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Get the most out of energy
Data Manager M
Future-proof communication for decentralized PV systems
In combination with the new Sunny Portal powered by ennexOS, the Data Manager M optimizes communication, monitoring and control of PV systems with up to 50 SMA devices. Based on the new IoT platform for energy management, ennexOS from SMA, the Data Manager M not only replaces the SMA Cluster Controller, but its expandability also means that it is already well-equipped to handle the new business models of the energy market of the future. For example, it is the ideal professional system interface for electric utility companies, service technicians and PV system operators.
Particularly impressive is its innovative and highly efficient user interface, which has been standardized for both Data Manager M and the new Sunny Portal powered by ennexOS. A range of intuitive assistance functions for the Data Manager M, inverters and Sunny Portal powered by ennexOS significantly reduce the amount of time involved in commissioning and parameterization.
The basic scope of functions and interfaces offered by the new Data Manager M is coordinated with the associated functions in Sunny Portal powered by ennexOS and adapts to future requirements incrementally. Thanks to its modular design and systematic support of industrial standards such as Modbus/TCP, systems can be expanded to include additional components such as I/O systems or energy meters, from either SMA or other suppliers.
Your benefits
Fast and simple
Quick and intuitive commissioning including Sunny Portal registration
Simple integration of I/O systems and energy meters
Future-proof and flexible
Can be flexibly expanded to satisfy new requirements and changing customer needs via software expansion packs
Provides a gateway to the rapidly changing energy market of the future
Reliable and convenient
Complies with international grid integration requirements
Detailed analytics, alert system and reporting
Lowest risk solution
Secure remote monitoring and control of all connected components
SMA recently named the #1 global provider of monitoring and energy management solutions by Navigant and GTM Research
Monitoring & Control powered by ennexOS
The Data Manager M and the new Sunny Portal powered by ennexOS are perfectly coordinated with each other. This not only makes it easier to monitor, analyze, parameterize and manage PV systems, but also helps save time and money.
Standardized user interface
Seamless remote parameterization
Easy overview of entire portfolio
Quick and direct online identification and troubleshooting
Easy structuring of PV systems according to individual needs
Standard pages for monitoring, analysis and parameterization allow you to work efficiently and help you save time managing your systems.
Learn more about Monitoring and Control in the new Sunny Portal powered by ennexOS.
I/O Systeme von MOXA and Wago
The preconfigured MOXA and Wago I/O systems available from SMA are perfectly coordinated with the new IoT energy management platform ennexOS and can be easily integrated into a system. Thanks to its high level of flexibility, the system can meet changing customer requirements at any time, for example, if there are any changes in legal or normative requirements.
Basic device information and system diagram
Data Manager M
Release Notes
Available features (as of release 1.4.x) | Release Q4 2019* | Future releases* | Comments | ||
| General | |||||
| Number of supported devices | 50 | ||||
| Local admin account and access with Sunny Portal user account | |||||
| Interfaces | |||||
| RS485 | For Modbus/RTU devices (e.g., non-SMA inverters with Modbus Sunspec) | ||||
| Digital Input | |||||
| Ethernet | |||||
| USB | Exclusively used for importing manual updates | ||||
| Communication | |||||
| Inverter fieldbus | Fast Ethernet (Speedwire) 100 Mbit/s | ||||
| Network (LAN) | Fast Ethernet 100 Mbit/s | ||||
| WLAN | WPA2, peer-to-peer connection for commissioning & service purposes | ||||
| Live data in the Sunny Portal powered by ennexOS | Data currently uploaded every 5 mins | ||||
| Communication protocols | |||||
| SMA Data 2+ - Speedwire | |||||
| SMA Data 1 - RS485 (via SMA Com Gateway) | |||||
| SMA Energy Meter protocol | |||||
| DHCP server for fieldbus | Disconnection of the SMA system network from LAN | ||||
| EEBus client | |||||
| Integrated webserver | |||||
| Modbus server SMA profile (system level) | Modbus profile for unit ID 1 and 2 compatible with SMA Cluster Controller | ||||
| Modbus server SMA profile (device level) | Subdevices can be queried directly (no separate networks) | ||||
| Modbus client support for Sunspec | The following Sunspec models are supported: General: 1,11,12 PV inverters: 101,102,103,120,121,122,123,126,127,128,129,130,131,132,160 E-meters: 201,202,203,204,211,212,213,214 Important: To find out which functions of the devices to be connected are av | ||||
| FTP push client | (daily, hourly) | (15 mins) | XML export identical to the SMA Cluster Controller format | ||
| Modbus/RTU for energy meter via RS485 | |||||
| Parameterization | |||||
| Remote configuration of devices (SMA components) | Via Sunny Portal powered by ennexOS | ||||
| Assistant for system-wide parameterization; parameter comparison (local and remote) | Via Data Manager M and Sunny Portal powered by ennexOS | ||||
| Parameterization via Modbus Sunspec | Provided parameterization is supported by the respective device | ||||
| Updates | |||||
| Update via SMA Update Portal and USB (Data Manager M) | |||||
| Update via SMA Update Portal and USB (SMA components) | |||||
| Energy monitoring | |||||
| Supports multiple energy meters | |||||
| Supports any Modbus/TCP energy meter | Registration with individual Modbus/TCP registers | ||||
| Supports any Modbus/RTU energy meter | Registration with individual Modbus/RTU registers | ||||
| Representation of systems with batteries | |||||
| Representation of diesel generators | |||||
| Representation of non-SMA inverters | Via Modbus Sunspec, energy meter or manual input | ||||
| Energy management | |||||
| Modbus interface with direct selling | With external VPN router | ||||
| Integrated direct selling (SMA SPOT) | |||||
| Peak load shaving with SMA STPS60 | In conjunction with Inverter Manager | ||||
| Simple control for increased self-consumption with battery systems (STPS60) | In conjunction with Inverter Manager | ||||
| Simple control for optimizing battery systems with time-of-use electricity tariff (STPS60) | In conjunction with Inverter Manager | ||||
