ePowerControl ES/ES+

Have questions on the product ? Wonder how to operate it ? Need documentation ? This page is for you!

Getting started
Commissioning process

Getting started

You’re new to ePowerControl ES/ES +  and need to learn more about it ? Please refer to the dedicated user manual to access detailed guidelines and in-depth explanation of the product, the use cases, the installation, configuration, and commissioning.

You’re interested in buying ePowerControl ES/ES + and wish to have a quick overview of it ? Please refer to the product datasheet to learn more on its features, use cases and technical specifications. Or contact our sales team by clicking here.

Ready to start installing the product ? Jump to the  Installation and commissioning process section.

Documentation ePowerControl ES/ES +

User manual
ePowerControl User Manual
Quick start guide
ePowerControl ES Datasheet
Commissioning prerequisite
Device connection & configuration

Installation and commissioning process

Do you want to install ePowerControl ES/ES + and not sure where to start ?

Check out the steps below for a quick guided procedure, or refer to the quick start guide for a more detailed one.

Cover Quick Start Guide _ ePowerControl SD
Commissioning prerequisites

The following points need to be checked to have a successful, efficient, and quick commissioning.

  1. Carefully reading safety instructions on the product user manual.
  2. The power supply of all the devices used in the control needs to be taken from the load side. (applicable for the UPS as well)
  3. Modbus RTU :Shielded twisted cable must be used for RS485 wiring : The data+ and data- should be chosen from the same twisted pair in order to prevent electromagnetic interference. The ground should be chosen from another pair.
  4. Modbus TCP : RJ45 Ethernet cable for TCP wiring.
  5. RJ45 cable and a Computer with a configured Ethernet port in DHCP mode are needed to access the Elum configuration tool (eConf).

Please, refer to the commissioning prerequisites document for more details.

Wire and install the controller

ePowerControl ES/ES + should be installed on a DIN rail.
To avoid the Central Computing Unit overheating, consider a 15 cm cooling area on each side of it.

The power supply connector is on the top of the device.
Grounding and wire routing help limit the effects of noise due to electromagnetic interference.

It takes about 30 seconds for the system to boot up.
Once the power supply is connected, the power LED will light up.
After 60 seconds, the operating system will be ready, and the power LED will turn solid green.

Wire and configure slave devices

Modbus RTU : 

Compatible RS485 devices can be connected to serial ports of the ES CPU using two shielded twisted pair connectors.
Please use a surge protection to avoid any issues on the communication ports.
Please refer to the connect & config guide for more details on how to connect and configure your device.

Modbus TCP :

Compatible Ethernet devices can be connected to the LAN port 1 of the ES Central Computing Unit using a RJ45 cable.
Please use a surge protection to avoid any issues on the communication ports.
Please refer to the connect & config guide for more details on how to connect and configure your Device.

For both cases, please make sure to enable the dynamic power control of the PV inverters when applicable, and to set the Current transformer ratio, the voltage transformer ratio as well as the system type on the meters.

EMS configuration
  1. Connect your laptop to the configuration port of the controller:
    • LAN port 2 for the ES,
    • LAN port 4 for the ES+.
  2. Open your favorite browser, and login to eConf by entering the following IP address:
    (the Ethernet port of your computer should be configured in DHCP mode.)
  3. For the next steps, follow the instructions in the video below :
Facing issues with your installation ?
Refer to the troubleshooting
section in the help center.

FAQ ePowerControl ES/ES +

Our standard controllers do not manage seamless transition directly, but can be used in coordination with various systems controlling it such as UPS and ATS. Contact our sales for more information at sales@elum-energy.com.

The load can be controlled through the opening and closing of breakers. Our deferrable load management can control up to 15 load breakers with their own set of conditions, based for example on the SOC of the BESS or on the total load consumption.

The zero export feature is included in all or our controllers.
ePowerControl curtails the right amount of solar power to enable a maximum PV production, while ensuring zero export to the grid, thus avoiding penalties from the grid operator.
It also allows to feed power into the grid, in accordance with the grid operator guidelines and standards, as well as the ability to set grid targets autonomously by the operator.

Our standard controllers do not manage ATS directly, but can be used in coordination with various systems controlling seamless transitions. Contact our sales for more information at sales@elum-energy.com.

In case of multiple batteries of different brands, ePowerControl ES dispatches the total BESS active power setpoints to the different BESS configured on eConf. The produced dispatch ensures that no BESS exceeds the SoC configured range or the active power target range.

The ES controller manages the Start/stop of the genset in grid following mode on load condition to provide support to the BESS. The genset’s active power output will be controlled to keep the active power of the BESS below a configurable maximum power.

The PV Optimization function sends active power setpoints to the BESS, Running generators and PV inverters to ensure the maximum exploitation of the PV resource.

The controller includes the minimum genset loading feature which ensures a certain level of reverse power protection, but not entirely. It’s therefore important to install a Reverse power protection.

The fail safe mode describes the behavior of the controller when the communication with one of the critical elements composing the installation is lost, and the usual observations of the control strategy are therefore uncertain. The PV production is ramped down to 0 as long as the communication is lost.

The critical elements are : grid meters, PV inverters, BESS inverters, genset meters and genset controllers.

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