Epluse HTS201 Humidity and Temperature Room Sensor User Manual
- June 13, 2024
- EplusE
Table of Contents
Your Partnar in Sensor Technology
User Manual HTS201
Humidity and Temperature
Room Sensorwww.epluse.com
General Information
This user manual serves for ensuring proper handling and optimal functioning
of the device. The user manual shall be read before commissioning the
equipment and it shall be provided to all staff involved in transport,
installation, operation, maintenance and repair. E+E Elektronik Ges.m.b.H.
does not accept warranty and liability claims neither upon this publication
nor in case of improper treatment of the described products.
This document may contain technical inaccuracies and typographical errors. The
content will be revised on a regular basis. These changes will be implemented
in later versions. The described product(s) can be improved and changed at any
time without prior notice.
The user manual may not be used for the purposes of competition without the
written consent of E+E Elektronik Ges.m.b.H. and may not be forwarded to third
parties. Copies may be made for internal purposes. All information, technical
data and diagrams included in these instructions are based on the information
available at the time of writing.
PLEASE NOTE
Find this document and further product information on our website at
www.epluse.com/hts201.
1.1 Explanation of Warning Notices and Symbols
Safety precautions
Precautionary statements warn of hazards in handling the device and provide
information on their prevention.
The safety instruction labeling is classified by hazard severity and is
divided into the following groups:
DANGER
Danger indicates hazards for persons. If the safety instruction marked in this
way is not followed, the hazard will verly likely result in severe injury or
death.
WARNING
Warning indicates hazards for persons. If the safety instruction marked in
this way is not followed, there is a risk of injury or death.
CAUTION
Caution indicates hazards for persons. If the safety instruction marked in
this way is not followed, minor or moderate injuries may occur.
NOTICE
Notice signals danger to objects or data. If the notice is not observed,
damage to property or data may occur.
Informational notes
Informational notes provide important information which stands out due to its
relevance.
INFO
The information symbol indicates tips on handling the device or provides
additional information on it. The information is useful for reaching optimal
performance of the device.
The title field can deviate from “INFO” depending on the context. For
instance, it may also read “PLEASE NOTE”.
1.2 Safety Instructions
1.2.1. General Safety Instructions
NOTICE
Improper handling of the device may result in its damage.
- The HTS201 enclosure and the electronics board inside shall not be exposed to unnecessary mechanical stress.
- Do not apply the supply voltage to the RS485 data lines.
- The HTS201 electronics is sensitive to electrostatic discharge (ESD), appropriate protective measures shall be taken when touching it.
- Use the HTS201 only as intended and observe all technical specifications.
1.2.2. Intended Use
WARNING
Non-compliance with the product documentation may cause safety risk for people
and the entire measurement installation.
The manufacturer cannot be held responsible for damages as a result of
incorrect handling, installation, and maintenance of the device.
- Do not use HTS201 in explosive atmosphere or for measurement of aggressive gases.
- This device is not appropriate for safety, emergency stop or other critical applications where device malfunction or failure could cause injury to human beings.
- The device may not be manipulated with tools other than specifically described in this manual.
NOTICE
Failing to follow the instructions in this user manual may lead to measurement
inaccuracy and device failures.
- The HTS201 may only be operated under the conditions described in this user manual and within the specification included in chapter 8 Technical Data.
- Unauthorized product modification leads to loss of all warranty claims. Modification may be accomplished only with an explicit permission of E+E Elektronik Ges.m.b.H.!
1.2.3. Mounting, Start-up and Operation
The HTS201 has been produced under state of the art manufacturing conditions,
has been thoroughly tested and has left the factory after fulfilling all
safety criteria. The manufacturer has taken all precautions to ensure safe
operation of the device. The user must ensure that the device is set up and
installed in a way that does not impair its safe use. The user is responsible
for observing all applicable local and international safety guidelines for
safe installation and operation of the device. This user manual contains
information and warnings that must be observed by the user in order to ensure
safe operation.
