Adam ADAM-3600-C2G User manual
User Manual
ADAM-3600-C2G
iRTU User’s Manual
ADAM-3600 Series User Manual ii
Copyright
The documentation and the software included with this product are copyrighted 2015
by Advantech Co., Ltd. All rights are reserved. Advantech Co., Ltd. reserves the right
to make improvements in the products described in this manual at any time without
notice. No part of this manual may be reproduced, copied, translated or transmitted
in any form or by any means without the prior written permission of Advantech Co.,
Ltd. Information provided in this manual is intended to be accurate and reliable. How-
ever, Advantech Co., Ltd. assumes no responsibility for its use, nor for any infringe-
ments of the rights of third parties, which may result from its use.
Acknowledgements
ADAM is a trademark of Advantech Co., Ltd.
IBM and PC are trademarks of International Business Machines Corporation.
All other product names or trademarks are properties of their respective owners.
Product Warranty (2 years)
Advantech warrants to you, the original purchaser, that each of its products will be
free from defects in materials and workmanship for two years from the date of pur-
chase.
This warranty does not apply to any products which have been repaired or altered by
persons other than repair personnel authorized by Advantech, or which have been
subject to misuse, abuse, accident or improper installation. Advantech assumes no
liability under the terms of this warranty as a consequence of such events.
Because of Advantech’s high quality-control standards and rigorous testing, most of
our customers never need to use our repair service. If an Advantech product is defec-
tive, it will be repaired or replaced at no charge during the warranty period. For out-
of-warranty repairs, you will be billed according to the cost of replacement materials,
service time and freight. Please consult your dealer for more details.
If you think you have a defective product, follow these steps:
1. Collect all the information about the problem encountered. (For example, CPU
speed, Advantech products used, other hardware and software used, etc.) Note
anything abnormal and list any onscreen messages you get when the problem
occurs.
2. Call your dealer and describe the problem. Please have your manual, product,
and any helpful information readily available.
3. If your product is diagnosed as defective, obtain an RMA (return merchandize
authorization) number from your dealer. This allows us to process your return
more quickly.
4. Carefully pack the defective product, a fully-completed Repair and Replacement
Order Card and a photocopy proof of purchase date (such as your sales receipt)
in a shippable container. A product returned without proof of the purchase date
is not eligible for warranty service.
5. Write the RMA number visibly on the outside of the package and ship it prepaid
to your dealer.
Part No. XXXXXXXXXX Edition 1
Printed in Taiwan December 2015
iii ADAM-3600 Series User Manual
Declaration of Conformity
CE
The ADAM-4000 series developed by Advantech Co., Ltd. has passed the CE test for
environmental specifications when operated within an industrial enclosure (ADAM-
4950-ENC). Therefore, in order to protect the ADAM modules from being damaged
by ESD (Electric Static Discharge), we strongly recommend that the use of CE-com-
pliant industrial enclosure products when using any ADAM module.
Technical Support and Assistance
1. Visit the Advantech web site at www.advantech.com/support where you can find
the latest information about the product.
2. Contact your distributor, sales representative, or Advantech's customer service
center for technical support if you need additional assistance. Please have the
following information ready before you call:
–Product name and serial number
–Description of your peripheral attachments
–Description of your software (operating system, version, application software,
etc.)
