidity results to be 54.8%RH. * Temperature conversion The temperature T is calculated by inserting temperature signal output STemp into the following formula (result in C), no matter which resolution is chosen: Temp 46.85 175.72 S Temp 216 APPLICATION: DEW POINT TEMPERATURE MEASUREMENT The dew point is the temperature at which the water vapor in the air becomes saturated and condensation begins. The dew point is associated with relative humidity. A high relative humidity indicates that the dew point is closer to the current air temperature. Relative humidity of 100% indicates that the dew point is equal to the current temperature (and the air is maximally saturated with water). When the dew point stays constant and temperature increases, relative humidity will decrease. Dew point temperature of the air is calculated using Ambient Relative Humidity and Temperature measurements from HTU21D(F) sensor with following formulas given below: Partial Pressure (PPTamb) formula from Ambient Temperature: PPTamb 10 TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC B A (Tamb C ) 05/2017 Page 15 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output Dew point Temperature (Td) formula from Partial Pressure (PPTamb): B Td C PPTamb log 10 RH amb 100 A PPTamb Partial Pressure in mmHg at ambient temperature (Tamb) RHamb Ambient humidity in %RH, computed from HTU21D(F) sensor Tamb Humidity cell temperature in C, computed from HTU21D(F) sensor Td Calculated Dew Point in C A, B, C Constants: A=8.1332; B=1762.39; C=235.66 PACKAGE OUTLINE * HTU21D Sensor Dimensions TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 16 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output Dimensions are given in mm, tolerances are 0.1mm. The die pad (thermal center pad) is internally connected to GND. * HTU21DF Sensor Dimensions TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 17 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output Dimensions are given in mm, tolerances are 0.1mm. The die pad (thermal center pad) is internally connected to GND. * Packaging Type HTU21D(F) sensors are provided in DFN packaging. DFN stands for Dual Flat No leads. The HTU21D(F) sensor chip is mounted to a lead frame made of Cu and plated with Ni/Pd/Au. Chip and lead frame are over molded by green epoxy-based mold compound. Please note that side walls of sensors are diced and hence lead frame at diced edge is not covered with respective protective coating. The total weight of the sensor is 0.025g. * Traceability Information All HTU21D(F) sensors are laser marked with an alphanumeric, five-digit code on the sensor as pictured below. The marking on the HTU21D(F) sensor consists of two lines with five digits each: * The first line denotes the sensor type: HTU21. * The second line denotes several information as: o The first digit of the second line defines the output mode: D or A = digital and IC * D : 2%RH typical / 3%RH max from 20%RH to 80%RH * A : 2%RH typical / 3%RH max from 15%RH to 90%RH P = PWM o The second digit defines the manufacturing year: 3 = 2013, 4 = 2014, etc. o The last three digits represent an alphanumeric tracking code. That code represents the day of the year. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 18 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output HTU21 D3157 HTU21 D3157 Laser marking on HTU21D(F) sensor Reels are also labeled, as displayed below and give additional traceability information. With: 2X: Sensor Type (21 for HTU21) Y: Output mode (D/A = Digital, P = PWM) (F): Sensor with PTFE membrane option TTTTTTTTT: MEAS Traceability Code QQQQ: Quantity per reel (400, 1500 or 5000 units) YY: Last two digits of the year DDD: Day of the year TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 19 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output * Tape and Reel Packaging HTU21D(F) sensors are shipped in tape & reel packaging, sealed into antistatic ESD bags. Standard packaging sizes are 400, 1500 and 5000 units per reel. Each reel contains 440mm (55 pockets) header tape and 200mm (25 pockets) trailer tape. The drawing of the packaging tapes with sensor orientation is shown in the picture below. USER DIRECTION OF UNREELING * Packaging reels For 400 and 1500 units: outside diameter of 7" (178mm) and a 1/2" (13mm) diameter arbor hole. For 5000 units: outside diameter of 13" (330mm) and a 1/2" (13mm) diameter arbor hole. * Handling / Storage recommendations In order to use and preserve the