| EEBus – HVAC support | |||||
| EEBus – e-mobility support | |||||
| Grid management services | |||||
| Assistant-led setting of grid management services | |||||
| Fast stop via digital input | Five digital inputs integrated in EDMM – one reserved for fast stop | ||||
| Active power setpoint via digital signals | Five digital inputs integrated in EDMM – four for active power limitation | ||||
| Active and reactive power setpoints via Modbus/TCP | Via SMA Modbus profiles | ||||
| Active and reactive power setpoints via Modbus/RTU | |||||
| Connection of the Janitza UMG 604 energy meter | |||||
| Connection of the SMA Energy Meter | |||||
| Connection of the Modbus/RTU energy meters Elkor WattsOn Mark II and measurlogic DTS 307 | |||||
| Active and reactive power setpoints via IEC 60870-5-104 | Already possible today together with Wago PFC200 (IEC60870<->Modbus) | ||||
| Active and reactive power setpoints via digital or analog signals | Together with MOXA ioLogik E1242 or WAGO 750 | ||||
| Feedback on active and reactive power setpoints via digital and analog outputs | (analog outputs) | (digital outputs) | Together with MOXA ioLogik E1241 (analog outputs), E1242 (digital outputs) or WAGO 750 series | ||
| Active power control (including zero export) | Negative active power setpoint also possible with manual control | ||||
| Adjustable fallback behavior for missing setpoints/measured values | |||||
| Adjustable ramp-up rate for active power | (identical ramps for up & down) | (different ramps) | |||
| Voltage-dependent active power control | |||||
| Frequency-dependent active power control P(f) | Currently implemented in the inverter; in the Data Manager M in Q4 | ||||
| Operation with constant cos phi | |||||
| Voltage-dependent reactive power control (Q(U)) | |||||
| Active power-dependent reactive power control (Q(P)) | |||||
| Active power-dependent control of cos phi (CosPhi(P)) | |||||
| Reactive power control |
Function update June 2020
for EDMM-10 & EDMM-US-10
Expansion of the Modbus functions
- Output of further battery values via Modbus
The following battery values can now be output via Modbus:- Average state of charge of several battery inverters in [%]
- Current total charging power of all battery inverters in [W]
- Current total discharging power of all battery inverters in [W]
- Total charging power of all battery inverters in [W]
- Total discharging power of all battery inverters in [W]
- Permanent implementation of other Modbus profiles
The following devices have been added to the list of Modbus profiles that have already been permanently integrated:- Siemens PAC 2200 (Modbus/TCP meter with MID certification)
- Import and export of Modbus profiles
Thanks to Modbus, a wide variety of devices, such as inverters, energy meters or sensors, can be easily connected to the SMA Data Manager M. The firmware release 1.8 now makes it possible to export and import the generated Modbus profiles on the SMA Data Manager M. This leads to a reduction in the time required for commissioning devices of the same type.
Implementation of various communication profiles
- To allow for an optimum overview of the PV system, data are regularly transmitted from the SMA Data Manager M to the Sunny Portal. When connected via a mobile network, the amount of data can exceed the selected data tariff rates.
For greater flexibility, there will be three different communication profiles to choose from. These profiles ca be activated in the Sunny Portal.
Expanding the grid management services
- Output of cos (phi) via Modbus
Values for cos (phi) can now be output via Modbus. This includes both the obtained default values and the currently measured cos (phi) value at the point of interconnection. For this, a meter at the point of interconnection is imperative. - Active power setpoints via external digital inputs
Default active power values can now also be processed via external digital inputs for example, via the Wago 750 Bundle or Moxa ioLogic.
Update February 2020
Extended support of connected devices
Threshold based toggle of digital outputs
From now on it is possible to toggle digital outputs based on active and reactive power level of the pv plant. If there is an energy excess a digital signal can be sent to an electric load to switch on for example a heating rod or a heat pump. Hereby irreversibilities by external power curtailment setpoints can be reduced and the produced energy can be used more efficient.
Following setpoints or values can be used to toggle the digital outputs:
- Alarm in case of warning or error
- Alarm in case of error
- System active power
- System reactive power
- System active power at grid-connection point
- System reactive power at grid-connection point
- Setpoint of active power limitation
- Reactive power setpoint
- Extended possibility to connect sensors
To be able to connect sensor devices like weather stations more easy the range of connectable devices was extended by the device type „Sensor Device“. Hereby manually created modbus profiles can be added to connect for example the weather station PVMet 200 from Rainwise. The measuring data is availble locally on the Data Manager M as life data and in the Sunny Portal powered by ennexOS as data in the Analizing Tool Pro for further analyzing. Also connection of sensors to display a filling level (level in percent value) is possible by using the new Modbus device type. This measured data is currently only available locally on the Data Manager M. - Connection of Danfoss TLX and FLX pv inverters
By implementing EtherLynx and protocol it is now possible to connect Danfoss TLX and FLX inverters to the SMA Data Manager M via Ethernet wiring. Measured Data can be sent to the Sunny Portal powered by ennesOS via the SMA Data Manager M. The other way round open loop and close loop control of the inverters is also possible now. - Fix implementation of further Modbus profiles
The list of already fix intefgrated Modbus profiles was extended by following devices:- PQ-Plus UMD-705 ( 3-phase grid analyzer)
- Rainwise PVMet 200 (weather station)
Extension of grid management services
- Support of reactive power setpoints via external digital inputs
Now reactive power setpoints via external digital inputs (e.g. Wago 750 Bundle or MOXA ioLogik E1242) can be handled. Hereby it is possible to fullfill the requirements of the grid operstors more flexible. A separated installation of the SMA Data Manager M from the external I/O devices is also more easy now.
