SRNE Solar MC2420N10 MC Series MPPT Solar Charge Controller User Manual
- June 4, 2024
- SRNE Solar
Table of Contents
SRNE Solar MC2420N10 MC Series MPPT Solar Charge Controller User Manual
Dear Users: Thank you very much for choosing our products!
Safety Instructions
- Applicable voltage of the controller exceeds the safety voltage for human body, so please read the manual carefully before use and operate the controller only after safety operation training has been completed.
- There are no parts inside the controller that need to be maintained or repaired. The user shall not disassemble and repair the controller.
- Install the controller indoors to prevent exposure of components and prevent water from entering the controller.
- Please install the controller in a well-ventilated place to prevent the heat sink from being overheated.
- It is recommended to install a proper fuse or circuit breaker outside the controller.
- Be sure to disconnect the wiring of PV array and the fuse or circuit breaker near battery terminal before installation and wiring adjustment of the controller.
- Check that all wiring is tight after installation to avoid danger of heat accumulation due to poor connections.
Warning: This operation is dangerous, so before operation, safety
preparations must be made.
Caution : This operation may have a destructive effect.
Reminder : Suggestions and tips for operator.
1. Introduction
1.1. Overview
With industry-leading Power Catcher MPPT technology, the MC series solar charge controller enables maximum energy tracking for solar panel. This technology allows the controller to quickly and accurately track the maximum power point of PV array in any environment, obtain the maximum energy of solar panel in real time, and significantly increase energy utilization efficiency of the solar energy system. This product can be connected to an external LCD screen or Bluetooth communication module and PC Upper Computer for dynamic display of operating status, operating parameters, controller logs, control parameters, etc.
The user can look up various parameters and can modify the control parameters as needed to suit different system requirements. The controller adopts standard Modbus communication protocol, which is convenient for the user to view and modify the parameters of the system. Meanwhile, the company provides free monitoring software that can maximize the convenience for users to meet different needs of remote monitoring. The controller provides overall electronic fault self-test and powerful electronic protection functions which minimize components damage due to installation error and system failure.
1.2. Features
- PowerCatcher maximum power point tracking technology allows the controller to track the maximum power point of solar panels even in a complex environment. Compared with the traditional MPPT tracking technology, it boasts faster response speed and higher tracking efficiency.
- A built-in maximum power point tracking (MPPT) algorithm can significantly increase energy utilization efficiency of the photovoltaic system, which is about 15% to 20% higher than traditional PWM charging.
- It provides an active charging voltage regulation feature. At battery open circuit or lithium battery BMS overcharge protection, the controller battery terminal will output the rated charging voltage value.
- MPPT tracking efficiency is up to 99.9%.
- Due to an advanced digital power technology, the circuit energy conversion efficiency is as high as 98%.
- Available in multiple battery types and support charging procedures of various types of batteries such as lithium battery, colloidal battery, sealed battery, vented battery, lithium battery, etc.
- A current-limited charging mode is available. When the power of solar panel is too large and the charging current is higher than the rated valve, the controller automatically reduces the charging power so that the solar panel can operate at the rated charging current.
- Support automatic identification of lead-acid battery voltage.
- External LCD screen or Bluetooth module can be connected for viewing of equipment operating data and status, and modification of controller parameters is supported.
- Support standard Modbus protocol to meet communication needs in different occasions.
- Built-in over-temperature protection mechanism ensures that when temperature exceeds the set value of the device, the charging current decreases linearly with the temperature, thereby reducing the temperature rise of controller and avoiding high temperature damage.
- Temperature compensation and automatic adjustment of charge and discharge parameters help to improve battery life.
- Solar panel short circuit protection, battery open circuit protection and TVS lightening protection etc.
1.3. Appearance
1.4. MPPT Technology Introductions
The Maximum Power Point Tracking (MPPT for short) system is an advanced charging technology that enables the solar panel to output more energy by adjusting operating conditions of the electrical module. Due to non-linear characteristics of solar array, there is maximum energy output point (maximum power point) of an array on its curve. Traditional controller (switch charging technology and PWM charging technology) fails to maintain battery charging at this point, and therefore the maximum energy of the solar panel cannot be obtained. The solar charge controller with MPPT control technology, however, can track the array’s maximum power point at all time to obtain the maximum energy to charge the battery. Take a 12V system as an example. Peak voltage (Vpp) of the solar panel is about 17V, while the battery voltage is about 12V. In general, when the controller is charging the battery, the voltage of solar panel is about 12V and does not fully contribute its maximum power. But, MPPT controller can overcome this problem. It constantly adjusts the input voltage and current of the solar panel to achieve the maximum input power.
Compared to the traditional PWM controller, the MPPT controller can provide
the maximum power of the solar panel and thus can provide a larger charging
current. In general, the MPPT controller can improve the energy utilization by
15% -20% compared with the PWM controller.
In
addition, due to the difference in ambient temperature and light conditions,
the maximum power point often changes. The MPPT controller can adjust
parameters according to different conditions from time to time to keep the
system near to its maximum working point. The whole process is fully automatic
and does not require any adjustments by users.
1.5. Charging Stage Introductions
As one of the charging stages, MPPT cannot be used alone. It is usually required to combine boost charge, floating charge, equalizing charge and other charging methods to complete the battery charging process. A complete charging process includes: Quick charge, holding charge and floating charge. Charging curve is shown below:
a) Quick charge
In quick charge stage, the battery voltage has not yet reached the set value
of full charge voltage (i.e. equalizing/boost charge voltage) and the
controller will perform MPPT charging, which will provide maximum solar energy
to charge the battery. When the battery voltage reaches the pre-set value,
constant voltage charge will start.
b) Holding charge
When the battery voltage reaches the set value of holding voltage, the
controller will perform constant voltage charging. This process will no longer
include MPPT charging, and the charging current will gradually decrease with
time. Holding charge comes in two stages, i.e. equalizing charge and boost
charge. The two stages are conducted without repetition, in which equalizing
charge is started once every 30 days.
Boost charge
The default duration of boost charge is 2 hours. The customer can also adjust
the holding time and the pre-set value of boost voltage point according to
actual needs. When the duration reaches the set value, the system will switch
to floating charge.
Equalizing charge
Warning: Risk of explosion! Equalizing vented lead-acid battery may generate
explosive gases. So, the battery compartment must be well ventilated.
Caution: Damage of device! Equalization can increase the battery voltage to
levels that may damage sensitive DC loads. It is necessary to verify that the
allowable input voltage of all system loads is greater than the equalizing
charge set value.
Caution: Damage of device! Over charge and excessive gas evolution may damage
the battery plates and cause active substances on the battery plate to come
off. Equalizing charge may cause damage if voltage is too high or time is too
long. Please carefully check the specific requirements of battery used in the
system. Certain types of battery benefit from regular equalizing charge, which
can stir electrolyte, balance battery voltage, and complete chemical reaction.
Equalizing charge increases the battery voltage above standard voltage,
causing vaporization of battery electrolyte. If it is detected that the
controller automatically controls the next stage to be equalizing charge, the
equalizing charge will last for 120 minutes (default). The equalizing charge
and boost charge are not repeated in a full charge process to avoid too much
gas evolution or battery overheating.
Notes:
- When the system cannot continuously stabilize the battery voltage at a constant voltage due to the influence of installation environment or load, the controller will accumulate time until the battery voltage reaches the set value. When the accumulated time reaches 3 hours, the system will automatically switch to floating charge.
- If controller clock is not calibrated, the controller will perform regular equalizing charge according to its internal clock.
Floating charge
Floating charge is conducted following the holding charge stage, where the
controller will reduce the battery voltage by reducing charge current and
allow the battery voltage to remain at the floating charge set value. During
the floating charge stage, the battery is charged in a very low voltage to
maintain full charge state of the battery. In this stage, the load can get
nearly all of the solar energy. If the load exceeds the energy that solar
panel can provide, the controller will not be able to maintain the battery
voltage in the floating charge stage. When the battery voltage is as low as
the recovery charge set point, the system will exit floating charge stage and
re-enter the fast charge stage.
2. Installation
2.1. Installation Precautions
- Be very careful when installing the battery. When installing the vented lead-acid battery, wear protective glasses. Once you touch the battery acid, rinse it with clean water.
- Avoid placing metal objects near the battery to prevent battery short circuit.
- Acid gas may be generated when the battery is charged. So ensure good ventilation.
- The battery may generate flammable gas. Please keep away from sparks.
- Avoid direct sunlight and infiltration of rainwater when installing outdoors.
- Poor connection points and the corroded wires may cause extreme heat to melt the wire insulation layer, burn the surrounding materials, and even cause fire. Therefore, it is necessary to ensure that the connectors are tightened, and the wires preferably fixed with a cable tie to avoid loose connector caused by wire shaking.
- In system wiring, output voltage of the component may exceed the safety voltage of human body. So, it is necessary to use insulated tools and ensure that the hands are dry.
- Battery terminal on the controller can be connected with either a single battery, or a pack of battery. Subsequent instructions in the manual are for a single battery, but it also applies to a battery pack.
- Observe the safety recommendations of battery manufacturer.
- The system connection wires are selected according to the current density not more than 4A/mm2.
- Make the controller grounded.
2.2. Wire Specifications
Wiring and installation must comply with national and local electrical code requirements.
PV and battery connection wires must be selected according to rated current. Refer to the following table for wiring specifications:
2.3. Installation and Wiring
Warning: Danger, Explosion! Never install the controller and a vented battery
in the same enclosed space! Also do not install in an enclosed place where
battery gas may collect.
Warning: Danger, High Voltage! Photovoltaic arrays may generate very high open
circuit voltages. Disconnect circuit breaker or fuse before wiring and be very
careful during wiring. Caution: When installing the controller, ensure that
there is enough air
to flow through the controller’s heat sink, leaving at least 150mm above and
below the controller to ensure natural convection for heat dissipation. If
install it in a closed box, ensure reliable heat dissipation through the box.
Avoid installing the controller in a place free of direct sunlight, high
temperature, and water, and ensure good ventilation around the controller.
Step 2: Mark the mounting position according to the mounting dimensions of the
controller. Drill 4 mounting holes of the appropriate size at the 4 marks. Fix
screws into the upper two mounting holes.
Step 3: Fasten the Controller Align fixing holes of the controller with the
two pre-fixed screws and hang the controller up. And then fix the lower two
screws.
Step 4: Wiring
For installation safety, we recommend a wiring sequence as follows; however,
wiring in other sequence instead of this one will not damage the controller.
Warning: Danger, Electric shock hazards! We strongly recommend connect a fuse
or circuit breaker to the PV array and battery terminals to prevent electric
shock hazards during wiring or error operation, and make sure that fuse or
circuit breaker is disconnected before wiring.
Warning: Danger, High voltage hazards! Photovoltaic arrays may generate very
high open circuit voltages. Disconnect circuit breaker or fuse before wiring
and be very careful during wiring.
Warning: Danger, Explosion hazards! If the positive and negative terminals of
battery and the wires connected to them are short-circuited, it may cause a
fire or explosion. Please be very careful in operation.
Please connect the battery first, and then the solar panel. Please follow the
“+” first and “-” next method when wiring.
When all wires are connected firmly and reliably, check whether the wiring is
proper and whether the polarity is reversed. After confirmation, connect the
battery fuse or circuit breaker and observe whether the LED indicator is on.
If not, disconnect the fuse or circuit breaker immediately and check whether
wiring is correct.
As the battery is properly energized, connect the solar panel. If there is
sufficient sunlight, the charge indicator of controller will be steady on or
flash and start to charge the battery.
Warning: When the controller has stopped charging for 10 minutes, reverse
polarity of the battery can damage the controller’s internal components.
Notes:
- Note that the battery fuse shall be installed as close as possible to the battery terminal. The recommended distance is not more than 150mm.
- The battery temperature is 25°C (fixed value) when the controller is not collected to a remote temperature sensor.
3. Product Operation and Display
3.1. LED Indication
There are a total of three indicators on the controller
BAT indication:
BAT Type Indication:
3.2. Keys Operation
There is a key on the controller, which is used in conjunction with the battery type indicator for selection of battery type. The specific operation mode is as follows: In the current operating state, press and hold the key for 8 seconds. The battery type indicator (the color displayed is that of the previously saved battery type) starts to flash (the controller turns off charging and other works and enters idle state). At this point, each time the key is pressed, the battery type indicator changes a color which corresponds to a battery type. After the battery type is selected, press and hold the key for 8 seconds again or maintain no operation for 15 seconds. Then, the controller will automatically save the currently set battery type and enter the normal operating mode; In addition, if you press and hold the key for 20s, the controller will restore the factory default parameters.
4. Product Protection and System Maintenance
4.1 Protections
Waterproofing protection Rating: IP32
Input power limited protection When the power of solar panel is higher
than the rated value, the controller will limit the power of solar panel
within the rated power range to prevent damage by over current, and the
controller enter the current-limiting charge.
Battery reverse polarity protection If the battery polarity is reversed,
the system will not work but it will not burn out the controller.
PV input end voltage is too high If the voltage at the PV array input end
is too high, the controller will automatically shut off the PV input.
PV input end short circuit protection If the voltage at the PV array
input end is short circuited, the controller will turn off charging; after
short circuit is removed, charging will automatically recover.
PV input reverse polarity protection When the polarity of PV array is
reversed, the controller will not be damaged, and normal operation will
continue after wiring error is corrected.
Night reverse charging protection Prevent battery discharge through the
solar panel at night.
TVS lightning protection
Over-temperature protection When temperature of the controller exceeds
the set value, it will reduce charging power or stop charging.
4.2 System Maintenance
- In order to maintain the best long-term performance for controller, it is recommended to conduct inspections twice a year.
- Make sure the airflow around the controller is not obstructed and remove any dirt or debris from the heat sink.
- Check if the insulation layers of all exposed wires are damaged due to sun exposure, friction with other objects nearby, dry rot, destruction of insects or rodents, etc. If so, it is necessary to repair or replace the wire.
- Verify if indicators are consistent with the device operations. Please note to take corrective actions for any malfunctions or error indications if necessary.
- Check all wiring terminals for corrosion, insulation damage, signs of high temperature or burning/discoloration. Tighten terminal screws.
- Check for dirt, insects nesting and corrosion and clean as required.
- If the lightning arrester has failed, replace it in time to protect controller and other devices of the user from be damaged by lightning.
Warning: Danger, electric shock hazards! Make sure that all power supplies to the controller have been disconnected before check or operation as above.!
5. Technical Parameters
5.1 Electrical parameters
5.2. Battery type default parameters
If a user-defined battery is used, the default voltage parameters of the system are the same as those of the sealed lead-acid battery. The following logic must be followed when you modify battery charge and discharge parameters: Overvoltage disconnection voltage> charge limit voltage equalizing charge voltage boost charge voltage floating charge voltage> boost charge recovery voltage; Overvoltage disconnection voltage> Overvoltage disconnection recovery voltage;
6. Conversion Efficiency Curve
6.1.12V System
6.2. 24V System
7. Product Dimensions
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