01.
Solar charge controller MPPT Blue series
Fangpusun solar charge controller mppt 100-30 /100-50
Untra-fast Maximum Power Point Tracking (MPPT)
Especially in case of a clouded sky, when light intensity is changing continuously,
an ultra fast MPPTcontroller will improve energy harvest by up to 30% compared to PWM charge controllers and by upto 10% compared to slower MPPT controllers.
Advanced Maximum Power Point Detection in case of partial shading conditions
If partial shading occurs, two or more maximum power points may be present on the power-voltage curve.Conventional MPPT's tend to lock toalocal MPP, which may not be the optimum MPP.The innovative fangpusun algorithm will always maximize energy harvest by locking to the optimum MPP.
Outstanding conversion efficiency
No cooling fan. Maximum efficiency exceeds 98%. Full output current up to 40°C (104°F).
Flexible charge algorithm
Fully programmable charge algorithm (see the software page on our website), and eight switch (see manual for details).
Extensive electronic protection
Over-temperature protection and power derating when temperature is high. PV short circuit and PV reverse polarity protection. PV reverse current protection.
Internal temperature sensor
Compensates absorption and float charge voltage for temperature.
Real-time data display options
Apple and Android smartphones, tablets and other devices: see the VE.Direct to Bluetooth low energy donegle. ColorControl pannel
Options
1a)I more PV power is connected the controler will mt input power to the stated maximum
1b)PV voltage must exceed Vbat+5V for the controller to start Thereafter minimum PV voltage is Vbat+ 1V
Fangpusun charge controller | MPPT 100/30 | MPPT 100/50 |
system voltage | 12/24V auto select | |
Mandmum outout current | 30A | 50A |
Madmum Pv power, 12v 1a,b) | 440 W (MPPT range 15vto80V) | 700 W (MPPT range 15Vto70V) resp.95v |
Madmum Pv power, 24 lab) | 880W(MPPT range 30Vto 80V) | 1400 W (MPPT range 30Vto70V) resp.95v |
Madmum Pv open crcuIt votage | 100V | |
Mandmum eficiency | 98% | |
Self-consumption | 100mA | |
Charge voltage ‘absorption’ | Default setting: 14, 4 V/28.8 V(adjustable) | |
Charge voltage ‘float’ | Default setting: 13, 8 V/27, 6 V(adjustable) | |
Charge algorithm | multi-stage adaptive | |
Temperature compensation | 16mV/ C resp.-32mV/°C | |
Protection | Battery reverse polarity(fuse, not user accessible)Output short circuit Over temperature(MPPT 100/50: PV reverse polarity) | |
Operating temperature | -30 to+60°c( full rated output up to40°C) | |
Humidity | 95%, non-condensing | |
Data communication port | VEDirectSee the data communication white paper on our website | |
ENCLOSURE | ||
Colour | Blue(RAL 5012) | |
Terminals(fine single wire) | 13 mm2/AWG 6 | |
Protection category | IP43(electronic components), IP22(connection area) | |
Weight | 1,25kg | |
Dimensions (XxYxZ) | 130×186×70mm | |
STANDARDS | ||
Safety | EN|EC62109 | |
1a) If more PV power is connected, the controller will limit input power to 440W resp. 880 W(MPPT 100/50: 700W resp. 1400W)1b)PV voltage must exceed Vbat 5V for the controller to start. hereafter minimum PV voltage is Vbat 1V |
Maximum Power Point Tracking
Upper curve
Output current (I)of a solar panel as function of output voltage (V).
The maximum power point (MPP) is the point Pmax along the curve where the product I xvreaches its peak.
Lower curve
Output power P=I V as function of output voltage.
When using a PWM(not MPPT) controller the output voltage of the solar panel will be nearly equal to the voltage of the battery, and will belower than Vm.
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