• 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 BT 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.
Parameter
|
Value
|
||||
Model
|
MD1230N05
|
MD1250N05
|
|||
Backup Battery System Voltage
|
12V
|
||||
Backup Battery Voltage Range
|
9~16V DC
|
||||
Backup Battery Type
|
Sealed Battery, Gel Battery, Vented Battery, Lithium Iron Phosphate Battery, User-defined Battery
|
||||
Rated Charging Current
|
30A
|
50A
|
|||
Maximum PV Input Voltage
|
55V DC
|
||||
Max. power point voltage range
|
17~36V
|
||||
Maximum PV Input Current
|
27A
|
45A
|
|||
Solar Panel Charging Mode
|
Buck MPPT
|
||||
MPPT Efficiency
|
>99%
|
||||
PV input power is recommended
|
400W
|
700W
|
|||
Generator (Starter Battery) System Voltage
|
12/24V
|
||||
Starter Battery Type
|
Lead-acid Battery
|
||||
Maximum Generator Input Voltage
|
32V DC
|
||||
Maximum Generator Input Current
|
35A
|
60A
|
|||
Generator Voltage Range
|
Conventional Generator
|
13.2~16V/26.4~32V DC
|
|||
Intelligent (Euro 6 Standard) Generator
|
12~16V/24~32V DC
|
||||
Generator charging mode
|
Buck , Boost , Buck-Boost
|
||||
Generator output
power is recommended |
12V Backup Battery
|
400W
|
700W
|
||
PV charges the starter battery
|
Charging Voltage
|
13.8V
|
|||
Charging Current
|
≤15A
|
≤25A
|
|||
No-load loss
|
<0.6W
|
||||
Maximum Charging Conversion Efficiency
|
98%
|
||||
Temperature compensation factor
|
-3mV/℃/2V(Default value, the value of lead-acid batterycanbeset);No temperaturecompensation function for lithium battery
|
||||
Communication method
|
TTL
|
||||
Protection Function
|
Overcharging Protection, Overcurrent Protection, Overtemperature Protection, Generator Reverse Connection Protection, Solar Panel
Reverse Connection Protection,Backup battery Reverse connection protection,Anti-reverse Charging Protection at night |
||||
Operating temperature
|
-35℃~65℃
|
||||
Altitude
|
≤3000m
|
||||
Waterproof level
|
IP32
|
||||
Product dimensions
|
221*175.8*82.4mm
|