–A complete description of the problem
–The exact wording of any error messages
ADAM-3600 Series User Manual iv
v ADAM-3600 Series User Manual
Contents
Chapter 1 Introduction..........................................1
1.1 Product Concept &Target Market.............................................................. 2
Figure 1.1 iRTU Application Architecture..................................... 2
Chapter 2 Specifications ......................................3
2.1 Product Key Features ............................................................................... 4
2.2 ADAM-3600-C2G Specification................................................................. 5
2.2.1 ADAM-3600-C2G Specification of Main Unit ................................ 5
2.2.2 Expansion Module Specifications ................................................. 7
2.3 LED Indicators........................................................................................... 8
Figure 2.1 LED Indicator.............................................................. 8
2.3.1 System LED .................................................................................. 9
2.3.2 Digital Input/Output Indicator LED ................................................ 9
2.3.3 Serial Communication LED........................................................... 9
2.3.4 Ethernet LED ................................................................................ 9
2.4 iRTU Dimensions .................................................................................... 10
Figure 2.2 ADAM-3600 Dimensions .......................................... 10
Chapter 3 Wiring and Installation ......................11
3.1 Wiring ...................................................................................................... 12
3.1.1 Power Supply Wiring................................................................... 12
Figure 3.1 Power Supply Wiring ................................................ 12
3.1.2 3-1-2........................................................... Input / Output Wiring12
Figure 3.2 Analog Input Wiring .................................................. 12
Figure 3.3 Digital Input Wiring ................................................... 13
Figure 3.4 Digital Output Wiring................................................. 13
3.1.3 Serial Port Wiring ........................................................................ 13
Figure 3.5 Serial Port Wiring...................................................... 13
3.2 Installation ............................................................................................... 14
3.2.1 Wall-mounted and DIN-Rail Installation ...................................... 14
Figure 3.6 Wall-mounted Installation ......................................... 14
Figure 3.7 DIN-Rail Installation.................................................. 14
3.2.2 Wireless Module Installation ....................................................... 15
Figure 3.8 Wireless Module Installation..................................... 15
3.2.3 Expansion Input/Output Module Installation ............................... 15
Figure 3.9 Expansion Input/Output Module Installation ............. 15
Figure 3.10Expansion Input/Output Module Installation ............. 15
3.2.4 Writeable Label ........................................................................... 16
Figure 3.11Writeable Label......................................................... 16
3.2.5 SD Card Installation .................................................................... 16
Figure 3.12Card Installation........................................................ 16
3.2.6 SIM Card Installation................................................................... 17
Figure 3.13SIM Card Installation ................................................ 17
3.3 Jumper/Switch Settings........................................................................... 18
3.3.1 DIP Switch Settings .................................................................... 18
Figure 3.14DIP Switch Setting.................................................... 18
3.3.2 Jumper Settings .......................................................................... 19
Figure 3.15Jumper Settings........................................................ 19
ADAM-3600 Series User Manual vi
Chapter 4 Advantech iRTU Studio .................... 21
4.1 iRTU Studio Introduction......................................................................... 22
4.2 Using iRTU Studio for Configuration and Management.......................... 22
4.2.1 Project Initialization..................................................................... 22
Figure 4.1 Creating a new project ............................................. 22
Figure 4.2 Adding Devices and Editing ..................................... 23
Figure 4.3 Copying Devices ...................................................... 23
Figure 4.4 Deleting Devices ...................................................... 24
4.2.2 Configuring the Data Center and Link Tag with I/O .................... 24
Figure 4.5 Configuring Onboard I/O Analog ............................. 25
Figure 4.6 DI interfaces counter function configuration ............ 25
Figure 4.7 DO interface PWM function configuration ............... 26
Figure 4.8 Adding COM port...................................................... 27
Figure 4.9 Adding a COM meter................................................ 27
Figure 4.10Editing TCP Information ........................................... 28
Figure 4.11Adding and Deleting a TCP Meter............................ 28
Figure 4.12Configuring a TCP Meters I/O .................................. 29
Figure 4.13Adding and Editing TCP Ports.................................. 29
Figure 4.14Adding a New ZigBee Port ....................................... 30
Figure 4.15Adding a ZigBee Meter............................................. 31
Figure 4.16ZigBee Meter I/O Configuration................................ 31
Figure 4.17Adding the acquisition tag ........................................ 32
Figure 4.18 Adding the computation tag..................................... 32
Figure 4.19User Tag Configuration ............................................ 33
4.2.3 Data Logger Configuration.......................................................... 34
Figure 4.20Historical recording data configuration ..................... 34
4.2.4 Protocol Service Configuration ................................................... 34
Figure 4.21Adding I/O Tags to the Modbus Address List........... 35
Figure 4.22Adding I/O Tag Information ...................................... 35
Figure 4.23WebAccess whereIAM ............................................. 36
4.2.5 Connectivity Configuration.......................................................... 36
Figure 4.24Relationship among connection period, connection du-
ration and idle time ................................................... 37
Figure 4.25DTU-Four faith PROT protocol in active connection 37
Figure 4.26Webaccess WhereIAm Protocol in active connection ..