PLEASE NOTE
The manufacturer or his authorized agent can only be held liable in case of
willful or gross negligence. In any case, the scope of liability is limited to
the corresponding amount of the order issued to the manufacturer. The
manufacturer assumes no liability for damages incurred due to failure to
comply with the applicable regulations, operating instructions or the
specified operating conditions. Consequential damages are excluded from the
liability.
WARNING
Non-compliance with the product documentation may cause accidents, personal
injury or property damage.
- Mounting, installation, commissioning, start-up, operation and maintenance of the device may be performed by qualified staff only. Such staff must be authorized by the operator of the facility to carry out the mentioned activities.
- The qualified staff must have read and understood this user manual and must follow the instructions contained within.
- All process and electrical connections shall be thoroughly checked by authorized staff before putting the device into operation.
- Do not install or start-up a device supposed to be faulty. Make sure that such devices are not accidentally used by marking them clearly as faulty.
- A faulty device shall be removed from the process.
- Service operations other than described in this user manual may only be performed by the manufacturer.
1.3 Environmental Aspects
PLEASE NOTE
Products from E+E Elektronik Ges.m.b.H. are developed and manufactured in
compliance with all relevant environmental protection requirements. Please
observe local regulations for the disposal of the device.
** For disposal, the individual components of the device must be separated
according to local recycling regulations. The electronics shall be disposed of
correctly as electronics waste.
1.4 ESD Protection
** The sensing elements and the electronics board are ESD (electrostatic
discharge) sensitive components of the device and must be handled as such. The
failure to do so may damage the device by electrostatic discharges when
touching exposed sensitive components.
Scope of Supply
- HTS201 Room Sensor for Humidity and Temperature according to ordering guide
- Mounting set
- Quick Guide for digital version
Product Description
3.1 General
The HTS201 is a RH and T room sensor for demand controlled ventilation and
building automation. It is designed for indoor wall mounting in residential
and commercial applications.
Depending on the target market, the sensor is available with an EU or US
enclosure. For dimensions, please refer to chapter 3.2 Dimensions.
The electronics of HTS201 is located in the front cover, which can be easily
snapped on/off once the back cover is fixed onto the wall and wired. The back
cover contains just the push-in terminals. No tools are needed for mounting or
changing the active part.
RH and T can also be read on the optional display. Please refer to chapter 3.4
Display.
The measured data is available on two types of output:
The analogue versions deliver the measurands according to the ordering code.
Model, measurement units (metric or non-metric) and output scaling can not be
changed by the customer.
The versions with digital interface supply all available quantities. For
further information, please refer to chapter 5.2.5. Modbus Register Map and
chapter 8 Technical Data. By means of a jumper, the RS485 termination resistor
can be set on or off. For BACnet, please see the PICS (Product Implementation
Conformance Statement), which is available at
www.epluse.com/hts201.
For a setup deviating from default, the digital HTS201 can be configured
manually with the free PCS10 Product Configuration Software and an optional
configuration adapter. Refer to chapter 5 Setup and Configuration for details.
3.2 Dimensions
Values in mm (inch)
3.3 Electrical Connection
For connecting the power supply and the outputs, the HTS201 features push-in
spring terminals for max. 1.5 mm² (AWG 16). The cables are fed into the
enclosure via the rear side.
WARNING
Incorrect installation, wiring or power supply may cause overheating and
therefore personal injuries or damage to property.
For correct cabling of the device, always observe the presented wiring diagram
for the product version used.
The manufacturer cannot be held responsible for personal injuries or damage to
property as a result of incorrect handling, installation, wiring, power supply
and maintenance of the device.
3.4 Display
The optional display shows the measured values (according to ordering code)
and the measurement unit. The temperature unit is selected via order code.
Tab. 1 shows the way measurands are displayed.
Line | Measurand |
---|---|
1 | Humidity |
2 | Temperature |
Tab. 1 Order of displayed measurands
Mounting and Installation
As the room sensor is generally mounted onto a conduit box, for accurate
measurement results it is important to tighten the conduit box for avoiding
false air ingress (along the electrical tubes inside the wall) into the room
sensor enclosure.