Update November 2019
Advanced support for connected devices
- Expansion of the Inverter Manager integration
- In addition to the already supported STPS 60, this release allows SMA inverter types STP 60 and SHP 75 to be connected to the SMA Data Manager M and the Sunny Portal powered by ennexOS. The devices connected to the Inverter Manager are aggregated and displayed as one device.
- Central update of connected SMA inverters
- Connected SMA inverters previously had to download available firmware updates individually. Now, the SMA Data Manager M simply downloads updates once centrally and distributes these throughout the PV system. This reduces the required data volume for systems that are connected via the mobile network to the Sunny Portal powered by ennexOS.
Advanced support for connected devices
- Connection of inverters from other manufacturers
- Implementing the Modbus Sunspec interface means that inverters from other manufacturers can now be monitored and managed using the EDMM and visualized in Sunny Portal. To support the different functions, more than 15 Sunspec data models have been integrated into the SMA Data Manager M. A connection can be established either via Modbus/TCP or Modbus/RTU.
- Support for affordable Modbus/RTU energy meters
- To expand the scope of supported devices here as well, Modbus/RTU energy meters can - in addition to the already supported Modbus/TCP energy meters - be connected to the SMA Data Manager M. The use of the generally more cost-effective Modbus/RTU energy meters is another way to optimize costs.
The following devices are directly supported:- Measurlogic DTS-307
- WattNode WNC-3Y XXX-MB
- For the connection of additional energy meters, individual Modbus profiles can be created directly in the SMA Data Manager M.
- To expand the scope of supported devices here as well, Modbus/RTU energy meters can - in addition to the already supported Modbus/TCP energy meters - be connected to the SMA Data Manager M. The use of the generally more cost-effective Modbus/RTU energy meters is another way to optimize costs.
Enhanced system security
- Speedwire Encrypted Communication (SEC)
- To enhance the security of our devices and, in turn, the entire PV system, secure encryption of the local SMA system network is now possible. The SMA Data Manager M automatically supports the activation of SEC in new systems.
Update May 2019
Grid management services
- Supports digital inputs as well as analog inputs and outputs (through MOXA & WAGO I/O systems available from SMA) for the implementation of specifications regarding cos (φ), active and reactive power and the response from control values.
- Reactive power: Open- and closed-loop control of cos (φ) already possible through constant setpoints. Specifications via Modbus and/or via analog inputs now also possible.
- Active power: Specifications via Modbus and/or via analog inputs now also possible.
- New MOXA I/O (ioLogik 1241) with four analog outputs. Soon also available directly from SMA.
(SMA order number: eIO-E1241) - New Wago 750 I/O Bundle with four analog outputs (output signal 0–20 mA).
(SMA order number: 115214-00.01) - Master/slave functionality: For the closed-loop control of large systems / systems with multiple devices, a master EDMM can control multiple subordinate slave EDMMs. Up to 50 devices or a maximum system size of 2.5 MW are supported (as before).
Data Manager M
Accessories
I/O Systems from MOXA and Wago
Compact system MOXA E1200 series for price-sensitive applications
MOXA ioLogik E1242 (4 analog inputs, 4 digital inputs, 4 digital outputs)
MOXA ioLogik E1260 (6 temperature inputs)
Modular WAGO I/O system 750 series for more flexibility
Wago 750 (8 digital inputs, 8 digital outputs, 4 analog inputs, 4 analog outputs, 4 temperature inputs)
Additional devices and protocols will be integrated on an ongoing basis via Modbus/TCP (e.g., Janitza Power Analyser UMG 604).
Data Manager M
FAQ
General information
I reset the password and administrator account of the Data Manager. Do I have to go through the entire installation assistant process and reenter all data when I log in the next time?
No. Assign the user name and password and then stop the installation assistant. The original PV system data are still there and are adopted automatically.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can several Data Managers be used in one system to map system sections, for example?
System sections can be implemented by using superordinate and subordinate system managers. In this process, all Data Managers (superordinate and subordinate) are displayed as one system in the Sunny Portal powered by ennexOS. In the Sunny Portal powered by ennexOS the system can be divided into system sections.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Do new devices need to have the same password to be automatically detected by Data Manager?
No. To be able to detect new devices, the installation assistant of the Data Manager must be started. Devices with different passwords can also be detected in the installation assistant. This way you will receive the same system (installer) password.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How can I establish communication with Sunny Portal powered by ennexOS using an intercepting proxy server in the network?
For technical reasons, only in-house certificates will be used. Certificates that could be replaced by an intercepting proxy server cannot be verified. Please contact your grid administrator to specify the exceptions for the firewall. When doing this, follow the information on the outgoing ports in these FAQs.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Why are no data displayed on the user interface of the Data Manager?
The buffer capacitor of the Data Manager's real-time clock might have discharged due to being without voltage supply for a longer time period. Make sure that the Data Manager has access to a time server on the internet to obtain a current time. You can also assign the current time of a connected web browser to the Data Manager (e.g., to interrupt the commissioning process). In this case, the time is not synchronized cyclically with a time server. Over time, this causes inaccuracies (a few seconds per day).
