Related Manuals for in.hub HUB-EN200
Summary of Contents for in.hub HUB-EN200
- Page 1 HUB-EN200 Operating Instructions Valid SIINEOS version: from 2.9.0 Document version 1.0 | Publication date: 25. April 2025...
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Page 2: Table Of Contents
5.6. Configuring the current sensor and data communication ..........28 5.7. Configuring the signals of the HUB-EN200 ..............30 5.8. Saving the signal settings of the HUB-EN200 as a Modbus device profile ......31 6. Typical use cases in practice ....................33 6.1. - Page 3 7.1. Specification of the CT1 and CT2 interfaces ..............42 7.2. Voltage interface specification ..................42 7.3. USB interface specifications ..................43 7.4. Backplane bus specification ..................43 7.5. Measurements and associated Modbus registers ............44 7.6. Schematic diagram ....................... 45 Operating Instructions HUB-EN200...
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Page 4: Legal Information
NOTE A note gives you useful information on specific actions and issues. A tip gives you tips, tricks or recommendations from in.hub that have proven to be helpful in handling the products. Qualified personnel The product associated with this documentation may only be handled by personnel quali- fied for the respective task. - Page 5 Legal information Intended use in.hub products may only be used for the applications specified in the corresponding tech- nical documentation. If third-party products and components are used, they must be recommended or approved by in.hub. Proper storage, set-up, assembly, installation, commissioning, operation and maintenance are essential for the correct and safe operation of the products.
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Page 6: General Information
1× basic dashboard for Grafana 1× Operating Instructions as a PDF If the HUB-EN200 is to be supplied with power via the backplane bus of a master gateway (HUB-GM200), please note that you will need additional DIN-rail bus connectors. You can order these at in.hub as an option for your HUB-EN200. -
Page 7: Disposal
General information The HUB-EN200 is not measuring equipment within the meaning of ISO 9001, and is there- fore not subject to mandatory testing and the requirements for measuring equipment man- agement. 1.5. Disposal Please observe the national regulations. Do not dispose of the device with normal household waste, but appropriately for its nature and country-specific regulations, e.g. -
Page 8: General Product Information
It uses in.hub’s own operating system SIINEOS (and is compatible with all systems that use SIINEOS) and can therefore be easily integrated into a wide range of operating environ- ments and networks. For more information on how you can use HUB-EN200 in your company, read the chapter Typical use cases in practice [33]. -
Page 9: Hardware - Design And Interfaces
General product information 2.3. Hardware – design and interfaces Views of the HUB-EN200 including interfaces Device-specific information is stored in a barcode: HW: Hardware revision S/N: in.hub internal serial number MAC: Hardware address of the Ethernet interface Backplane bus Connection option for 2 current sensors... -
Page 10: Usb1 And Usb2
2.3.2. Power supply The module is supplied with power either by a 24 V power supply unit or via backplane bus of a master gateway. Please see the chapter Installation [15]. Connection assignment of the “power supply” interface Operating Instructions HUB-EN200... -
Page 11: Led Display
Green Module ready for operation Permanently lit Green Error in the boot process Behaviour of LED 3 Colour Meaning 20× 1 Hz flashes The Device identification action has been trig- gered in the SIINEOS of the HUB-EN200. Operating Instructions HUB-EN200... -
Page 12: Led Display On The Eth Socket
When commissioning with other sensors, make sure you know what load they can be connected to. In the event of improper use, in.hub accepts no liability for any damage that may occur. Connection of a current sensor... -
Page 13: Assembly
Assembly 3. Assembly The HUB-EN200 must be installed on a DIN EN 60715 (35 mm) mounting rail. Observe the applicable safety and accident prevention regulations for specific areas of application, such as the Machinery Directive. CAUTION Electric shock due to conductive dirt can cause personal injury! •... -
Page 14: Installation On A Backplane Bus
Put another DIN-rail bus connector onto the DIN rail and push it along the DIN rail until directly next to the master gateway Click the HUB-EN200 onto the DIN-rail bus connector you have just attached. HUB-GM200 master gateway with a HUB-EN200 3.3. Dismantling the device... -
Page 15: Installation
4.1. Connecting a power-supply unit The HUB-EN200 requires its own power supply if it is NOT connected directly via the backplane bus as an extension of a master gateway. Whenever the HUB-EN200 is installed as an individual device or spatially separated from the master gateway, you must provide it with a separate power supply. -
Page 16: Establishing A Supply Voltage Via Backplane Bus
The backplane bus interface is only activated at the power-supplying master gateway and can supply up to 3 devices. Mount up to three in.hub to the right of the master gateway on the backplane bus. Log on to SIINEOS on the master gateway and navigate to I/O management >... -
Page 17: Connecting And Monitoring A 1-Phase Device
Installation As an alternative to a fuse, you can also use a circuit breaker. 4.3.1. Connecting and monitoring a 1-phase device Operating Instructions HUB-EN200... -
Page 18: Connecting And Monitoring Several 1-Phase Devices
Installation 4.3.2. Connecting and monitoring several 1-phase devices Operating Instructions HUB-EN200... -
Page 19: Connecting And Monitoring A 3-Phase Device
4.4. Connecting current sensors ATTENTION These instructions refer to the connection of SENS-CUR current sensors from in.hub. If you connect a different current sensor, be sure to observe the trans- formation ratio and the intended load resistance of the sensor used. NOTE The current sensor recommended by in.hub may only be placed around an... - Page 20 Release the orange actuator. • Repeat the procedure with the connecting cable that is connected to l on the sensor, and plug it into pin l1 (number 2 on the connector). Connection of a SENS-CUR current sensor to the HUB-EN200 Operating Instructions HUB-EN200...