38
4.2.6 System Settings.......................................................................... 38
Figure 4.27On-board I/O Settings .............................................. 39
Figure 4.28Expansion I/O Settings............................................. 39
Figure 4.29Wired Network Settings............................................ 40
Figure 4.30Wireless Network Settings ....................................... 40
Figure 4.31GPRS Settings ......................................................... 41
Figure 4.32GPRS Script Setting................................................. 41
Figure 4.33LED configuration..................................................... 41
4.3 Project Deployment................................................................................. 42
4.3.1 Device Identification.................................................................... 43
Figure 4.34Identification for Connected RTU Devices ............... 43
4.3.2 Project Download........................................................................ 43
Figure 4.35Project Download ..................................................... 43
4.3.3 Password Settings ...................................................................... 44
Figure 4.36Password Information............................................... 44
Figure 4.37Password Settings.................................................... 44
Appendix A ADAM-3600 Naming Rules ............... 45
A.1 ADAM-3600 Naming Rules..................................................................... 46
Figure A.1 ADAM-3600 Naming Rules ...................................... 46
vii ADAM-3600 Series User Manual
Appendix B Interface Definition ............................47
B.1 Interface Definitions ................................................................................ 48
B.1.1 Communication Ports.................................................................. 48
B.1.2 I/O Interface Definition ................................................................ 50
ADAM-3600 Series User Manual viii
Chapter 1
1Introduction
ADAM-3600 Series User Manual 2
1.1 Product Concept &Target Market
The ADAM-3600-C2G is an Intelligent Remote Terminal Unit / iRTU, mainly for the oil
& gas and water industries. Intelligent network nodes in loT can control the down-
stream field devices to complete delivery tasks, transfer data to upstream devices
wired or wirelessly. It is a key to connecting devices to the Internet of things architec-
ture.
In the remote and wide ranging oil, gas and water application site maintenance and
updating equipment is extremely costly. Intelligent RTU can perform remote monitor-
ing, operation, maintenance and updates via the Internet. iRTU can perform up-date,
complete delivery tasks at the site, and update data to the cloud. iRTU can also com-
municate with each other, quickly handle I/O correlation on emergencies to reduce
the loss
The ADAM-3600 has a high performance and low power processor, adopts 20 local I/
O points and wired and wireless communication modes, users can collect, process
and distribute the local information. It has a built-in real-time operating system and a
real-time database, providing customers with an open interface and supports diverse
programming languages.
Figure 1.1 iRTU Application Architecture
Chapter 2
2Specifications
ADAM-3600 Series User Manual 4
2.1 Product Key Features
Wireless communication for high-efficient transmission
An RTU is usually applied to a wide range of monitoring, such as oil field or oil pipe-
lines. In wide area environments, wired communication often has cost and mainte-
nance problems. The ADAM-3600-C2G series two built-in Mini-PCle cards slots and
can support two types of different wireless communication interfaces. The supported
wireless communication functions include: GPRS, 3G, Wi-Fi and Zigbee, users have
many choices in the application of wireless communication, and are not restricted by
field conditions.
High performance low-power CPU/RAM
The ADAM-3600-C2G comes with a 32-bit Cortex A8 600MHz CPU and DDR3 mem-
ory chips, which greatly improves the processing speed and efficiency. Based on
these advantages and its unique low-power design, customers could take their time
to tackle complex logic programs.
Wide range of operating temperature with durability in harsh environment and
reducing maintenance costs
It can be used for outdoor control cabinets and therefore must be able to withstand
the heat of summer and the cold of winter. The ADAM-3600 supports an operating
temperature range of - 40oC ~ 70oC. The selected components are industrial grade,
and have been tested with the strictest environmental control, to ensure that the
products have a long life and, stable working in harsh environments.
Convenient remote project configuration software iRTU Studio
Provides project configuration software with remote operation. Users can configure
all the devices in an offline and group mode, and can automatically conduct remote
downloading based on its own code. Users can use this software for remote monitor-
ing, updating the programmable logic and firmware, to save the cost of manpower
and materials.
Supports open communication protocols
In addition to the standard Modbus communication protocol, it also supports the
object DNP3 protocol. DNP3 is an international standard for RTU applications, and
can also realize data identification, breakpoint transmission, initiative report and other
functions under this protocol user can quickly integrate most of the SCADA system.
Multiple programming interfaces
Adopts an open real-time Linux system architecture, and run the real-time database.
Transmission gives priority to the customizable tag. Data with a simple configuration
can be converted instantly within the different communication protocols. And pro-
vides the IEC - 61131-3 standard & C/C + + library for the customer to develop pro-
grams. This lets users develop programmable logic control in the most convenient
way.