PLEASE NOTE
In order to protect the front cover and the electronics from typical
construction site pollution (such as painting of the walls) the front cover
should be snapped on only after the construction works are completed.
Please mind the following rules of thumb for sensor positioning:
- Mount the Sensor 2 m (6.6 ft) away from outlets and intakes
- Mount the Sensor at a height of 1.5 m (5 ft) (half of room height)
- Avoid direct sunlight from window
- Avoid restricted airflow
- Avoid close proximity to heat sources
- Avoid heat accumulation
- Avoid draught
The electronics is located in the front cover, which can be easily snapped
on/off once the back cover is fixed onto the wall and wired.
Opening the enclosure
Press to release the latch A till the enclosure can be opened.
Closing the enclosure
Set the front cover into flutes B, rotate it like C and press it onto the back
cover till the latch A snaps in.
Mounting Dimensions, values in mm (inch)
Setup and Configuration
The HTS201 is ready to use and does not require any configuration by the user. The factory setup of HTS201 corresponds to the type number ordered. Please refer to the datasheet at www.epluse.com/hts201. While the room sensors with analogue output do not provide a configuration interface, the digital versions offer some options for customization. If needed, the user can change the factory setup with the help of the free PCS10 Product Configuration Software and the optional USB configuration adapter (HA011066). The following settings can be made with the help of the PCS10:
- Change interface communication parameters
- Setup and edit the custom Modbus map
- Set individual device name
- The PCS10 makes visible the
- Basic device data, e.g. serial number, firmware version
- Device status register in the form of a device error list
- Measurand(s) as a live graph
Furthermore, the device configuration can be exported and imported. It is
possible to reset the device to factory settings and to update the firmware.
5.1 PCS10 Product Configuration Software
To use the software for changes in settings, please proceed as follows:
- Download the PCS10 Product Configuration Software from www.epluse.com/pcs10 and install it on the PC.
- Connect the HTS201 to the PC using the USB configuration adapter.
- Start the PCS10 software.
- Follow the instructions on the PCS10 opening page for scanning the ports and identifying the connected device
- Click on the desired setup or adjustment mode from the main PCS10 menu on the left. Follow the online instructions of the PCS10 which are displayed when clicking the “Tutorial” button.
- Changes are uploaded to the probe by pressing the “Sync” button.
NOTICE
The HTS201 may not be connected to any additional power supply when using the
USB configuration adapter HA011066.
5.2 RS485 Digital Interface
5.2.1. Hardware Bus Termination
E+E room sensors with digital interface feature an internal 120 Ω resistor for
bus termination HTS201 which can be activated using the jumper on the
electronics board (see also chapter 3.3 Electrical Connection for details).
Jumper not mounted, (right position = factory setup)
Bus is not terminated| Jumper mounted, (left position)
Bus is terminated
---|---
Fig. 2 Jumper position for RS485 bus termination resistor
5.2.2. Device Address
Address setting via PCS10 Product Configuration Software
All DIP switches at position 0 → address has to be set via PCS10
Modbus (slave device): factory setting 45 (permitted values: 1…247).
BACnet (master device): factory setting 45 (permitted values: 0…127).
Example: Address is set via configuration software = factory setting.
Address setting via DIP switch
Modbus (slave device): Setting the DIP switches to any other address than 0,
overrules the Modbus address set via PCS10 (permitted values: 1…247).
BACnet (master device): Setting the DIP switches to any other address than 0,
overrules the BACnet address set via configuration software. BACnet note:
permitted values are 0…127. The 8th bit of the DIP switches is ignored (ID 127
= 0111 111). To set address 0 via DIP switches, the 8th bit shall be set to 1
(ID 0 = 1000 0000).
Example: Address set to 11 (= 0000 1011 binary).
