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<h2 style="color: #4a4a4a; font-size: 24px; font-weight: bold; margin-bottom: 10px;"> Physical installation </h2>

<h2 style="color: #4a4a4a; font-size: 24px; font-weight: bold; margin-bottom: 10px;"> Physical installation </h2>

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*To ensure proper solar integration functionality, it is essential to begin with the correct physical installation. This involves having a smart energy meter installed in the electric circuit that possesses the necessary communication functionality and is included in the energy meter whitelist. The meter plays a crucial role in detecting negative current flow, indicating when energy consumption is lower than solar generation, and feeding it back into the electrical grid. For effective communication, the charger must be interconnected with the meter.

*To ensure proper solar integration functionality, it is essential to begin with the correct physical installation. This involves having a smart energy meter installed in the electric circuit that possesses the necessary communication functionality and is included in the [[Smart energy meters|energy meter whitelist]]. The meter plays a crucial role in detecting negative current flow, indicating when energy consumption is lower than solar generation, and feeding it back into the electrical grid. For effective communication, the charger must be interconnected with the meter.

*When the meter detects surplus energy, it relays this information to the charger. Based on the charger's internal configurations, it will determine whether to initiate the charging process or not. It is important to note that this process depends on the specific configurations set within the charger.

*When the meter detects surplus energy, it relays this information to the charger. Based on the charger's internal configurations, it will determine whether to initiate the charging process or not. It is important to note that this process depends on the specific configurations set within the charger.

[[File:Solar integration overview.png|frameless|1200x900px]]  

[[File:Solar integration overview.png|frameless|1200x900px]]  

<h2 style="color: #4a4a4a; font-size: 24px; font-weight: bold; margin-bottom: 10px;"> Solar configuration </h2>

<h2 style="color: #4a4a4a; font-size: 24px; font-weight: bold; margin-bottom: 10px;"> Solar integration components </h2>

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Once the charger is properly connected to the electrical grid and interconnected with energy meter, the next step is to configure the settings using the Teltonika Energy app. Below, you will find a comprehensive list of the settings that should be adjusted to achieve DLM functionality.<ul style="list-style-type: none; margin: 0; padding: 0;">

1. '''Solar Panels''': Photovoltaic (PV) solar panels are the primary component for generating electricity from sunlight. These panels consist of multiple solar cells that convert sunlight into direct current (DC) electricity. <br>

2. '''Inverter''': The DC electricity produced by the solar panels needs to be converted into alternating current (AC) electricity, which is compatible with the electrical grid and charging equipment. An inverter is used to perform this conversion. <br>

3. '''Charge Controller''': A charge controller manages the flow of electricity between the solar panels, battery storage (if present), and the TeltoCharge. It regulates the charging process to optimize energy usage, protect the battery (if used), and ensure safe and efficient charging. <br>

6. '''Electrical Distribution System.''' This involves proper wiring, circuit breakers, and distribution boards to ensure the safe and efficient transfer of electricity to the charging stations. <br>

7. ''Energy Management System. It may include software algorithms, monitoring systems, and control mechanisms to prioritize charging during peak solar production, balance loads, and manage energy flow between the solar panels, battery storage, and charging stations.'' <br>

8. '''Grid Connection and Metering.''' Proper metering systems, such as net metering or feed-in tariff meters (ex. Smart energy meters), may be required to measure the solar energy fed back into the grid or the energy drawn from the grid. <br>

These components work together to create an integrated system that harnesses solar energy to power the '''TeltoCharge'''. The specific configuration and components may vary depending on factors such as the scale of the installation, available space, energy requirements, and desired functionalities. <br>

 

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