E+E Elektronik EE160 Manual

User Manual

EE160

Humidity and Temperature Sensor
for Building Automation

User Manual EE160

Content

1 General Information ........................................................................................................................................... 3

1.1 Explanation of Warning Notices and Symbols ............................................................................................ 3

1.2 Safety Instructions ..................................................................................................................................... 4

1.2.1. General Safety Instructions ............................................................................................................................... 4

1.2.2. Intended Use ..................................................................................................................................................... 4

1.2.3. Mounting, Start-up and Operation ...................................................................................................................... 4

1.3 Environmental Aspects............................................................................................................................... 5

1.4 ESD Protection ......................................................................................................................................... 5

2 Scope of Supply ................................................................................................................................................ 5

3 Product Description .......................................................................................................................................... 6

3.1 General ...................................................................................................................................................... 6

3.2 Dimensions ................................................................................................................................................ 6

3.3 Electrical Connection ................................................................................................................................. 7

4 Setup and Adjustment ....................................................................................................................................... 8

4.1 Product Configuration Adapter and Software for EE160 with legacy Sensing Element ............................... 8

4.1.1. EE160-MxTxAx (analogue output) ..................................................................................................................... 9

4.1.2. EE160-M1TxJ3 (digital interface)..................................................................................................................... 10

4.2 Product Configuration Adapter and Software for EE160 with new Sensing Element .................................11

4.2.1. EE160-MxTxA3 (analogue output, voltage version) ..........................................................................................11

4.2.2. EE160-MxTxA6 (analogue output, current version) ......................................................................................... 12

4.2.3. EE160-M1TxJ3 (digital interface)..................................................................................................................... 13

4.3 PCS10 Product Configuration Software ....................................................................................................14

4.4 Device Address .........................................................................................................................................14

4.5 BACnet Setup ...........................................................................................................................................15

4.6 Digital Interface RS485 with Modbus RTU Protocol ..................................................................................15

4.7 Modbus Register Map ...............................................................................................................................16

4.8 Modbus RTU Example ..............................................................................................................................16

5 Maintenance and Service .................................................................................................................................17

5.1 Cleaning the Sensing Head and Filter Replacement .................................................................................17

5.2 RH and T Adjustment and Calibration .......................................................................................................18

6 Accessories ......................................................................................................................................................18

7 Technical Data ..................................................................................................................................................19

8 Conformity ........................................................................................................................................................20

8.1 Declarations of Conformity ........................................................................................................................20

8.2 FCC Part 15 Compliance Statement .........................................................................................................20

8.3 ICES-003 Compliance Statement ..............................................................................................................20

Humidity and Temperature Sensor for Building Automation | 2

1 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/ee160.

User Manual EE160

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”.

Humidity and Temperature Sensor for Building Automation | 3

1.2 Safety Instructions

1.2.1. General Safety Instructions

NOTICE

Improper handling of the device may result in its damage.

▪ The device and mainly the filter cap shall not be exposed to unnecessary mechanical stress.
▪ When replacing the filter cap make sure not to touch the sensing elements.
▪ The device must be operated with the filter cap on at all times.
▪ Installation, electrical connection, maintenance and commissioning shall be performed by qualified

personnel only.

▪ Use the EE160 only as intended and observe all technical specifications.
▪ Do not apply the nominal voltage to the RS485 data lines.

1.2.2. Intended Use

The EE160 is intended for the humidity (RH) and temperature (T) measurement in building automation.

WARNING

Non-compliance with the product documentation may cause safety risks for people and the entire
measurement installation.

User Manual EE160

The manufacturer cannot be held responsible for damages as a result of incorrect handling, installation and
maintenance of the device.

▪ Do not use EE160 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 EE160 may only be operated under the conditions described in this user manual and within the

specification included in chapter 7 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.!

PLEASE NOTE

For accurate measurement it is essential that the temperature of the sensing probe and mainly of the
sensing head is same as the temperature of the air to measure. Avoid mounting the EE160 sensor in a way
which creates temperature gradients along the probe.

1.2.3. Mounting, Start-up and Operation

The EE160 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.

Humidity and Temperature Sensor for Building Automation | 4

User Manual EE160

PLEASE NOTE

The manufacturer or his authorized agent can be 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. Failure to do so may damage the device by electrostatic
discharge when touching exposed sensitive components.