5.2.3. BACnet Protocol Settings
| Factory settings| User selectable values (via EE-PCS)
---|---|---
Baud rate| As ordered via order code| 9 600, 19 200, 38 400, 57 600, 76 800,
115 200
Data bits| 8| 8
Parity| None| None
Stop bits| 1| 1
BACnet address| 45| 0…127
Tab. 2 BACnet protocol settings
**PLEASE NOTE
The recommended settings for multiple devices in a BACnet MS/TP network are
38 400, 8, none, 1.
The HTS201 PICS (Product Implementation Conformance Statement) is available on
the E+E website at www.epluse.com/hts201**.
BACnet address and baud rate can be set via:
-
PCS10 Product Configuration Software and the USB configuration adapter HA011066.
The PCS10 can be downloaded free of charge from www.epluse.com/pcs10. -
BACnet protocol, see the PICS.
5.2.4. Modbus RTU Protocol Settings
| Factory settings| User selectable values (PCS10)
---|---|---
Baud rate| As ordered via order code 1)| 9 600, 19 200, 38 400, 57 600, 76
800, 115 200
Data bits| 8| 8
Parity| Even| None, odd, even
Stop bits| 1| 1, 2
Modbus address| 45| 1…247
- Please refer to datasheet; not all user selectable values are available ex
works.
Tab. 3 Modbus RTU protocol settings
PLEASE NOTE
The recommended settings for multiple devices in a Modbus RTU network are 9600, 8, even, 1.
Device address, baud rate, parity and stop bits can be set via:
-
EE-PCS Product Configuration Software and the USB configuration adapter HA011066.
The PCS10 can be downloaded free of charge from www.epluse.com/pcs10. -
Modbus protocol in the register 1 (0x00) and 2 (0x01).
See Application Note Modbus AN0103 (available at www.epluse.com/hts201 ).
The serial number as ASCII-code is located in read-only registers 1 – 8 (0x00
– 0x07, 16 bits per register).
The firmware version is located in register 9 (0x08) (bit 15…8 = major
release; bit 7…0 = minor release). The sensor name is located in registers 10
– 17 (16 bits per register).
NOTICE
When reading the serial number or the sensor name, it is always necessary to
read all 8 registers, even if the desired information requires less.
NOTICE
For obtaining the correct floating point values, both registers have to be
read within the same reading cycle. The measured value can change between two
Modbus requests, exponent and mantissa may get inconsistent then.
Communication settings (INT16)
Parameter | Register number 1) [Dec] | Register address2) [Hex] |
---|
Write register: function code 0x06
Modbus address| 1| 0x00
Modbus protocol settings| 2| 0x01
Device information (INT16)
Parameter | Register number 1) [Dec] | Register address 2) [Hex] |
---|
Read register: function code 0x03 / 0x04
Serial number (as ASCII)| 1| 0x00
Firmware version| 9| 0x08
Sensor name (as ASCII)| 10| 0x09
Device status (bit decoded)| 602| 0x259
- Register number starts from 1.
- Protocol address starts from 0.
- For Modbus protocol settings see Application Note Modbus AN0103 (available at www.epluse.com/hts201 ).
- See chapter 5.5 Device Status Indication.
Tab. 4 HTS201 registers for device setup
5.2.5. Modbus Register Map
The measured data is saved as a 32 bit floating point values (data type
FLOAT32) and as 16 bit signed integer values (data type INT16).
FLOAT32
Parameter| Unit1)| Register number 2) [DEC]| Register
address 3) [HEX]
---|---|---|---
Read register: function code 0x03 / 0x04
Temperature T| °C| 1003| 0x3EA
°F| 1005| 0x3EC
K| 1009| 0x3F0
Relative humidity RH, Uw| %| 1021| 0x3FC
Dew point temperature Td| °C| 1105| 0x450
°F| 1107| 0x452
°K| 1147| 0x47A
INT16
Parameter| Unit1)| Scale4)| Register number 2) [DEC]| Register address 3)
[HEX]
---|---|---|---|---
Read register: function code 0x03 / 0x04
Temperature T| °C| 100| 4002| 0xFA1
°F| 50| 4003| 0xFA2
°K| 50| 4005| 0xFA4
Relative humidity RH, Uw| %RH| 100| 4011| 0xFAA
Dew point temperature Td| °C| 100| 4053| 0xFD4
°F| 100| 4054| 0xFD5
°K| 100| 4074| 0xFE9
- The choice of measurement units (metric or non-metric) must be done
according to the ordering guide, see HTS201 datasheet.
