DeviceGateway Data Access Unit for IoT
Equipped with Communications Functions for 150 Types of Devices
Compatible with Industry 4.0
Compatible with Many Cloud Services
Easy Setup with a Web Browser A
TAKEBISHI CORPORATION
Co
nn
ec
tin
g to
th
e F
utu
re
th
ro
ug
ho
ut th
e A
ge
s
1
Et her ne t , Ser i a l c
omm uni c a t i ons
Industry 4.0
Made in China 2025
Society 5.0
IoT
Industry 4.0
Sensor
OPC
OPC technologies to support production sites. DeviceGateway, an IoT
data access unit, derives the maximum benefit from these technolo-
gies. We provide solutions that solve the problems of future society.
2
Ana l og s i gna l s
Ser ia l com m uni ca t i ons
Di g i t a l s i gna ls
Optimal IoT Solutions for Evolving
Equipment and Changing Production Sites.
(W i r e l ess comm un ica t i ons , e tc . )
Industrial Internet
B AC ne t / EC HO NE T L i t e
Bl ue too th comm uni ca t i ons
Surveillance Health management Security Energy monitoring
Big data Supply chain Preventative maintenance Artificial intelligence
Production planning Production orders Quality management Production history
Equipment monitoring Data acquisition Remote maintenance SCADA
Bluetooth/NFC* Digital signals Analog signals
Serial
Life IoT MES FA
Directly Link Production Equipment and IT Systems
Access sensor information and improve production efficiency!
Upper layer systems
Cloud
Production sites
Ethernet
Directly link production equipment and IoT services! Create new value
IoT Compatibility
P C - f r e e
Built- in OPC UA/MQTT
Instal led in production sites (inside panels)
Sensing lifestyles! Providing safety and peace of mind using IoT
Management of vitals
Position measurements using BLE
Caregiving
Hospitals
3
PLC NC Robots Machine tools
Industrial machines
Infusion pumps Body composition analyzers
Blood pressure monitors Scales
Health care
PLCs Wiring systems Remote I/O Telemeters
Control devices
Photoelectric sensors Proximity sensors Displacement sensors Vision sensors
Sensors
MQTT High-speed transfers of large amounts of data
OPC UA IEC 62541-compliant SQL
HTTP(S) HULFT IoT AWS Kinesis
FTP
*Please contac t us i f NFC commun icat ion i s requ i red .
Yield Improvements ・・・ Big Data, Traceabil ity, and Analysis
Acquire information from production sites through DeviceGateway and use it as big data in cloud-based databases. Analyze the data at factory hosts and use it to reduce stoppage time due to equipment breakdowns and to improve quality.
Analysis Big data Traceability
Equipment A Equipment B Equipment C
Devi ceGatewa y
4
Safety and Security (Position Measurement) ・・・ Flow Management, Location Management, and Security Mon-
DeviceGateway captures radio waves generated by Bluetooth tags and calculates position information from the radio wave strength. Safety can be improved by detecting entry to hazardous areas and managing the movement of staff.
Productivity Improvement ・・・ Visualization, Remote Maintenance, and Remote Moni-
Remotely monitor the operating status of production and manufacturing equipment operating at remote sites. Able to understand the status of equipment without visiting the site so users can smoothly take basic measures when problems or alarms occur, im-proving productivity.
Devi ceGatewa y
Devi ceGatewa y
Production equipment
Shipping line
Inspection equipment
Remote maintenance Remote monitoring Visualization
Worker Researcher Nurse
Entry into hazardous area Movement tracing Medical information
Use Cases
In ternet / int ranet
HTTP(S)
*Please contac t us i f NFC commun icat ion i s requ i red .
Built-in communications protocols Access 150 types of devices, such as PLCs, sensors, etc.
5
Features
Ethernet/serial communications Communicate with older devices using RS-232C/RS-485
Digital I/O and analog inputs Read sensor signals
Beacon communications with BLE tags Measure position information
Industry 4.0 Built-in OPC UA server function
Link to IoT platforms MQTT connections to AWS/Azure/Bluemix
HULFT IoT Implement secure communications with mission-critical systems
Edge computing Detect triggers and issue SQL queries/JSON requests
Offline buffering Retain data during disconnections on the SD card
Alarm detection Monitor the rate of change and deviation of tag data
Scale conversions and BCD conversions Data processing with engineering value conversions
Language switching (English/Japanese) Switch between English and Japanese
Hardware ・・・ Equipped with various external interfaces
Software ・・・ Supported devices and function performance are greatly en-
Analog inputs* Digi ta l I /O*
Ethernet × 2 por ts
Ser ia l por t (RS -232C/ RS -485* )
SD card
Externa l power supp l y
USB por t
[Model : DGW -C10] [Model : DGW -F20]
* DIN ra i l mountable * Only available for DGW-F20 model
Functional Specifications
Item Description
OPC UA
(Ver. 1.03)
Endpoint URL opc.tcp://[IP address]:[port number]/
(Default port number: 52220)
Profile Standard UA Server (Data Access)
Security Policy None, Basic128Rsa15, Basic256, Basic256Sha256
Security Mode None, Sign, Sign and Encrypt
User Authentication Anonymous, user name/password
MQTT
(Ver3.11)
Type Client (Subscriber/Publisher)
Protocol TCP (WebSocket not supported)
Authentication User name/password, TLS Certificate
QoS QoS0, QoS1, QoS2
Retain/Will Supported
TLS/SSL Supported
HTTP(S)
(Ver1.1)
HTTP Authentication None, basic authentication, digest authentication
HTTP method GET, PUT, POST, DELETE OPTIONS, HEAD, TRACE
Proxy Server Enabled (user name/password authentication also supported)
SQL
Interface JDBC 4.2
Database Microsoft SQL Server2012 Oracle Database 11g MySQL5.6, PostgreSQL 9
Query SELECT, UPDATE, INSERT, DELETE
Maximum Number of Columns
512 columns per query
FTP
Type Client
User Authentication Anonymous, user name/password
Transfer Mode Active/Passive
Command PutRecord
AWS Kinesis Partition Key Arbitrary fixed value
Proxy Server Enabled (user name/password authentication)
HULFT IoT
(Ver. 1.3) File Transfer Encryption/data compression
ECHONET Lite (Ver. 1.12)
Equipped Objects Profile class group/node profiler Management and operational relevant apparatus class group/controller
Software Item Description
Server Functions OPC UA, ECHONET Lite Upper Layer
Communications Client Functions MQTT, HTTP(S), AWS Kinesis, FTP, SQL (maximum 8 connections each), HULFT IoT (maximum 1 connection)
Lower Layer Communications
External Interfaces Ethernet, Serial, DIO, AI, etc.