2 Scope of Supply

Model

EE160 Humidity and Temperature Sensor
according to order code

Cable gland

EE160 Wall mount

(Type T1)

EE160 Duct mount

(Type 2)

Additionally for all EE160

with RS485 interface

Mounting kit

Mounting flange

Inspection certificate according to
DIN EN 10204-3.1

Quick Guide - EE160 RS485 Setup

Tab. 1 Items included in the scope of supply

Humidity and Temperature Sensor for Building Automation | 5

3 Product Description

3.1 General

The EE160 sensor is optimized for cost effective, accurate measurement of relative humidity (RH) and
temperature (T) in building automation.

The measured data is available on

▪ Two voltage or current (2-wire) outputs
▪ The RS485 interface with BACnet MS/TP or Modbus RTU protocol
▪ A passive T output

Both,thewallmountandtheductmountmodelcomewithanIP65 / NEMA4Xenclosurewhichprovidesminimal

installation costs and reliable protection against contamination and condensation. The encapsulated electronics in
the probe and the E+E sensor coating ensure long-term stable and accurate measurements.

The user can set the RS485 interface parameters, the output scaling and perform 1- or 2-point adjustment for RH
and T with an optional configuration adapter and the free PCS Product Configuration Software.

3.2 Dimensions

Valuesinmm / inch

User Manual EE160

Type T1 wall mount Type T2 duct mount

±0.3

90

3.54

±0.3

±0.11

46

1.81

3.17

5

0.2

80.6

90

3.54

±0.11

Ø 12

Ø 0.47

Recommended
mounting screws:
ST4.2x50 DIN7981C

~55

34

~2.16

1.34

Ø 12

Ø 0.47

CABLE GLAND
M16x1.5

Mounting flange

in the scope of supply for type T2

60

2.36

Ø > 16

Ø > 0.63

Ø > 13

Ø > 0.51

34

1.34

GASKET

±0.3

±0.11

0.24

~205

~8.07

5

0.2

19

0.75

CABLE GLAND

M16x1.5

101

3.98

6

Humidity and Temperature Sensor for Building Automation | 6

3.3 Electrical Connection

Output:
4 - 20 mA

Output:
0 - 10 V

-

-

-

3

2

4

5

3

3

3

Output:
0 - 10 V

-

3

3

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.

Connection Diagram

EE160-M1TxJ3

1

User Manual EE160

-

Output:
Modbus RTU or
BACnet MS/TP

PLEASE NOTE

Bus Termination:

Ifrequired,theRS485busterminationcanberealizedwith120Ωresistor,jumperontheboard.

EE160MxTxA3

-

Output:
0 - 10 V

T-passive connection for M8TxA3/M8TxA6

EE160 MxTxA6

-

-

Output:
4 - 20 mA

Fig. 1 EE160 connection options

Humidity and Temperature Sensor for Building Automation | 7

No. Function

Green LED

Information during operation

1

2

3

On normal operation
Flashing the main board does not recognize the probe’s measurement electronics
Off no power supply or main board failure

Blue LED

Information during setup with the optional USB configuration adapter HA011066 and
the PCS Product Configuration Software

On USB connection to PC, no communication with PCS
Flashing communication with PCS in progress
Off no USB connection to PC

Connector for configuration adapter

User Manual EE160

4

5

Tab. 2 Parts of the EE160 electronics board types

Busterminationresistor120Ω(jumper)

Screw terminals, do not connect

4 Setup and Adjustment

The EE160 is ready to use and does not require any configuration by the user. The factory setup of EE160
corresponds to the type number ordered. Please refer to the data sheet at www.epluse.com/ee160. The user can
change the factory setup with the help of the Product Configuration Software and the USB configuration adapter.

Besides the output scaling the user can change the communication settings for digital interface and perform one
or two point adjustment for humidity and temperature.

4.1 Product Configuration Adapter and Software for EE160 with legacy
Sensing Element

Remove the filter cap and check the sensing element of your EE160.

