Mestic MSBC-250 - Solar panel

MSBC-250 - Solar panel Mestic - Free user manual and instructions

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Download the instructions for your Solar panel in PDF format for free! Find your manual MSBC-250 - Mestic and take your electronic device back in hand. On this page are published all the documents necessary for the use of your device. MSBC-250 by Mestic.

USER MANUAL MSBC-250 Mestic

natural_image Dark rectangular object with a faint horizontal line above it, resembling a banner or panel (no text or symbols visible)

Gebruiksaanwijzing NL User instructions EN Bedienungsanleitung DE Mode d'emploi FR

Instrucciones de uso ES Istruzioni per l'uso IT Betjeningsvejledning DK

Bruksanvisning SE Bruksanvisning NO

Mestic MSBC-250 - 1

Mestic MSBC-250 - 2

Mestic MSBC-250 - 3

Mestic MSBC-250 - 4

FR

text_image Diagram showing connection between a solar panel, battery, and lamp with labeled terminals and connections

Serie- en parallelschakeling

natural_image Pure technical line drawing of a mechanical component without any text, numbers, or symbols
text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
  1. Junction box
  2. Cables
  3. Roof penetration
  4. Mounting bracket

Mestic MSBC-250 - Serie- en parallelschakeling - 1

text_image Diagram of a solar panel with labeled components including cable, socket, and connector parts
MSBC-110MSBC-130MSBC-150MSBC-170MSBC-190MSBC-220MSBC-250MSBC-300
Maximum power (Pmax)110W130W150W170W190W220W250W300W
Voltage at Pmax (Vmpp)19.14V24.36V26.10V20.88V17.40V20.88V23.56V22.94V
Current at Pmax (Impp)5.23A5.34A5.75A8.15A10.92A10.54A10.62A13.08A
Open-circuit voltage (Voc)21.78V27.72V29.70V23.76V20.10V23.40V27.36V26.64V
Short-circuit current (Isc)5.54A5.66A6.10A8.64A11.58A11.17A11.26A13.87A

General instructions

Before using this appliance, read the operating instructions carefully. Keep the manual for future use.

Assembly

Note: as soon as the solar panel is exposed to light or sunlight, the terminals in the junction box are energised. To avoid short circuits when mounting and connecting the solar panels, you can turn the panels away from the light or cover them so that they do not produce electricity during the assembly process. Remove the cover when the connection is complete.

General assembly instructions:

  1. Always mount the panel on a straight, flat surface. Do not bend or twist the panel.
  2. Never try to disassemble the panel.
  3. Avoid drilling or welding in the frame wherever possible.
  4. Do not use sharp metal tools or other objects that may scratch the surface of the panel.
  5. Install the panel horizontally or vertically with the junction box at the top.
  6. Choose a location for the panel with as little shade as possible. Keep in mind that if the solar panel is shaded, the power output will decrease.
  7. Mount the panel so that air can circulate freely around it.
  8. The supplied cables are already connected for you in the junction box. Do not disconnect it or swap the plus and minus terminals.
  9. Always connect the battery to the charge controller before connecting the solar module.
  10. Check the system regularly to make sure it is functioning normally.

Determining location:

  1. Determine the location for installing the solar panel, by placing it in the desired spot.
  2. Mark this location and check that there is enough space around the panel.
  3. Plan the laying of your wiring before proceeding with the installation.

Mounting:

  1. Once you have checked your mounting location, you fix the panels to the desired location with the brackets, using appropriate mounting sealant or glue. Follow the instructions on the packaging of the respective product.

  2. Note: make sure the surface on which the brackets are placed is clean, free of grease and dust, and dry. We recommend roughing up the surface first before degreasing it thoroughly. Sealant or glue in a clean, dry environment.

  3. Make sure the adhesive forms a good seal on the mounting surface by applying an even, continuous strip in the ridges at the bottom of the mounting brackets. The volume of the sealant or glue should be greater than the ridges.
  4. Evenly and carefully press the panel down at the selected location.
  5. Remove excess sealant or glue.
  6. Let the sealant or glue dry thoroughly. Follow the instructions on the packaging of the respective product for this.
  7. Note: preferably double-check the dimensions of the panel with the mounting brackets and the chosen location to avoid errors. The sealant or adhesive is very difficult to remove once applied.