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
What other power supply units can I use for the Data Manager?
You can use the power supply unit of the Sunny WebBox, SMA Cluster Controller, SMA Com Gateway or the SMA Inverter Manager for the Data Manager M and Data Manager M Lite. You can generally use all power supply units that meet the specifications of the datasheet and the Data Manager manual for all Data Manager devices.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can I connect the Data Manager to an SMA Cluster Controller?
No. The products are not compatible.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can I map more than 50 resp. 30 devices in a system?
To do this, several Data Managers M must be installed in the system. The Data Manager M supports up to 50 devices (EDMM-20) or up to 30 devices (EDMM-10). At least one Data Manager M must be configured as the superordinate system manager. The other Data Managers M must be configured as subordinate system managers. In Sunny Portal powered by ennexOS, each Data Manager M must be registered separately in the system. All Data Managers M are displayed together in the system. The device overview can show which of the Data Managers M each device is assigned to.
Information:
The energy meter at the point of interconnection must be assigned to the superordinate Data Manager M.
Only a Data Manager M as a superordinate system manager can perform controlling. The Data Managers M that function as superordinate system managers are used in open-loop control mode.
I/O systems that are used to make control settings must be registered with the superordinate Data Manager M.
The Modbus interface must be activated on the subordinate Data Manager M.
On the superordinate Data Manager M, the subordinate Data Managers M must be integrated as Modbus devices.
The device assignment must be unambiguous, otherwise the balance, power and yield values will not be displayed correctly.
The total power of the system may not exceed 7.5 MVA. For larger systems, a Data Manager L must be used as the superordinate evel system manager.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
Why does it take a while until the home page of the Data Manager is set up during commissioning?
Due to internal setup processes, the start of the user interface takes a little longer once during commissioning.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
The Data Manager M supports 50 devices or 30 devices, while the Data Manager L supports 200 devices. What counts as a device?
The following devices are supported and defined as a device:
PV inverter
Battery inverter
Energy meter / power analyzer
External I/O system
External, directly communicating sensor
Weather station
Charging points (1 SMA EV Charger Business counts as 2 charging points)
Subordinate Data Manager
SMA Hybrid Controller (only Data Manager L)
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Communication
I connected the Data Manager correctly. Why am I not able to access the Data Manager via the SMA[serial number]?
Check in the settings of the router whether DHCP is enabled. If DHCP cannot be enabled, a static IP address must be assigned to the Data Manager. For this, establish a direct connection to the Data Manager via WLAN and perform commissioning (see product manual). Assign a correct static IP address to the Data Manager (ask your grid administrator).
or
Connect the Data Manager to a DHCP-capable router outside the system and carry out the commissioning. Assign a correct static IP address to the Data Manager (ask your grid administrator). Then connect the Data Manager to the router in the PV system. Now the Data Manager can be reached via the static IP address. Follow the installation assistant steps and make the settings appropriate for your system.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
I connected the Data Manager correctly and DHCP is enabled in the router. Why isn't the Data Manager always assigned the same IP address?
When the DHCP validity period expires, a new DHCP request is performed. In the process, it is possible that the Data Manager and connected devices are assigned a new IP address. We recommend using a dynamic host configuration protocol. This always assigns the same IP address to devices with a known MAC address.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
I have activated a router that sets up a class C network in the 192.168.12.xxx range. Why do network problems occur?
SMA products use the network range 192.168.12.xxx. If this network range is also used in the local network, conflicts may arise in the network. Avoid this network range for the local network. Further information can be found in the manuals for SMA products.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
I connected the Data Manager correctly and DHCP is enabled in the router. Why am I not able to access the Data Manager via the SMA[serial number]?
Depending on the web browser, the entry may be interpreted as a search entry. Enter "https://" before the access address of the Data Manager in the address bar of the web browser.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
I reset the Data Manager to the default settings. Why do I get an error message regarding an invalid certificate when I want to access the Data Manager with the web browser?
In order to save the self-signed certificate of the Data Manager in the web browser, it must initially be accepted as trustworthy in the web browser. After the Data Manager has been reset to the default settings, the web browser interprets this certificate as outdated or invalid. Delete the old certificate in the security settings of your web browser. Reconnect to the Data Manager and accept the newly offered certificate.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can each RS485 device connected to an SMA Com Gateway be used with the Data Manager?
All compatible RS485 devices connected to an SMA Com Gateway can be used with the Data Manager. With the EDMM-20, you can connect RS485 devices to the 2 RS485 inputs for communication via Modbus RTU or Data1 protocol. Once one of the inputs is assigned a specific protocol, only the other protocol can be used on the second input.
In addition, observe the restrictions listed in the FAQ section "Grid management services".
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
What data volume do I need if the Data Manager M is connected to the Sunny Portal powered by ennexOS via LTE?
In Sunny Portal powered by ennexOS, under Configuration > System properties > External access > Data communication, the frequency and amount of data to be transmitted can be specified in 3 levels (default is "high").
The following table shows the required data volume of two example systems (with the exception of updates, Webconnect, FTP-Push, SMA SPOT):
System
Profile
Firmware version < 1.10.06.R
10 x Sunny Tripower CORE1
1 x SMA Energy Meter (@ 200 ms)
High
400 MB/month
Medium
140 MB/month
Low
10 MB/month
49 x Sunny Tripower CORE1
1 x SMA Energy Meter (@ 200 ms)
High
410 MB/month
Medium
150 MB/month
Low
10 MB/month
If the data transfer rate is below that of the standard LTE connection (e.g., due to used up data volume), all Data Manager services can no longer be guaranteed.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
What maximum data volumes can be expected for PV farms?