Fig. 2 EE160 with legacy sensing element

If the EE160 is equipped with a legacy sensing element according to the picture above, it must only be configured
or adjusted using the EE-PCS Product Configuration Software (free download from www.epluse.com/configurator)
and the adapters according to the following table:

Humidity and Temperature Sensor for Building Automation | 8

User Manual EE160



Version

EE160-MxTxA3
Analogue voltage 0...10 V

EE160-MxTxA6
Analogue voltage 4...20 mA

EE160-M1TxJ3
Digital RS485 Modbus/BACnet

Fig. 3 EE160 legacy sensing element

4.1.1. EE160-MxTxAx (analogue output)

NOTICE

EE160 with analogue output must be powered externally when using the EE-PCA kit.

PC

EE-PCA

EE160 legacy sensing element

Configuration adapter Configuration software

EE-PCA + HA011059 EE-PCS

EE-PCA + HA011059 EE-PCS

HA011066 EE-PCS

HA011059

EE160

Fig. 4 EE160 configuration analogue output using EE-PCA kit

Fig. 5 EE-PCS software for analogue versions

Humidity and Temperature Sensor for Building Automation | 9

4.1.2. EE160-M1TxJ3 (digital interface)

PC

NOTICE

▪ For the EE160 with digital interface, either the supply of the configuration adapter HA011066 (for

configuration purposes) or an external supply (for configuration, calibration and adjustment purposes)
must be used.

▪ It is not permitted to use both (external supply and configuration adapter supply) at the same time.
▪ For best results the use of an external power supply is recommended for calibration and adjustment

purposes.

User Manual EE160

HA011066

PC

Fig. 6 EE160 configuration (digital interface) using the supply of HA011066

HA011066

EE160

PC

Fig. 7 EE160 configuration (digital interface) using external supply

EE160

Fig. 8 EE-PCS software for digital interface

Humidity and Temperature Sensor for Building Automation | 10

User Manual EE160

4.2 Product Configuration Adapter and Software for EE160 with new
Sensing Element

Remove the filter cap and check the sensing element of your EE160.

Fig. 9 EE160 with new sensing element

If the EE160 is equipped with a new sensing element according to the picture above it must be only be conifgured
or adjusted using the PCS10 Product Configuration Software (free download from www.epluse.com/pcs10 and
the adapters according to the following table:

Version

EE160-MxTxA3
Analogue voltage 0...10 V

EE160-MxTxA6
Analogue voltage 4...20 mA

EE160-M1TxJ3
Digital RS485 Modbus/BACnet

Fig. 10 EE160 new sensing element

Configuration adapter Configuration software

HA011069 PCS10

HA011069 PCS10

HA011066 PCS10

EE160 new sensing element

The USB configuration adapter HA011069 comes with a USB isolator stick that galvanically isolates the USB
interface of the PC from the supply voltage of the EE160.

PLEASE NOTE

The USB configuration adapter HA011069 must always be operated together with the USB isolator stick.

4.2.1. EE160-MxTxA3 (analogue output, voltage version)

NOTICE

▪ For the EE160 with voltage output, either the supply of the configuration adapter (for configuration

purposes) or an external supply (for configuration, calibration and adjustment purposes) must be used.

▪ It is not permitted to use both (external supply and configuration adapter supply) at the same time.
▪ For best results the use of an external power supply is recommended for calibration and adjustment

purposes.

Humidity and Temperature Sensor for Building Automation | 11

HA011069

PC

PC

User Manual EE160

PC

isolator stick

Fig. 11 EE160 configuration voltage output using HA011069 supply

PC

isolator stick

I2C stick

USB

HA011069

I2C stick

USB

EE160-MxTxA3 (voltage)

EE160-MxTxA3 (voltage)

Fig. 12 EE160 configuration voltage output using external supply

4.2.2. EE160-MxTxA6 (analogue output, current version)

NOTICE

▪ For the EE160 with current output an external supply must be used for configuration, calibration and

adjustment purposes.

▪ It is not permitted to use the configuration adapter supply (only for voltage output).
▪ It is not permitted to use both (external supply and configuration adapter supply) at the same time.

HA011069

PC

isolator stick

I2C stick

USB

EE160-MxTxA6 (current)

Fig. 13 EE160 configuration current output using external supply only

Humidity and Temperature Sensor for Building Automation | 12

User Manual EE160

PC

Fig. 14 PCS10 software for analogue version

4.2.3. EE160-M1TxJ3 (digital interface)

NOTICE

▪ For the EE160 with digital interface, either the supply of the configuration adapter HA011066 (for

configuration purposes) or an external supply (for configuration, calibration and adjustment purposes)
must be used.