high quality performance of the HTU21 humidity and temperature sensor, the following recommendations have to be followed concerning storage and packaging. Please read the paragraph below carefully and note that all precautions are applicable for design phases, production phases as well as in case of returned material to Measurement Specialties. When sensors are not used or assembled, we recommend to store them in their original sealed anti ESD packaging. If sensors have been removed from their original packaging, we recommend to keep them into anti static shielded ESD bags. Such SMD sensors is classified MSL level 1 according to IPC/JEDEC J-STD-020.1 for storage, packaging and handling. We recommend a shelf life of 1 year in following conditions of temperature and relative humidity 30C 85%RH. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 20 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output Protection against ESD mandatory ORDERING INFORMATIO ** HTU21D - I.C 21D RH/T DIGITAL ** Package: TAPE AND REEL M.P.Q OF 400 PIECES, 1500 PIECES or 5000 PIECES HPP845E031R4 - I.C 21D RH/T DIGITAL in tape and reel of 400 pieces HPP845E031R1 - I.C 21D RH/T DIGITAL in tape and reel of 1500 pieces HPP845E031R5 - I.C 21D RH/T DIGITAL in tape and reel of 5000 pieces ** HTU21DF - I.C 21DF RH/T DIGITAL with ptfe membrane ** Package: TAPE AND REEL M.P.Q OF 400 PIECES, 1500 PIECES or 5000 PIECES HPP845E131R4 - I.C 21DF RH/T DIGITAL in tape and reel of 400 pieces HPP845E131R1 - I.C 21DF RH/T DIGITAL in tape and reel of 1500 pieces HPP845E131R5 - I.C 21DF RH/T DIGITAL in tape and reel of 5000 pieces ** I.C 21D DEMOKIT - WPP100B001: BLE Sensor Tag Demo for use with free Android or iOS application ** ** I.C 21D DEMOKIT - WPP109B001: BLE Sensor Tag Demo for use with USB dongle Key for Windows PC ** For detailed information, please request to pic.info@te.com. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 21 HTU21D(F) RH/T SENSOR IC Digital Relative Humidity sensor with Temperature output Edition 0 A 2 3 4 5 6 7 8 Comments Document creation General update HTU21DF product with embedded PTFE membrane reference added, Storage conditions after soldering process updated (typing error), ESD performances updated, complementary information on RH output signal in "Conversion of signal outputs" paragraph, information on tape and reel packaging added, HTU21D demokit availability information added. Correction of IC communication reading and writing, correction of soldering peak temperature Obsolescence of HTU21S (SDM interface) version External package dimensions update Part number and designation modification General update Diagnostic paragraph added MSL level 1 informed Sensor dimension updated DEMOKIT ordering information updated CRC example correction. Who D. LE GALL D. LE GALL-ZIRILLI Date April 12 February 13 D. LE GALL-ZIRILLI July 13 M.ROBERT October 2013 M.ROBERT January 2014 M.ROBERT M.ROBERT April 2014 October 2014 P.METRAL December 2015 P.METRAL February 2016 NORTH AMERICA EUROPE ASIA Measurement Specialties, Inc., a TE Connectivity company Tel: 800-522-6752 (option 2) Email: customercare.ando@te.com MEAS France SAS, a TE Connectivity company Tel: 800-440-5100 Email: customercare.tlse@te.com Measurement Specialties (China) Ltd., a TE Connectivity company Tel: 0400-820-6015 Email: customercare.chdu@te.com TE.com/sensorsolutions Measurement Specialties, Inc., a TE Connectivity company. TE Connectivity, TE, TE connectivity (logo) are trademarks. All other logos, products and/or company names referred to herein might be trademarks of their respective owners. The information given herein, including drawings, illustrations and schematics which are intended for illustration purposes only, is believed to be reliable. However, TE Connectivity makes no warranties as to its accuracy or completeness and disclaims any liability in connection with its use. TE Connectivity`s obligations shall only be as set forth in TE Connectivity`s Standard Terms and Conditions of Sale for this product and in no case will TE Connectivity be liable for any incidental, indirect or consequential damages arising out of the sale, resale, use or misuse of the product. Users of TE Connectivity products should make their own evaluation to determine the suitability of each such product for the specific application. (c) 2017 TE Connectivity Ltd. family of companies All Rights Reserved. TE CONNECTIVITY SENSORS /// HTU21D(F) RH/T SENSOR IC 05/2017 Page 22