ICP DAS USA CL-202-E, CL-201-E, CL-202-BLE, CL-202-WF, CL-203-E User Manual

CL-200 Series User Manual

Remote CO/CO2/NH3/H2S/HCHO/TVOC/

Temperature/Humidity/Dew Point Data Logger Module

Version: 1.2.0

Date: Feb. 2019

Warranty

All products manufactured by ICP DAS are warranted against defective materials for a
period of one year from the date of delivery to the original purchaser.

Warning

ICP DAS assumes no liability for damages consequent to the use of this product.
ICP DAS reserves the right to change this manual at any time without notice. The
information furnished by ICP DAS is believed to be accurate and reliable. However, no
responsibility is assumed by ICP DAS for its use, nor for any infringements of patents or
other rights of third parties resulting from its use.

Copyright

Copyright © 2017 by ICP DAS. All rights are reserved.

Contact Us

If you have any questions, please feel free to contact us via email at:

Service@icpdas.com

Contents

1. Introduction ................................................................................................................................ 5

2. Hardware .................................................................................................................................. 10

2.1 Specifications ................................................................................................................. 10

2.2 Appearance ..................................................................................................................... 28

2.3 Dimensions (unit: mm) .................................................................................................. 30

2.4 Cabling for Power and Network .................................................................................... 31

3. Configuration via Web Browser .............................................................................................. 36

3.1 Search the CL-200 logger .............................................................................................. 36

3.2 Logging into the CL-200 ............................................................................................... 37

3.3 Home .............................................................................................................................. 38

3.4 Network.......................................................................................................................... 39

3.5 MQTT ............................................................................................................................ 42

3.6 I/O Settings .................................................................................................................... 44

3.7 Filter IP .......................................................................................................................... 49

3.8 Change Password ........................................................................................................... 50

3.9 Logout ............................................................................................................................ 51

3.10 Wi-Fi ............................................................................................................................ 52

4. Configuration via RS-485 ........................................................................................................ 55

5. Configuration via Wi-Fi ........................................................................................................... 66

6. Monitoring via Mobile Devices ............................................................................................... 72

7. Utility to Get/Manage Data Log .............................................................................................. 73

8. FAQ .......................................................................................................................................... 84

Q1: What is ABC (Automatic Baseline Correction)? .......................................................... 84

Q2: Why I need to enable the ABC? .................................................................................... 84

Q3: Does the CL-202/CL-212/CL-203/CL-213 enable the ABC as the factory default

setting? ......................................................................................................................... 84

Q4: What to do when the ABC is no work? ......................................................................... 84

Q5: How to set the Accessible IP? ....................................................................................... 85

Q6: How to delete the Accessible IP settings? ..................................................................... 85

Q7: How to clear the data logged in a CL-200 module? ..................................................... 86

Appendix A: DCON Command Sets ........................................................................................... 87

A-1. CL-201-E DCON Command Sets ............................................................................... 87

A-2. CL-202-E DCON Command Sets ............................................................................... 92

A-3. CL-203-E DCON Command Sets ............................................................................... 97

A-4. CL-204-E DCON Command Sets ............................................................................. 102

A-5. CL-205-E DCON Command Sets ............................................................................. 107

A-6. CL-206-E DCON Command Sets ............................................................................. 112

A-7. CL-207-E DCON Command Sets ............................................................................. 117

A-8. CL-208-E DCON Command Sets ............................................................................. 122

A-9. CL-210-E DCON Command Sets ............................................................................. 127

A-10. CL-211 / CL-211-E DCON Command Sets ............................................................ 132

A-11. CL-212 / CL-212-E DCON Command Sets ............................................................ 140

A-12. CL-213 / CL-213-E DCON Command Sets ............................................................ 148

Appendix B: ModbusMasterToolPC .......................................................................................... 156

Appendix C: Modbus Address Table ......................................................................................... 160

C-1. CL-201-E Modbus Address Mappings (Base 1) ........................................................ 160

C-2. CL-202-E Modbus Address Mappings (Base 1) ........................................................ 164

C-3. CL-203-E Modbus Address Mappings (Base 1) ........................................................ 168

C-4. CL-204-E Modbus Address Mappings (Base 1) ........................................................ 172

C-5. CL-205-E Modbus Address Mappings (Base 1) ........................................................ 176

C-6. CL-206-E Modbus Address Mappings (Base 1) ........................................................ 181

C-7. CL-207-E Modbus Address Mappings (Base 1) ........................................................ 186

C-8. CL-208-E Modbus Address Mappings (Base 1) ........................................................ 191

C-9. CL-210-E Modbus Address Mappings (Base 1) ........................................................ 196

C-10. CL-211 / CL-211-E Modbus Address Mappings (Base 1) ....................................... 201

C-11. CL-212 / CL-212-E Modbus Address Mappings (Base 1) ...................................... 207

C-12. CL-213 / CL-213-E Modbus Address Mappings (Base 1) ...................................... 213

C-13. Wi-Fi Setting Modbus Address Mappings (Base 1) ................................................ 220

Revision History ........................................................................................................................ 221

1. Introduction

The CL-200 series of data logger devices can be used to record PM2.5, CO, CO2, H2S,
NH3, HCHO, TVOC, temperature, humidity and dew point information, including the
date and time stamps, and are able to store up to 450,000 downloadable records.
Real-time data can be accessed from the CL-200 data logger from anywhere and at any
time using the free Windows software, the iOS App, or the Android App, as long as they
are connected to the same local network as the data logger.
The CL-200 series module contains RS-485, Ethernet and PoE communication
interfaces, the most common communication interfaces in industrial network. With
additional Wi-Fi interface, the CL-200-WF series provides a WLAN connection which
makes an easy way to incorporate wireless connectivity into monitoring and control
systems.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 5 -

Characteristics

PM2.5 measurement range: 0 to 400 ug/m3
CO measurement range: 0 to 1000 ppm
CO2 measurement range: 0 to 9999 ppm
NH3 measurement range: 0 to 100 ppm
H2S measurement range: 0 to 100 ppm
HCHO measurement range: 0 to 2000 ppb
TVOC measurement range: 0 to 60000 ppb
Non‐dispersive Infrared (NDIR) sensor with Automatic Baseline Correction

algorithm for CO2 measurement
HCHO : Electrochemical Sensor
TVCO : Metal-Oxide Sensor
Able to store up to 450,000 records
Remote control with a standard web-browser
iAir App for iOS or Android mobile devices to monitor on-line data
Supports the DCON, Modbus RTU, Modbus TCP protocols
Supports the MQTT Protocol for Ethernet Interface
One relay output for turning on/off alarm light/buzzer or IAQ control devices
Includes RS-485/Ethernet communication interfaces
Includes Wi-Fi Interfaces (CL-200-WF Series)
Compatible with IEEE802.11b/g/n standards (CL-200-WF Series)
Support infrastructure and limit-AP modes for wireless networks(CL-200-WF Series)
Wide operating temperature range of 0 to 50°C
RoHS compliant with no Halogen

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 6 -

Features

NDIR Sensor

NDIR (Non-Dispersion Infrared) is based on one of the natural properties of CO2
molecules: CO2 molecules absorb light at a specific wavelength of 4.26 µm. This
wavelength is in the infrared (IR) range. High concentrations of CO2 molecules
absorb more light than low concentrations. NDIR sensor can detect fast and
accurately in a wide range of CO2 concentration.

Built-in Web Server

With the built-in Web server, users can easily log in to the CL-200 module via a
standard web browser to monitor the data and configure the settings without install
any software in the terminal. Please note that the web server is only available to the
Ethernet interface.

Get Real-time Data Anywhere and Anytime

iAir App for iOS or Android Phones or Tablets is free and easy to install, it can
obtain the real-time data from CL-200 modules over a Wi-Fi network anytime and
anywhere. The iAir App can link to the CL-200 modules by specifying IP addresses
or by searching all the modules connected to the same Ethernet segment.

Data Logging Software

The DL-300 Utility can be used to configure the modules, monitor real-time data
and show the run chart, log alarm events, group CL-200 modules so that the status
of distribution groups can be
viewed and managed. The
utility also allows the log data
to be downloaded and
exported to a .CSV file that
can then be imported into
any industry-standard
software or spread sheet for
analysis.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 7 -

Easy integration with SCADA software

Modbus is one of the most popular protocols used in the industrial world.
Supporting traditional serial protocols of RS-485 and Ethernet protocols allow the
CL-200 series well-integrated into the HMI/SCADA systems.

Alarm

CL-200 series allows users to set high alarm level for PM2.5/CO/CO2/H2S/NH3/
HCHO/TVOC/Temperature/Humidity/Dew Point and low alarm level for
Temperature /Humidity /Dew Point, and to enable/disable the alarm functions. An
Alarm LED indicator on the front of the CL-200 module will flash when an alarm
event is activated, and a relay output related to all alarm events can be use to tap
an alarm light/sound or control the IAQ devices such as ventilators, air cleaners,
and filters. Beep alarm is available when the CO/CO2/H2S/NH3/ HCHO/TVOC high
level alarm occurs.

