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Summary of Contents for Growatt ShineSEM-XA
- Page 1 ShineSEM-XA Smart Energy Manager User Manual...
- Page 2 Notice All products, services and features are stipulated by the contract made between Growatt and the customer. All or part of the products, services and features described in this document may not fall under the scope of purchase or usage.
- Page 3 Change history Version 01 Update homepage image; Update the size diagram of the inner appearance page. Update operation identification diagram. Update operation description content. Update contact information. Version 00 First release...
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Page 4: Table Of Contents
Table of Contents 1 Product Profile................1 Intended use ......................1 Appearance ......................2 Internal structure ....................3 1.3.1 Data collector LED indicators ................4 1.3.2 Air switches ...................... 6 1.3.3 Energy meters ....................6 1.3.4 AC Sampling Input Terminal Block .............. - Page 5 6 web interface................22 Introduction to the web interface ..............22 PC direct access to built-in web interface ............22 Accessing the built-in web interface through the router ........ 23 6.3.1 Viewing the Router IP Field ................23 6.3.2 PC access to ShineMaster4G-X built-in web interface via router ....
- Page 6 BLE Module ......................42 RF Bands of the 4G Module ................42 Output Power of the 4G Module ................ 42 Description of models ..................43 8 Contact us ................44...
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Page 7: Product Profile
1 Product Profile 1.1 Intended use ShineSEM-XA is an energy management device for photovoltaic subarrays and energy storage applications, with a built-in ShineMaster-X data collector, supporting device data acquisition, protocol conversion, energy management and edge computing, as well as a variety of networking and electrical and environmental protection. -
Page 8: Appearance
1.2 Appearance 432mm 352mm Figure 1.3 ShineSEM-XA dimensions and interface wiring terminal descriptive Lan/4G_ANT Connect Ethernet cable/4G antenna cable Connecting the 1st RS485/ShineMaster-X RS485_1/24V_IN/DRM Auxiliary 24V Power Supply/DRM Cable RS485_2/DI/AI/DO Connecting the 2nd RS485/DI/AI/DO cable RS485_3/CAN Connecting the 3rd RS485/CAN cable... -
Page 9: Internal Structure
1.3 Internal structure SET EST Figure 1.4 Schematic diagram of the internal structure of ShineSEM-XA Designation Description Data collector to realize data collection, collector protocol conversion and other functions. Built-in power meter for AC voltage and wattmeter current data acquisition. -
Page 10: Data Collector Led Indicators
Figure 1.5 Schematic diagram of the internal structure of ShineSEM-XA Figure 1.6 Schematic diagram of ShineSEM-XA LED status indicators... - Page 11 Designation Description Normally off: The power supply works abnormally; Power status indicator Normal light: Power supply works normally. Always off: Bluetooth is not enabled; 1S blinks 1 time, goes out 1 time: Bluetooth is enabled, but not Bluetooth status indicator connected to the cell phone APP;...
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Page 12: Energy Meters
This product has a built-in air switch. Before initial installation and before servicing, make sure that the switch handle is in the downward-facing disconnected state. With the switch in the disconnected state, all other equipment inside the product is electrically isolated from the AC input to ensure the safety of the operator. -
Page 13: Ac Sampling Input Terminal Block
The external voltage sampling cable is plugged into the AC Sampling Terminal connector for voltage sampling by the built-in meter. Figure 1.9 AC Sampling Input Terminal Diagram This product provides 3 RS485 interfaces to communicate with external devices. In order to meet different connection methods, two types of terminals, RJ45 and crimp terminals, are designed: Figure 1.10 Diagram of RS485 terminal block Ø... -
Page 14: Ct Selection
Figure 1.11 Schematic diagram of CT terminal block The RJ45 connection method and the crimp terminal Ø connection method cannot be used at the same time. The RJ45 terminal can only be connected to current-type CTs Ø with a secondary-side current of 40mA specification. The crimp terminals can be connected to current-type CTs with Ø... -
Page 15: Unpacking
4G Antenna collector with 4G communication, 1pcs. Plastic Expansion Tube For wall mounting ShineSEM-XA, 2pcs. M6 Ground Screw For ShineSEM-XA box ground wire, 1pcs. M6 self-tapping screws For wall mounting SEM-XA, 2pcs. user manual ShineSEM-XA paper user manual, 1pcs. Case Key ShineSEM-XA Product Case Latch Key, 2pcs. -