- Page 21 Insert only one cable at a time. Do not pinch the cable. Opened SENS-CUR current sensor with live cable next to a schematic diagram for connecting the current sensor Close the separable core of the current sensor. Operating Instructions HUB-EN200...
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Page 22: First Steps With Siineos
5.1. Connecting HUB-EN200 with the PC Use a Micro-USB cable to connect your PC with the HUB-EN200. In most cases, the USB connection provides enough power to operate the HUB-EN200 without having to connect an extra power supply. NOTE No additional USB devices can be operated via the other USB connections when power is supplied via the USB1 connection. -
Page 23: Logging On To Siineos
Select the Users page and change the password for the user hubadmin. 5.2.2. If you have already set up SIINEOS In your browser, enter the individual IP network address that you have configured. Log on with your user data and click on Log in. The SIINEOS Management Console opens. Operating Instructions HUB-EN200... -
Page 24: Checking The Siineos Version
Two variants are available: • The complete software package for the gateways and modules, such as the HUB- GM200 or the HUB-EN200 • The light version without Docker containers with a smaller file size for the HUB-IO100 When the download is complete, go to the System page in SIINEOS and select Updates. -
Page 25: Managing Licences
Once the licence period has expired, you can either continue working with the currently installed version of SIINEOS or you can purchase another licence from in.hub to benefit from the further development and product improvement of SIINEOS. - Page 26 Enter the Name of the device, select the Device Type and enter the MAC address of the device. The MAC address can be found via SIINEOS > Networks > Ethernet 1. NOTE: Only the MAC address of Ethernet 1 is recognized and accepted. Click on Add. The License activation page opens: Operating Instructions HUB-EN200...
- Page 27 First steps with SIINEOS License activation Copy the name of the voucher you received from in.hub into the Voucher field. Click on Next. The information stored in the voucher, such as the term, product and validity, etc., will be displayed.
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Page 28: Adding A Licence File To Siineos
Navigate to the I/O management page and select the I/O unit HUB-EN200 that has already been created; – or – if the I/O units page is still empty, create a new I/O unit of the HUB-EN200 type. Operating Instructions HUB-EN200... - Page 29 SENS-CUR600: 6000 Load resistance: The entered default value of 6 indicates the internal resistance of the HUB-EN200 and is purely informative. The value should only be changed in consultation with in.hub. Mains connection mode: Select whether a single-phase network or a 3-phase net- work is connected.
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Page 30: Configuring The Signals Of The Hub-En200
First steps with SIINEOS Click on Save. 5.7. Configuring the signals of the HUB-EN200 In the SIINEOS of the HUB-EN200, navigate to I/O management > I/O units and select the created HUB-EN200. Click on Signals. The signals for all channels of the HUB-EN200 have already been created. -
Page 31: Saving The Signal Settings Of The Hub-En200 As A Modbus Device Profile
5.8. Saving the signal settings of the HUB-EN200 as a Modbus device profile Creating a Modbus device profile is useful if you want to integrate the HUB-EN200 into a master gateway via a Modbus client, e.g. if you want to integrate the HUB-GM200. This allows you to export the entire HUB-EN200 profile including all signal settings as a JSON file and import it into the Modbus client of the master gateway. - Page 32 SIINEOS of the master gateway and navigate to I/O management. Open the Modbus client that you have created for communication with the HUB-EN200. Device settings for the Modbus client (example) Click on Import Modbus device profile and select the JSON file you downloaded earlier.