Automatic Baseline Correction

The built-in ABC algorithm makes the CO2 sensor on the CL-202, CL-212, CL-203,
CL-213, maintenance-free. In most indoor applications, the carbon dioxide level
drops to nearly outside air - 400 ppm, and then the ABC algorithm constantly keeps
track of the lowest reading and slowly corrects it as the expected fresh air value of
400 ppm. The ABC algorithm can not apply for the places where are no periods that
the CO2 concentration drops to background level such as greenhouses, hospitals,
24-hour operation factories or stories. The ABC function needs be disabled where
the spaces the CO2 concentration may be elevated at all times.

Easy Wiring

Support for RS-485, Ethernet and Power over Ethernet (PoE) interfaces for users
to choose the appropriate one to meet the field requirements.

Power over Ethernet (PoE)

The CL-200 series features true IEEE802.3af-compliant (classification, Class 1)
PoE technology that allows both power and data to be carried over a single
Ethernet cable. PoE provides a unified power system, as well as backup provisions
for critical building functions, without any additional cables, outlets or connections.
It can reduce the power supply wiring and maintenance costs, and improve system
scalability.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 8 -

Support for MQTT protocol

MQTT is a protocol designed for the
efficient exchange of real-time data
with sensor and mobile devices. It
runs over TCP/IP and is in widest
use on the "machine-to-machine"
(M2M) and "Internet of Things"
applications today

Smartphone

MQTT
Broker

CL-203-E

CL-212-E

Mobile Tablet

Subscriber

Compatible with IEEE 802.11b/g/n standards

The CL-200-WF modules are complied with IEEE 802.11b/g/n standard from

2.4~2.5 GHz. It can be used to provide up to 11 Mbps for IEEE 802.11b and 54
Mbps for IEEE 802.11g to connect to your wireless LAN.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 9 -

2. Hardware

Model

CL-201-E

CL-201-BLE

CL-201-WF

CO Measurement

Range

0 to 1000 ppm (Electrochemical)

Resolution

1 ppm

Accuracy

±5% of measured value

Response Time

30 seconds

Warm-up Time

60 seconds

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

CO Alarm

Yes

CO2 Alarm

-

PM2.5 Alarm

-

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

2.1 Specifications

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 10 -

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

1.7 W

1.8 W

1.9 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

Model

CL-202-E

CL-202-BLE

CL-202-WF

CO2 Measurement

Range

0 ~ 9999 ppm

Resolution

1 ppm

Accuracy

±40 ppm ±3%

Response Time

120 seconds

Warm-up Time

5 minutes

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 11 -

System

CO Alarm

-

CO2 Alarm

Yes

PM2.5 Alarm

-

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

1.8 W

1.9 W

2.0 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 12 -

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 13 -

Model

CL-203-E

CL-203-BLE

CL-203-WF

CO Measurement

Range

0 to 1000 ppm (Electrochemical)

Resolution

1 ppm

Accuracy

±5% of measured value

Response Time

30 seconds

Warm-up Time

60 seconds

CO2 Measurement

Range

0 ~ 9999 ppm

Resolution

1 ppm

Accuracy

±40 ppm ±3%

Response Time

120 seconds

Warm-up Time

5 minutes

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

CO Alarm

Yes

CO2 Alarm

Yes

PM2.5 Alarm

-

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

1.8 W

1.9 W

2.0 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

Model

CL-204-E

CL-204-BLE

CL-204-WF

HCHO Measurement

Range

0 to 2000 ppm (Electrochemical)

Resolution

1 ppm

Accuracy

-

Response Time

≤60 seconds

Warm-up Time

180 seconds

TVOC Measurement

Range

0 to 60000 ppb (MEMS Metal Oxide)

Resolution

1 ppb

Accuracy

± 15%

Response Time

60 seconds

Warm-up Time

180 seconds

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 14 -

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

HCHO Alarm

Yes

TVOC Alarm

Yes

PM2.5 Alarm

-

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

2.0 W

2.1 W

2.2 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 15 -

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 16 -

Model

CL-205-E

CL-205-BLE

CL-205-WF

NH3 Measurement

Range

0 to 100 ppm (Electrochemical)

Resolution

1 ppm

Accuracy

± 5% of measured value

Response Time

< 120 Sec

Warm-up Time

180 Sec

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

NH3 Alarm

Yes

PM2.5 Alarm

-

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

1.9 W

2.2 W

2.2 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

Model

CL-206-E

CL-206-BLE

CL-206-WF

H2S Measurement

Range

0 to 100 ppm (Electrochemical)

Resolution

1 ppm

Accuracy

± 5% of measured value

Response Time

< 120 Sec

Warm-up Time

180 Sec

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

H2S Alarm

Yes

PM2.5 Alarm

-

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 17 -

Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

1.9 W

2.2 W

2.2 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

Model

CL-207-E

CL-207-BLE

CL-207-WF

HCHO Measurement

Range

0 to 2000 ppm (Electrochemical)

Resolution

1 ppm

Accuracy

-

Response Time

≤60 seconds

Warm-up Time

180 seconds

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 18 -

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

HCHO Alarm

Yes

PM2.5 Alarm

-

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

2.0 W

2.1 W

2.1 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 19 -

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 20 -

Model

CL-208-E

CL-208-BLE

CL-208-WF

TVOC Measurement

Range

0 to 60000 ppb (MEMS Metal Oxide)

Resolution

1 ppb

Accuracy

± 15%

Response Time

60 seconds

Warm-up Time

180 seconds

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

HCHO Alarm

Yes

TVOC Alarm

Yes

PM2.5 Alarm

-

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

1.9 W

2.0 W

2.0 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

Model

CL-210-E

CL-210-BLE

CL-210-WF

PM2.5 Measurement

Range

0 to 400 ug/m3

Resolution

1ug/m3

Response Time

<=1 min.

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

CO Alarm

-

CO2 Alarm

-

PM2.5 Alarm

Yes

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

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Communication

Protocol

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal

+12 to +48 VDC

Powered via PoE

IEEE 802.3af, Class 1 (require a PoE switch or injector)

Power Consumption

1.7 W

1.8 W

1.8 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

Model

CL-211

CL-211-E

CL-211-BLE

CL-211-WF

PM2.5 Measurement

Range

0 to 400 ug/m3

Resolution

1ug/m3

Response Time

<=1 min.

CO Measurement

Range

0 to 1000 ppm (Electrochemical)

Resolution

1 ppm

Accuracy

±5% of measured value

Response Time

30 seconds

Warm-up Time

60 seconds

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Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

CO Alarm

Yes

CO2 Alarm

-

PM2.5 Alarm

Yes

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus

RTU

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal
Block

+10 to +30

VDC

+12 to +48 VDC

Powered via PoE

-

IEEE 802.3af, Class 1 (require a PoE switch or

injector)

Power Consumption

1.2 W

2.0 W

2.0 W

2.1 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

Model

CL-212

CL-212-E

CL-212-BLE

CL-212-WF

PM2.5 Measurement

Range

0 to 400 ug/m3

Resolution

1ug/m3

Response Time

<=1 min.

CO2 Measurement

Range

0 ~ 9999 ppm

Resolution

1 ppm

Accuracy

±40 ppm ±3%

Response Time

120 seconds

Warm-up Time

5 minutes

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

CO Alarm

-

CO2 Alarm

Yes

PM2.5 Alarm

Yes

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 24 -

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus

RTU

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal
Block

+10 to +30

VDC

+12 to +48 VDC

Powered via PoE

-

IEEE 802.3af, Class 1 (require a PoE switch or

injector)

Power Consumption

1.2 W

2.1 W

2.2 W

2.2 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

Model

CL-213

CL-213-E

CL-213-BLE

CL-213-WF

PM2.5 Measurement

Range

0 to 400 ug/m3

Resolution

1ug/m3

Response Time

<=1 min.

CO Measurement

Range

0 to 1000 ppm (Electrochemical)

Resolution

1 ppm

Accuracy

±5% of measured value

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Response Time

30 seconds

Warm-up Time

60 seconds

CO2 Measurement

Range

0 ~ 9999 ppm

Resolution

1 ppm

Accuracy

±40 ppm ±3%

Response Time

120 seconds

Warm-up Time

5 minutes

Temperature Measurement

Range

-10 to +50°C

Resolution

0.1°C

Accuracy

±0.6°C

Relative Humidity Measurement

Range

0 to 100% RH, Non-condensing

Resolution

0.1% RH, Non-condensing

Accuracy

±5% RH, Non-condensing

Dew Point

Range

Calculated using temperature and relative humidity

Resolution

0.1°C

System

CO Alarm

Yes

CO2 Alarm

Yes

PM2.5 Alarm

Yes

Real Time Clock

Yes

Data Logger

Yes, 450,000 Records

Alarm Relay Output

Form A×1, SPST. 30 VDC @ 16 A or 250 VAC @ 16 A

Communication

Protocol

DCON, Modbus

RTU

DCON, Modbus RTU, Modbus TCP, MQTT

Wire Interface

Yes, RS-485 X 1

Yes, RS-485 X 1 and Ethernet/PoE X1

Wireless Interface

-

Bluetooth

Wi-Fi

Standard Supported

-

BT 4.0

IEEE 802.11 b/g/n

Wireless Mode

-

Slave

Infrastructure/

Limited AP

Wireless Security

-

AES 128

WEP, WPA ,WPA2

Transmission Range

-

20 m (LOS)

50 m (LOS)

Electrical

Powered via Terminal
Block

+10 to +30

VDC

+12 to +48 VDC

Powered via PoE

-

IEEE 802.3af, Class 1 (require a PoE switch or

injector)

Power Consumption

1.2 W

2.1 W

2.2 W

2.2 W

Mechanical

Dimensions (D x H)

Ø 150 mm x 53 mm

Installation

Ceiling Mounting or Wall Mounting

Environment

Operating

0 to +50°C

Storage Temperature

-30 to +75°C

Humidity

10 to 90% RH, Non-condensing

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 27 -

2.2 Appearance

DIP Switch

Rotary Switch

PoE/Non-PoE
Ethernet Port

Connectors:
Power
RS-485
Alarm Relay Output

LED Indicators:
Power
Alarm

Internal Wi-Fi Antenna
(For CL-200-WF Only)

LED Indicators

PWR: Red for normal operation.
Alarm: Green for alarm condition.