Device Protocols SLMP, MODBUS, ECHONET Lite, etc.
Maximum Number of Connections
8
Tag Management
Maximum Tags 8,192 tags
Data Types (U)Int8/16/32/64, Float, Double, Boolean, String * Arrays are supported for all types except String
Extended Settings Specify bit position of registers Byte swapping, read/write only attributes Specify byte position of word registers
Simulation Random, increment, sign, static
System Calculation BCD conversion
Scale Conversion Linear, square root, power factor
Alarms Rate of change, deviation, level, discrete
Current Values Monitor Current values can be monitored from the web browser
Configuration Operation
Web browser setup page is provided * Microsoft Internet Explorer 10 or higher
External I/O Import/export (CSV/JSON format)
Events
Maximum Number of Definitions
64
Trigger Conditions Cycle, Time, Changed Value, Area Changed Value, Received MQTT, Tag Alarm Change, Area Alarm Change, Disk Size, Beacon detection, Update beacon data
Actions
Loop Start/End, Jump, Compare Value/Text, Edit Text, Calculate, Get Text, Get CSV/JSON Element, Write Value, Send MQTT/HTTP/SQL/Kinesis, FTP Upload, Buffer Historical Values, Extract Buffered Rec-ords, Reshape Array Elements, Write/ Read/ Rename/ Copy/ Move/ Delete File, Delete/ List Files, Get File Count, Output Log Mes-sage, Restart
Buffering
Maximum Number of Tags
64
Maximum Amount of Data
8,192 records each (converted data accumulated as 1 record)
Offline Buffering
Applicable Interfaces MQTT, HTTP(S), SQL, FTP, AWS Kinesis
Maximum Queue Size Any size
Operation Mode Enabled (constantly), enabled (when there is an communications error), disabled
Diagnostics
Network Diagnostics PING, traceroute
Diagnostics Log Data source communications, event status, upper layer communications history
User Accounts
Configurable Item Maximum Number of Definitions
Maximum Number of Definitions
64
General Functions
Language switching English and Japanese
File Management Diagnostics log/OPC certificate, backup/restore
Time Management Correction of internal clock data (NTP server synchronization)
Update Firmware Update
Upper Layer Interface
*This specification is conforms to firmware version 2.1 (October 2017) or later.
* An SD card is required to use the event function, buffering, offline buffering, HULFT IoT, diagnostic log function, and
other functions.
* OPC UA is not supported with NodeManager, Alarm&Condition, Historical Access, and others.
* ECHONET Lite supports the Ethernet connection.
* To use the SQL connection function, a relay service (for Windows or Linux) dedicated to this product must be set up.
Applicable Models
* IO Link connection can be supported using the IO-Link Master Gateway (Modbus TCP) by Comtrol.