Every five minutes, the Data Manager L / SMA Power Plant Manager transmits the system data to the Sunny Portal powered by ennexOS. The expected data volume of 60 inverters is up to approx. 500 MB/month. The estimated data volume for 9 inverters is up to approx. 200 MB/month. If the data transfer rate is below that of the standard LTE connection (e.g., due to used up data volume), all Data Manager services can no longer be guaranteed.
[SMA Data Manager L (EDML-10)]
Do Field Data Management or Remote Service have any special requirements regarding internet connection?
If Field Data Management is activated, a higher data volume of approximately 200-600 MB/day can be expected. Very detailed information is transmitted using a high data rate. An Internet flat rate with an upload rate of at least 1 Mbit/s is recommended. If a firmware update is downloaded via the Remote Service, this is approximately 150 MB per update file.
[SMA Data Manager L (EDML-10)]
Which ports must be open to operate the Data Manager with the Sunny Portal powered by ennexOS?
In more complex systems, the activation of outgoing ports may be necessary and should be carried out by the network administrator. Incoming ports do not need to be activated.
FTP push: Port 21 (FTP)
Updates: Port 80 and 443 (http/https) / update.sunnyportal.de
Time synchronization with Sunny Portal (if not provided by the Internet router): Port 123 (NTP) / ntp.sunny-portal.com
Data transmission: Port 443 (https/TLS) / ldm-devapi.sunnyportal.com
User interface: Port 443 (https/TLS) / ennexos.sunnyportal.com
SMA Webconnect 1.5, SMA SPOT and SMA Live-View: Port 9524 (TCP) / wco.sunnyportal.com
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How can I set up a VPN connection?
Since VPN connections often cause display errors and functional restrictions, contact your administrator if there are any problems.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Which IP configuration should I use for Modbus devices?
For Modbus devices, either static DHCP or static IP addresses are recommended so that the IP addresses do not change during operation. The static DHCP can be set in the router (the MAC address always receives the same DHCP address). A static IP address can be specified in the respective device (must not be in the router's DHCP address range).
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
What update rates are used for monitoring the connected devices?
The following query rates apply for reading out devices connected to a Data Manager M:
Devices
Query rates
Speedwire devices
1 second for active and reactive power
5 seconds for remaining measured values
30 seconds for parameters
100 ms for default values
Modbus/TCP inverters
1 second for active and reactive power
5 seconds for remaining measured values
30 seconds for parameters
100 ms for default values
SMA Data1 inverters (RS485)
10 seconds to several minutes for measured values (depending on system size)
30 minutes for parameters
10 seconds to 30 seconds for default values (depending on system size)
Modbus TCP energy meter / power analyzers
200 ms or 1000 ms for P/Q measured values (depending on device type)
5 seconds for additional measured values
Internal digital inputs (Data Manager)
• Automatic switching to backup in only approx. 100 milliseconds
External I/O systems
1 second for measured values
100 ms for output values (Wago, Moxa per Modbus TCP)
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
Energy meter / power analyzers
I want to change the data transfer rate of the SMA Energy Meter from 1000 ms to 200 ms to obtain higher control dynamics. Can the Data Manager handle this?
The data transfer rate is automatically set to 200 ms by the Data Manager if the meter used is used as a meter at the point of interconnection.
Nevertheless, to adjust the data transfer rate of the SMA Energy Meter, you have to log in to the user interface of the SMA Energy Meter with the user group Installer (see the SMA Energy Meter manual). The remote configuration of the SMA Energy Meter is not possible for safety reasons.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
I connected a UMG 604-PRO power analyzer from Janitza electronics GmbH to the Data Manager. Will the data from the further power analyzers (acting as subordinate devices) connected via RS485 also be transmitted?
This is possible with some restrictions (see the technical information "SMA Data Manager M / L - System control with two measuring devices" at www.SMA-Solar.com).
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How can I configure an energy meter / grid analyzer at the point of interconnection?
In order to add new devices to the Data Manager, the devices have to be in operation and located in the local grid. Make the following settings on the user interface of the Data Manager:
Select the menu item Device administration in the Configuration menu. Select the
button.
Select Modbus devices and confirm with [Next].
Enter the device data and confirm with [Next].
Select the device and select [Save].
Select the Meter configuration menu item in the Configuration menu.
Select the new device as grid feed-in and purchased electricity meter.
Click on [Save].
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Which energy meter / power analyzer can I connect to the Data Manager?
You can connect suitable energy meters / power analyzers to the Data Manager by using the local grid. Furthermore, all energy meters / power analyzers that have a Modbus TCP interface can be connected (for a list of supported devices, refer to the Data Manager manual and the manufacturer's declaration at www.SMA-Solar.com). The measured data are displayed in real time as a list view in the Data Manager. The data can be displayed with a delay as curves in the Sunny Portal powered by ennexOS.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How many energy meters are supported at the point of interconnection?
Exactly 1 energy meter is supported at the point of interconnection. This is used both for monitoring and energy balance and for open-loop control / closed-loop control at the point of interconnection.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Where is the energy meter / power analyzer connected?
The energy meter / power analyzer is connected to the grid operator at the point of transfer:
for low-voltage installations (e.g., according to VDE AR-N 4105), at the low-voltage point of common coupling
for medium-voltage installations (e.g., according to VDE AR-N 4110), on the medium-voltage side of the transformer (current and voltage converters must be connected on the medium-voltage side with the same wiring diagram)
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can a data concentrator be used for several energy meters?
