Having used the Victron MPPT sizing calculator with the correct configuration for my 2 X 415W solar panels it recommended I use their SmartSolarMPPT 100/50, if you follow the link above you should see the calculation.
Victron SmartSolar 100|50
So I was now on the hunt for the best price I could find; I tried all the normal boating solar companies, but the prices are all very similar when I found on eBay for just £220.00
*Prices Include VAT and where checked at the time of writing 07/06/2023
So the order was placed. Things got a little odd when I got a message from DPD, and it seemed they had been booked for delivery, but had not got the package, even after a few days this status did not change. I messaged the supplier via eBay with no response, but then an email from Royal Mail with shipping details arrived and a few days later it was here.
I must admit I was starting to get a little worried that it was too cheap to be true, but I have it, it is new and sealed in the box ready to be fitted in a few weeks. Now I need to find a similar bargain for the Solar Panels!
NOTE: In the package came a leaflet from Nomadic Leisure, the company that run the Nomadic Conversions eBay shop their main market seems to be Campervans and surprisingly on their online shop the SmartSolar MPPT 100/50 is £302.40
So it seems it is a good idea to shop around and try alternative sources like eBay. You may, like me, get a bargain.
Lots of acronyms floating about in the solar industry, and as we are looking at Solar Panel controllers we have two more to look at PWM (Pulse Width Modulation) and MPPT (Maximum Power Point Tracking) these acronyms actually describe how each of these controller works.
Why do we need a solar panel controller, a 12V solar panel actually outputs between 18-20 volts so to stop your solar panels overcooking your battery we need to control the output to match the best charging voltage for your battery. Lets look at each type of controller see how they work and what the advantages and disadvantages of each have…
What is PWM – Pulse Width Modulation
Victron PWM Controller
PWM is an robust technology that is used in many devices around your home, I have used this to control motors, dim lights etc etc.
The idea behind PWM is that we take an incoming supply and switch it on and off quickly the difference between the on and the off parts can vary so for example a motor or light that gets a quickly pulsed (25+ timesaver second) at 50% on 50% off a motor will run at ½ speed or a lights output would be 50% dimmer, in these cases the speed of the modulation needs to fast so that the output looks smooth.
Example of PWM at 25, 50 and 75% pulse width.
PWM Controllers act like a switch, with the panels and battery connected the battery will pull the voltage down to its own level. As the battery charges that voltage increases until the batteries are fully charged. At this point the controller starts its float stage, switching on and off the supply from the solar to in effect trickle charge the batteries as required.
The inefficiency of the PWM controller comes from the way it the battery pulls down the supply voltage from the solar panels reducing the available power.
E.G. 100W Solar panel provides 20V at 5A
20V x 5A = 100W*
When pulled down to the battery voltage it is only now supplying 13V at 5A
13V X 5A = 65W*
A loss of potentially 35W or 35%
*These are simplified figures to make the calculation simpler to understand
One of the other major drawbacks of this method is that you are working at lower voltages on the solar panel side of the system as they must match the battery requirement. With lower voltages the cable losses start to add up very quickly, meaning you will need thicker less lossy cables to connect your panels to the controller (We will cover cabling in a later post).
PWM Advantages
• Low Cost 10-25% of MTTP • Simple reliable technology • Available in sizes up to ~60 amps
PWM Disadvantages
• Potentially higher cable losses • Less efficient ~75% conversion • Solar Panel voltage must match battery nominal voltage.
What is MTTP – Maximum Power Point Tracking
Victron MPPT controller
An MTTP controller is divided into two parts, input from the solar panels and output to the battery. The input can take a much higher voltage that what is required charge the batteries. The send part of the MTTP controller, the output will convert this to the correct voltage for your battery to charge correctly (it is a smart DC to DC converter)
So:-
200W Solar panel providing 40V at 5A
40V x 5A = 200W**
This is converted to 13V at 200W increasing the output to 15A
200W / 13V = 15A**
**These are simplified figures to make the calculation simpler to understand and exclude any losses in the dc-dc conversion
A correctly spec’d MPPT controller can accept much higher voltages from the solar panels, so we can use these higher Voltages on the solar side of the system to increase efficiency, and it will drop this voltage to the correct level for the battery current state of charge, it also monitors the panels Maximum Power Point (MPPT = Maximum Power Point Tracking) as it varies during the day to make best use of the power( Watts) available from the solar array.
While being much more efficient for larger systems (<200w) it also enables us to put the panels in series increasing the output voltage of the array therefore allowing us to use thinner cable while maintaining efficiency.
While PWM controllers are rated in Amps as they are fixed to the voltage of the solar panels, a MPPT controller is rated in Watts as they can accept higher input voltages.
Amps X Volts = Watts
50A X 12V Solar Array = 600 Watts
50A X 48V Solar Array = 2400Watts
50A X 100V Solar Array = 5000 Watts
A Watt is the measure of the amount of energy available, as we increase the voltage, we can get more Watts for the same number of Amps supplied.
MPPT Advantages
• Efficient ~95% conversion • Solar not limited to battery voltage • More efficient cabling options
MPPT Disadvantages
• Cost significantly more that PWM • Larger requires more space • More complex design (less reliable)
Conclusion – Which one will we use?
As you can already probably guessed, we are going for the most efficient 800W+ system we can get and in our case that means using an MPPT controller. We have limited space for panels, but almost no limit on battery size and the necessary equipment storage so the advantages of the MPPT outweigh those of the PWM Controller.
While researching this we did come across a video from Australia that is directly targeted at the Van-life market, but had excellent examples of PWM and MPPT with solar.
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