DIP Switch

The functions are printed on the right beside the SW1 DIP switch.

PoE/ non-PoE Ethernet port

The Ethernet port can be used to connect to a PoE switch or a non-PoE switch.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 28 -

Connector for Power/ Frame Ground / RS-485/ Alarm Relay Output

The Push-in connector can easily connect and
detach solid wires or wires with wire-end
ferrules without using tools. Just push in the
solid wire to lock it and press the white button to
release the wire.

Wire requirement:

 Stripping length: 8 ~ 10 mm
 0.20 - 1.5 mm² (IEC) / 28 - 16 AWG (UL)

Relay Output Wire Connection

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 29 -

2.3 Dimensions (unit: mm)

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 30 -

2.4 Cabling for Power and Network

Note

 Do not install the CL-200 module near a vent, a ventilation fan or a door where the

air flows faster.

 Avoid installing in locations where the temperature is below 0°C or above 50°C.
 Avoid installing in locations near a strong electromagnetic field.

For connecting with a PC or a Android device

The CL-200 logger can connect to a PoE network without a power source or connect to
a non-PoE network. When using the Search function in iAir App on Android or iOS
mobile devices, mobile devices need to connect to the same subnet that the CL-200
connected to over Wi-Fi. Similarly to using the Search function in DL-300 Utility running
on Windows, the module and the host PC need to connect on the same subnet, too.

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The iAir App and DL-300 Utility search the logger by broadcast, therefore only the

RS-485 Network

CL-200-E

Power Supply

USB/RS-485Converter

I-7561

CL-200-E

devices on the same subnet can be searched out. It means that the host PC, Android
devices and the logger must have the same broadcast address. The broadcast address
for an IPv4 device can be obtained by performing a bitwise OR operation between the
bit complement of the subnet mask and the IP address for a device. In other words, take
the device's IP address, and set to '1' any bit positions which hold a '0' in the subnet
mask.

For example, in an entire IPv4 subnet, the host PC or the Android device uses the
private IP address space 172.16.0.0/12 and subnet mask address 255.240.0.0, the
broadcast address is 172.16.0.0 | 0.15.255.255 = 172.31.255.255. Only the loggers
which have the same broadcast address could be searched out in the iAir App or
DL-200 Utility. Please contact with your network administrator to make sure the CL-200
logger is connected to the same sub-network that your Android devices or PC is
connected to.

For connecting with PC via RS-485 network

The CL-200 logger can connect to the PC through a RS-485 network with power input
requirement of +12 ~ +48 VDC.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 32 -

For connecting with PC via Wi-Fi

The CL-200-WF logger can connect to the PC through Wi-Fi with power input
requirement of +12 ~ +48 VDC.

The CL-200-WF device can be configured as station mode, such that the PC/Laptop
can be connected through Wi-Fi AP.

The CL-200-WF device can be configured as AP mode, such that the PC/Laptop can be
connected through Wi-Fi directly. Only one device is allowed to be connected to the
DL-300-WF module in AP mode.

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2.5 Hardware Mounting

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 34 -

(Requires RJ45 Cable, Male-Female, 30cm (90º))

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3. Configuration via Web Browser

CL-200 logger has a built-in web server that provides simple web pages for remote
monitoring real-time data and configuring the logger with a standard browser. For
opening the web page in CL-200, the factory default IP address (192.168.255.1),
Subnet Mask (255.255.0.0) and Gateway (192.168.0.1) need be set to available
IP/Subnet Mask/Gateway addresses in your Ethernet environment. The Ethernet
configuration can be set by entering the Settings menu from the web pages. Please
note that the web configuration is only available to the Ethernet interface.

3.1 Search the CL-200 logger

eSearch is designed to search out the CL-200 logger connected on the same Ethernet
network, it supports for Linux and Windows and is needless to install. Please note that
the eSearch Utility cannot be used to configure CL-200-WF device via the Wi-Fi
interface. In this case, use the Wi-Fi IIOT Utility instead.

The eSearch can be downloaded from

http://ftp.icpdas.com/pub/cd/iiot/utility/

Before running eSearch, turn off firewall on computer, and connect the computer and
CL-200 logger to Ethernet network.

1. Launch eSearch, click the Search Servers button to search the CL-200 modules
connected to the network, the modules searched out will be listed as below.

2. Double click the module name searched in the list.

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3. Set available IP Address, Sub-net Mask, Gateway (designated by your network

1

2

administrator) and alias and click the OK button. The Alias for easy to identify each
item will be shown at the bottom-left corner of the CL-200 screen.

3.2 Logging into the CL-200

1. Enter the IP address for your CL-200 in the address bar of a web browser. (sec. 3.1).

2. Type the Login password, and click the Submit button.

(The default Login password is Admin, case sensitive.)

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3.3 Home

The first page displayed is Home, it shows the based configuration of the CL-200
module and the real-time data as below:

In the Sensor Readings field is the real-time data of PM2.5/CO/CO2/NH3/H2S/HCHO
/TVOC concentration, temperature, humidity and dew point, the minimum value (Low
Latched) and maximum value (High Latched) logged. Clicking on the Clear Low
Latched button and the Clear High Latched button can reset the latched data to
current value and latch new minimum or maximum value.

The Alarm table displays the settings of alarm mode, high alarm limit for PM2.5/CO/CO
/NH3/H2S/HCHO/TVOC concentration, temperature, humidity and dew point, low alarm
limit for temperature, humidity and dew point, and the alarm status for each. Clicking on

2

the Clear Latched Alarm button can clear the activated alarm status.

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The Digital Output table shows the status of the relay output and the control button Set
Digital Output to change the relay output status. The control function is invalid when
any of the alarm modes is not disabled. If one of the alarm modes is enabled, the relay
is linked to the alarm status for tapping audible/visual alarm.

At the end of the page are the data, time and device online time since powered on.

3.4 Network

The networks parameters are set on this page including DHCP enabled/disabled,
IP/Subnet Mask/Gateway addresses, the port number and the NetID for Modbus TCP
communication. Remember to click on the Update Settings button to update new
parameters.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 39 -

Item

Description

Default

System
Timeout
(Network
Watchdog)

Sets the timeout for rebooting a CL-200 logger when it is
abnormal or failure to communicate.

Range: 30 ~ 65535 (unit: second)
0 = Disable

0
(Disable)

TCP Timeout

Sets the timeout for disconnecting a TCP connection
when a CL-200 does not receive data coming from the
Ethernet port.

Range: 5 ~ 65535 (unit: second)
0 = Disable

180

Web
Auto-logout

Sets the timeout for logout the web server in a logger
when there is no any operation from the web browser
interface.

Range: 1 ~ 65535 (unit: minute)
0 = Disable

10

Alias Name

Sets an alias name for easy to identify a CL-200. The
maximum length is 18 characters.

EtherIO

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 40 -

Item

Factory Default

IP address type

Static IP

Static IP

192.168.255.1

Default gateway

192.168.0.1

Subnet Mask

255.255.0.0

MAC address

Factory MAC address

Modbus TCP port

502

Modbus TCP NetID

1

Modbus TCP NetID

Enabled

System Timeout

0 (disabled)

TCP Timeout

180 seconds

Web auto logout

10 minutes

Alias name

EtherIO

Accessible IP

Disabled

The Reboot button is used to reboot the CL-200. After pressing the button, a user
needs to login the CL-200 logger again to using the web interface.
The Restore Defaults button can be used to restore the following settings to factory
default values.

The Update button is used to update firmware. Please Refer to firmware update manual
first.

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3.5 MQTT

MQTT stands for MQ Telemetry Transport, it is a publish/subscribe, extremely simple
and lightweight messaging protocol, designed for constrained devices and
low-bandwidth, high-latency or unreliable networks.

The Publish-Subscribe messaging pattern requires a message broker. The broker is
responsible for distributing messages to interested clients based on the topic of a
message. Now the MQTT Version 3.1.1 becomes an OASIS standard, it is an ideal
protocol for communicating with connected devices in the emerging
"machine-to-machine" (M2M) and "Internet of Things" applications, and for mobile
applications where bandwidth and battery power are at a premium.

Input the IP address and port number for the MQTT broker and click on the Update
Settings button to save the parameters.

The MQTT Last Will and Testament (LWT) feature is used to notify other clients about
an ungracefully disconnected client. A CL-200-E can register an offline message (LWT)
to the broker. The LWT message will be deliver to all clients who subscribe to the offline
topic if the CL-200-E disconnects unexpectedly.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 42 -

- Cycle: sets the time period for update the publish messages in millisecond.