No, that's currently not possible. Each device used can represent only one system device. Modbus TCP data concentrators that map, for example, several energy meters to different Modbus register ranges or unit IDs can only be used for a single system device. Data concentrators that are connected via Modbus RTU and map multiple devices via different unit IDs could be used for this function. Currently, there are no known data concentrators that operate in this mode.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
External I/O systems
I correctly connected a compatible I/O system by WAGO to the router. Why is the I/O system by WAGO not visible in the router's device overview?
It is possible that the IP address of the I/O system cannot be determined. Check in the router's settings whether DHCP is enabled and, if necessary, enable DHCP. Make sure that the I/O system is set to DHCP. For this, all DIP switches on the I/O system must be set to ON (see the manufacturer's manual or the "WAGO-I/O-SYSTEM 750 with SMA DATA MANAGER M" manual at www.SMA-Solar.com).
When the DHCP validity period expires, a new DHCP request is performed. In the process, it is possible a new IP address is assigned. For Modbus devices, either static DHCP or static IP addresses are recommended so that the IP addresses do not change during operation.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
I correctly connected a compatible I/O system to the router, but cannot access the router's settings. How can I determine the IP address of the I/O system?
In order to use the I/O system with the Data Manager, the I/O system must be registered with its IP address in the Data Manager. To determine the IP address of the I/O system, proceed as follows:
Open the command line interpreter on a suitable end device and enter the command "arp-a". A list of all interfaces with IP address, physical address and type is displayed. The physical address indicates the associated IP address. I/O systems by WAGO use physical addresses in the range 00-30-de. I/O systems by Moxa use physical addresses in the range 00-90-E8.[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
I already have a WAGO I/O SYSTEM 750 and want to use it on the Data Manager. How does the I/O system have to be configured?
Make sure that the I/O system is set to DHCP or a valid IP address (see the manufacturer's manual or the "WAGO-I/O-SYSTEM 750 with SMA DATA MANAGER M" manual at www.SMA-Solar.de).
The I/O system must be configured as follows (from left to right):
750-352: Fieldbus coupler/controller
750-602: DC power supply (24 V)
750-1414: 8 digital inputs (24 V)
750-1515: 8 digital outputs (24 V)
750-464: 2/4 resistance inputs (2 x Pt100)
750-455: 4 analog inputs (4 to 20 mA)
750-559: 4 analog outputs (0 to 10 V)
750-600: End clamp
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How do the Pt100 temperature sensors have to be connected to my WAGO I/O SYSTEM 750?
The WAGO I/O SYSTEM 750 is suitable for connecting Pt100 temperature sensors with 2, 3 or 4 conductors. SMA only supports connecting Pt100 temperature sensors with 2 conductors since the corresponding 750-464 bus terminal is preset to 2-channel measuring (see Fig. 1). Inputs that are not used must be bypassed (see Fig. 2).
For bypassed measuring channels, the value -200°C is shown in the user interface of the Data Manager. No values are shown when sensors are defective or cables broken (see the manufacturer's manual or the "WAGO-I/O-SYSTEM 750 with SMA DATA MANAGER M" manual at www.SMA-Solar.de).
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
I already own an ioLogik E1214, E1216, E1241, or E1242 I/O system from Moxa and want to use it on the Data Manager. How does the I/O system have to be configured?
Make sure that DHCP or a valid IP address has been set for the I/O system. For Modbus devices, either static DHCP or static IP addresses are recommended so that the IP addresses do not change during operation. Ensure that the mode of the analog inputs is adjusted for the I/O system (see manufacturer manual).
IP address:
The IP addresses of the I/O systems from Moxa can be adjusted via the user interface or via the ioSearch program from Moxa.
To be able to use the analog inputs of the I/O system with the Data Manager, the analog inputs of the I/O system must be set to 4 mA to 20 mA (see the manufacturer’s manual).
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Sensors
Which sensors can I connect to the Data Manager M (EDMM-20)?
You can connect temperature sensors, solar irradiation sensors and anemometers directly to the Data Manager. The measured data are displayed in real time as a list view in the Data Manager. Furthermore, the data can be displayed in wave form in the Sunny Portal powered by ennexOS. The temperature sensors' data are directly linearized in the Data Manager. In the case of solar irradiation sensors and anemometers, however, the sensor itself must be designed for a linearization of the data. For sensor connection options, see the technical information "SMA DATA MANAGER / SUNNY PORTAL powered by ennexOS - Functions" at www.SMA-Solar.com).
[SMA Data Manager M (EDMM-20)]
Which sensors can I connect to the Data Manager M (EDMM-10) and Data Manager L?
You can connect temperature sensors, solar irradiation sensors, and anemometers to a suitable I/O system. The measured data are displayed in real time as a list view in the Data Manager. Furthermore, the data can be displayed in wave form in the Sunny Portal powered by ennexOS. The linearization of the temperature sensors' data takes place in the I/O system. In the case of solar irradiation sensors and anemometers, however, the sensor itself must be designed for a linearization of the data. For sensor connection options, see the technical information "SMA DATA MANAGER / SUNNY PORTAL powered by ennexOS - Functions" at www.SMA-Solar.com).
[SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How many sensors can I connect to the Data Manager?
Only 1 sensor for irradiation, external temperature, module temperature and wind speed can be each assigned. It is not possible to configure multiple sensors of the same type.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How do the Pt100 temperature sensors have to be connected to my ioLogik E1260 from Moxa?
The ioLogik E1260 from Moxa is suitable for the connection of Pt100 temperature sensors with 2 or 3 conductors.
3-conductor connection:
When connecting Pt100 temperature sensors with 3 conductors, the measurements are more accurate, especially for long conductor lengths.