▪ It is not permitted to use both (external supply and configuration adapter supply) at the same time.
▪ For best results the use of an external power supply is recommended for calibration and adjustment

purposes.

PC

Fig. 15 EE160 configuration (digital interface) using supply of HA011066

HA011066

EE160

HA011066

PC

Fig. 16 EE160 configuration (digital interface) using external supply

EE160

Humidity and Temperature Sensor for Building Automation | 13

User Manual EE160

Fig. 17 PCS10 software for digital interface

4.3 PCS10 Product Configuration Software

To use the software for performing adjustments and changes in settings, please proceed as follows:

1. Download the PCS10 Product Configuration Software from www.epluse.com/pcs10 and install it on the PC.

2. Connect the EE160 to the PC using the Modbus configuration adapter.

3. Start the PCS10 software.

4. Follow the instructions on the PCS10 opening page for scanning the ports and identifying the connected

device

5. Click on the desired setup mode from the main PCS10 menu on the left. Follow the online instructions of the

PCS10 which are displayed when clicking the “Tutorial” button.

6. Changes are uploaded to the sensor by pressing the “Sync” button.

4.4 Device Address

Address Switch

0
1

0 0 0 0 0 0 0 0

Address setting via PCS Product Configuration Software

AllDIPswitchesatposition0→addresshastobesetviaPCS

Modbus (Slave device): factory setting 245 (permitted values: 1…247).

BACnet (Master device): factory setting 2 (permitted values: 1…127).

Example: Address is set via configuration software = factory setting.

Humidity and Temperature Sensor for Building Automation | 14

Address Switch

0
1

1 1 0 1 0 0 0 0

Address setting via DIP switch

Modbus (Slave device): Setting the DIP switches to any other address than 0,

overrules the Modbus address set via via configuration software
(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).

4.5 BACnet Setup

BACnet PICS is available for download at www.epluse.com/ee160.

4.6 Digital Interface RS485 with Modbus RTU Protocol

Factory settings User selectable values (via PCS)

Baud rate 9600 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 245 1…247

User Manual EE160

Tab. 3 Digital interface default settings

The recommended settings for multiple devices in a Modbus RTU network are 9600, 8, even, 1.
The EE160 represents 1 unit load on an RS485 network.
Device address, baud rate, parity and stop bits can be set via:

▪ PCS10 Product Configuration Software, the USB configuration adapter HA011066.

The PCS10 can be downloaded free of charge from www.epluse.com/pcs10

▪ Modbus protocol in the register 60001 (0x00) and 60002 (0x01).

See Modbus Application Note AN0103 (available at www.epluse.com/ee160)

The serial number as ASCII-code is located in the register addresses 0x00...0x07 (16 bits per address).

The firmware version is located in the register address 0x08 (bits 15...8 = major release; bits 7...0 = minor
release). The sensor name is located in register address 0x09. The beforementioned registers can be read out with

function code 0x03 or 0x04.

NOTICE

When reading information that spans multiple registers, it is always necessary to read all 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.

INFO

The Modbus function codes mentioned throughout this document shall be used as described in the
MODBUS APPLICATION PROTOCOL SPECIFICATION V1.1b3, chapter 6:

www.modbus.org/docs/Modbus_Application_Protocol_V1_1b3.pdf

Humidity and Temperature Sensor for Building Automation | 15

User Manual EE160

Communication settings (INT16)

Parameter Register number1) [Dec] Register address2) [Hex] Size

Write register: function code 0x06

Modbus address

Modbus protocol settings

Device information (INT16)

Parameter Register number1) [Dec] Register address2) [Hex] Size

Readregister:functioncode0x03 / 0x04

Serial number (as ASCII) 1 00 8

Firmware version 9 08 1

Sensor name (as ASCII) 10 09 8

1) Register number (decimal) starts from 1.

2) Register address (hexadecimal) starts from 0.

3) Number of registers

4) For Modbus address and protocol settings see Application Note Modbus AN0103 (available at www.epluse.com/ee160).

Tab. 4 EE160 registers for device setup

4)

4)

1 00 1

2 01 1

3)

3)

4.7 Modbus Register Map

The measured data is saved as a 32 bit floating point values (data type FLOAT) and as 16 bit signed integer
values (data type INTEGER).