- Module Topic Name: sets the module topic name.

- PM2.5/CO/CO2/NH3/H2S/HCHO/TVOC/Relative Humidity/Temperature (°C)/

Temperature (°F)/ Dew Point (°C)/ Dew Point (°F) Sub Topic Name: sets the sub topic
name for each item.

A MQTT client subscribes the messages form a MQTT broker by specifying the topic
name as

Module Topic Name + Sub Topic Name

For example, to subscribe the CO2 level in this case, a MQTT client subscribes the
topic name from a MQTT broker as

EtherIO/CO2

If a MQTT control message is published to topic name: “Module Topic Name + DO0 Sub
Topic Name ” for a CL-200 logger, the logger will follow the MQTT message described
to set the Relay Output.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 43 -

3.6 I/O Settings

Users can change the temperature unit to Fahrenheit or Celsius in this field.

To Enable/Disable the CO2 Automatic Baseline Correction function.

Q & A

Q: What is ABC (Automatic Baseline Correction)?
A: ABC stands for the Automatic Baseline Correction which is used to adjust a shifted

baseline to the carbon dioxide level in fresh air. In case of normal indoor application,
the carbon dioxide level drops to nearly outside air where there are no human, green
plants or anything to elevate the carbon dioxide levels on weekday evenings or
weekends, the ABC algorithm constantly keeps track of the lowest reading and
slowly corrects it as the expected value in fresh air typically around 400 ppm.

Q: Why I need to enable the ABC?
A: When the CO2 concentration detected in a period time of unoccupied space is

greater than the base value of 400ppm, enable the ABC function to adjust the
baseline. Be careful that the ABC will not work if a space is constantly occupied such
as a hospital, 24-hr factory, 24-hr store, green house or other applications where
CO2 levels may be elevated at all times.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 44 -

All the settings take effect after clicking the Update Settings button.

Item

Description

Default

Alarm Mode

- Disabled:
Disables alarm function.

- Momentary:
If a measurement value higher than the High Alarm Limit
or lower than the Low Alarm Limit, the alarm occurs until
the measurement value is within a range from Low Alarm
Limit to High Alarm Limit. (For CO/CO2 level, until the
measurement value is lower than the High Alarm Limit.)
The Alarm LED turns red, and the relay turns to on for
every alarm event, and a sound alarm beeps as the
setting in Beep on Alarm Time for CO/CO2 high limit
alarm events during the alarm stage.

- Latched:
If a measurement value higher than the High Alarm Limit
or lower than the Low Alarm Limit, the alarm occurs. The
Alarm LED turns red, the relay turns to on for every alarm
event, and a sound alarm beeps as the setting in Beep
on Alarm Time for CO/CO2 high limit alarm events.
Even though the alarm event is not presented, the alarm
status is latched; the Alarm LED keeps red, and the relay
keeps on and the sound alarm keeps beeping if it is set to
beeping continuously.

Disabled

Low Alarm
Limit

Sets the Low alarm limit conditions for Relative Humidity/
Temperature/ Dew Point.

High Alarm

Sets the High alarm limit conditions for CO/CO2/Relative

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 45 -

Limit

Humidity/ Temperature/ Dew Point.

Beep On
Alarm

Enable/disable beep on alarm for PM2.5 /CO /CO2
/Temp /RH /Dew point

Beep On
Alarm Time

Sets the time for beeping alarm.

Range: 1 ~ 250 (unit: second)
0 = disable the beeping alarm
251 = continue the beeping alarm without stop

30

Set the Power On Value and Safe Value for the relay output, and the Host Watchdog
Timeout timer for RS-485 communication; if a host does not send a command over the
setting time, the Host Watchdog timeout occurs and the relay outputs the status set for
Safe value. The settings for Power On Value and Safe Value are unavailable when any
one setting in the Alarm Mode is enabled.

All the settings take effect after clicking the Update Settings button.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 46 -

In this table it shows the settings for data logger.

Item

Description

Default

Status

- Running: the data logger is running

- Stopped: the data logger is stopped

Change
Logging

Sets the mode for data logger

- Stop: stops the data logger

- Run: continues logging data

- Period: logs data in the specified period time

Stop

All the settings take effect after clicking the Update Settings button.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 47 -

Overwrite
on Full

Sets whether to overwrite old data by new ones when the
memory for data storage is full. (Over the upper limit of
450,000.)

- No: discards the new data (default)

- Yes: overwrites the old data by new ones

No

Sampling
Interval

Sets the time interval for logging data. It is valid for both Run
mode and Period mode.

- Sampling Interval – Hour: sets the hour for log interval

- Sampling Interval – Minute: set the minute for log interval

- Sampling Interval – Second: sets the second for log
interval

10 (s)

Period
Start

Sets the start time for Period mode.
Period End

Sets the stop time for Period mode

Click the Reset Data Logger button to clear the data in data storage memory.

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3.7 Filter IP

For limiting the devices to access the CL-200 logger, users can specifies particular
devices by setting their IP addresses on this page. When the addresses are 0.0.0.0
from IP1 to IP5, all the devices can access the logger. Once any of the 5 IP address
columns is set, only the device with which IP is saved in the list can assess the logger.

 Filter Settings

1. Select the radio button for Add ___.___.___.___ To The List and type the IP
address for the accessible device in the following text box.

2. Click on the Submit button to the setting effect without restarting.
If the IP setting needs be saved for using after repowered, check the checkbox for
Save to Flash before clicking the Submit button.

 Delete IP setting

Select the radio button for Delete IP# to delete a specified IP or the radio button for
Delete All to delete all the IP, check the checkbox for Save to Flash and then click
the Submit button to take the delete operation effect.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 49 -

3.8 Change Password

On this page users can change the passwords for login the logger and locking the touch
screen. The factory default for the CL-200 touch screen has no password protection.
After setting the password for touch screen, each time whoever wants to change to
settings from the touch screed, the password will be requested.

 Change Web Password

The password for logging into the web page is Admin and can be changed in the
Change Web Password field. The password can be alphabetic characters or
numbers and up to 12 characters (case sensitive).

To change the password, uses need enter the Current password, New password,
and Confirm new password columns and click the Submit button for Change Web
Password to take the setting effect.

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3.9 Logout

Click the Logout on any page to logout the CL-200.

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 51 -

3.10 Wi-Fi

Item

Description

Connection Status

The Wi-Fi connection status of the CL-200-WF device.

Signal Strength

The Wi-Fi signal strength of the CL-200-WF device in station mode. It
can be High, Medium, Low, or Not Connected.

MAC Address

The MAC address of the Wi-Fi interface of the CL-200-WF device.

IP Address

The IP address of the Wi-Fi interface of the CL-200-WF device.

Update Wi-Fi Status

Click this button to update the Wi-Fi status of the CL-200-WF device.

For CL-200-WF module, the Wi-Fi related parameters can be set via the Wi-Fi page.
This page including Wi-Fi Status and Wi-Fi Settings, each of which will be described in
more detail below.
 Wi-Fi Status

The following table provides an overview of the parameters contained in the Wi-Fi

Status section:

CL-200 Series User Manual Version 1.2.0 Apr. 2019 - 52 -

 Wi-Fi Settings

Item

Description

Mode

This parameter is used to specify the Wi-Fi mode of the CL-200-WF device.
It can be station or AP. For AP mode, only one device can be connected.

Wireless Security

This parameter is used to specify which security protocol is used to secure
wireless computer network. It can be open, WEP, or WPA/WPA2. It is
recommended to use WPA/WPA2 if possible.

DHCP Server (AP
Mode)

This parameter is used to specify whether to turn on the DHCP server
function. It is only available to the AP mode.

Wi-Fi Channel (AP
Mode)

This parameter is used to specify which channel is used for Wi-Fi
transmission. It can be 1 to 11. It is only available to the AP mode.

IP Address Type
(Station Mode)

This parameter is only available to the station mode and it can be Static IP
or DHCP. If DHCP is supported by the AP you would like to connect, then
DHCP should be selected. Otherwise, select Static IP and the following
three parameters IP Address, Subnet Mask and Gateway should be set, too.

The column of Current shows the current Wi-Fi settings. You can change the settings
by changing the column of New. The following table provides an overview of the
parameters contained in the Wi-Fi Settings section:

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IP Address

Each CL-200-WF device connected to the Wi-Fi network must have its own
unique IP address. This parameter is used to assign a specific IP address.

Subnet Mask

This parameter is used to assign the subnet mask for the CL-200-WF
device. The subnet mask indicates which portion of the IP address is used to
identify the local network or subnet.

Gateway

This parameter is used to assign the IP address of the gateway to be used by
the CL-200-WF device. A gateway (or router) is a device that is used to
connect an individual network to one or more additional networks.

SSID

This parameter is used to specify the Service Set Identifier. For station
mode, specify the SSID of the AP you would like to connect. For AP
mode, the SSID will be used by the device to be connected.

Modbus TCP Port

This parameter is used to set the local port of the Wi-Fi interface to be used
by the Modbus slave device. The default value is 502.

Update Settings

Click this button to save the revised settings to the CL-200-WF device.