Switching from metric to non-metric or vice versa by using the PCS10 is not possible. - Register number starts from 1
- Register address starts from 0
- Examples: For scale 100, the reading of 2550 means a value of 25.5. For
scale 50, the reading of 2550 means a value of 51.
Tab. 5 HTS201 FLOAT32 and INT16 measured data registers
5.2.6. Freely Configurable Custom Modbus Map
It is possible to map measured value/status registers arbitrarily in a block with up to 20 registers provided for this purpose. This means that registers of interest may be mapped in an area with consecutive registers, so that important values can be queried with a single command in one block.
The custom map can be configured via:
-
PCS10 Product Configuration Software and the Modbus configuration adapter HA011018.
The PCS10 can be downloaded free of charge from www.epluse.com/pcs10. -
Modbus protocol commands, refer to the example in chapter 5.2.8. ModBus RTU Examples.
The register block for the configuration of the customisable Modbus map consists of the registers 6001 (0x1770) to 6010 (0x1779). For the blockwise query of the measured values behind Modbus registers 3001 (0xBB8) to 3020 (0xBCB), the firmware accesses this configuration area and thus gets the information which measured value/status registers are to be output. A maximum of 10 user-defined registers can be mapped. The table below shows an example:
Registers …| … with these assigned measurands …| … map to
registers …| … mirrored from source registers
---|---|---|---
Dec| Hex| Meas.| Unit| Type| Dec| Hex| Dec| Hex
Function code Ox10| | | | Function code 0x03/0x04| |
6001| 0x1770| T| °C| FLOAT32| 3001| OxBB8| 1003| Ox3EA
| | | °C| FLOAT32| 3002| OxBB9| |
6002| 0x1771| T| °F| FLOAT32| 3003| OxBBA| 1005| Ox3EC
| | | °F| FLOAT32| 3004| OxBBB| |
6003| 0x1772| T| K| FLOAT32| 3005| OxBBC| 1009| Ox3F0
| | | K| FLOAT32| 3006| OxBBD| |
6004| 0x1773| RH| %| FLOAT32| 3007| OxBBE| 1021| Ox3FC
| | | %| FLOAT32| 3008| OxBBF| |
6005| 0x1774| T| °C| INT16| 3009| OxBCO| 4002| OxFA1
6006| 0x1775| RH| %| INT16| 3010| OxBC1| 4011| OxFAA
| | | | | 3011| OxBC2| |
| | | | | 3012| OxBC3| |
| | | | | 3013| OxBC4| |
| | | | | 3014| OxBC5| |
| | | | | 3015| OxBC6| |
| | | | | 3016| OxBC7| |
| | | | | 3017| OxBC8| |
| | | | | 3018| OxBC9| |
| | | | | 3019| OxBCA| |
| | | | | 3020| OxBCB| |
Tab. 6 Custom Modbus map example
5.2.7. Device Status Indication and Error Monitoring
ModBus
The HTS201 features a status register which contains all status and error
information. It is possible to read it from Modbus register 602 (0x259).
If a critical error occurs, all Modbus values are set to NaN (according to
IEEE754 for data type FLOAT32) or to 0x8000 (INT16). Errors are displayed in
bit-coded form. If an event is present, the corresponding bit is set to 1.
Measured values outside the measuring range are limited with the corresponding
limit value.