Routing cables:

  1. Before you can install the roof penetration, find the most suitable location for your power cables to go through the roof. Before drilling, check again that there are no other cables, pipes, etc. at the place you want to drill.
  2. Once you are sure what your entry point is, drill holes of the right size.
  3. Check that the cables are through the cable holes in the roof penetration and route the cables through holes drilled in the roof to the desired location.
  4. Note: make sure the surface on which the roof penetration is placed is clean, free of grease and dust, and dry. We recommend roughing up the surface first before degreasing it thoroughly.
  5. Apply an even, continuous strip of sealant or glue to the underside of the cable penetration and attach it to the mounting surface, ensuring that the drilled holes are completely covered.
  6. After the sealant or glue has cured, you can also apply a sealant to ensure a watertight seal around the cable penetration.

Note: a solar panel must be connected to a battery system via a charge controller. For correct installation, follow the instructions supplied with the product.

Mestic MSBC-250 - Routing cables: - 1

text_image Diagram showing connection between solar panel, battery, and lamp with labeled components

Series and parallel connection

If more than one panel is used, they can be connected either in series or in parallel.

Mestic MSBC-250 - Series and parallel connection - 1

natural_image Diagram of two solar panels connected to a 12V battery, no text or symbols present

Parallel:

To connect 2 solar panels in a 12 V system, connect the panels in parallel by connecting the plus to the plus and the minus to the minus.

Mestic MSBC-250 - Parallel: - 1

text_image 24V

Series:

To connect 2 solar panels in a 24 V system, connect the panels in series by connecting the plus of one panel to the minus of the next panel.

Mestic MSBC-250 - Parallel: - 2

natural_image Pure technical line drawing of a mechanical bracket or bracket (no text or symbols)

Plus and minus connection view:

Open the junction box by gently loosening the tabs with a screwdriver.

Mestic MSBC-250 - Parallel: - 3

text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
  1. Junction box
  2. Negative pole and connection
  3. Positive pole and connection

Please note: The supplied cables have already been connected for you in the connection box. Do not disconnect this and do not swap the plus and minus connections.

Maintenance

  1. Normally, normal rainfall and wind are enough to keep the module glass clean. If necessary, you can clean the glass with a soft cloth with a mild detergent and 50% water.
  2. Note: do not damage the protective film on the back of the solar panels.

Mestic MSBC-250 - Maintenance - 1

Recycling

This product bears the selective sorting symbol for waste electrical and electronic equipment This means that this product must be handled pursuant to European Directive (2012/19/EU) in order to be recycled or dismantled to minimize its impact on the environment. For further information, please contact your local or regional authorities. Electronic products not included in the selective sorting process are potentially dangerous for the environment and human heath due to the presence of hazardous substances.

Declaration of conformity

Hereby EURO ACCESSOIRES declares that the device MSBC-110/-130/-150/-170/-190/-220/-250/-300 applies all basic requirements and other relevant regulations listed in the European directive for electromagnetic compatibility (2014/30/EU) and low voltage directive (2014/35/EU). If you require a full declaration of conformity, you can contact the address listed on the backside of this manual.

DEUTSCH

text_image Diagram of a solar panel with labeled components including cable, connector, and housing
MSBC-110MSBC-130MSBC-150MSBC-170MSBC-190MSBC-220MSBC-250MSBC-300
Maximale Leistung (Pmax)110W130W150W170W190W220W250W300W
Spannung bei Pmax (Vmpp)19.14V24.36V26.10V20.88V17.40V20.88V23.56V22.94V
Strom bei Pmax (Impp)5.23A5.34A5.75A8.15A10.92A10.54A10.62A13.08A
Leerlaufspannung (Voc)21.78V27.72V29.70V23.76V20.10V23.40V27.36V26.64V
Kurzschlussstrom (Isc)5.54A5.66A6.10A8.64A11.58A11.17A11.26A13.87A

Allgemeine Hinweise

text_image Diagram showing connection between solar panel, battery, and lamp with labeled components
natural_image Diagram of two solar panels connected to a 12V battery, no text or symbols present