Factory Default Wi-Fi Settings

Mode

AP

Wireless Security

WPA/WPA2, "00000000"

DHCP Server (AP Mode)

DHCP Server on, start IP: 192.168.255.2

Wi-Fi Channel (AP Mode)

11

IP Address

192.168.255.1

Gateway Address

192.168.255.254

Subnet Mask

255.255.0.0

SSID

CL-200-WF

Modbus TCP Port

502

The following table provides an overview of the factory default Wi-Fi settings:

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Set COM port

Start Search

Stop Search

4. Configuration via RS-485

 The factory default settings for RS-485 communication

 Address: 192
 Protocol: Modbus/RTU
 Baudrate: 9600
 Parity: N,8,1
 Response Delay (ms): 0

Note

If there are multiple CL-200 loggers connected to the same RS-485 network, each
logger needs be set with a unique RS-485 address. More than one module having
the same address will cause communication failure

 Testing RS-485 Communication

1. Download the DCON Utility Pro from

http://ftp.icpdas.com/pub/cd/iiot/utility/

2. Launch the DCON_Utility_Pro.exe.

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3. Click the icon to configure the COM port.

4. Select the COM Port number used to connect the CL-200 logger.

5. The Baud Rate is factory default to 9600 bps.

6. Select the Protocol tab and check the protocol that set in the logger.

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7. Select the Format tab and check the parity that set in the logger.

8. Click the Start Search icon.

9. The CL-200 logger searched out will be listed as below.

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10. Click the module name to configure the logger.

Note

The Protocol/Baud Rate/Parity/Checksum items marked with ”(INIT*)” means that
when any of those items needs be modified, the pin 4.INIT needs to be set in ON
position and power cycle the logger, then the item can be modified. After complete
setting, set the pin 4.INIT back to OFF position and power cycle the logger again to
take the setting effect.

 AI tab

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Degree of offset

Clear High/Low
Alarm Latch

PM2.5/CO

2

level

Humidity、Temperature and
Dew point temperature

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 Alarm tab

Set Alarm Configurations

Alarm Mode

Low Limit

High Limit

Alarm Buzzer On

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When the buttons are
clicked, the DO status
will be set as the
Power On value or
Safe value.

Select one of the radio button and the
checkbox next to DO will display the
setting for selected item.

The checkbox can be used to control and display the DO status.
Check/Uncheck the checkbox can control the relay output.
Checked/Unchecked symbol also means the DO status

 DO tab

On this DO tab, users can control the relay to output ON or OFF status, and set the
power on value and safe value for the relay output.
When any one of the high/low limit alarm for CO/CO2 concentration, temperature,
humidity and dew point is enabled, the functions on this tab are all disabled as
below.

If all the alarm events are disabled, the functions are available as below:

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 Host Watchdog

Host Watchdog is used to monitor the RS-485 communication status; if the host
(PC) does not send command “~**” in the time period of WDT Timeout setting, the
enabled Host Watchdog will announce the timeout error and turn the relay output
to Safe value to avoid an unsafe act. Users can not control the relay until the
command “~AA1” is sent to clear the WDT timeout status.

Note

On this tab:

1.Set the time period for WDT timeout, check the checkbox next to Enable WDT

and click the Set WDT button to enable the Host watchdog.

2.Check the checkbox next to Send Host OK to send the “~**” command.

3.Uncheck the checkbox next to Send Host OK to stop sending ~** command, the

Host watchdog timeout will occur and relay will turn to Safe value.

4.Click the Reset WDT button to clear the Host watchdog timeout status.

5.Uncheck the checkbox next to Enable WDT and click the Set WDT button to

disable the Host watchdog.

The relay will not turn to Safe value when any one of the alarm for PM2.5/CO/CO
concentration, temperature, humidity and dew point is enabled. If any one alarm is

2

enabled, the relay will be linked to the Alarm status. In case an Alarm occurs, the
relay turns ON, it can be used to turn on the user’s alarm light or beeping alarm or
other device.

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 Logger Configuration

Set the logger configuration on this TAB.

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Check/Uncheck the item to Enable/Disable
ABC function(For CL-202-E, CL-212-E,
CL-203-E, CL-213-E only)

Click the Apply button to
save settings.

Buzzer On Alarm Time setting.

 System Tab

Click the Edit button to enable settings on this tab.

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 INIT

In case of the following situations, users have to set the pin 4.INIT on SW1 in the ON
position and power-cycle the CL-200 module:

- Change protocol from PC

- Change DCON configuration such as baudrate, parity and checksum

- Communication failure with a CL-200 module.

When a CL-200 module is powered-on with the pin 4.INIT in ON position, the protocol is
DCON, address is 0, Baud Rate is 9600 bps, Parity is set to N/8/1 and Checksum is
disabled.

After configuring the communication parameters, click the Set Module Configurations
button, set the INIT to OFF position and power-cycle the CL-200 to take the settings
effect.

Note

The INIT switch does not need to be set in the ON position when changing the
address, baudrate and parity for ModbusRTU communication; users only have to
power-cycle the module after complete configuration.

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5. Configuration via Wi-Fi

 The factory default settings for Wi-Fi communication of the CL-200-WF are as

follows.

 Mode: AP
 Wireless Security: WPA/WPA2, "00000000"
 DHCP Server (AP Mode): DHCP Server on, start IP: 192.168.255.2
 Wi-Fi Channel (AP Mode): 11
 IP Address: 192.168.255.1
 Gateway Address: 192.168.255.254
 Subnet Mask: 255.255.0.0
 SSID: CL-213-WF
 Modbus TCP Port: 502

The Wi-Fi IIOT Utility is provided to configure and test the CL-200-WF module through
the Wi-Fi interface.

 Install Wi-Fi IIOT Utility

The installation file location of the Wi-Fi IIOT Utility is at:

http://ftp.icpdas.com/pub/cd/iiot/utility/

 Search and Find the Module

Click on the search button to find the modules via the Wi-Fi interface.

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Select the Wi-Fi network interface and click on the OK button.

 Configure and Test the Module

When the module is found, click on the module name to enter the configuration
form.

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In the Configuration form, you can change the Wi-Fi related settings. Click on the Set

Item

Description

WiFi Mode

This parameter is used to specify the Wi-Fi mode of the SL device. It can be
Station or AP. For AP mode, only one device can be connected.

SSID

This parameter is used to specify the Service Set Identifier. For station
mode, specify the SSID of the AP you would like to connect. For AP
mode, the SSID will be used by the device to be connected.

Encryption

This parameter is used to specify which security protocol is used to secure
wireless computer network. It can be open, WEP, or WPA. It is
recommended to use WPA if possible.

Modbus TCP Port

This parameter is used to set the local port of the Wi-Fi interface to be used
by the Modbus slave device. The default value is 502.

DHCP Server

This parameter is used to specify whether to turn on the DHCP server
function. It is only available to the AP mode.

IP Address Type

This parameter is only available to the station mode and it can be Static or
DHCP. If DHCP is supported by the AP you would like to connect, then
DHCP should be selected. Otherwise, select Static and the following three
parameters Static IP, Subnet Mask and Gateway should be set, too.

Module Configurations button to save the changes to the module.

The followings show the detailed description of each setting.

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WiFi Channel

This parameter is used to specify which channel is used for Wi-Fi
transmission. It can be 1 to 11. It is only available to the AP mode.

Static IP

Each SL device connected to the Wi-Fi network must have its own unique
IP address. This parameter is used to assign a specific IP address.

Subnet Mask

This parameter is used to assign the subnet mask for the SL device. The
subnet mask indicates which portion of the IP address is used to identify the
local network or subnet.

Gateway

This parameter is used to assign the IP address of the gateway to be used by
the SL device. A gateway (or router) is a device that is used to connect an
individual network to one or more additional networks.

In the AI form, you can read the sensor readings such as PM2.5, CO, CO2, humidity,
temperature and dew point temperature.

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In the Alarm form, you can change the alarm related settings. Click on the Set Alarm
Configurations button to save the changes to the module.

In the DO form, you can change the digital output status and the power on and safe
digital output settings.

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In the Data Logger form, you can change the data logger related settings. Click on the
Apply button to save the changes to the module.

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6. Monitoring via Mobile Devices

The iAir App can be used to monitor real-time data of PM2.5, CO/CO2 level, NH3, H2S,
HCHO, TVOC, temperature and humidity anywhere and anytime without any
complicated configuration. The CL-200 modules and your mobile devices such as smart
phones or tablets need be addressed on the same network, and then you can get the
real-time data from CL-200 loggers by entering a specific IP address, or by performing
an automatic search for available devices.

If a CL-200 can’t be searched in the iAir App, please contact with the network
administrator to make sure the module and your mobile devices are addressed on the
same sub-network. It means that they have the same broadcast address.

The iAir app is available to free download in Google Play and App Store. Search “iAir” in
or search “iAir”, “ICPDAS” in App Store and tap on install.

The iAir user manual can be obtained from

http://ftp.icpdas.com/pub/cd/iiot/cl-200/document/

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7. Utility to Get/Manage Data Log

DL-300 Utility is a convenient, easy-to-use management utility running on Windows
platform that allows users to monitor the real-time data and trend chart from CL-200
modules on the Ethernet, it can group the CL-200 modules for group view management,
log alarm events with timestamp, download the logged data from a CL-200 logger and
export the data to *.csv files for performing statistical analysis in Excel.

