Description
The PC1600 Maximizing Regulator can be used in 12v solar installations, 24v solar installations o 48v solar installations has been manufactured to use photovoltaic panels network in isolated solar installations. That is, it regulates the low voltage of the solar panels to be used in a conventional solar installation. The function of the maximizer is to determine the maximum power point of the panel, to improve its performance and the production of electrical energy. This regulator has a capacity of 60 amps and allows a maximum open circuit panel voltage of 145V. In order to control the battery charge and extend its useful life, this regulator charges in four stages: normal, absorption, floating and equalization. Thanks to this, the battery cells are also cleaned and their operation is improved.
Installation Solar regulator 12v / 24v / 48v MPPT 60A / 145v PC1600
The installation of this regulator model is very simple, however at Wccsolar we recommend that the Solar regulator 12v / 24v / 48v MPPT 60A / 145v PC1600 be installed by a photovoltaic professional, or the installation instructions are strictly followed to avoid breakages and breakdowns due to incorrect installation.
Buy Solar regulator 12v / 24v / 48v MPPT 60A / 145v PC1600
Buy Solar regulator 12v / 24v / 48v MPPT 60A / 145v PC1600 It is fast, safe and comfortable thanks to Wccsolar, plus the Solar regulator 12v/24v/48v MPPT 60A/145v PC1600 It has an official Wccsolar guarantee.
Contact us to receive more information.
Data sheet
PV Open Circuit Voltage: 100 VDC @ 12V / 24V @ 145VDC / 145VDC @ 36V / 48V @ 145VDC
PV Field and MPPT Voltage Range: 16VDC ~ 100VDC / 32VDC ~ 130VDC / 48VDC ~ 130VDC / 64VDC ~ 130VDC
Max PV Input Power (12V): 800W
Max PV Input Power (24V): 1600W
Max PV Input Power (36V): 2400W
Max PV Input Power (48V): 3200W
-BATTERY-
Absorption Voltage: 12,5VDC / 25.0VDC / 37.5VDC / 50.0VDC
Refloat Voltage: 13.7VDC / 27.4VDC / 41.1VDC / 54.8VDC
Float Voltage: 14.3VDC / 28.6VDC / 42.9VDC / 57.2VDC
Low Voltage Protection Point: 0VDC / 20VDC / 30VDC / 40VDC
Temperature Coefficient Compensation: -3mv/°C/cell (25°C VEF)
Details of the product
Peak conversion efficiency: 98% (99% MPPT efficiency)
Max Charging Current: 60 Amps Continuous @ 40°C Ambient Temperature
Emission mode: Cooling fan
LED indicator: systematic operation, LV indication, LV protection, over load protection, short circuit protection
LCD display: Charging voltage, charging current, storage battery voltage, battery storage capacity, output current
Alarm protections: photovoltaic short circuit, PV reverse polarity, battery reverse polarity, over charge protection, output short circuit protection, low voltage protection for storage battery
photovoltaic short circuit, PV reverse polarity
Reverse polarity battery, over charging protection
output short circuit protection
Low voltage protection for storage battery
Mounting: wall mount
W*H* D(mm)/Net Weight(kg): 167.6*257.1*82.9mm/3kg
The Differences of PWM and MPPT Regulators
What solar regulator do I need depending on the type of solar panel?
Normal regulator (PWM): Whether you have 12V solar panels to use in an isolated (or autonomous) 12V solar installation, or if you have 24V solar panels and 72 cells to use in a 24V installation, you must use a normal regulator (type PWM). Which is the most economical and suitable for this type of solar panel.
Maximizing regulator (MPPT): If you have 24V solar panels and 60 cells (plates with a power greater than 200W), to use in a 24V isolated solar installation, you must use an MPPT maximizing regulator. Necessary to amplify the voltage of these solar panels, so that when it reaches the batteries it is high and the energy is stored well. The MPPT regulator is more expensive but is necessary with this type of plates. Which without the use of MPPT, the useful life of the batteries would be damaged since they could not be equalized and would sulfate in a few months.