6
7
Applicable Devices
M a n u f a c t u r e r M o d e l C P U m o d u l e E t h e r n e t D G W
- C 1 0 D G W
- F 2 0 O t h e r
Mitsub ish i E lec t r i c
M E L S E C i Q - R R 1 2 0 / 3 2 / 1 6 / 0 8 / 0 4 B u i l t - i n E t h e r n e t p o r t R J 7 1 E N 7 1
✓ ✓
R J 7 1 C 2 4 ( - R 2 / R 4 )
M E L S E C i Q - F F X 5 U ( C ) B u i l t - i n E t h e r n e t p o r t
M E L S E C - Q
( U n i v e r s a l h i g h - s p e e d t y p e ) Q 2 6 / 1 3 / 0 6 / 0 4 / 0 3 U D V
B u i l t - i n E t h e r n e t p o r t
Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5 Q J 7 1 C 2 4 N ( - R 2 / R 4 )
M E L S E C - Q
( U n i v e r s a l )
Q 1 0 0 / 5 0 U D E H , Q 2 6 U D ( E ) H Q 2 0 / 1 3 / 1 0 / 0 6 / 0 4 / 0 3 U D ( E ) H
Q 0 2 / 0 1 / 0 0 U ( J )
B u i l t - i n E t h e r n e t p o r t Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5
Q J 7 1 C 2 4 N ( - R 2 / R 4 )
M E L S E C - Q
( P r o c e s s ) Q 2 6 / 1 3 / 0 6 / 0 4 U D P V
Q 2 5 / 1 2 / 0 6 / 0 2 P H Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5 Q J 7 1 C 2 4 N ( - R 2 / R 4 )
M E L S E C - Q
( R e d u n d a n t ) Q 2 5 / 1 2 P R H Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5 Q J 7 1 C 2 4 N ( - R 2 / R 4 )
M E L S E C - Q
( H i g h p e r f o r m a n c e ) Q 2 5 / 1 2 / 0 6 H , Q 0 2 ( H ) Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5 Q J 7 1 C 2 4 N ( - R 2 / R 4 )
M E L S E C - Q
( B a s i c ) Q 0 1 , Q 0 0 ( J ) Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5 Q J 7 1 C 2 4 N ( - R 2 / R 4 )
M E L S E C - Q
( C l a n g u a g e c o n t r o l l e r ) Q 2 4 D H C C P U - V
Q 1 2 D C C P U - V , Q 0 6 C C P U - V B u i l t - i n E t h e r n e t p o r t
M E L S E C - Q
( M o t i o n c o n t r o l l e r ) Q 1 7 0 M , Q 1 7 2 D ( S ) C P U ( - S 1 )
Q 1 7 3 D ( S ) C P U ( - S 1 ) B u i l t - i n E t h e r n e t p o r t
M E L S E C - L
L 2 6 C P U - ( P ) B T L 0 6 C P U ( - P )
L 0 2 ( S ) C P U ( - P )
B u i l t - i n E t h e r n e t p o r t L J 7 1 E 7 1 - 1 0 0
L J 7 1 C 2 4 ( - R 2 )
L 6 A D P - R 2 / R 4
M E L S E C - F X
F X 3 S / U / U C / G / G C F X 2 ( N / 2 N C / 2 C )
F X 1 ( S / N / N C ) , F X 0 ( S / N )
F X 3 U - E N E T ( - L )
F X 3 U - E N E T - A D P
F X x x - 2 3 2 / 4 8 5 - B D
F X x x - 2 3 2 / 4 8 5 A D P ( - M B )
M E L S E C - Q n A Q 4 A ( R ) , Q 3 A
Q 2 A ( S / S H ) ( - S 1 )
A ( 1 S ) J 7 1 Q E 7 1 ( N ) - T
A ( 1 S ) J 7 1 Q E 7 1 ( N ) - B 2 / B 5
A J 7 1 Q C 2 4 ( N ) ( - R 2 / R 4 )
A 1 S J 7 1 Q C 2 4 ( N ) ( - R 2 )
M E L S E C - A
A 4 U , A 3 ( N / A / U ) A 2 ( N / A / U ) ( S / S H ) ( - S 1 )
A 1 ( N ) ( S / S H )
A J 7 1 E 7 1 ( - S 3 ) A ( 1 S ) J 7 1 E 7 1 ( N ) - T
A ( 1 S ) J 7 1 E 7 1 ( N ) - B 2 / B 5
A ( 1 S ) J 7 1 U C 2 4
A J 7 1 C 2 4 - S 8
Omron
S Y S M A C - C J C J 2 H , C J 2 M
C J 1 G , C J 1 H , C J 1 M
B u i l t - i n E t h e r n e t p o r t C J 1 W - E T N 1 1 / 2 1
C J 1 W - E I P 2 1
✓ ✓
B u i l t - i n S e r i a l p o r t C J 1 W - S C U 4 2 / 3 2 / 2 2 C J 1 W - S C U 4 1 / 3 1 ( - V 1 )
C J 1 W - S C U 2 1 ( - V 1 )
S Y S M A C - C S
C S 1 G C S 1 H
C S 1 D
C S 1 W - E T N 2 1 / 1 1 / 0 1 C S 1 W - E I P 2 1
C S 1 D - E T N 2 1 D
B u i l t - i n S e r i a l p o r t C S 1 W - S C U 3 1 / 2 1 ( - V 1 )
C S 1 W - S C B 4 1 / 2 1 ( - V 1 )
S Y S M A C - C P