The DL-300 Utility can be obtained from:

http://ftp.icpdas.com/pub/cd/iiot/utility/

1. Run the DL-300_utility_setup_yyyymmdd.exe, the default install location is
C:\ICPDAS\DL300_Utility\DL-300 Utility

2. Open the DL-300 Utility by double
clicking on the DL-300 Utility shortcut
on desktop.

3. Search out a CL-200 module on the Ethernet and set the configuration.

3-1. Select the Device Settings on the Settings menu.

3-2. Click the Search New Device button to search the CL-200 modules connected

on the same Ethernet network.

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3-3. Check the checkbox next to a module and click the Add button to add the

1

2

3

4

module in the utility.

3-4. Highlight a module and click the Edit Device button to configure the module.

3-5. Set the configuration, and click on the OK button.

Note

Consult your network administrator before making changes to IP Address/ Mask
Address/ Gateway

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5

4. Get real-time data, trend chart and alarm event.

4-1. Click the List icon to obtain the real-time data. It also lists the connect status,

group information and IP address for every CL-200 logger.

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4-2. Click the Trend icon to display the trend chart. Users can select the radio button

for CO/CO2 level, Temperature or Humidity to access the trend chart for those
real-time data, check the checkbox next to each CL-200 logger to display its
trend chart or uncheck it to cancel display. Drag and drop the trend chart can
move it to see the data not be displayed in the chart.

4-3. Click the Alarm icon to review the alarm events.

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4-4. Modify the event condition.

1

2

Select the System Settings on the Settings menu.

Set the CO/CO2 Alert Value, CO/CO2 Alarm Value (If it is supported in the
logger), Temperature Alert Value and Temperature Alarm Value for trigger
events. Check the checkbox next to The Record Time Everyday can schedule
auto generate report everyday at the time set in the dropdown menu. Click on
the OK button to complete the settings.

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5. Download data in a CL-200 logger and export the data

2

3

1

5.1. Select Update Database on the Settings menu

5.2. Click the Start button to download the data in CL-200 modules.

5.3. Click the close icon to exit the download procedure when all data are
downloaded.

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5.4. Click the Query icon.

4

5

5.5. Highlight the desired module, set the Start Time and End Time, and then click
the Search button. The data in the time period will be listed as below.

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5.6. Click the Export button to export the searched data in *.csv files for performing

6

statistical analysis in Excel.

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6. Group the devices by location or users

2

1

3

6.1. Select Group Settings on the Settings menu.

6.2 Click the New button, enter the group name and click the OK button in the
pop-up box, and then click the OK button in the Group Settings box.

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6-3. Select Device Settings on the Settings menu; highlight the desired device

1 2 3

and click the Edit Device button, select the group name for the module and
click the OK button in the pop-up Device Property box to complete the setting.

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6-4. Monitor the group data by clicking the Group icon and then highlighting the

group name.

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8. FAQ

Q1: What is ABC (Automatic Baseline Correction)?

A1: ABC stands for the Automatic Baseline Correction which is used to adjust a shifted

baseline to the carbon dioxide level in fresh air. In case of normal indoor application,
the carbon dioxide level drops to nearly outside air where there are no human,
green plants or anything to elevate the carbon dioxide levels on weekday evenings
or weekends, the ABC algorithm constantly keeps track of the lowest reading and
slowly corrects it as the expected value in fresh air typically around 400 ppm.

Q2: Why I need to enable the ABC?

A2: When the CO2 concentration detected in a period time of unoccupied space is

greater than the base value of 400ppm, enable the ABC function to adjust the
baseline. Be careful that the ABC will not work if a space is constantly occupied
such as a hospital, 24-hr factory, 24-hr store, green house or other applications
where CO2 levels may be elevated at all times.

Q3: Does the CL-202/CL-212/CL-203/CL-213 enable the ABC as the factory default

setting?

A3: No, the ABC is default disabled in a CL-202/CL-212/CL-203/CL-213 logger to

prevent the baseline from being adjusted to an incorrect value in case of using in a
constantly occupied space.

Q4: What to do when the ABC is no work?

A4: When the ABC is no work regarding baseline correction, the

CL-202/CL-212/CL-203/CL-213 needs be returned to ICP DAS.

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Q5: How to set the Accessible IP?

A5: Enter the IP address for your logger in the address bar of a web browser and go to

the Accessible IP Settings page, select the radio button next to
Add ___.___.___.___ To The List and key in the IP for a device which is allowed to
access the CL-200, and then click the submit button.
Check the checkbox next to the Save to Flash before clicking the submit button to
save the IP setting and use after repowering. Once any of those in the list is set,
only the device for which the IP address is saved in the list can assess the CL-200.

Q6: How to delete the Accessible IP settings?

A6: Enter the IP address for your logger in the address bar of a web browser and go to

the Accessible IP Settings page, select the radio button next to Delete IP# to delete
a IP by the IP number or select the radio button next tot Delete All and then click the
submit button.

Check the checkbox next to the Save to Flash before clicking the submit button to

save the IP setting and use after repowering.

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Q7: How to clear the data logged in a CL-200 module?

A7: Enter the IP address for the module in the address bar of a web browser and go to

the I/O Settings page, click the Reset Data Logger button at the bottom of the page.

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Appendix A: DCON Command Sets

Command

Description

$AAF

read firmware version

$AAI

read INIT status
response:
!AA0 -> INIT short to GND
!AA1 -> else

$AAM

read module name

$AAP

Read Modbus RTU/DCON protocol
response:
!AA0 -> DCON
!AA1 -> Modbus RTU

$AAPN

Set Modbus RTU/DCON protocol
N-> 0: DCON, 1: Modbus RTU

$AA2

read configuration

$AA5

read reset status
!AA1 first after power on, !AA0 others

#AA

Read All Analog Inputs
response
> (CO in 1 ppm) (relative humidity in 0.01%)(temperature in

0.01°C)(temperature in 0.01°F) (dew point temperature in

0.01°C)(dew point temperature in 0.01°F)

#AAN

Read Channel Analog Input
N = 0 for CO in 1 ppm, 1 for relative humidity in 0.01%, 2 for
temperature in 0.01°C, 3 for temperature in 0.01°F, 4 for dew point
temperature in 0.01°C, 5 for dew point temperature in 0.01°F

%AANNTTCCFF

set configuration, NN: new address, TT = 00, CC: new baud rate
FF: data format

@AABA

Read beep on alarm time
response

!AAHH, HH in hex, 0: disabled, 1 ~ 250: beep on alarm
time in seconds, 251: beep on alarm continuously

A-1. CL-201-E DCON Command Sets

A-1. CL-201-E DCON Command Sets - 87 -

Command

Description

@AABAHH

Set beep on alarm time
HH in hex, 0: disabled, 1 ~ 250: beep on alarm time in seconds,
251: beep on alarm continuously

@AABE

Read enable/disable beep on alarm
response

!AAHH, HH in hex, bit 0 for channel 0, bit 1 for channel 1,
etc, for each bit, 0: disabled, 1: enabled

@AABEHH

Enable/disable beep on alarm
HH in hex, , bit 0 for channel 0, bit 1 for channel 1, etc, for each bit,
0: disabled, 1: enabled

@AACH

Clear all high latched analog inputs to the current values

@AACHN

Clear channel high latched analog input to the current value, N = 0
for CO, 1 for relative humidity, 2 for temperature in 0.01°C, 3 for
temperature in 0.01°F, 4 for dew point temperature in 0.01°C, 5 for
dew point temperature in 0.01°F

@AACHCN

Clear high latched alarm of a channel, N = 0 for CO, 1 for relative
humidity, 2 for temperature in 0.01°C, 3 for temperature in 0.01°F, 4
for dew point temperature in 0.01°C, 5 for dew point temperature in

0.01°F

@AACL

Clear all low latched analog inputs to the current values

@AACLN

Clear channel low latched analog input to the current value, N = 0
for CO, 1 for relative humidity, 2 for temperature in 0.01°C, 3 for
temperature in 0.01°F, 4 for dew point temperature in 0.01°C, 5 for
dew point temperature in 0.01°F

@AACLCN

Clear low latched alarm of a channel, N = 1 for relative humidity, 2
for temperature in 0.01°C, 3 for temperature in 0.01°F, 4 for dew
point temperature in 0.01°C, 5 for dew point temperature in 0.01°F

@AADACN

Disable AI alarm of a channel, N = 0 for CO2, 1 for relative humidity,
2 for temperature in 0.01°C, 3 for temperature in 0.01°F, 4 for dew
point temperature in 0.01°C, 5 for dew point temperature in 0.01°F

@AADI

read DO
response
!AA00O00

@AADLB

Read the beginning of the period setting of the data logger for
period logging mode
response
!AAyyyymmddhhmmss,

A-1. CL-201-E DCON Command Sets - 88 -

Command

Description

@AADLByyyymmd
dhhmmss

Set the beginning of the period setting of the data logger for period
logging mode
yyyy: year, 2000 to 2199, mm: month, 01 to 12, dd: date, 01 to 31,
hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second, 0 to 59

@AADLC

Read the data logger command
response
!AAh, 0: stop, 1: run, 2: run in period mode

@AADLCh

Set the data logger command, h->0: stop, 1: run, 2: run in period
mode

@AADLE

Read the ending of the period setting of the data logger for period
logging mode
response
!AAyyyymmddhhmmss

@AADLEyyyymmd
dhhmmss

Set the ending of the period setting of the data logger for period
logging mode
yyyy: year, 2000 to 2199, mm: month, 01 to 12, dd: date, 01 to 31,
hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second, 0 to 59