Parallel:

natural_image Pure technical line drawing of a mechanical bracket or bracket (no text or symbols)
text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
text_image Diagram of a solar panel with labeled components including an electrical outlet, cable, and connector.
MSBC-110MSBC-130MSBC-150MSBC-170MSBC-190MSBC-220MSBC-250MSBC-300
Puissance maximum (Pmax)110W130W150W170W190W220W250W300W
Tension à Pmax (Vmpp)19.14V24.36V26.10V20.88V17.40V20.88V23.56V22.94V
Courant à Pmax (Impp)5.23A5.34A5.75A8.15A10.92A10.54A10.62A13.08A
Tension de circuit ouvert (Voc)21.78V27.72V29.70V23.76V20.10V23.40V27.36V26.64V
Courant de court-circuit (Isc)5.54A5.66A6.10A8.64A11.58A11.17A11.26A13.87A
text_image Diagram showing connection between solar panel, battery, and lamp with labeled components and wiring
natural_image Pure technical line drawing of a mechanical component without any text, numbers, or symbols
text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
text_image Diagram showing connection between solar panel, battery, and lamp with labeled terminals and connections
natural_image Simple line drawing of two solar panels connected to a 12V battery (no text or symbols on the components)

En paralelo:

natural_image Pure technical line drawing of a mechanical bracket or bracket (no text or symbols)
text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
text_image Diagram of a solar panel with labeled components including cable, connector, and socket
MSBC-110MSBC-130MSBC-150MSBC-170MSBC-190MSBC-220MSBC-250MSBC-300
Potenza massima (Pmax)110W130W150W170W190W220W250W300W
Tensione a Pmax (Vmpp)19.14V24.36V26.10V20.88V17.40V20.88V23.56V22.94V
Corrente a Pmax (Impp)5.23A5.34A5.75A8.15A10.92A10.54A10.62A13.08A
Tensione a circuito aperto (Voc)21.78V27.72V29.70V23.76V20.10V23.40V27.36V26.64V
Corrente di cortocircuito (Isc)5.54A5.66A6.10A8.64A11.58A11.17A11.26A13.87A

Istruzioni generali

text_image Diagram showing connection between a solar panel, battery, and lamp via a connected electrical device with labeled terminals.
natural_image Pure technical line drawing of a mechanical bracket or bracket (no text or symbols)
text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
text_image Diagram of a solar panel with labeled components including a cable, switch, and motor
MSBC-110MSBC-130MSBC-150MSBC-170MSBC-190MSBC-220MSBC-250MSBC-300
Maksimal effekt (Pmax)110W130W150W170W190W220W250W300W
Spænding ved Pmax (Vmpp)19.14V24.36V26.10V20.88V17.40V20.88V23.56V22.94V
Strøm ved Pmax (Impp)5.23A5.34A5.75A8.15A10.92A10.54A10.62A13.08A
Åben kredsløbsspænding (Voc)21.78V27.72V29.70V23.76V20.10V23.40V27.36V26.64V
Kortslutningsstrøm (Isc)5.54A5.66A6.10A8.64A11.58A11.17A11.26A13.87A

Generelle instruktioner

text_image Diagram showing connection between solar panel, battery, and lamp with labeled terminals and power supply connections
natural_image Pure technical line drawing of a mechanical bracket or bracket (no text or symbols)
text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
text_image Diagram of a solar panel with labeled components: one showing cable, two showing cable, and three pointing to a component.
MSBC-110MSBC-130MSBC-150MSBC-170MSBC-190MSBC-220MSBC-250MSBC-300
Maximal effekt (Pmax)110W130W150W170W190W220W250W300W
Spänning vid Pmax (Vmpp)19.14V24.36V26.10V20.88V17.40V20.88V23.56V22.94V
Ström vid Pmax (Impp)5.23A5.34A5.75A8.15A10.92A10.54A10.62A13.08A
Öppen kretsspänning (Voc)21.78V27.72V29.70V23.76V20.10V23.40V27.36V26.64V
Kortslutningsström (Isc)5.54A5.66A6.10A8.64A11.58A11.17A11.26A13.87A
text_image Diagram showing connection between a solar panel, battery, and lamp via connected components
natural_image Pure technical line drawing of a mechanical component without any text, numbers, or symbols
text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
text_image Diagram showing connection between solar panel, battery, and lamp with labeled components

Serie- og parallellkobling

natural_image Pure technical line drawing of a mechanical component without any text, numbers, or symbols
text_image Technical diagram of a mechanical or electrical component with numbered parts and polarity indicators
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Product information

Brand : Mestic

Model : MSBC-250

Category : Solar panel