C P 1 E C P 1 L ( - E M / E L )
C P 1 H
B u i l t - i n E t h e r n e t p o r t C P 1 W - C l F 4 1 C P 1 L - E T N C J 1 W - E T N 2 1 / E I P 2 1
C P 1 W - C I F 1 2 / 1 1 / 0 1 C J 1 W - S C U 4 1 / 3 1 ( - V 1 ) C J 1 W - S C U 2 1 ( - V 1 )
S Y S M A C - C V C V M 1 ( D ) , C V 2 0 0 0
C V 1 0 0 0 , C V 5 0 0 C V 5 0 0 - E T N 0 1
B u i l t - i n S e r i a l p o r t
C V 5 0 0 - L K 2 0 1
S Y S M A C - C
C 2 0 0 H C Q M 1 ( H ) C P M 1 / 2
C 2 0 0 0 H / C 1 0 0 0 H
B u i l t - i n S e r i a l p o r t C 5 0 0 -L K 2 0 3 / 2 0 1 / 1 0 3 / 1 0 1 C 2 0 0 H - L K 2 0 2 / 2 0 1 / 1 0 1
C 1 2 0 - L K 2 0 2 / 2 0 1 / 1 0 1
S Y S M A C - N S J N S J B u i l t - i n E t h e r n e t p o r t N S J W - E T N 2 1
Yokogawa E lec t r i c
F A - M 3 V F 3 S P 7 1 - 4 S / N
F 3 S P 7 6 - 7 S / N
B u i l t - i n E t h e r n e t p o r t F 3 L E 1 2 / 1 1 / 0 1 - 0 T
✓ ✓
F A - M 3 R
F 3 S P 6 7 - 6 S , F 3 S P 6 6 - 4 S F 3 S P 5 9 - 7 S , F 3 S P 5 8 - 6 H / S F 3 S P 5 3 - 4 H / S , F 3 S P 3 8 - 6 N / S F 3 S P 3 5 - 5 N , F 3 S P 2 8 - 3 S / N F 3 S P 2 5 - 2 N , F 3 S P 2 2 - 0 S
F 3 S P 2 1 - 0 N , F 3 S P 0 8 / 0 5 - 0 P
F 3 L E 1 2 - 0 T / 1 T F 3 L E 1 1 - 0 T / 1 T
F 3 L E 0 1 - 0 T / 1 T / 5 T
JTEKT
T O Y O P U C - P C 1 0 P C 1 0 G ( E )
P C 1 0 P
B u i l t - i n E t h e r n e t p o r t E N - I / F ( - T ) F L / E T - n e t - 5 F L / E T - T - V 2 ( H )
2 P O R T - E F R
✓ ✓
T O Y O P U C - P C 3 J
P C 3 J G - P P C 3 J ( L / D / M / N M / N F ) - C P U
M U L T I - G W
E N - I / F ( - T ) F L / E T - n e t - 5 F L / E T - T - V 2 ( H )
2 P O R T - E F R
T O Y O P U C - P C 2 J P C 2 J ( C / S / R )
P C 2 J 1 6 ( R / H / P R / H R )
E N - I / F ( - T ) F L / E T - n e t - 5
F L / E T - T - V 2 ( H )
Hi tach i Indus t r i a l Equ ipment
E H 1 5 0 - E H V E H V - C P U 1 2 8 / 6 4 / 3 2 / 1 6 E H - E T H ( 2 )
B u i l t - i n E t h e r n e t p o r t
✓ ✓
E H 1 5 0 E H - C P U 5 4 8 / 5 1 6 / 3 1 6 A
E H - C P U 2 0 8 A / 1 0 4 A E H - E T H ( 2 )
H H - 4 0 1 0 / 2 0 0 2 / 1 0 0 2
H - 7 0 2 / 3 0 2 / 2 5 2 L A N - E T H ( 2 )
8
M a n u f a c t u r e r M o d e l C P U m o d u l e E t h e r n e t O t h e r D G W
- C 1 0 D G W
- F 2 0
Sharp S A T E L L I T E - J W
JW 3 0 0 , JW 1 0 0 H , JW 7 0 H
JW 5 0 H , JW 3 0 H , JW 2 0 H
J W - 3 0 0 / 2 5 T / 2 5 5 C M
J W - 5 0 C M / 5 1 C M
✓ ✓ J - B o a r d Z - 5 0 0 , Z - 3 0 0 Z 3 3 9 J
Fuj i E lec t r i c M I C R E X - S X
S P H 3 0 0 0 , S P H 3 0 0 , S P H 3 0 0 E X
S P H 2 0 0 0 , S P H 2 0 0
B u i l t - i n E t h e r n e t p o r t N P 1 L - E T 1 / 2
✓ ✓
M I C R E X - F F 1 5 0 S , F 1 4 0 S
F 1 2 0 S / H , F 8 0 H / F 7 0 / F 5 5
F F U 1 7 0 B
N C 1 L - E T 1
Panasonic
F P 7 F P 7 B u i l t - i n E t h e r n e t p o r t
✓ ✓
F P 2 F P 2 ( S H ) F P 2 E T - L A N ( 2 )
F P - X F P - X C 6 0 / 3 0 / 1 4 R / T / P ( D ) F P - X C O M 5
F PΣ※ 1 F PΣ A F P G 8 0 1 / 8 0 2 / 8 0 6
F P 0 R ※ 1 F P 0 R B u i l t - i n S e r i a l P o r t
F P - e ※ 1 F P - e B u i l t - i n S e r i a l P o r t
Keyence K V
K V - 7 5 0 0 , 7 3 0 0 K V - 5 5 0 0 , 5 0 0 0
K V - 3 0 0 0 , 1 0 0 0 , 7 0 0
B u i l t - i n E t h e r n e t p o r t K V - L E 2 1 V / E P 2 1 V
K V - L E 2 0 ( V / A )
✓ ✓
K V - N a n o K V - N C 1 E P
Toshiba
n v ( t y p e 1 ) P U 8 1 1 E N 8 1 1 / E N 8 2 1
✓ ✓
