15 Years Factory wholesale Poly-crystalline Solar Panel 250W to Cannes Factory
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Poly-crystalline Solar Panel 250W
Technical parameter
Maximum Power(W) 250W
Optimum Power Voltage(Vmp) 30.25V
Optimum Operating Current(Imp) 8.26A
Open Circuit Voltage(Voc) 36.61V
Short Circuit Current(Isc) 8.89A
Mechanical Characteristics
Cell Type Polycrystalline 156x156mm (6 inch)
No of Cell 60 (6x10pcs)
Dimensions 1640x990x40mm
Weight 18.5KGS
Front Glass 3.2mm,High Transmission, Low Iron,Tempered Glass
Junction box IP65 Rated
Output Cable TUV 1×4.0mm2/UL12AWG,Length:900mm
Temperature and Coefficients
Operating Temperature(°C): -40°C ~ + 85°C
Maximum System Voltage: 600V(UL)/1000V(IEC) DC
Maximum Rated Current Series: 15A
Temperature Coefficients of Pmax: -0.47%
Temperature Coefficients of Voc: -0.389%
Temperature Coefficients of Isc: 0.057%
Nominal Operationg Cell Temperature (NOCT): 47+/-2°C
Materials of solar panel
1).Solar Cell——Polycrystalline solar cell 156*156mm
2).Front Glass——-3.2mm, high transmission, low iron, tempered glass
3).EVA——-excellent anti-aging EVA
4).TPT——-TPT hot seal made of flame resistance
5).Frame——anodized aluminum profile
6).Junction Box——-IP65 rated, high quality, with diode protection
Superiority: high quality anodized aluminum frame, high efficiency long life, easy installation, strong wind resistance, strong hail resistance.
Features
1. High cell efficiency with quality silicon materials for long term output stability
2. Strictly quality control ensure the stability and reliability, totally 23 QC procedures
3. High transmittance low iron tempered glass with enhanced stiffness and impact resistance
4. Both Poly-crystalline and Mono-crystalline
5. Excellent performance in harsh weather
6. Outstanding electrical performance under high temperature and low irradiance
Quality assurance testing
Thermal cycling test
Thermal shock test
Thermal/Freezing and high humidity cycling test
Electrical isolation test
Hail impact test
Mechanical, wind and twist loading test
Salt mist test
Light and water-exposure test
Moist carbon dioxide/sulphur dioxide
400 Watts of Power, enough to run your tv.
Bit of a ramble showing my experimental 120W solar panels driving a 300W Turnigy Reaktor charger and homemade 48V battery pack comprising 10 x 5.2Ah 6S LiPos, with balancing.
The charger works really well off the mains or 12-24V batteries, but running off solar panels directly reveals some room for improvement, and should only be a firmware fix.
It works well enough, but needs babysitting – I have to manually set the charge rate to just under the maximum power point current and hope that a cloud doesn’t come along, otherwise the voltage drops into a hole until restarted with a new current setting!
The charger can control the current draw, because it gradually ramps up demand at the start of a charge, but it doesn’t know about Maximum Power Point Tracking (MPPT), so it will continue to take whatever it can get, go right through the panels’ power curve, and if the current draw is too much, the voltage will drop to 10V and stay there.
This could be “easily” solved with a firmware modification to track the Maximum Power Point, but that’s a bit beyond my ability to break in, disassemble and recompile a new OS for it!
Turnigy could expand their market a lot if they could issue a firmware update to handle MPPT, or make a new solar-aware charger.
(I’m sure there are a lot of RC enthusiasts who would like to be able to charge their LiPos in the field, without needing to lug tens of kilos of car batteries around too!)
I tried to use a Victron MPPT charge controller, but it doesn’t do LiPos. won’t work without a lead acid battery connected, and won’t drive the Turnigy because it’s too capacitive! Oh well…
it will however keep a couple of batteries charged that I could use at home to charge the Lipos with, but the idea is to be able to charge the ebike battery on the fly with the panels on a trailer, or anywhere.
(The 7kg 48V LiPo pack contains as much energy as two 55Ah car batteries weighing 13kg each!)
So, I think to be able to make optimal use of the panels, I’m going to either need to find or make a solar MPPT BMS that’ll keep a 12S LiPo charged and balanced, or something simpler that will work as a simple MPPT power suppy of around 400W without any battery management to drive the Reaktor, and manually switch battery banks as necessary.
There are painfully few affordable options on the market with the power required, and believe me, I’ve searched high and low!
Perhaps the best option would be to roll my own using an Arduino Nano and a cannabilized 500W computer PSU, can’t be *that* difficult!