2-conductor connection:
When connecting Pt100 temperature sensors with 2 conductors, SMA recommends connecting a 3-core shielded cable to the ioLogik E1260 from Moxa. Lead the third conductor close to the Pt100 temperature sensors and connect it to one of the two Pt100 connections. Connect the cable shield on one side to the grounding conductor on the ioLogik E1260 from Moxa. The Moxa ioLogik E1260 itself does not have a connection for a grounding conductor. That is why the grounding conductor of the switch cabinet should be used (there should be a grounding conductor on the DIN rail or the enclosure of the switch cabinet). In case of inaccurate measured values, the inputs of the Moxa ioLogik E1260 can be individually calibrated via the user interface (see the manufacturer's manual).
[SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Modbus client
Valid IP addresses were assigned by the DHCP router to some Modbus devices in my system and the communication to these Modbus devices was faultless for some time. Recently, the connection to some of these Modbus devices has been interrupted. What is the reason for this and how can I rectify it?
Some Modbus devices may have been restarted due to a voltage drop. In the process, the Modbus devices received new, modified IP addresses from the DHCP router. This can happen if no MAC address connection has been set in the DHCP router. So the Modbus devices do not necessarily receive the same IP address.
Set up the MAC address connection in your DHCP router or, if possible, extend the validity period of the DHCP to infinite.
If the IP address of a Modbus device has been changed, it must be entered in the installation assistant of the Data Manager.
Assign only static IP addresses for Modbus devices if possible.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Which requirements do the devices connected via RS485 (Modbus/RTU) need to fulfill so that they can use their own Modbus profiles?
The bytes in the product are set as follows and may need to be adjusted in the RS485 device:
8-bit transmission, no parity (optional: odd/even)
Baud rate: 1200, 9600 or 19200
Stop bits: 1 (standard) or 2
Parallel operation of Modbus RTU and SMA Data1 is not possible. With the EDMM-20, it must be noted that each protocol has been assigned its own RS485 bus with either COM1 or COM2 of the EDMM-20. Both protocols are not permitted on the same bus.
An RS232/RS485 converter is required for the Data Manager.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Modbus server
Why are no values mapped in the registers for the sensors (NaN)?
The values have to be assigned as system values in the sensor configuration.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Sunny Portal powered by ennexOS
How can I download data from the Sunny Portal powered by ennexOS as a CSV file?
Select a system in the Sunny Portal powered by ennexOS.
Select the Analysis Pro menu item in the Analysis menu.
Select desired data points and time periods.
Select the [Details] button.
Select the [Download] button.
Select the storage location and confirm.The data are downloaded as a CSV file.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can I create system sections with my Data Manager to be able to divide PV systems into compass directions?
This is possible in Sunny Portal powered by ennexOS. PV subarrays and system groups can be created and visualized there (see the Sunny Portal powered by ennexOS manual at www.SMA-Solar.com).
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can I carry my system from the classic Sunny Portal over to the Sunny Portal powered by ennexOS?
Only systems with a Sunny WebBox or an SMA Cluster Controller can be carried from the classic Sunny Portal over to Sunny Portal powered by ennexOS.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
What do I have to be aware of when I delete a system in Sunny Portal powered by ennexOS?
When a system is deleted in Sunny Portal powered by ennexOS, the associated Data Manager and any existing subordinate Data Managers must also be reset to default settings. Otherwise, these Data Managers cannot be registered in other systems.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Grid Management Services
Can the Data Manager also use pulse signals for active power limitation?
The Data Manager typically requires static signals on the internal inputs (I/O system from Wago or Moxa). For more information, see the technical information "Conversion of Power Specifications via Pulse Signals" at www.SMA-Solar.com.
If the internal digital inputs of the Data Manager M are used, they can also use pulse signals (pulse duration >=1 s). To do this, enter the appropriate fallback and default settings.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
When do I use the operating mode "closed-loop control" and when "open-loop control"?
A distinction must be made here between active and reactive power:
Active power
If the grid operator specifies an active power specification at the point of interconnection, this always refers to the measurement at the point of interconnection. Therefore, for pure feed-in systems, the operating mode "open-loop control" (without feedback of the actual value) is sufficient. For systems with self-consumption, the operating mode "closed-loop control" (with feedback of the actual value) should be used, since this converts excess PV energy into self-consumption and the power value at the point of interconnection still meets the grid operator's specification.
Reactive power
In pure feed-in systems and also in systems with self-consumption, the operating mode "closed-loop control" (with feedback of the measured values from the point of interconnection) should be selected. This way, the Data Manager accounts for and controls the influences of the line and, if applicable, of the transformer.
In systems with high self-consumption and a high reactive power demand (e.g., operation of electrical machines in commercial and industrial plants without an additional compensation system), the PV inverters might not be able to control the setpoints at the point of interconnection (reactive power value, cos phi value). For example, this can be operation of electrical machines in commercial and industrial plants without additional compensation equipment. In such systems, the PV inverters will generate almost only reactive power and hardly any active power. In such cases, the "open-loop control" operating mode is recommended. Contact your local grid operator.
To use inverters via RS485/SMA Data1, follow the information in these FAQs. To use FLX/TLX inverters (communication protocol EtherLynx), the open-loop control mode is also recommended for the reactive power setpoint.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
For Q(U), can I use an energy meter on the medium-voltage side that only measures voltage?
No, this is currently not possible. Active and reactive power measurement values are required for a complete closed-loop control and open-loop control. These are only provided by a power meter if it is possible to measure both the voltage and the current.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
For Q(U), can I use an energy meter on the medium-voltage side that only measures voltage and use another energy meter on the low voltage side that measures all other values?