Error bits | Description | Recommended action |
---|---|---|
Bit 0 | Temperature below lower limit | 1.Check the actual temperature with the |
temperature output scaling of the ordered sensor
2.Service recommended, check the repair possibilities with the E+E service
Bit 1| Temperature above upper limit| 1.Check the actual temperature with the
temperature output scaling of the ordered sensor
2.Service recommended, check the repair possibilities with the E+E service
Bit 2| Temperature value = infinite| 1.Check the wiring
2.Service recommended, check the repair possibilities with the E+E service
Bit 3| Humidity below lower limit| 1.Check the actual relative humidity with
the humidity output scaling of the ordered sensor
2.Service recommended, check the repair possibilities with the E+E service
Bit 4| Humidity above upper limit| 1.Check the actual relative humidity with
the humidity output scaling of the ordered sensor
2.Service recommended, check the repair possibilities with the E+E service
Bit 5| Humidity value = infinite| 1.Check the wiring
2.Service recommended, check the repair possibilities with the E+E service
Bit 6| |
Bit 7| |
Bit 8| |
Bit 9| RH / T element not accessible| Service recommended, check the repair
possibilities with the E+E service
Bit1 0| |
Bit 11| Display communication broken| Service recommended, check the repair
possibilities with the E+E service
Tab. 7 Device status indication register
PCS10
In the Information section, the PCS10 Product Configuration Software displays
possible errors and states. Please refer to chapter 6.2.2. Error Messages in
PCS10.
BACnet
In the event of a serious error, the “Present Value” of each Analogue Input
Object is set to NaN and “Reliability” is set to NO_SENSOR. The „Event State“
Property is set to FAULT.
Please refer to the HTS201 PICS (Product Implementation Conformance Statement)
at www.epluse.com/hts201.
5.2.8. ModBus RTU Examples
The HTS201 Modbus address is 46 [0x2E].
Please refer to
- MODBUS APPLICATION PROTOCOL SPECIFICATION V1.1b3, chapter 6: www.modbus.org/docs/Modbus_Application_Protocol_V1_1b3.pdf
- E+E Application Note Modbus AN0103 (available at www.epluse.com/hts201 )
Read the temperature (FLOAT32) T = 23.4400005340576171875 °C from register address 0x3EA:
Decoding of floating point values: Floating point values are stored
according to IEEE754. The byte pairs 1, 2 and 3, 4 are transformed as follows
(numbers taken from T reading Modbus request/response example above):
Modbus response [Hex]
Byte 3 | Byte 4 | Byte 1 | Byte 2 |
---|---|---|---|
85 | 1F | 41 | BB |
MMMMMMMM | MMMMMMMM | SEEEEEEE | EMMMMMMM |
Tab. 8 Modbus response
IEEE754
Byte 1 | Byte 2 | Byte 3 | Byte 4 |
---|---|---|---|
41 | BB | 85 | 1F |
0100 0001 | 1011 1011 | 1000 0101 | 0001 1111 |
SEEE EEEE | EMMM MMMM | MMMM MMMM | MMMM MMMM |
Decimal value: 23.4400005340576171875
Tab. 9 Data representation according to IEEE754
Read register from unconfigured custom modbus map address 0xBB8-0xBB9:
Mapping a simple custom Modbus map
assign RH [%] (address 0x3FC) and T [°C] (address 0x3EA) to the map, starting
address 0xBB8:
Query register address 0xBB8 (RH [%] mapped)
Query consecutive registers, addresses 0xBB8-0xBBD (RH [%] and T [°C] mapped, one register empty)
Maintenance and Service
6.2.1. Basic Cleaning
If the response times are longer than specified, this may be due to
contamination. In this case clean the ventilation slots by blowing from inside
out.
6.2.2. Error Messages in PCS10
The PCS10 information section includes error messages from HTS201, if there
are any errors present. The following table shows the error codes and their
meaning. Please note that this table directly corresponds to Tab. 7 Device
status indication register in chapter 5.2.7.