@AADLN

Read number of log records in the data logger
response
!AAhhhhhhhh, hhhhhhhh in hex format

@AADLO

Read the overwriting mode when data logger is full
response
!AAh, 0: stop logging when full, 1: overwrite

@AADLOh

Set the overwriting mode when data logger is full
h->0: stop logging when full, 1: overwrite

@AADLP

Read the samplig period setting of the data logger
response
!AAhhmmss, hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second,
0 to 59

@AADLPhhmmss

Set the samplig period setting of the data logger

@AADLS

Read logging status of the data logger
response
!AAhh, hh in hex format, 00: stopped, 01: running, others: error

@AADO0V

set DO, V-> 0: off, 1: on

A-1. CL-201-E DCON Command Sets - 89 -

Command

Description

@AAEATCN

Enable AI alarm of a channel, N = 0 for CO, 1 for relative humidity, 2
for temperature in 0.01°C, 3 for temperature in 0.01°F, 4 for dew
point temperature in 0.01°C, 5 for dew point temperature in 0.01°F
T->M: momentary alarm, L: latched alarm

@AAHI(data)CN

Set high alarm limit of an AI channel, N = 0 for CO in 1ppm, 1 for
relative humidity in 0.01%, 2 for temperature in 0.01°C, 3 for
temperature in 0.01°F, 4 for dew point temperature in 0.01°C, 5 for
dew point temperature in 0.01°F

@AAHO

Read humidity offset

@AAHO(data)

Set humidity offset, data in format of -100.00 ~ +100.00

@AALO(data)CN

Set low alarm limit of an AI channel, N = 1 for relative humidity in

0.01%, 2 for temperature in 0.01°C, 3 for temperature in 0.01°F, 4
for dew point temperature in 0.01°C, 5 for dew point temperature in

0.01°F

@AARACN

Read AI alarm enabled/disabled status of a channel
response
!AAN, N->0: disabled, 1: momentary, 2: latched

@AARAO

Read AI alarm status
response
!AAHHLL

@AARH

Read all high latched values of analog input channels

@AARHN

Read channel high latched value of analog input

@AARHCN

Read high alarm limit of an AI channel

@AARL

Read all low latched values of analog input channels

@AARLN

Read channel low latched value of analog input

@AARLCN

Read low alarm limit of an AI channel

@AART

Read RTC data
response
!AAYYYYMMDDHHMMSS

@AARTYYYYMM
DDHHMMSS

Set RTC data
@AATO

Read temperature offset in 0.01°C

@AATO(data)

Set temperature offset in 0.01°C, -100.00 ~ +100.00

~**

clear host watchdog timeout counter

~AA0

read host watchdog status

~AA1

clear host watchdog timeout status

~AA2

read host watchdog enable/disable status and timeout value

A-1. CL-201-E DCON Command Sets - 90 -

Command

Description

~AA3ETT

enable/disable host watchdog and set timeout value
E-> 0: disable host watchdog, 1: enable host watchdog
TT: host watchdog timeout in 0.1s in hex format

~AA4

read DO power on and safe value

~AA50P0S

set DO power on and safe value
P-> 0: power on value off, 1: power on value on
S-> 0: safe value off, 1: safe value on

~AARD

read response delay time in ms in hex format

~AARDVV

set response delay time in ms, VV in hex format, 00 - 1E

A-1. CL-201-E DCON Command Sets - 91 -

A-2. CL-202-E DCON Command Sets

Command

Description

$AAF

read firmware version

$AAI

read INIT status
response:
!AA0 -> INIT short to GND
!AA1 -> else

$AAM

read module name

$AAP

Read Modbus RTU/DCON protocol
response:
!AA0 -> DCON
!AA1 -> Modbus RTU

$AAPN

Set Modbus RTU/DCON protocol
N-> 0: DCON, 1: Modbus RTU

$AA2

read configuration

$AA5

read reset status
!AA1 first after power on, !AA0 others

#AA

Read All Analog Inputs
response
> (CO2 in 1 ppm) (relative humidity in 0.01%)(temperature in

0.01°C)(temperature in 0.01°F) (dew point temperature in

0.01°C)(dew point temperature in 0.01°F)

#AAN

Read Channel Analog Input
N = 0 for CO2 in 1 ppm, 1 for relative humidity in 0.01%, 2 for
temperature in 0.01°C, 3 for temperature in 0.01°F, 4 for dew point
temperature in 0.01°C, 5 for dew point temperature in 0.01°F

%AANNTTCCFF

set configuration, NN: new address, TT = 00, CC: new baud rate
FF: data format

@AAABC

Read status of the automatic baseline correction
response
!AAN, N=0: disabled, 1: enabled

@AAABCN

Set the automatic baseline correction
N->0: disabled, 1: enabled

@AABA

Read beep on alarm time
response

!AAHH, HH in hex, 0: disabled, 1 ~ 250: beep on alarm
time in seconds, 251: beep on alarm continuously

A-2. CL-202-E DCON Command Sets - 92 -

Command

Description

@AABAHH

Set beep on alarm time
HH in hex, 0: disabled, 1 ~ 250: beep on alarm time in seconds,
251: beep on alarm continuously

@AABE

Read enable/disable beep on alarm
response

!AAHH, HH in hex, bit 0 for channel 0, bit 1 for channel 1,
etc, for each bit, 0: disabled, 1: enabled

@AABEHH

Enable/disable beep on alarm
HH in hex, , bit 0 for channel 0, bit 1 for channel 1, etc, for each bit,
0: disabled, 1: enabled

@AACH

Clear all high latched analog inputs to the current values

@AACHN

Clear channel high latched analog input to the current value, N = 0
for CO2, 1 for relative humidity, 2 for temperature in 0.01°C, 3 for
temperature in 0.01°F, 4 for dew point temperature in 0.01°C, 5 for
dew point temperature in 0.01°F

@AACHCN

Clear high latched alarm of a channel, N = 0 for CO2, 1 for relative
humidity, 2 for temperature in 0.01°C, 3 for temperature in 0.01°F, 4
for dew point temperature in 0.01°C, 5 for dew point temperature in

0.01°F

@AACL

Clear all low latched analog inputs to the current values

@AACLN

Clear channel low latched analog input to the current value, N = 0
for CO2, 1 for relative humidity, 2 for temperature in 0.01°C, 3 for
temperature in 0.01°F, 4 for dew point temperature in 0.01°C, 5 for
dew point temperature in 0.01°F

@AACLCN

Clear low latched alarm of a channel, N = 1 for relative humidity, 2
for temperature in 0.01°C, 3 for temperature in 0.01°F, 4 for dew
point temperature in 0.01°C, 5 for dew point temperature in 0.01°F

@AADACN

Disable AI alarm of a channel, N = 0 for CO2, 1 for relative humidity,
2 for temperature in 0.01°C, 3 for temperature in 0.01°F, 4 for dew
point temperature in 0.01°C, 5 for dew point temperature in 0.01°F

@AADI

read DO
response
!AA00O00

@AADLB

Read the beginning of the period setting of the data logger for
period logging mode
response
!AAyyyymmddhhmmss,

A-2. CL-202-E DCON Command Sets - 93 -

Command

Description

@AADLByyyymmd
dhhmmss

Set the beginning of the period setting of the data logger for period
logging mode
yyyy: year, 2000 to 2199, mm: month, 01 to 12, dd: date, 01 to 31,
hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second, 0 to 59

@AADLC

Read the data logger command
response
!AAh, 0: stop, 1: run, 2: run in period mode

@AADLCh

Set the data logger command, h->0: stop, 1: run, 2: run in period
mode

@AADLE

Read the ending of the period setting of the data logger for period
logging mode
response
!AAyyyymmddhhmmss

@AADLEyyyymmd
dhhmmss

Set the ending of the period setting of the data logger for period
logging mode
yyyy: year, 2000 to 2199, mm: month, 01 to 12, dd: date, 01 to 31,
hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second, 0 to 59

@AADLN

Read number of log records in the data logger
response
!AAhhhhhhhh, hhhhhhhh in hex format

@AADLO

Read the overwriting mode when data logger is full
response
!AAh, 0: stop logging when full, 1: overwrite

@AADLOh

Set the overwriting mode when data logger is full
h->0: stop logging when full, 1: overwrite

@AADLP

Read the samplig period setting of the data logger
response
!AAhhmmss, hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second,
0 to 59

@AADLPhhmmss

Set the samplig period setting of the data logger

@AADLS

Read logging status of the data logger
response
!AAhh, hh in hex format, 00: stopped, 01: running, others: error

@AADO0V

set DO, V-> 0: off, 1: on

A-2. CL-202-E DCON Command Sets - 94 -

Command

Description

@AAEATCN

Enable AI alarm of a channel, N = 0 for CO2, 1 for relative humidity,
2 for temperature in 0.01°C, 3 for temperature in 0.01°F, 4 for dew
point temperature in 0.01°C, 5 for dew point temperature in 0.01°F
T->M: momentary alarm, L: latched alarm

@AAHI(data)CN

Set high alarm limit of an AI channel, N = 0 for CO2 in 1ppm, 1 for
relative humidity in 0.01%, 2 for temperature in 0.01°C, 3 for
temperature in 0.01°F, 4 for dew point temperature in 0.01°C, 5 for
dew point temperature in 0.01°F