FLOAT32

Parameter Unit Register number1) [DEC] Register address2) [HEX]

Read register: function code 0x03 / 0x04

Temperature T °C, °F

Relative humidity RH, Uw %RH 28 0x1B

1) Register number starts from 1.

2) Register address starts from 0.

3) The choice of measurement units (metric or non-metric) is done at the time of ordering, see the ordering guide in the EE160 data sheet. It is
not possible to switch from metric to non-metric or vice versa by means of the PCS.

INT16

Parameter Unit Scale1)Register number2) [DEC] Register address3) [HEX]

Read register: function code 0x03 / 0x04

Temperature T °C, °F

Relative humidity RH, Uw

1) Example: For scale 100, reading of 2550 is equivalent to 25.5.

2) Register number starts from 1.

3) Register address starts from 0.

4) The choice of measurement units (metric or non-metric) shall be done in the ordering guide, see datasheet.
Switching from metric to non-metric or vice versa using the PCS is not possible.

3)

4)

100 301 0x12C

26 0x19

%RH 100 302 0x12D

Tab. 5 EE160 registers for device setup

4.8 Modbus RTU Example

The EE160’s Modbus address is 245 [0xF5].

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/ee160)

Humidity and Temperature Sensor for Building Automation | 16

Read the temperature (FLOAT32) T = 23,290008 °C from register address 0x19:

User Manual EE160

Master (e.g. PLC)

EE160

Request [Hex]:

Modbus

address

F5 03 00 19 00 02 01 0F

Function

code

Starting

address Hi

Starting

address Lo

Qty. of

registers Hi

Qty. of

registers Lo

CRC

Response [Hex]:

Modbus

address

F5 03 04 51 F0 41 BA 98 10

Tab. 6 Example temperature query

Function

code

Byte

count

Register 1

value Hi

Register 1

value Lo

Register 2

value Hi

Register 2

value Lo

CRC

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]

Register 1 Hi Register 1 Lo Register 2 Hi Register 2 Lo

51 F0 41 BA

MMMMMMMM MMMMMMMM SEEEEEEE EMMMMMMM

Tab. 7 Modbus response

IEEE754

Register 2 Hi Register 2 Lo Register 1 Hi Register 1 Lo

41 BA 51 F0

0100 0001 1011 1010 0101 0001 1111 0000

SEEE EEEE EMMM MMMM MMMM MMMM MMMM MMMM

Decimal value: 23.290008

Tab. 8 Data representation according to IEEE754

5 Maintenance and Service

5.1 Cleaning the Sensing Head and Filter Replacement

Cleaning the sensing head:

Use in polluted environment might rise the need for cleaning the sensing head and replacing the filter cap. In
such a case refer to “Cleaning Instructions” at www.epluse.com/ee160.

When employed in dusty, polluted environment:

▪ The filter cap shall be replaced once in a while with an E+E original one. A polluted filter cap causes longer

response time of the device.

▪ If needed, the sensing head can be cleaned. For cleaning intructions refer to www.epluse.com/ee160.

PLEASE NOTE

While replacing the filter cap take very good care to not touch or rub the sensing element.

Humidity and Temperature Sensor for Building Automation | 17

5.2 RH and T Adjustment and Calibration

Definitions

▪ Calibration documents the accuracy of a measurement device. The device under test (specimen) is compared

with the reference and the deviations are documented in a calibration certificate. During the calibration, the
specimen is not changed or improved in any way.

▪ Adjustment improves the measurement accuracy of a device. The specimen is compared with the reference

and brought in line with it. An adjustment can be followed by a calibration which documents the accuracy of the
adjusted specimen.

Humidity calibration and adjustment

Depending on the application and the requirements of certain industries, there might arise the need for periodical
humidity calibration (comparison with a reference) or adjustment (bringing the device in line with a reference).

Calibration and adjustment at E+E Elektronik

Calibration and/or adjustment can be performed in the E+E Elektronik calibration laboratory. For information on
the E+E capabilities in ISO or accredited calibration please see www.eplusecal.com.

