60A lcd solar charge controller information
High quality ce rohs approved 12v 24v pwm lcd solar charge controller
Our CL series is a kind of intelligent, multi-purpose solar charge and discharge controller.
The family use the fixed LCD display, with a very friendly interface; various control parameters can be flexibly set, fully meet your various application requirements.
Technical Data for CL 60a lcd solar charge controller
PV input voltage
Rated charge current
Battery over-voltage protection voltage
16.00V×1/×2/×3/×4 (0.5V differents)
Rated discharge current
Charge loop voltage drop
Discharge loop voltage drop
PWM 4 stages （bulk, absorption,float,equalized）
Float Charge Voltage
Absorption charge voltage
Duration of Absorption Charge
Voltage of equalized charging *
Duration of equalized charging
Low voltage disconnection
Low voltage reconnection
Load working mode
Regular control mode,Light control with switch-off point at night and switch-on point before dawn,Light control mode
Light control voltage
PCB terminal, ≤25mm2
-20 ~ +55 °C
-30 ~ +65 °C
10% ~ 90%, no condensation
Remote communication，TTL, standard ModBus protocol
About 60 amps lcd solar charge controller
• Automatic identification system voltage, 12/24V auto recoginition
• Humanized LCD displaying and two buttons operation of man-machine interface.
• Completed technical data for setup and modify.
• High efficiency intelligent PWM 4 stage charging.
• The load control mode can be selected, the timer function can be reset for street light at night.
• Discharge counter of Ampere hour.
• Reliable over voltage protection, short circuit protection,over load protection, over charge protection, over-discharge protection.
Application for solar charge controller
Q:What is a Solar Charge Controller? Why do I need one?
A charge controller, or charge regulator is basically a voltage and/or current regulator to keep batteries from overcharging. It regulates the voltage and current coming from the solar panels going to the battery. Most "12 volt" panels put out about 16 to 20 volts, so if there is no regulation the batteries will be damaged from overcharging. Most batteries need around 14 to 14.5 volts to get fully charged.
Q:Do I always need a charge controller?
Not always, but usually. Generally, there is no need for a charge controller with the small maintenance, or trickle charge panels, such as the 1 to 5 watt panels. A rough rule is that if the panel puts out about 2 watts or less for each 50 battery amp-hours, then you don't need one.
Q: Why 12 Volt Solar Panels are 17 Volts?
The obvious question then comes up - "why aren't panels just made to put out 12 volts". The reason is that if you do that, the panels will provide power only when cool, under perfect conditions, and full sun. This is not something you can count on in most places. The panels need to provide some extra voltage so that when the sun is low in the sky, or you have heavy haze, cloud cover, or high temperatures*, you still get some output from the panel. A fully charged "12 volt" battery is around 12.7 volts at rest (around 13.6 to 14.4 under charge), so the panel has to put out at least that much under worst case conditions.
Q: What's A PWM solar charge controller ?
A PWM solar charge controller stands for “Pulse Width Modulation”. These operate by making a connection directly from the solar array to the battery bank. During bulk charging, when there is a continuous connection from the array to the battery bank, the array output voltage is ‘pulled down’ to the battery voltage. As the battery charges, the voltage of the battery rises, so the voltage output of the solar panel rises as well, using more of the solar power as it charges. As a result, you need to make sure you match the nominal voltage of the solar array with the voltage of the battery bank. *Note that when we refer to a 12V solar panel, that means a panel that is designed to work with a 12V battery. The actual voltage of a 12V solar panel, when connected to a load, is close to 18 Vmp (Volts at maximum power). This is because a higher voltage source is required to charge a battery. If the battery and solar panel both started at the same voltage, the battery would not charge.