5 ADAM-3600 Series User Manual
Chapter 2 Specifications
NodeID as identification facilitate remote batch configuration
ADAM-3600 has a six bit DIP-switch on board which can be identification for 64
devices on the field. Through an ordinary cable, it could download configuration doc-
uments into RTU devices (with a maximum of 64), and customers could find out the
sources of faults through ID codes when variations encountered in the performance
of RTU.
Intelligent communication condition monitoring software iCDManager
Communication is the key function of RTU applications. RTU hardware can monitor
the health status of the hardware communication. Users can use the intelligent algo-
rithm to identify the health status of communications lines, remotely monitor the com-
munication quality through the network in group mode, conduct the maintenance in
advance, so as to avoid emergency repair caused by temporary failure.
2.2 ADAM-3600-C2G Specification
2.2.1 ADAM-3600-C2G Specification of Main Unit
2.2.1.1 System Specifications
CPU A8 AM3352BZCZD60
RAM DDR3 256MB
Battery Backup RAM 32KB
Power Requirement 9-36VDC
Digital Input/ Pulse In 8-ch
Digital Output/ Pulse Output 4-ch
Analogue Input 8-ch
Extension I/O Slot 4-Slot
Serial Port 2 x RS-485
1 x RS-232/485(DB9)
Wireless Interface 2 x Mini-PCIe
(1x Half-Size/ 1 x Full-Size)
Zigbee Serial Signal
GPRS/3G/
Wi-Fi
USB Signal
USB 1 x USB2.0
Ethernet 2 x RJ-45
Display 1 x VGA
LEDs DI/DO/System/Serial Port/LAN
SD Card Standard SD (For Data Storage)
Micro SD(1GB For OS Storage)
Operating Temperature -40~70°C
Storage Temperature -40~85°C
ADAM-3600 Series User Manual 6
2.2.1.2 Input / Output Specification
2.2.1.3 Environmental Specifications
Operating Temperature: -40~70°C
Storage Temperature: -40~85°C
Operating Humidity: 20~95% (non-condensing)
Storage Humidity: 0 ~ 95% (non-condensing)
Analog Input
Channel 8, differential
Input Type Voltage, Current
Voltage/Current Range ±10V, ±2.5V, 0~20mA, 4~20 mA
Resolution 16-bit
Sampling rate 10 samples/second (total)
Input Impedance 10M
Accuracy ±0.1% or better (Full Scale)
CMR @ 50/60 Hz 120 dB
NMR @ 50/60 Hz 100 dB
Span Drift ± 25 ppm/OC
Zero Drift ± 3 μV/OC, ± 3 μA/OC
Isolation Voltage 2,000VDC
Burn-out detection Yes (Current-only)
Digital Input/Pulse Input
Channel 8
Input Type Sink (Wet Contact)/ Counter
Wet Contact Input Logic0: 0 ~ 5 VDC
Logic 1: 11~30VDC
Rated Voltage 12/24VDC
Rated Input Current >5mA@12VDC
>10mA@24VDC
Input Filter Programmable, Default: 3ms
Pulse Input Frequency 150HZ
Over Voltage Protection +40VDC
Isolation Voltage 2000VDC
Digital Output/Pulse Output
Channel 4
Output Type Open Collector (Sink)
OC Output Rated Voltage 8~30 VDC
Rated Current 200mA(max.load)
Over Voltage Protection +40VDC
Pulse Output Frequency 1KHz
Isolation Voltage 2000VDC
7 ADAM-3600 Series User Manual
Chapter 2 Specifications
2.2.2 Expansion Module Specifications
ADAM-3600-C2G support four slots expansion can support different type I/O mod-
ules in one integrated unit.