Error code | Description | Recommended action |
---|---|---|
7.x | Temperature measurement incorrect | 1. Check the actual temperature with |
the temperature output scaling of the ordered sensor, check the wiring
2. Service recommended, check the repair possibilities with the E+E service
9.x| Humidity measurement incorrect| 1. Check the actual temperature with the
temperature output scaling of the ordered sensor, check the wiring
2. Service recommended, check the repair possibilities with the E+E service
19.x| Sensing element not accessible| Service recommended, check the repair
possibilities with the E+E service
21.x| Display communication faulty| Service recommended, check the repair
possibilities with the E+E service
Tab. 10 Possible error messages for HTS201
6.2.3. Repairs
PLEASE NOTE
Repairs may be carried out by the manufacturer only. The attempt of
unauthorized repair excludes any warranty claims.
Accessories
Description | Code |
---|
E+E Product Configuration Software
(Free download from www.epluse.com/pcs10 )|
PCS10
USB Configuration Adapter for HTS201 digital| HA011066
Technical Data
Measurands
Relative Humidity (RH)
Measuring range | 0…100 %RH, non-condensing |
---|
Accuracy1)
incl. hysteresis, non-linearity and repeatability
0…100 %RH| ±(2 + 0.003 * mv) %RH
mv = measured value
Temperature dependency of electronics, typ.| 0.008 % RH / °C (0.004 %RH / °F)
Factory calibration uncertainty 2)
@ 23 °C (73 °F)
0…90 %RH
90…100 %RH| ±(0.7 + 0.003 * mv) %RH
mv = measured value
±1 %RH
- Defined against E+E calibration reference at 23 °C (73 °F). With supply voltage 24 V DC, 0.2 m/s (39. 4 ft/min) medium flow and load resistor 250 Ω for version with current output.
- Defined at with an enhancement factor k=2, corresponding to a confidence
level of 95 %.
Temperature (T)
Measuring range | -30…+60 °C (-22…+140 °F) |
---|
Accuracy 1)
0- 10 V, RS485
4 – 20 mA (2-wire)| ±0,25 °C (±0.14 °F)
±0,38 °C (±0.21 °F)
Temperature dependency of electronics, typ.| 0.006 K/K
Factory calibration uncertainty 2)
@ 23 °C (73 °F)| ±0.1 °C
- Defined @ 23 °C (73 °F) against E+E calibration reference. With supply voltage 24 V DC, 0.2 m/s (39. 4 ft/min) medium flow and load resistor 250 Ω for version with current output.
- Defined with an enhancement factor k=2, corresponding to a confidence level
of 95 %.
Calculated Physical Quantity
| from| up to| unit
---|---|---|---
Dew point temperature Td| -30 (-22)| 60 (140)| °C (°F)
Outputs
Analogue
T: acc. to ordering guide
RH: 0…100 %| 0 – 10 V
4 – 20 mA (2-wire)| -1 mA < IL < 1 mA
RL < (V+ – 10) / 0.02 < 500 Ω| IL = load current
RL = load resistance
---|---|---|---
Digital
Digital interface | RS485 (HTS201 = 1 unit load) |
---|
Protocol
Factory settings
Supported Baud rates1)
Measured data type| Modbus RTU
Baud rate according to ordering guide, 8 data bits, parity even, 1 stop bit,
Modbus address 45
9 600, 19 200 and 38 400
FLOAT32 and INT16
Protocol
Factory settings
Supported Baud rates1)| BACnet MS/TP
BACnet address 45
9 600, 19 200, 38 400, 57 600, 76 800 and 115 200
- Ex works: see ordering guide.