Page 16: Installation Of 3
Installation of 3 Referring to the tracing method in the figure below, drill holes in the selected wall and insert plastic expansion plugs, raise the main body of the Smart Energy Manager and align the wall holes with the expansion plug holes so that the Smart Energy Manager will be close to the wall and remain stable, insert self-tapping screws through the wall holes into the expansion tubes, and then use a screwdriver to lock the screws completely, and the installation of the Smart... -
Page 17: Cable Connections
4 Cable Connections Please read this manual carefully for product information and Ø safety precautions before installation. Ø Only qualified and trained technicians who have a thorough understanding of the PV system, the grid system, the operating principles of the battery system and national/local standards should operate the battery system. -
Page 18: Rs485 Wiring (Rj45 Connector)
Figure 4-2 Two types of RS485 wiring methods The RS485 connection of the Smart Energy Manager provides three RS485 wiring ports, RS485_1, RS485_2, and RS485_3. In the RS485 cable laying, power cables, power cables and Ø communication cables must be placed in a different line ditch to avoid power lines and other cables long distance parallel lines, reduce the output voltage transient cross electromagnetic interference. -
Page 19: Rs485 Wiring (Crimp Terminal)
Figure 4-3 Waterproof connector string wire Align the crystal head with the corresponding RJ45 holder and insert it in the direction of the arrow until you hear the snap in place. If you need to make the crystal head cable on site, you need to connect the cable according to the wiring sequence shown in the diagram, and it is recommended that you use Cat 5e or higher specification network cable and shielded crystal head: Figure 4-4 RS485 wiring - RJ45... -
Page 20: Ct Wiring
Strip the insulation layer of the cable, the length of the bare metal wire is 9~10mm, align the tool with the corresponding crimp terminal's lever, press down in the direction of the arrow, then insert the metal wire into the corresponding jack until the bottom (if it is a hard wire, no need to press the lever, it can be directly inserted into the jack), if you need to take out the cable, you will need to use a tool to press down on the terminal's lever to take it out:... -
Page 21: Ct Wiring (Crimp Terminal)
Figure 4-9 CT wiring-RJ45 Ø The CT terminal block of the ShineSEM-XA consists of CT1-, CT1+, CT2-, CT2+, CT3-, and CT3+ signal poles. The definition of CT polarity for different brands may be "S1"... -
Page 22: Ac Wiring
Strip the insulation layer of the cable, the length of the bare metal wire is 9~10mm, align the tool with the corresponding crimp terminal's lever, press down in the direction of the arrow, then insert the metal wire into the corresponding jack until the bottom (if it is a hard wire, no need to press the lever, it can be directly inserted into the jack), if you need to take out the cable, you will need to use a tool to press down on the terminal's lever to take it out:... -
Page 23: Can Signal Wiring
It is recommended to use cold-rolled terminals to process the wire before accessing the terminal, terminal screws need to be used to adapt to the M4 screw screwdriver for fastening, fastening force 1.2N-m. Ø Please connect the wires in strict accordance with the labeling sequence of the phase and zero wires, otherwise it may lead to inaccurate metering or even damage to the equipment. -
Page 24: Drm Signal Wiring
According to Australian standards, the inverter must comply with Demand Response Mode (DRM), the ShineMaster4G-X data collector provides a DRM interface, and it is recommended to use a cable with a cross-sectional area of 0.5mm -1.5mm . The DRM controller is wired to the ShineMaster4G-X as shown in the following figure. -
Page 25: Do Wiring
8-10mm Figure 4-15 DI Signal Wiring The DO signal of ShineMaster4G-X is a passive dry contact signal, and the port supports a maximum signal voltage of 12V, which can control the start/stop of diesel engine, etc. ShineMaster-X provides 2-channel DO interfaces, NC/COM is a normally-closed contact, and NO/COM is a normally-open contact. -
Page 26: Ai Wiring
ShineMaster4G-X can access the AI signals of environmental sensors through the AI interface, signal range 0~20mA(3 ways)/0~10V(1 way), the recommended signal transmission distance is not more than 10m, and it is recommended to use the cable with the cross sectional area of 0.5mm -1.5mm . 8-10mm Figure 4-17 AI Signal Wiring ShineMaster4G-X supports 4G networking and requires a 4G antenna and SIM card. -
