SHT21S SENSIRION, SHT21S Datasheet - Page 5

SHT21S

Manufacturer Part Number

SHT21S

Description

SENSOR, HUMIDITY & TEMP

Manufacturer

SENSIRION

Datasheets

1.SHT21S.pdf (9 pages)

2.SHT21.pdf (12 pages)

Specifications of SHT21S

Humidity Range

0 - 100% RH

Sensor Output

SDM - Convertible To Analogue

Sensor Terminals

SMD

Response Time

Supply Voltage Range

2.1V To 3.6V

Accuracy

2% RH

Supply Voltage

3VDC

Rohs Compliant

Yes

Capacitance

0ÂµF

Sensing Accuracy

Operating Temperature Range

-40Â°C To +125Â°C

Msl

MSL 2 - 1 Year

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Datasheet SHT21S

rest of the PCB or milling a slit into the PCB around the

sensor – see Figure 8.

Due to the possible high frequency output the sensor may

heat up if long cables are applied. Therefore, a low pass

filter shall be placed close to the sensor. Please compare

Section 5.3 for further information.

Figure 8 Top view of example of mounted SHT2x with slits

milled into PCB to minimize heat transfer.

2.5

The SHT2x is not light sensitive. Prolonged direct

exposure to sunshine or strong UV radiation may age the

sensor.

2.6

Many materials absorb humidity and will act as a buffer

increasing response times and hysteresis. Materials in the

vicinity of the sensor must therefore be carefully chosen.

Recommended materials are: Any metals, LCP, POM

(Delrin), PTFE (Teflon), PEEK, PP, PB, PPS, PSU, PVDF,

PVF.

For sealing and gluing (use sparingly): Use high filled

epoxy for electronic packaging (e.g. glob top, underfill),

and Silicone. Out-gassing of these materials may also

contaminate the sensor (see Section 2.2). Therefore try to

add the sensor as a last manufacturing step to the

assembly, store the assembly well ventilated after

manufacturing or bake at >50°C for 24h to outgas

contaminants before packing.

2.7

Carrying the SCL and SDA signal parallel and in close

proximity (e.g. in wires) for more than 10cm may result in

cross talk and loss of communication. This may be

resolved by routing VDD and/or VSS between the two

SDA signals and/or using shielded cables. Furthermore,

slowing down SCL frequency will possibly improve signal

integrity. Power supply pins (VDD, VSS) must be

decoupled with a 100nF capacitor – see next Section.

www.sensirion.com

Light

Materials Used for Sealing / Mounting

Wiring Considerations and Signal Integrity

Version 1.1 – May 2010

3 Interface Specifications

Table 2 SHT21S pin assignment (top view)

3.1

The supply voltage of SHT21S must be in the range of 2.1

– 3.6V, recommended supply voltage is 3.0V. Power

supply pins Supply Voltage (VDD) and Ground (VSS) must

be decoupled with a 100nF capacitor, that shall be placed

as close to the sensor as possible – see Figure 9.

3.2

SCL is used to select humidity or temperature output. SCL

high yields humidity output, SCL low yields temperature

output.

Figure 9 Typical application circuit, including decoupling of

VDD and VSS by a capacitor.

3.3

On SDA the sensor is providing SDM output. The signal is

carrying humidity or temperature data depending on SCL

being high or low, respectively. See Table 4 for detailed

I/O characteristic of the sensor.

4 Electrical Characteristics

4.1

The electrical characteristics of SHT21S are defined in

Table 1. The absolute maximum ratings as given in Table

3 are stress ratings only and give additional information.

Functional operation of the device at these conditions is

not implied. Exposure to absolute maximum rating

conditions for extended periods may affect the sensor

reliability (e.g. hot carrier degradation, oxide breakdown).

Pin Name

3,4

VDD Supply Voltage

SDA Data bit-stream

VSS Ground

SCL Selector for RH or T

Power Pins (VDD, VSS)

SCL – Output Selector Pad

SDA – Bit Stream Pad

Absolute Maximum Ratings

Not connected

SDM bit stream

Select RH or T

Comment

VDD

SDA

VSS

SCL

SHT2x

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SHT21S SENSIRION, SHT21S Datasheet - Page 5

SHT21S

Specifications of SHT21S

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