n v ( t y p e 1 ) L i g h t P U M 1 1 , P U M 1 2 , P U M 1 4
V ( S 3 ) S 3 P U 6 5 A , S 3 P U 5 5 A ,
S 3 P U 4 5 A
E N 7 1 1 / 7 2 1 / 7 3 1
E N 7 4 1 / 7 5 1 ( A ) / 7 6 1
V ( S 2 ) S 2 P U 8 2 , S 2 P U 7 2 A ,
S 2 P U 7 2 D
E N 6 1 1 / 6 2 1 / 6 3 1 / 6 4 1
E N 6 5 1 ( A ) / 6 6 1
V ( S 2 T ) P U 6 7 2 T , P U 6 6 2 T E N 6 1 1 / 6 3 1 / 6 5 1 A
P R O S E C T ( T 3 H ) P U 3 2 5 H , P U 3 2 6 H E N 3 1 1
P R O S E C T ( T 2 N ) P U 2 3 5 N , P U 2 4 5 N B u i l t - i n E t h e r n e t p o r t
IDEC ※ 1 M I C R O S m a r t F C 5 A B u i l t - i n E t h e r n e t p o r t B u i l t - i n S e r i a l P o r t F C 5 A - S I F 2 / 4
F C 4 A - H P C 3 ✓ ✓
Koyo ※ 1
D i r e c t L O G I C 0 5 D L 0 5 H 0 - E C O M 1 0 0
✓ ✓
D i r e c t L O G I C 0 6 D L 0 6
D i r e c t L O G I C 2 0 5 D 2 - 2 4 0 , D 2 - 2 5 0 , D 2 - 2 6 0 B u i l t - i n E t h e r n e t p o r t H 2 - E C O M / E B C 1 0 0
D i r e c t L O G I C 3 0 5 D 3 - 3 4 0 , D 3 - 3 5 0
B u i l t - i n S e r i a l P o r t
D i r e c t L O G I C 4 0 5 D 4 - 4 5 0
S U S U - 5 / 5 E / 6 B / 5 M / 6 M / 6 H B u i l t - i n S e r i a l P o r t U - 0 1 D M
K O S T A C S Z S Z - 4 / 4 M
K O S T A C S S G - 8 B U - 0 1 D M
K O S T A C P Z P Z 3 B u i l t - i n S e r i a l P o r t
K O S T A C S J
S J - 0 0 D D 1 / 2 - D , S J - 0 0 D R / A R -D S J - 0 2 D D 1 / 2 - D , S J - 0 2 D R - D
S J - 3 0 D D 1 - D
B u i l t - i n E t h e r n e t p o r t B u i l t - i n S e r i a l P o r t
T 1 K T 1 K - M O D B U S T 1 H - E B C 1 0 0 B u i l t - i n S e r i a l P o r t T 1 H - C T R I O
Yaskawa E lec t r i c
M P 3 2 0 0 C P U - 2 0 1 , C P U - 2 0 2
B u i l t - i n E t h e r n e t p o r t 2 1 8 I F - 0 1 / 0 2
2 1 8 I F - 0 1 / 0 2
2 1 7 I F - 0 1
✓ ✓
M P 2 4 0 0 M P 2 4 0 0
M P 2 3 0 0 M P 2 3 1 0 , M P 2 3 0 0 ( S )
M P 2 2 0 0 M P 2 2 0 0
M P 2 1 0 0 2 1 7 I F - 0 1
M P 9 0 0 M P 9 2 0 2 1 8 I F A B u i l t - i n S e r i a l P o r t
DELTA ※ 1
A H 5 0 0 A H 5 0 0 A H 1 0 E N - 5 A
✓ ✓
D V P - E H D V P - E H 2 / 3 D V P E N E 0 1 - S L
B u i l t - i n S e r i a l P o r t
D V P - S V D V P - S V ( 2 )
D V P - S E D V P - S E B u i l t - i n E t h e r n e t p o r t
D V P - M C D V P - M C
D V P - E X D V P - E X ( 2 )
D V P - E S D V P - E S ( 2 )
9
Applicable Devices
M a n u f a c t u r e r M o d e l C P U m o d u l e E t h e r n e t O t h e r D G W
- C 1 0 D G W
- F 2 0
DELTA* 1
D V P - E C D V P - E C 3
B u i l t - i n s e r i a l p o r t ✓ ✓
D V P - S X D V P - S X ( 2 )
D V P - S A D V P - S A ( 2 )
D V P - S S D V P - S S ( 2 )
D V P - S C D V P - S C
D V P - P M D V P - P M
ROCKW ELL
A B C o n t r o l L o g i x 1 7 5 6 1 7 5 6 - E N B T
1 7 5 6 - E N 2 T
✓ ✓ A B C o m p a c t L o g i x
1 7 6 9 - L 3 5 / 3 2 E
1 7 6 8
B u i l t - i n E t h e r n e t P o r t 1 7 6 8 - E N B T
A B F l e x L o g i x 1 7 9 4 1 7 8 8 - E N B T
A B D r i v e L o g i x 5 7 3 0 , 5 7 2 0 1 7 8 8 - E N B T
3S* 1 C o D e S y s ( G e n e r a l P C ) B u i l t - i n E t h e r n e t P o r t B u i l t - i n S e r i a l P o r t ✓ ✓
SIEMENS
S I M A T I C S 7 - 1 5 0 0
C P U 1 5 1 1 / 1 5 1 3 - 1 P N C P U 1 5 1 5 - 2 P N C P U 1 5 1 6 ( F ) - 3 P N / D P
C P U 1 5 1 8 ( F ) - 4 P N / D P
B u i l t - i n E t h e r n e t P o r t ✓ ✓
S I M A T I C S 7 - 1 2 0 0 C P U 1 2 1 1 / 1 2 1 2