Page 27: System Operation
5 System operation The following items need to be checked before the Smart Energy Manager is powered up and running: Ø Is the installation secure and in place; Wiring is reliable and accurate; Ø Whether the power supply alignment and signal alignment meet the Ø... -
Page 28: Web Interface 6
web interface 6 Ø This manual applies to ShineMaster4G-X software version V1.0.6.0,please contact after-sales for the history version. NOTICE The ShineMaster4G-X data collector built into the Smart Energy Manager has a local web interface function, which allows you to access the built-in page via either a static IP or a dynamic IP to set up or modify the parameters of the device. -
Page 29: Accessing The Built-In Web Interface Through The Router
The ShineMaster4G-X data collector built into the Smart Energy Manager has a static IP by default (default IP: 192.168.0.254). You need to use a PC to connect directly, access the web interface through a static IP and set ShineMaster4G-X to get IP automatically, and the PC is also set to get IP automatically. -
Page 30: Pc Access To Shinemaster4G-X Built-In Web Interface Via Router
You can access the ShineMaster4G-X built-in web interface by typing 192.168.0.254 in the search bar of your PC browser. After successfully accessing the built-in page of ShineMaster4G-X, users need to log in to modify or set the parameters, as shown in the figure below: Figure 6-4 Built-in web login in Input user name and password, default login user name: admin, password: admin, fill in and click login to enter ShineMaster-X system page:... -
Page 31: Viewing System Information
After successfully accessing the ShineMaster-X system page, users can click [System Information] to view "Product Information", "Device List", "Communication Information", and so on. information; ShineMaster4G-X serial number, software version and Product Information other information Device List Registered device information and online information network information Detailed information on wired and 4G networks RS485-1, RS485-2, RS485-3, RS485-4 Setting... - Page 32 Figure 6-7 Select and Submit Select or fill in the parameters in the pop-up window: The channel selection "RS485_1" indicates that the device is connected to the Ø first channel interface of RS485; Selecting "Inverter" for Type indicates that the type of device to be connected is Ø...
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Page 33: Deleting Equipment
Ø and the address range of the inverter is 1-254. NOTICE Device types can be English name Description added inverter INVERTER GROWATT inverters SDM630MCT Donghong three-phase meter SHNT-DTSU666 Astronergy three-phase meter ACREL meter Anchoray Electricity Meter wattmeter DTSD719-B10 Kolu High Voltage Meter... -
Page 34: Network Setup
After successful deletion, a pop-up message "Delete device successfully! Click "Query" again to check whether the deletion is successful. Figure 6-10 Successful deletion When you need to use the remote monitoring function of ShineMaster-X, you need to set up its network. Under normal circumstances, the network parameters have been set up at the factory, and you can run it according to the default configuration. -
Page 35: Server Address Settings (Default Is Fine)
[System Settings], the sidebar select [Server] > [Growatt Net Manage]. <Is it on> drop down to select on;... -
Page 36: Power Regulation Settings
After setting up, you need to submit and restart the collector for it to take effect. The 1min interval can only be used for testing purposes. Ø NOTICE When power control is enabled, you need to add the meter accessed by the collector, select the first level menu [Device Management], select [Meter] ->... -
Page 37: Meter Configuration
When the power control function is enabled, it is necessary to configure the meter accessed by the collector, and the operation of configuring the meter is as follows: Select the first-level menu [System Settings], and choose [Power Regulation] > [Energy Management] > [Meter Configuration] in the sidebar. Select the meter corresponding to the channel and address. -
Page 38: Dvanced Settings
Ø <Export Power Parameter> Enable and enter the power allowed to be fed into the grid; <Demand Management Parameter> Enable, Enter Grid Draw Power: to set the Ø maximum power value (load + battery charging power) that the system is allowed to draw from the grid, mainly to prevent the power (load + battery charging) from being too large, which may cause damage to the transformer at the site or trigger the protection of the protection device. -
Page 39: On-Grid Soc Parameters
Figure 6-18 Advanced Settings <Energy Storage Full SOC> When the average system battery charge reaches Ø the set storage full SOC, charging stops. <On-Grid discharge stop SOC> When the average system battery charge Ø reaches the set grid-connected discharge cutoff SOC, discharge is stopped. Ø... -
Page 40: Tou Mode Setting
TOU mode mainly sets the working mode of the energy storage machine in different time periods, the operation is as follows: select the first level menu [System Settings], the sidebar select [Power Adjustment] > [TOU Settings]. The TOU mode can be selected as the default mode, in the time period when no specific mode is set, the system is running according to the default mode, the default mode is as follows. -
Page 41: Third-Party Client Access Settings
The TOU mode allows you to select a specific mode, and the specific mode settings are as follows: Ø <Weekly Mode Setting> 9 time period settings to set different time ranges of operating modes as required for on-site applications. Ø <Annual Mode Setting>... -
Page 42: Modbus Tcp Connection Settings
Figure 6-21 Third-party client access Ø <Connection Enable> has three options: Disable, Enable (Restricted), Enable (Unrestricted) Disable: Default option, disables Modbus TCP connection and prohibits third- Ÿ party clients from connecting to the ShineMaster-X server. Ÿ Enable (Restricted): Only the set client IPs are allowed to connect to the ShineMaster-X server. -
Page 43: Iec104 Connection Settings
Ø <Connection Enable> has three options: Disable, Enable (Restricted), Enable (Unrestricted) Disable: default option, disables the connection of IEC104 and prohibits third- Ÿ party clients from connecting to the ShineMaster-X server.104 function supports the export of point tables for inverters and other devices currently configured within ShineMaster-X. - Page 44 Figure 6-25 Show power station relationship Example of station relationship configuration. Grid Server Transformer Transformer Generator ShinePhone Router Meter_3 Switch Meter_1 NetworkSwitch Load Meter_2 Load ShineMaster-X Wireless RS485 Figure 6-26 Power station topology...
- Page 45 Configuration steps. 1. Determine meter type From "Fig. X Power Station Topology Schematic", it can be seen that meter 1 is the load-side meter, meter 2 is the energy storage-side meter, and meter 3 is the load-side meter. 2. Adding Meter Equipment Add the three meters to the equipment list first.
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Page 46: Problems And Solutions
3. Adding a power station relationship Select the meter device to be added and choose the meter type Figure 6-29 Power station nodes Results after the configuration of the power station relationship is completed Figure 6-30 Power station relationships Just confirm and save. If the interface is not refreshed for a long time after clicking Ø... -
Page 47: Specifications And Model Descriptions
7 Specifications and Model Descriptions General parameters Parameter Description Note model number ShineSEM-XA-R Dimension(W*H*T) 352x352x110(mm) Weight (bare metal net 8.7kg weight) Operating Temperature -30~60℃ Range Rated voltage: three-phase, four- Sampling/supply voltage 220V/380VAac, 230V/400VAac wire (4-wire) relative humidity 5%~95% RH highest altitude... - Page 48 Parameters Specifications Note Frequency Band 2402-2480MHz Output Power 0dBm ±2dBm Frequency Band Uplink (UL) operating Downlink (DL) operating GSM EGSM900 880~915 MHz 925~960MHz GSM DSC1800 1710~1785MHz 1805~1880 Mhz WCDMA B1 1920~1980 MHz 2110~2170 Mhz WCDMA B5 824~849 MHz 869~894 Mhz WCDMA B8 880~915 MHz 925~960 Mhz...
- Page 49 Frequency Band Standard Value(Unit: dBm) Remarks (Unit:dB) FDD B1 ±2.7 FDD B3 ±2.7 FDD B5 ±2.7 FDD B7 ±2.7 TDD B8 ±2.7 FDD B20 ±2.7 TDD B38 ±2.7 TDD B40 ±2.7 TDD B41 ±2.7 Note: Equipment meeting Class A requirements may not offer adequate protection to broadcast services within a residential environment .
- Page 50 Contact us 8 Growatt New Energy provides customers with comprehensive technical support. Users can contact the nearest Growatt New Energy office or customer service point, or directly contact the company's customer service center. Shenzhen Growatt New Energy Co., Ltd. 4-13/F, Building A, Sino-German (Europe) Industrial Park, Hangcheng Blvd, Bao'an District, Shenzhen, China service@growatt.com...
- Page 51 Download Manual Shenzhen Growatt New Energy Co., Ltd. 4-13/F, Building A, Sino-German (Europe) Industrial Park, Hangcheng Blvd, Bao'an District, Shenzhen, China service@growatt.com en.growatt.com For local customer support, please visit https://en.growatt.com/support/contact GR-UM-433-A-01 (PN:044.0134001)
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