SmartSolar MPPT 250/100-Tr VE.Can - SCC125110412

Victron SmartSolar MPPT 250/100-Tr VE.Can 12/24/36/48V is a solar charger for 12V, 24V, 36V or 48V systems (autoselect). The maximum nominal PV power that is passed through the solar charger at a 12V system voltage is 1450W, at a 24V system voltage it is 2900W, at a 36V system voltage it is 4350W, and at a 48V system voltage it is 5800W. The maximum PV no-load voltage of this solar charger is 250V. The SmartSolar solar charge controllers have a programmable battery charging algorithm, and built-in standard Bluetooth Smart to set up the solar charger and monitor solar yield. With VE.Can or Bluetooth, up to 25 solar chargers can be connected in series and connected to a Color Control GX or other GX device. Each Controller can be managed individually, for example with a smartphone or iPad (Bluetooth) or with a Color Control GX (VE.Can) and then possibly also on the VRM website.

Bluetooth Smart built-in: no dongle required
The wireless solution to set up, monitor and update the controller via Apple or Android smartphones, tablets or other devices.

VE.Direct
For a wired data connection to a Color Control panel, Venus GX, PC or other devices.

Ultra-fast Maximum Power Point Tracking (MPPT)
Especially when it is cloudy and the light intensity is constantly changing, an ultra-fast MPPT controller improves energy harvest by up to 30% compared to PWM charge controllers and up to 10% compared to slower MPPT controllers.

Advanced Maximum Power Point Detection in case of varying shade
In the case of varying shade, the power-voltage curve may contain two or more maximum power points. Conventional MPPTs usually utilize local MPP, which may not be the optimal MPP. The innovative BlueSolar algorithm always maximizes the energy yield by exploiting the optimal MPP.

BatteryLife: intelligent battery management
If a solar charge controller cannot fully charge the battery in one day, the result is often that the battery fluctuates continuously between 'partially charged' and 'fully discharged'. This condition (not a regular full charge) will destroy a lead-acid battery within weeks or months. The BatteryLife algorithm monitors the state of charge of the battery and, if necessary, slightly increases the load disconnect level from day to day (by disconnecting the load earlier) until the harvested solar energy is sufficient to charge the battery to almost 100%. to charge. From then on, the load disconnect level is modulated so that the battery is charged to nearly 100% about once a week.

Programmable battery charging algorithm
Every morning, as soon as the sun starts to shine, the charge controller starts a new charge cycle based on a three-step charge process: Bulk – Absorption – Float. The battery charging algorithm is programmable with a set of default settings or user-defined settings.

Internal temperature sensor
Compensates absorption and float charge voltages for temperature.

Remote on-off
For example for connection to a VE.BUS BMS.

Programmable relay
Can be programmed (e.g. via a smartphone) to be activated by an alarm or other events.

Optional: linkable LC display
To do this, remove the rubber seal that protects the plug on the front of the controller and connect the display to it.