@AAHO

Read humidity offset

@AAHO(data)

Set humidity offset, data in format of -100.00 ~ +100.00

@AALO(data)CN

Set low alarm limit of an AI channel, N = 1 for relative humidity in

0.01%, 2 for temperature in 0.01°C, 3 for temperature in 0.01°F, 4
for dew point temperature in 0.01°C, 5 for dew point temperature in

0.01°F

@AARACN

Read AI alarm enabled/disabled status of a channel
response
!AAN, N->0: disabled, 1: momentary, 2: latched

@AARAO

Read AI alarm status
response
!AAHHLL

@AARH

Read all high latched values of analog input channels

@AARHN

Read channel high latched value of analog input

@AARHCN

Read high alarm limit of an AI channel

@AARL

Read all low latched values of analog input channels

@AARLN

Read channel low latched value of analog input

@AARLCN

Read low alarm limit of an AI channel

@AART

Read RTC data
response
!AAYYYYMMDDHHMMSS

@AARTYYYYMM
DDHHMMSS

Set RTC data
@AATO

Read temperature offset in 0.01°C

@AATO(data)

Set temperature offset in 0.01°C, -100.00 ~ +100.00

~**

clear host watchdog timeout counter

~AA0

read host watchdog status

~AA1

clear host watchdog timeout status

~AA2

read host watchdog enable/disable status and timeout value

A-2. CL-202-E DCON Command Sets - 95 -

Command

Description

~AA3ETT

enable/disable host watchdog and set timeout value
E-> 0: disable host watchdog, 1: enable host watchdog
TT: host watchdog timeout in 0.1s in hex format

~AA4

read DO power on and safe value

~AA50P0S

set DO power on and safe value
P-> 0: power on value off, 1: power on value on
S-> 0: safe value off, 1: safe value on

~AARD

read response delay time in ms in hex format

~AARDVV

set response delay time in ms, VV in hex format, 00 - 1E

A-2. CL-202-E DCON Command Sets - 96 -

A-3. CL-203-E DCON Command Sets

Command

Description

$AAF

read firmware version

$AAI

read INIT status
response:
!AA0 -> INIT short to GND
!AA1 -> else

$AAM

read module name

$AAP

Read Modbus RTU/DCON protocol
response:
!AA0 -> DCON
!AA1 -> Modbus RTU

$AAPN

Set Modbus RTU/DCON protocol
N-> 0: DCON, 1: Modbus RTU

$AA2

read configuration

$AA5

read reset status
!AA1 first after power on, !AA0 others

#AA

Read All Analog Inputs
response
>(CO in 1 ppm) (CO2 in 1 ppm) (relative humidity in

0.01%)(temperature in 0.01°C)(temperature in 0.01°F) (dew
point temperature in 0.01°C)(dew point temperature in

0.01°F)

#AAN

Read Channel Analog Input
N = 0 for CO in 1 ppm, 1 for CO2 in 1 ppm, 2 for relative humidity in

0.01%, 3 for temperature in 0.01°C, 4 for temperature in 0.01°F, 5
for dew point temperature in 0.01°C, 6 for dew point temperature in

0.01°F

%AANNTTCCFF

set configuration, NN: new address, TT = 00, CC: new baud rate
FF: data format

@AAABC

Read status of the automatic baseline correction
response
!AAN, N=0: disabled, 1: enabled

@AAABCN

Set the automatic baseline correction
N->0: disabled, 1: enabled

A-3. CL-203-E DCON Command Sets - 97 -

Command

Description

@AABA

Read beep on alarm time
response

!AAHH, HH in hex, 0: disabled, 1 ~ 250: beep on alarm
time in seconds, 251: beep on alarm continuously

@AABAHH

Set beep on alarm time
HH in hex, 0: disabled, 1 ~ 250: beep on alarm time in seconds,
251: beep on alarm continuously

@AABE

Read enable/disable beep on alarm
response

!AAHH, HH in hex, bit 0 for channel 0, bit 1 for channel 1,
etc, for each bit, 0: disabled, 1: enabled

@AABEHH

Enable/disable beep on alarm
HH in hex, , bit 0 for channel 0, bit 1 for channel 1, etc, for each bit,
0: disabled, 1: enabled

@AACH

Clear all high latched analog inputs to the current values

@AACHN

Clear channel high latched analog input to the current value, N = 0
for CO, 1 for CO2, 2 for relative humidity, 3 for temperature in

0.01°C, 4 for temperature in 0.01°F, 5 for dew point temperature in

0.01°C, 6 for dew point temperature in 0.01°F

@AACHCN

Clear high latched alarm of a channel, N = 0 for CO, 1 for CO2, 2 for
relative humidity, 3 for temperature in 0.01°C, 4 for temperature in

0.01°F, 5 for dew point temperature in 0.01°C, 6 for dew point
temperature in 0.01°F

@AACL

Clear all low latched analog inputs to the current values

@AACLN

Clear channel low latched analog input to the current value, N = 0
for CO, 1 for CO2, 2 for relative humidity, 3 for temperature in

0.01°C, 4 for temperature in 0.01°F, 5 for dew point temperature in

0.01°C, 6 for dew point temperature in 0.01°F

@AACLCN

Clear low latched alarm of a channel, N = 2 for relative humidity, 3
for temperature in 0.01°C, 4 for temperature in 0.01°F, 5 for dew
point temperature in 0.01°C, 6 for dew point temperature in 0.01°F

@AADACN

Disable AI alarm of a channel, N = 0 for CO, 1 for CO2, 2 for relative
humidity, 3 for temperature in 0.01°C, 4 for temperature in 0.01°F, 5
for dew point temperature in 0.01°C, 6 for dew point temperature in

0.01°F

A-3. CL-203-E DCON Command Sets - 98 -

Command

Description

@AADI

read DO
response
!AA00O00

@AADLB

Read the beginning of the period setting of the data logger for
period logging mode
response
!AAyyyymmddhhmmss,

@AADLByyyymmd
dhhmmss

Set the beginning of the period setting of the data logger for period
logging mode
yyyy: year, 2000 to 2199, mm: month, 01 to 12, dd: date, 01 to 31,
hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second, 0 to 59

@AADLC

Read the data logger command
response
!AAh, 0: stop, 1: run, 2: run in period mode

@AADLCh

Set the data logger command, h->0: stop, 1: run, 2: run in period
mode

@AADLE

Read the ending of the period setting of the data logger for period
logging mode
response
!AAyyyymmddhhmmss

@AADLEyyyymmd
dhhmmss

Set the ending of the period setting of the data logger for period
logging mode
yyyy: year, 2000 to 2199, mm: month, 01 to 12, dd: date, 01 to 31,
hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second, 0 to 59

@AADLN

Read number of log records in the data logger
response
!AAhhhhhhhh, hhhhhhhh in hex format

@AADLO

Read the overwriting mode when data logger is full
response
!AAh, 0: stop logging when full, 1: overwrite

@AADLOh

Set the overwriting mode when data logger is full
h->0: stop logging when full, 1: overwrite

@AADLP

Read the samplig period setting of the data logger
response
!AAhhmmss, hh: hour, 0 to 24, mm: minute, 0 to 59, ss: second,
0 to 59

A-3. CL-203-E DCON Command Sets - 99 -

Command

Description

@AADLPhhmmss

Set the samplig period setting of the data logger

@AADLS

Read logging status of the data logger
response
!AAhh, hh in hex format, 00: stopped, 01: running, others: error

@AADO0V

set DO, V-> 0: off, 1: on

@AAEATCN

Enable AI alarm of a channel, N = 0 for CO, 1 for CO2, 2 for relative
humidity, 3 for temperature in 0.01°C, 4 for temperature in 0.01°F, 5
for dew point temperature in 0.01°C, 6 for dew point temperature in

0.01°F
T->M: momentary alarm, L: latched alarm

@AAHI(data)CN

Set high alarm limit of an AI channel, N = 0 for CO in 1ppm, 1 for
CO2 in 1ppm, 2 for relative humidity in 0.01%, 3 for temperature in

0.01°C, 4 for temperature in 0.01°F, 5 for dew point temperature in

0.01°C, 6 for dew point temperature in 0.01°F

@AAHO

Read humidity offset

@AAHO(data)

Set humidity offset, data in format of -100.00 ~ +100.00

@AALO(data)CN

Set low alarm limit of an AI channel, N = 2 for relative humidity in

0.01%, 3 for temperature in 0.01°C, 4 for temperature in 0.01°F, 5
for dew point temperature in 0.01°C, 6 for dew point temperature in

0.01°F

@AARACN

Read AI alarm enabled/disabled status of a channel
response
!AAN, N->0: disabled, 1: momentary, 2: latched

@AARAO

Read AI alarm status
response
!AAHHLL

@AARH

Read all high latched values of analog input channels

@AARHN

Read channel high latched value of analog input

@AARHCN

Read high alarm limit of an AI channel

@AARL

Read all low latched values of analog input channels

@AARLN

Read channel low latched value of analog input

@AARLCN

Read low alarm limit of an AI channel

@AART

Read RTC data
response
!AAYYYYMMDDHHMMSS

@AARTYYYYMM
DDHHMMSS

Set RTC data

A-3. CL-203-E DCON Command Sets - 100 -