2.2.2.1 ADAM-3617 (4-ch AI)
2.2.2.2 ADAM-3618 (3-ch Thermocouple )
2.2.2.3 ADAM-3622 (2-ch AO )
Channel 4, differential
Input Type Voltage, Current
Voltage/Current Range ±10V, ±2.5V, 0~20mA, 4~20 mA
Resolution 16-bit
Sampling rate 10 samples/second (total)
Input Impedance 10M
Accuracy ±0.1% or better (Full Scale)
CMR @ 50/60 Hz 120 dB
NMR @ 50/60 Hz 100 dB
Span Drift ± 25 ppm/OC
Zero Drift ± 3 μV/OC, ± 3 μA/OC
Isolation Voltage 2000VDC
Burn-out detection Yes (Current-only)
Channel 3 , differential
Input Type J,K,T,E,R,S,B Type Thermocouple
Resolution 16-bit
Sampling rate 10 samples/second (total)
Input Impedance 2M
Accuracy ±0.1% or better (Full Scale)
CMR @ 50/60 Hz 90dBs
NMR @ 50/60 Hz 60dBs
Span Drift ± 25 ppm/OC
Zero Drift ± 3 μV/OC
Isolation Voltage 2000 VDC
Burn-out detection Yes (Current-only)
Channel 2
Output Type Voltage, Current
Output Range 0 ~ 10 VDC, 0~20 mA, 4~20 mA
Resolution 12-bit
Accuary ±0.1% or better (Full Scale)
Current Load Resistor 0 ~ 500
Span Drift ± 25 ppm/OC
Zero Drift ± 3 μV/OC
Isolation Voltage 2000 VDC
Burn-out detection Yes (Current-only)
ADAM-3600 Series User Manual 8
2.2.2.4 ADAM-3651 (8-ch DI/ PI )
2.2.2.5 ADAM-3656 (8-ch DO/ PO )
2.2.2.6 ADAM-3664 (4-ch RO)
2.3 LED Indicators
Figure 2.1 LED Indicator
Channel 8
Input Type Sink (Wet Contact)/ Counter
Wet Contact Input Logic0: 0 ~ 5 VDC
Logic 1: 11~30VDC
Rated Voltage 12/24 VDC
Rated Input Current >5mA@12VDC
>10mA@24VDC
Input Filter Programmable, Default: 3ms
Pulse Input Frequency 150HZ
Over Voltage Protection +40 VDC
Channel 8
Output Type Open Collector (Sink)
OC Output Rated Voltage 8~30 VDC
Rated Current 200 mA(max.load)
Over Voltage Protection +40 VDC
Pulse Output Frequency 1KHz
Isolation Voltage 2000 VDC
Channel 4
Output Type Open Collector (Sink)
OC Output Rated Voltage 8~30 VDC
Rated Current 200mA(max.load)
Over Voltage Protection +40 VDC
Pulse Output Frequency 1KHz
Isolation Voltage 2000 VDC
9 ADAM-3600 Series User Manual
Chapter 2 Specifications
2.3.1 System LED
2.3.2 Digital Input/Output Indicator LED
2.3.3 Serial Communication LED
2.3.4 Ethernet LED
LED Color Function Description
PWR Green Device powered indicator. Extended function is described in 4-2-6-4.
RUN Green Control logic running indicator. Extended function is described in 4-2-6-4.
ERR Red Control logic error indicator. Extended function is described in 4-2-6-4.
BAT Red Light on, battery lower than 5V
PROG Green Control by user’s program
LED Color Function Description
DI0 Green Light on, the channel is activated by input
signal
DI1 Green
DI2 Green
DI3 Green
DI4 Green
DI5 Green
DI6 Green
DI7 Green
DO0 Green Light on, the channel output is activated
DO1 Green
DO2 Green
DO3 Green
LED Color Function Description
TX1 Orange Blinking, COM1 is sending data
RX1 Green Blinking, COM1 is receiving data
TX2 Orange Blinking, COM2 is sending data
RX2 Green Blinking, COM2 is receiving data
TX3 Orange Blinking, COM3 is sending data
RX3 Green Blinking, COM3 is receiving data
LED Color Function Description
Link1 Orange Light on, LAN1 is connected with Ethernet
Act1 Green Blinking, LAN1 is sending data to Ethernet
Link2 Orange Light on, LAN2 is connected with Ethernet
Act2 Green Blinking, LAN2 is sending data to Ethernet
ADAM-3600 Series User Manual 10
2.4 iRTU Dimensions
Figure 2.2 ADAM-3600 Dimensions
Chapter 3
3Wiring and Installation
ADAM-3600 Series User Manual 12
3.1 Wiring
3.1.1 Power Supply Wiring
ADAM-3600-C2G supports mains input ranging from 10 VDC to 30 VDC. Users can
choose standard 12 VDC or 24 VDCC power supply.
Figure 3.1 Power Supply Wiring
3.1.2 3-1-2Input / Output Wiring
3.1.2.1 Analog Input Wiring
ADAM-3600-C2G equips with 8 channels AI with differential wiring type, wire as
shown below:
Figure 3.2 Analog Input Wiring
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