General
Power supply class III
USA & Canada: Class 2 supply necessary,
max. voltage 30 V DC
0 – 10 V, RS485
4 – 20 mA (2-wire)| 15 – 35 V DC or 24 V AC ±20 %
10 + 0.02 x RL < V+ < 35 V DC (RL < 500 Ω)
RL = load resistance
---|---
Current consumption, typ.| | | @ 24 V DC| @ 24 V AC
---|---|---
0 – 10 V| 6 mA| 14 mArms
4 – 20 mA| Acc. to output current
RS485| 5 mA| 12 mArms
Electrical connection| Push-in spring terminals max. 1.5 mm2 (AWG 16)
Display| 1.8″ LCD, dot-matrix, 2 lines, visible area 38 x 31 mm (1.5″ x 1.2″)
Humidity range
Operation
Storage| 0…100 %RH non-condensing
0…95 %RH non-condensing
Temperature range, operation and storage
without display
with display| -30…+60 °C (-22…+140 °F)
-20…+60 °C (-4…+140 °F)
Enclosure
Material
Protection rating| PC (Polycarbonate), RAL 9003 (signal white), UL94 HB
approved
IP30
Electromagnetic compatibility| EN 61326-1
EN 61326-2-3
Industrial environment
FCC Part15 Class B ICES-003 Class B
Shock and vibration| Tested according to EN 60068-2-64 and EN 60068-2-27
Conformity|
-
Configuration| PCS10 Product Configuration Software (free download) and optional configuration adapter
-
With digital versions only.
Accuracy of E+E Humidity and Temperature Sensors
The measurement accuracy depends both on the performance of the measuring instrument and on the correct installation in the application.
For best accuracy, every E+E RH and T sensing element is factory adjusted and calibrated in a highly stable RH / T reactor. Using a high-precision reference, the overall uncertainty of the factory calibration Ucal is minimal.
The total measurement uncertainty Utotal for E+E sensors is calculated in accordance with EA-4/02 (European Accreditation, Evaluation of the Measurement Uncertainty in Calibration) and with GUM (Guide to the Expression of Uncertainty in Measurement) as follows:
Utotal …………………total accuracy incl. factory calibration
Ucal …………………..the uncertainty of the factory calibration
uaccuracy ……………..the accuracy of the measurement device
k ………………………enhancement factor k=2, corresponding to a confidence level of 95
%.
For external calibrations, Utotal is to be used as the evaluation criterion.
The calculation does not include effects due to long-term drift or chemical
exposure.
As designated laboratory (NMI) responsible for maintaining the National
Standard for humidity and temperature in Austria, E+E Elektronik represents
the highest instance in humidity and temperature calibration.
Conformity
9.1 Declarations of Conformity
E+E Elektronik Ges.m.b.H. hereby declares that the product complies with the
respective regulations listed below:
European directives and standards.
and
UK statutory instruments and designated standards.
Please refer to the product page at
www.epluse.com/hts201 for the Declarations
of Conformity.
9.2 FCC Part 15 Compliance Statement
This equipment has been tested and found to comply with the limits for a Class
B digital device, pursuant to part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference in a
residential installation. This equipment generates, uses and can radiate radio
frequency energy and, if not installed and used in accordance with the
installation manual, may cause harmful interference to radio communications.
However, there is no guarantee that interference will not occur in a
particular installation. If this equipment does cause harmful interference to
radio or television reception, which can be determined by turning the
equipment off and on, the user is encouraged to try to correct the
interference by one or more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
9.3 ICES-003 Compliance Statement
This Class B digital apparatus complies with Canadian ICES-003.
Company Headquarters & Production Site
E+E Elektronik Ges.m.b.H.
Langwiesen 7
4209 Engerwitzdorf | Austria
T +43 7235 605-0
F +43 7235 605-8
info@epluse.com
www.epluse.com
Subsidiaries
E+E Sensor Technology (Shanghai) Co., Ltd.
T +86 21 6117 6129
info@epluse.cn
E+E Elektronik France SARL
T +33 4 74 72 35 82
info.fr@epluse.com
E+E Elektronik Deutschland GmbH
T +49 6171 69411-0
info.de@epluse.com
E+E Elektronik India Private Limited
T +91 990 440 5400
info.in@epluse.com
E+E Elektronik Italia S.R.L.
T +39 02 2707 86 36
info.it@epluse.com
E+E Elektronik Korea Ltd.
T +82 31 732 6050
info.kr@epluse.com
E+E Elektronik Corporation
T +1 847 490 0520
info.us@epluse.com
Your Partnar in Sensor Technology
Version v1.0 | 10-2023
© Copyright E+E Elektronik Ges.m.b.H.
Modification rights reserved.
www.epluse.com
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