C P U 1 2 1 4 C / 1 2 1 5 C / 1 2 1 7 C B u i l t - i n E t h e r n e t P o r t ✓ ✓
S I M A T I C S 7 - 4 0 0 H C P U 4 1 2 - 3 H , C P U 4 1 4 / 4 1 7 - 4 H C P 4 4 3 - 1 ✓ ✓
S I M A T I C S 7 - 4 0 0
C P U 4 1 2 - 1 / 2 , C P U 4 1 7 - 4 C P U 4 1 4 - 2 / 3 ( P N / D P )
C P U 4 1 6 - 2 / 3 ( P N / D P ) C P 4 4 3 - 1 ✓ ✓
S I M A T I C S 7 - 3 0 0 C P U 3 1 2 / 3 1 4 / 3 1 5 - 2 ( P N / D P )
C P U 3 1 7 - 2 ( P N / D P ) C P 3 4 3 - 1 ✓ ✓
S I M A T I C W i n A C W i n A C R T X B u i l t - i n E t h e r n e t P o r t ✓ ✓
FANUC* 2
F A N U C C N C
S e r i e s 0 ( i ) S e r i e s 1 5 ( i ) S e r i e s 1 6 ( i ) / 1 8 ( i ) / 2 0 / 2 1 ( i )
S e r i e s 3 0 i / 3 1 i / 3 2 i
B u i l t - i n s e r i a l p o r t ✓ ✓
D I O s i g n a l - ✓
F A N U C P o w e r M a t e P o we r M a t e - D / F / H
P o we r M a t e - I
B u i l t - i n s e r i a l p o r t ✓ ✓
D I O s i g n a l - ✓
M -Sys tem
R e m o t e I / O R 3 * 1 R 3 R 3 - N E 1 R 3 - N M 1 / R 3 - N M 3
✓ ✓
R e m o t e I / O R 5 * 1 R 5 ( H ) R 5 - N E 1 R 5 - N M 1
R e m o t e I / O R 6 * 1 R 6 R 6 - N E 1 / R 6 - N E 2 R 6 - N M 1 / R 6 - N M 2
R e m o t e I / O R 7 * 1 R 7 E B u i l t - i n E t h e r n e t p o r t B u i l t - i n S e r i a l P o r t
L o o p C o n t r o l l e r * 1 S C 2 0 0 , S C 2 1 0
B u i l t - i n E t h e r n e t p o r t
T o w e r L i g h t P A T L A B O R * 1 I T 6 0 ( W 1 / R E )
B A C n e t C o n t r o l l e r B A 3 - C B 1
B u i l t - i n E t h e r n e t p o r t
P A T L A B O R * 1 I T 6 0 W 1 / R E
D a t a L o g g e r * 1 D L 8
T a b l e t R e c o r d e r * 1 T R 3 0 - G
AnyW ire* 1 D B A 4 0 A G 4 2 8 - E S / E C , A G 4 1 3 - E 1 B u i l t - i n E t h e r n e t p o r t ✓ ✓
W AGO* 1 I / O S y s t e m
7 5 0 - 3 4 1 / 3 4 2 / 3 5 2
7 5 0 - 8 4 1 / 8 4 2 / 8 4 3 / 8 7 3 / 8 8 1 B u i l t - i n E t h e r n e t p o r t
✓ ✓ 7 5 0 - 3 1 2 / 3 1 4 / 3 1 5 / 3 1 6
7 5 0 - 8 1 2 / 8 1 4 / 8 1 5 / 8 1 6 B u i l t - i n S e r i a l P o r t
7 5 0 - 8 3 0 B u i l t - i n E t h e r n e t p o r t
HAKKO* 1 M O N I T O U C H
V 8 1 5 / 8 1 2 / 8 1 0 / 8 0 8 / 8 0 6
V 7 1 5 / 7 1 2 / 7 1 0 / 7 0 8 B u i l t - i n E t h e r n e t P o r t
B u i l t - i n S e r i a l P o r t ✓ ✓ V 6 0 8 / 6 0 6
Cognex* 1 I n - S i g h t I n - S i g h t M i c r o / 5 0 0 0 / E Z B u i l t - i n E t h e r n e t p o r t ✓ ✓
Azbi l N e t wo r k I n s t r u m e n t a t i o n
N X - S 0 1 / 1 1 / 1 2 / 2 1 N X - D 1 5 / D 2 5 / D 3 5
N X - D X 1 / D X 2 , N X - D Y 1 / D Y 2
N X - C B 1 N X - C L 1 / C R 1 N X - T L 1 / T R 1
✓ ✓
D i g i t a l C o n t r o l l e r D M C 5 0 B u i l t - i n E t h e r n e t p o r t ✓ ✓
10
M a n u f a c t u r e r M o d e l C P U m o d u l e E t h e r n e t D G W
- C 1 0
DG W
- F 2 0
YOKOGAWA*1
S T A R D O M F C N , F C J B u i l t - i n E t h e r n e t P o r t B u i l t - i n S e r i a l P o r t N F L R 1 1 1 / 1 2 1 ✓ ✓
R e c o r d e r S M A R T D A C + G X 1 0 / 2 0 / 6 0 / 9 0 , G P 1 0 / 2 0
B u i l t - i n E t h e r n e t P o r t B u i l t - i n S e r i a l P o r t
✓ ✓
R e c o r d e r D X A d v a n c e d
D X 1 0 1 2 / 1 0 0 6 / 1 0 0 4 / 1 0 0 2 ( N / T ) D X 2 0 4 8 / 2 0 4 0 / 2 0 3 0 / 2 0 2 0 / 2 0 1 0
D X 2 0 0 8 / 2 0 0 4 ( T ) ✓ ✓
R e c o r d e r M V A d v a n c e d
M V 1 0 2 4 / 1 0 1 2 / 1 0 0 8 / 1 0 0 6 / 1 0 0 4 M V 2 0 4 8 / 2 0 4 0 / 2 0 3 0 / 2 0 2 0 / 2 0 1 0
M V 2 0 0 8 ✓ ✓
D A Q S T A T I O N
C X 2 6 2 0 / 2 6 1 0 / 2 4 2 0 / 2 4 1 0 / 2 2 2 0 C X 2 2 1 0 / 2 2 0 0 / 2 0 2 0 / 2 0 1 0 / 2 0 0 0
C X 1 2 0 6 / 1 2 0 0 / 1 0 0 6 / 1 0 0 0 ✓ ✓
Eurotherm *2 U n i t C o n t r o l l e r 2 5 0 0 * 7 B u i l t - i n E t h e r n e t P o r t ✓ ✓
R e g u l a t i o n M e t e r n a n o d a c B u i l t - i n E t h e r n e t P o r t ✓ ✓
RKC INSTRUMENT *1
R e g u l a t i o n M e t e r P F 9 0 0 / 9 0 1 , F B 1 0 0 / 4 0 0 / 9 0 0 H A 4 3 0 / 9 3 0 , S A 2 0 0 / 2 0 1 / 1 0 0
R B , S R V / S R X , H - P C P - J B u i l t - i n S e r i a l P o r t ✓ ✓
CHINO*1
R e c o r d e r
L E 5 0 0 0 / 5 1 0 0 / 5 2 0 0 / 5 3 0 0 A H 3 0 0 0 / A L 3 0 0 0 K R 5 1 0 0 / 5 2 0 0 / 5 3 0 0
K R 2 0 0 0 / 3 0 0 0 / B R 1 0 0 0 B u i l t - i n S e r i a l P o r t
✓ ✓
R e g u l a t i o n M e t e r L T 2 3 0 / 3 0 0 / 3 5 0 / 3 7 0 / 4 0 0 / 8 3 0 D P 1 0 0 0 G / 3 0 0 0 G , D B 1 0 0 0
D B 2 0 0 0 , K P 1 0 0 0 / 2 0 0 0 / 3 0 0 0 ✓ ✓
PANASONIC*1 R e g u l a t i o n M e t e r K T 2 / 4 ( H / B ) , K T 7 / 8 / 9 ✓ ✓
B u i l t - i n S e r i a l P o r t
E c o P o w e r M e t e r KW 1 M ( - H / R ) , KW 2 G ( - H )
KW 4 M , K W 7 M , K W 8 M , K W 9 M ✓ ✓
MITSUBISHI *1
E n e r g y M o n i t o r i n g U n i t E c o M o n i t o r L i g h t
B u i l t - i n S e r i a l P o r t
✓ ✓
I n d i c a t i n g I n s t r u m e n t N e w - S , S u p e r - S , S ✓ ✓
S m a r t M e t e r M 5 C M ✓ ✓
HIOKI *1 2 3 0 0 2 3 0 0
2 3 0 1 / 2 3 0 2 / 2 3 0 3 / 2 3 0 4 2 3 0 5 / 2 3 3 2 / 2 3 4 1 / 2 3 4 2
2 3 4 3 / 2 3 5 3 ✓ ✓
MOXA S wi t c h i n g H u b
E D S - 8 2 8 / 7 2 8 , E D S - 5 1 8 / 5 1 6 ( A ) E D S - P 5 1 0 A / 5 0 6 , E D S -G 5 0 9 / 5 0 0
E D S - 5 0 8 / 5 0 5 / 4 0 8 / 4 0 5 A
B u i l t - i n E t h e r n e t P o r t ✓ ✓
COMTROL ※ 1 I O - L i n k M a s t e r G a t e wa y
M o d b u s T C P
I O - L i n k M a s t e r 4 - E I P I O - L i n k M a s t e r D R - 8 E I P
I O - L i n k M a s t e r 8 - E I P B u i l t - i n E t h e r n e t P o r t ✓ ✓
UNITEC
B A C n e t U n i t f o r M E L S E C ( M E L S E C - Q s e r i e s C P U ) B A Q 0 8 V ✓ ✓
B A C n e t U n i t f o r L o n W o r k s ( L o n W o r k s u n i t ) B L 7 5 0 ✓ ✓
B A C n e t U n i t f o r
M u l t i - C o n n e c t i o n ( M E L S E C / S Y S M A C / M O D B U S ) B P 7 5 0 - P M ✓ ✓
Omron
P h o t o e l e c t r i c S e n s o r / F i b e r S e n s o r / P r o x i m i t y S e n s o r / L a s e r S e n s o r / D i s p l a c e m e n t S e n s o r /
V i s i o n S e n s o r
( N / A ) D i g i t a l S i g n a l W i r e A n a l o g S i g n a l W i r e
( E xp a n s i o n c o n n e c t o r ) - ✓
General-purpose devices
Contact Inpu t/Outpu t (DI/DO) (N/A) (N/A) - ✓
Relay Outpu t (DO) (N/A) (N/A) - ✓
Analog Inpu t (AI) (N/A) (N/A) - ✓
MODBUS Slave MODBUS Slave -compat ib le de-
vice Etherne t por t Ser ia l por t ✓ ✓
BACnet/ IP Slave * 4 BACnet/ IP -compat ib le devi ce ✓ ✓
SLMP Slave SLMP -compat ib le device NZ2GF -ETB ✓ ✓
ECHONET Li te ECHONET Li te -compat ib le devi ce B u i l t - i n E t h e r n e t P o r t ✓ ✓
BLE Beacon * 5 Blue tooth Low Energy -compat ib l e
devi ce ✓ ✓
Wireless Conver ter Device Adapter ✓ ✓
Other device * 6 (N/A) Ser ia l por t ✓ ✓
* 1 I t i s a c c e s s i b l e b y M o d b u s E t h e r n e t o r M o d b u s S e r i a l c o m m u n i c a t i o n .
* 2 A c c e s s t o F A N U C d e v i c e s ( s e r i a l c o m m u n i c a t i o n s ) i s l i m i t e d t o m o d e l s t h a t c a n u s e t h e D P R N T f u n c t i o n .
* 3 T h e b a s e u n i t ( 2 5 0 0 B ) i s s e p a r a t e l y r e q u i r e d f o r t h e E u r o t h e r m 2 5 0 0 S e r i e s .
* 4 A N S I / A S H A R E s t a n d a r d ( 1 3 5 - 2 0 1 2 ) a n d I E I E J - P ( 0 0 0 6 : 2 0 0 6 ) a r e s u p p o r t e d f o r B A C n e t .
* 5 W h e n u s i n g B L E ( B l u e t o o t h L o w E n e r g y ) , a s e p a r a t e B L E c o n v e r s i o n a d a p t e r i s r e q u i r e d .
* 6 W h e n u s i n g t h e u s e r p r o t o c o l f u n c t i o n , y o u c a n a c c e s s a d e v i c e t h a t h a s a n a r b i t r a r y c o m m u n i c a t i o n s p r o t o c o l . ( A d e f i n i t i o n o f t h e
p r o t o c o l s p e c i f i c a t i o n i s r e q u i r e d . )
+81-75-325-2261 Available: Weekday 9:00-17:00 Japan local time
Support Dial
fa -suppor t@takebishi .co.jp
All company names and product names that appear in this document are trademarks or registered trademarks of their respective companies. October 2017
M o d e l D G W - C 1 0 D G W - F 2 0
Exterior
Standard price (tax not included) USD 1,980 USD 1,980
Ethernet Communications 2 ports (10BASE-T/100BASE-TX/1000BASE-T) 2 ports (10BASE-T/100BASE-TX/1000BASE-T)
Serial Communications RS-232C × 1 port (D-sub 9-pin/male) RS-232C × 1 port (D-sub 9-pin/male) RS-485 × 1 port (D-sub 9-pin/male)
Bluetooth Communications *1 Bluetooth Low Energy (an optional device must be connected) Bluetooth Low Energy (an optional device must be connected)
Digital Inputs (contact inputs) - 8 channels (voltage/non-voltage input, photocoupler isolated)
Digital Outputs (contact outputs) - 4 channels (open collector, 4 points/1 common, photocoupler isolated)
Digital Outputs (non-contact outputs) - 4 channels (photoMOS relay, independent common, photocoupler isolated)
Analog Inputs - 4 channels (voltage/current mode selection, 16-bit resolution)
SD Card Slot 1 slot (SD/SDHC compatible) 1 slot (SD/SDHC compatible)
USB *1 USB 2.0 (Type-A) × 1 port USB 2.0 (Type-A) × 1 port
Power Supply Input DC12V
* DC jack (AC adapter) DC12V
* DC jack (AC adapter) or 3-pin screw-fastened connector Power Supply Included AC Adapter 100 to 240 VAC input (50 to 60 Hz)/12 VDC output 100 to 240 VAC input (50 to 60 Hz)/12 VDC output
Included AC Cable* 2 Plug A (for Japan) 7 A/125 V Plug A (for Japan) 7 A/125 V
Maximum Power Consumption 4.5 W (maximum when using 100 VAC) 10.5W (maximum when using 100 VAC)
Operating Temperature -20°C to +60°C * No condensation -20°C to +50°C (when using 100BASE-TX) * No condensation -20°C to +40°C (when using 1000BASE-T) * No condensation
External Dimensions (mm) (excluding protrusions) W81×D137×H29 W137×D137×H40
Weight 380g 700g
Standards and Compliance CE, CSA -
*1 To use the position measurement function, a BLE conversion adapter (recommended product: BLED112 by Silicon Labs) must be c onnected to the USB port.
*2 P l e a s e c h a n g e t o p r o d u c t s t h a t c o m p l y w i t h l o c a l s t a n d a r d s .
* Custom support is available if a Wi-Fi, 3G, or LTE network connection is required on DeviceGateway. Please contact us to discuss your requirements.
DeviceGateway®
Lineup
Related Products
Device AdapterTM
Serial/BLE converter (with position measurement function)
DeviceXPlorer®
OPC Server Industrial communications software (Windows)
HULFT IoT TAKEBISHI Secure compressed file transfer service
29, Mameda-cho, Nishi-kyogoku, Ukyo-ku, Kyoto 615-8501, Japan
TAKEBISHI CORPORATION