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Page 33: Typical Use Cases In Practice
6. Typical use cases in practice The following chapter explains the typical application options for a HUB-EN200. This mod- ule is very versatile and can be used on its own, in an in.hub system or in a third-party system. Find out in which different scenarios the device can be used and which basic tasks are necessary to work with the HUB-EN200. -
Page 34: Internal Data Collection And External Data Evaluation
Typical use cases in practice 6.2. Internal data collection and external data evaluation CASE 2: The HUB-EN200 is individually installed and has its own power supply. A higher- level ERP/MES system collects the data from the connected peripheral devices, where it is processed and visualized using the applications there. -
Page 35: Data Collection With Several Hub-En200S And Data Evaluation On A Master Gateway
6.3. Data collection with several HUB-EN200s and data evaluation on a master gateway CASE 3: The HUB-EN200 is individually installed, has its own power supply and is connec- ted via the network to an in.hub master gateway, such as the HUB-GM200. The HUB-EN200 forwards the data from the connected peripheral devices to the master gateway, where it is collected, processed and visualized. - Page 36 Open the Grafana app, log on to Grafana (with admin/admin) and start the basic in.hub dashboard; – or – create your own dashboard and select the signals that are to be visualized. 10. You can repeat the steps for each additional HUB-EN200 to obtain data from multiple devices. Operating Instructions HUB-EN200...
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Page 37: Data Collection With Several Hub-En200S And External Data Evaluation
6.4. Data collection with several HUB-EN200s and external data eval- uation CASE 4: Each HUB-EN200 is individually installed, has its own power supply and is connec- ted via the network to an in.hub master gateway, such as the HUB-GM200. The HUB-EN200 forwards the data from the connected peripheral devices to the master gateway. -
Page 38: Connection To The Backplane Bus Of The Master Gateway And Internal Data Evaluation
Backplane bus interface. The HUB-EN200 is then automatically supplied with power. In SIINEOS on the HUB-EN200, add an I/O unit of type HUB-EN200 in the I/O manage- ment and make changes to the Device settings as required, e.g. under Backplane bus When using multiple HUB-EN200s, enter a separate Backplane bus ID for each device. -
Page 39: Connection To The Backplane Bus Of The Master Gateway And External Data Evaluation
Backplane bus interface. The HUB-EN200 is then automatically supplied with power. In SIINEOS on the HUB-EN200, add an I/O unit of type HUB-EN200 in the I/O manage- ment and make changes to the Device settings as required, e.g. under Backplane bus Activate the signals of the current sensors you would like to use in the I/O manage- ment and configure them. -
Page 40: Technical Data
139 mm × 100 mm × 25 mm Weight 150 g Ambient conditions Temperature range Storage: –40°C to 85°C Operation: 0°C to 50°C Humidity Storage: 10% to 95% RH, non-condensing Operation: 20% to 90% RH, non-condensing Operating altitude Max. 2,000 m above sea level Operating Instructions HUB-EN200... - Page 41 SIGNL4: Forwarding of alarms to the SIGNL4 cloud I/O interfaces to third-party sys- S7 PLC client: Connector for the Siemens® S7 con- tems/devices troller Sensirion SPS30: Temperature and humidity sensor TBEN-S1-8DIP: TBEN module from TURCK® TBEN-S2-4AI: TBEN module from TURCK® Operating Instructions HUB-EN200...
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Page 42: Specification Of The Ct1 And Ct2 Interfaces
400 V (phase–phase), 50 or 60 Hz 3-phase low-voltage network 3-phase, 4-wire system with max. 253 V / max. 440 V nominal voltage (L–N/L–L) Overvoltage category 300 V CAT III Sampling frequency 8 kHz Bandwidth 1 … 2000 Hz Resolution 16 bit Operating Instructions HUB-EN200... -
Page 43: Usb Interface Specifications
7.4. Backplane bus specification Backplane bus Voltage on the backplane bus Voltage of the power supply unit minus 0.5 V Switchable in the signals of the master gateway Communication Modbus RTU Max. number of additional mod- ules on one master gateway Operating Instructions HUB-EN200... -
Page 44: Measurements And Associated Modbus Registers
42 (INT16) [var] 420+421 (FLOAT) [var] Reactive power L3 43 (INT16) [var] 430+431 (FLOAT) [var] Voltage L1 21 (INT16) [V] 210+211 (FLOAT) [V] Voltage L2 22 (INT16) [V] 220+221 (FLOAT) [V] Voltage L3 23 (INT16) [V] 230+231 (FLOAT) [V] Operating Instructions HUB-EN200... -
Page 45: Schematic Diagram
Technical data 7.6. Schematic diagram Dimensions of the HUB-EN200 in mm Operating Instructions HUB-EN200... - Page 46 This document is available in electronic form in the download portal of in.hub. Printed versions or copies not explicitly provided by in.hub are deemed uncontrolled. The original language of this document is German. Made in Germany. Service & Support: service@inhub.de https://community.inhub.de/...
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