Calibration and adjustment by the user

Depending on the level of accuracy required, the humidity reference can be:

▪ Humidity Calibrator (e.g. Humor 20), please see www.epluse.com.
▪ Handheld Device (e.g. Omniport30), please see www.epluse.com/omniport30.
▪ Humidity Calibration Kit (e.g. E+E Humidity Standards), please see www.epluse.com/ee160.

User Manual EE160

6 Accessories

For further information see datasheet Accessories.

Accessories Code

E+E Product configuration software (Free download: www.epluse.com/pcs10) PCS10

Power supply adapter V03

Protection cap for Ø12 mm probe HA010783

USB configuration adapter for EE160-M1TxJ3 (digital) HA011066

USB configuration adapter for EE160-MxTxAx (analogue) HA011069

EE160 configuration with legacy sensing element (see chapter 4.1)

E+E Product configuration software (Free download: www.epluse.com/configurator) EE-PCS

USB configuration adapter for EE160-M1TxJ3 (digital) HA011066

Product configuration adapter for EE160-MxTxAx (analogue) HA011069

Humidity and Temperature Sensor for Building Automation | 18

7 Technical Data

Measurands

Relative Humidity (RH)

Measuring range 0...100 %RH, non-condensing

Accuracy1) (incl. hysteresis, non-linearity and

repeatability)

23 °C (0…100 %RH)

0…+40 °C (0…100 %RH)

-20…+60 °C (0…100 %RH)

-40…-20 °C (0…100 %RH)

1) Traceable to international standards, administrated by NIST, PTB, BEV,...
The accuracy statement includes the uncertainty of the factory calibration with an enhancement factor k=2 (2-times standard deviation). The
accuracy was calculated in accordance with EA-4/02 and with regard to GUM (Guide to the Expression of Uncertainty in Measurement).

Temperature (T)

Measuring range -40...+60 °C (-40...+140 °F)

Accuracy

User Manual EE160

±2.5 %RH
±3 %RH
±4 %RH
±5 %RH

± ∆T [°C]

0.6

0.5

0.4

0.3

0.2

0.1

T [°C]

Outputs

Analogue

RH: 0...100 %, T: see ordering guide 4 - 20 mA (2-wire) RL≤500Ω RL = load resistance

T Sensor Passive

Type acc. to ordering code 4-wire connection

Digital

Digital interface RS485 (EE160 = 1 unit load)

Protocol
Factory settings
Supported baud rates
Data types for measured values

Protocol
Factory settings
Supported baud rates

0 - 10 V 0 mA < IL < 1 mA IL = load current

Modbus RTU
Baud rate acc. to ordering code, parity even, 1 stop bit, Modbus address 245

9600,19200and38 400

FLOAT32 and INT16

BACnet MS/TP
Baud rate acc. to ordering code, parity none, 1 stop bit, BACnet address 2
9 600, 19 200, 38 400, 57 600, 76 800 and 115 200

Humidity and Temperature Sensor for Building Automation | 19

General

User Manual EE160

Power supply class III
USA & Canada: Class 2 supply necessary,
max. voltage 30 V DC

Current consumption, typ.

Electrical connection Screw terminals max. 1.5 mm2 (AWG 16)

Cable gland M16x1.5

Storage conditions -40...+60 °C (-40...+140 °F)

Enclosure

Protection rating

Electromagnetic compatibility EN 61326-1 EN 61326-2-3 Industrial environment

Conformity

8 Conformity

Material

4 - 20 mA (2-wire)

0 - 10 V

RS485

24 V DC supply max. 40 mA 5 mA 5 mA

24 V AC supply

Polycarbonate (PC), UL94 V-0 approved

IP65 / NEMA4X

FCC Part15 ClassA ICES-003 ClassA

EN 45545-2 (HL3)

(10 V + RL * 20 mA) < V+ < 35 V DC

15 - 35 V DC or 24 V AC ±20%

4 - 20 mA output 0 - 10 V output RS485

- 13 mA

rms

15 mA

rms

8.1 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/ee160 for the Declarations of Conformity.

8.2 FCC Part 15 Compliance Statement

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part
15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference
when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate
radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause
harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause
harmful interference in which case the user will be required to correct the interference at his own expense.

8.3 ICES-003 Compliance Statement

This Class A digital apparatus complies with Canadian ICES-003.

Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.

Humidity and Temperature Sensor for Building Automation | 20

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

BA_EE160 | Version v2.5 | 05-2024
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