Original: $93.10
-70%$93.10
$27.93The Story
Optimize your marine adventures with the MSK-20A Solar Charge Controller, designed to deliver reliable and efficient power management for your boat or marine craft. Whether you're cruising the open seas or anchoring at a secluded harbor, this intelligent charge controller ensures your battery systems remain charged and protected, enhancing your onboard energy experience.
Advanced 3-Stage PWM Charging
The MSK-20A utilizes a sophisticated 3-stage intelligent Series Type PWM charging algorithm, ensuring optimal battery health and longevity. Its microcontroller-based design offers digital precision and fully automatic operation, making it adaptable for both 12V and 24V battery systems commonly used in marine applications.
Key Features
- Intelligent Charging: 3-stage PWM charging for efficient and safe battery charging.
- Automatic Voltage Detection: Seamlessly switches between 12V and 24V systems.
- Wide Temperature Range: Operates reliably from -35°C to +50°C.
- Comprehensive Protection: Safeguards against overheating, overcharging, over-discharge, overload, and short circuits.
- Reverse Polarity Protection: Ensures safety with any solar module and battery configuration.
- Expandable Monitoring: Compatible with the optional MSK-TS External Temperature Sensor for enhanced system monitoring.
Marine Applications
Perfectly suited for a variety of marine and boating applications, the MSK-20A ensures your vessel's power systems are always performing at their best:
- Recreational and service vehicles
- Off-grid marine setups
- Portable charging solutions for boats
- Marine crafts and yachts
- Fieldwork vessels or mobile marine offices
- Maritime telecommunications equipment
Technical Specifications
| Parameter | Specification |
|---|---|
| Input Voltage | 12V / 24V |
| Maximum Current | 20 Amps |
| Weight | 0.66 lbs / 0.3 kgs |
| Dimensions | 6.28 x 3.2 x 1.89 in. (159.6 x 81.4 x 47.88 mm) |
Additional Resources
For more detailed information, refer to the following documentation:
Details & Craftsmanship
Every detail has been carefully considered to bring you the perfect product.
Description
Optimize your marine adventures with the MSK-20A Solar Charge Controller, designed to deliver reliable and efficient power management for your boat or marine craft. Whether you're cruising the open seas or anchoring at a secluded harbor, this intelligent charge controller ensures your battery systems remain charged and protected, enhancing your onboard energy experience.
Advanced 3-Stage PWM Charging
The MSK-20A utilizes a sophisticated 3-stage intelligent Series Type PWM charging algorithm, ensuring optimal battery health and longevity. Its microcontroller-based design offers digital precision and fully automatic operation, making it adaptable for both 12V and 24V battery systems commonly used in marine applications.
Key Features
- Intelligent Charging: 3-stage PWM charging for efficient and safe battery charging.
- Automatic Voltage Detection: Seamlessly switches between 12V and 24V systems.
- Wide Temperature Range: Operates reliably from -35°C to +50°C.
- Comprehensive Protection: Safeguards against overheating, overcharging, over-discharge, overload, and short circuits.
- Reverse Polarity Protection: Ensures safety with any solar module and battery configuration.
- Expandable Monitoring: Compatible with the optional MSK-TS External Temperature Sensor for enhanced system monitoring.
Marine Applications
Perfectly suited for a variety of marine and boating applications, the MSK-20A ensures your vessel's power systems are always performing at their best:
- Recreational and service vehicles
- Off-grid marine setups
- Portable charging solutions for boats
- Marine crafts and yachts
- Fieldwork vessels or mobile marine offices
- Maritime telecommunications equipment
Technical Specifications
| Parameter | Specification |
|---|---|
| Input Voltage | 12V / 24V |
| Maximum Current | 20 Amps |
| Weight | 0.66 lbs / 0.3 kgs |
| Dimensions | 6.28 x 3.2 x 1.89 in. (159.6 x 81.4 x 47.88 mm) |
Additional Resources
For more detailed information, refer to the following documentation: