Soliscloud - Smart Charge & Discharge Function

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Solisclou

Smart Charge & Discharge Function



Solis Quickstart - gpceurope.com

 



Background

 

Price Charging

 

In Europe there are many countries that exhibit a price disparity between export and import tariffs accompanied by variable electricity prices over time.

 

Customers seek optimal functionality from their PV systems to achieve the following objectives:

 

        1: During periods of low electricity prices, the system has to be configured for a charging phase. This entails prioritizing

            grid-based power sources, fully charging the batteries and giving priority to the loads.


        2: Conversely, when electricity prices are high, the system has to transition into a discharge phase. During this period,

            the battery only discharges, effectively minimizing the customer´s overall electricity costs.


 

 

Introduction 

 

Solis identifies this system as:

 

Time-of-Use Electricity Pricing with Smart Charging and Discharging, or TOU-SCD in short.

 

It consists of 3 main components:

 

        1: Time-of-Use Electricity Pricing:

 

        Day-Ahead price is retrieved from a third-party electricity pricing trading platform (Nordpool & Octopus).

        This allows the user to identify when electricity prices are high and when they are low.

        Historically speaking, daytime and evening tariffs are high and midnight and early morning tariffs are low.

 

 

        2: Develop charging & discharging strategies: 

 

        Charging strategy: set the energy storage device to charge during periods of low electricity prices, effectively reducing

        costs. 

        Discharging strategy: set the energy storage device to discharge during high electricity price periods, maximizing     

        revenues. 

        Please note that if you are not compensated in your territory for feed-in electricity then you should set your system to 

        never discharge based on price.

 


        3: Intelligent charging and discharging control: 

        

        Automatically manage charging & discharging behaviours by controlling energy storage devices through the SolisCloud

        platform.

 

 

 

 

 

 

Territories


As of 16/08/2024 TOU-SCD is available for the following territories in Soliscloud www.soliscloud.com


Norway

Sweden

Finland

Denmark

Estonia

Latvia

Lithuania

Austria

Belgium

Germany 

Luxembourg

France

The Netherlands

Poland

United Kingdom

 

 

 

 

Examples

 

 

Example 1 – Finland (Nordpool) 

 

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Example 2 – UK (Octopus)

 

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Example 3 – Sweden (Nordpool)

 

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Operation

 

 

1: Permission activation

 

Based on the assigned role and account privileges, it is possible to access the European tariff charts within the intelligent charging and discharging mode (TOU-SCD) function.

 

The status of TOU-SCD is set to “OFF” by default. To enable this feature, you can make a request in our online desk by creating a new ticket:

 

https://solis-service.solisinverters.com/support/home

 

 

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*Note In the future we will look to activate this for all storage systems after a trial period.

 

 

 

 


2: Setting the threshold price

 

After permission for a specific plant is enabled, is possible to find the trends in electricity prices under the real-time power curve diagram in the “Overview” page. The default setting is OFF. Switch it to ON.

 

 


 

 

3: Disclaimer Agreement

 

After reviewing and accepting the disclaimer, you will gain access to the settings page, where you can configure the price threshold.

 

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4: Example Setting Charging/Discharging Threshold

 

In the figure below if the real-time power price is lower than 3.5 SEK, power will be taken from the grid to charge the battery.

If the real-time power price is higher than 4.6 SEK, the battery will be discharged.


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You can also set the priority of charging or discharging.

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This graph below shows what it looks like after setting the price charging settings for selling and buying power.

 

 

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TOU-SCD Software Compatibility and Version Support


Below is an overview of the various inverter models and their current software compatibility, including any new or pending software updates.

5G Single-Phase Low Voltage (3-6K Models)
Models: F2-4.6K, F3-5K, F4-3.6K, F5-3K, F6-6K
Software Update: Not supported; no new software version has been released.


S5 Single-Phase Low Voltage (3-6K Models)
Models: 3101-3K, 3102-3.6K, 3103-4.6K, 3104-5K, 3105-6K, 3106-85.5-4.6K, 3107-85.5-5K, 3108-85.5-6K
Software Update: Not supported; no new software version has been released.


S6 Single-Phase Low Voltage (3-6K Models)
Models: 3111-3K, 3112-3.6K, 3113-4.6K, 3114-5K, 3115-6K
Current Software: DSP: VOBBOA; ARM: V11-17


S6 Single-Phase Low Voltage Pro (3-8K Models)
Models: 3116-3K, 3117-3.6K, 3118-5K, 3119-6K, 3120-8K
Current Software: DSP: VOBBOA; ARM: V11-17

S6 Single-Phase Low Voltage Plus (3-8K Models)
Models: 3170-3K, 3171-3.6K, 3172-5K, 3173-6K, 3126-8K, 3174-4.6K
Current Software: DSP: VO5BOF; ARM: V11-15


S6 Single-Phase Low Voltage (9.9-16K Models)
Models: 3127-12K, 3128-14K, 3129-16K, 3130-9.9K
Current Software: DSP: VO2B08; ARM: V1B-05; HMI: VO2-0D


S6 Three-Phase Low Voltage (8-15K Models)
Models: 3130-10K, 3131-12K, 3132-15K, 3133-8K
Current Software: DSP: VO3BOB; ARM: VO1-09; HMI: VO1-0D


S6 Three-Phase High Voltage (3-10K Models)
Models: 3301-3K, 3302-4K, 3303-5K, 3304-6K, 3313-7K, 3305-8K, 3306-10K
Current Software: DSP: VO2B74; ARM: VOF-OA


S6 Three-Phase High Voltage (12-20K Models)
Models: 3314-12K, 3315-15K, 3316-20K, 3317-8K, 3318-10K, 3322-12K
Current Software: DSP: VO3B36D01; ARM: VO2-0B


5G Three-Phase High Voltage (3-10K Models)
Models: 3K-00CB, 4K-00CC, 5K-00C7, 6K-00C8, 8K-00C9, 10K-00CA
Current Software: DSP: VO3FB09D01; ARM: V18-03



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