No, this is not possible. The Data Manager supports only one measuring device for the point of interconnection.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
For Q(V), can I use an energy meter that only measures voltage on the medium-voltage side (via a voltage converter) and that measures the current on the low-voltage side (via a current transformer)?
This should be avoided, as this causes the active and reactive power values to not match the actual values. When this happens, both the transformer losses and its phase shift lead to a faulty measurement.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
If my system feeds exclusively into the utility grid (no self-consumption), do I need an energy meter at the point of interconnection?
No, in such a case you can use a "virtual" utility grid meter in the Data Manager. This lets you specify an external cos phi setpoint. The specified setpoint will be different from the value that is set at the point of interconnection. An external closed-loop control by the grid operator is required. Make the following settings on the user interface of the Data Manager:
Enable the Modbus server. Configure a Modbus profile of the device type bidirectional meter with one power channel. For the channel designation Meter count of the grid-supply meter, select the register address 30513 and the scaling factor 0. For the channel designation Meter count of the feed-in meter, select the register address 30513 and the scaling factor 1.[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
In which order should a system with superordinate and subordinate system managers be configured?
In systems with inverters, all inverters must first be commissioned in order to accurately display the system power. Then configure the subordinate Data Managers. Then configure the superordinate Data Managers. Set up the system in Sunny Portal powered by ennexOS only after all Data Managers have been configured. Please note that all superordinate and subordinate Data Managers must be registered with PIC and RID. This is done simultaneously for all devices via the system setup assistant in Sunny Portal powered by ennexOS.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How can I configure the Q(P) characteristic curve?
This is currently only possible through direct parameter setting in the device (see the technical information "SMA GRID GUARD 10.0 - Grid Management Services via Inverter and System Controller" at www.SMA-Solar.com).
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can system sections of a subordinate Data Manager be operated with the "closed-loop control" operating mode?
No. A subordinate Data Manager can only be used in open-loop control. The superordinate Data Manager is responsible for the closed-loop control.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
What happens if the communication to the energy meter at the point of interconnection fails or is disrupted?
This communication is monitored with a fixed timeout of 10 seconds. If the communication fails, the device is displayed as being disrupted. If closed-loop control is active at the point of interconnection, the operating mode is switched to open-loop control. This means that the setpoints are transmitted to the inverters (without closed-loop control). As a result, an inverter will not recognize this disturbance as such, and its own fallback behavior will not be activated if there is a communication failure. The inverter continues to receive the specifications from the Data Manager.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Can SMA inverters connected via RS485 be used for grid management services?
Inverters connected via RS485 communicate via the SMA-specific protocol SMA Data1. It is also possible to transfer power specifications to the inverters. However, there are restrictions that affect systems that have such devices (regardless of whether these devices are connected directly to the Data Manager M via an SMA COM Gateway):
Due to stability reasons, if there are SMA Data1 devices in the system, controlled operation (closed-loop control) is not possible. Only controlled operation (open-loop control) is possible. As a result, any possible self-consumption is not taken into account in the event of power reduction specified externally or at a constant level.
However, if this is desired, the RS485 devices concerned must be replaced by devices that can communicate directly via Ethernet (SMA Speedwire or Modbus SunSpec).
If a reactive power setpoint is required in addition, there are also restrictions in this case:
Not all SMA inverters are reactive power-capable (this applies in particular to SMA inverters launched on the market before 2007).
If these inverters are reactive-power capable and a setpoint should be specified, the inverters must be connected directly to the Data Manager M. If the inverters are connected via an SMA COM Gateway, it cannot be ensured that the function is given for all reactive power-capable inverters.
Here, too, only controlled (open-loop control) operation is possible.
We recommend resetting the feed-in power limitations set in the inverter so that the parameters "P-Limit" and "P-Max" are set identically to the maximum power of the respective inverter.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10)]
What do I have to consider for the grid management services if I have added or removed one or more inverters in the device management?
Run the installation wizard for the grid management services. When doing this, check the values for the AC nominal system power and fallback values. Adjust the values to the AC nominal system power that may have changed.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
SMA Speedwire Encrypted Communication (SEC)
What is Speedwire?
SMA Speedwire is a wired, Ethernet based fieldbus for the implementation of powerful communication networks in decentralized large-scale PV power plants. SMA Speedwire uses the internationally established Ethernet standard, the Ethernet based IP protocol as well as the communication protocol SMA Data2+ optimized for PV systems. This enables a consistent 10/100 Mbit data transmission to the inverter as well as reliable monitoring, control and regulation of the system (refer to the technical information “SMA SPEEDWIRE FIELDBUS” at www.SMA-Solar.com).
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Why should I use SMA Speedwire Encrypted Communication (SEC)?
When data communication between the Data Managers and inverters is encrypted, cyber security attacks on PV systems are much more difficult.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Which devices support SMA Speedwire Encrypted Communication (SEC)?
SMA Data Manager
Inverters with SMA Speedwire from a production date > 2010 that are not connected via an SMA Com Gateway
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How can I exchange a device in an encrypted system?
Use Sunny Explorer to reverse the system encryption.
Remove the old device from the system.
Include the new device in the system.
Enable system encryption with a new password.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
How can I extend a system encrypted with SMA Speedwire Encrypted Communication?
Use Sunny Explorer to reverse the system encryption.
Include the new device in the system.
Enable system encryption with a new password.
[SMA Data Manager M (EDMM-20), SMA Data Manager M (EDMM-10), SMA Data Manager L (EDML-10)]
Data Manager M
