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Part Number: APSWX4KP48VMPPT
Converts solar energy into usable electricity, manages the flow of energy between solar panels, batteries, and the electrical grid, and provides backup power during outages.
- Delivers pure sine wave 230V AC power from AC or DC sources.
- Ideal for installation in rural or remote sites including residential, leisure, gas/oil and forestry
- Priority source selection alternates to deliver whichever power is optimal at the time
- Built-in Maximum Power Point Tracking (MPPT) solar charge controller that optimizes power generation from the solar panels.
- Auto-transfer switching option allows the unit to function as an extended-run UPS
- 2-year limited warranty
Features
Provides Reliable, Independent Power For Home or Business
This pure sine wave hybrid inverter/charger intelligently manages power coming from your solar panels, batteries, and the utility grid all at the same time. It can allow for grid-tied operation and efficiently converts DC power from solar panels into AC power for immediate use or for energy storage in batteries, and vice versa. It converts stored power from any 48V DC battery source to network-grade AC power for sensitive electronics, including computers and laptops, network and audio/video equipment or office and household appliances. Recommended for rural and residential environments, telecommunications, gas and oil exploration, mining, forestry and other industries with remote sites. The APSWX4KP48VMPPT is an excellent solution for energy savings in grid-tied and off-grid environments.
Optimal Performance of The Solar Energy System
With built-in MPPT (Maximum Power Point Tracking) the APSWX4KP48VMPPT tracks and adjusts to the optimal point of power generation, resulting in increased energy production from the solar panels. This also improves the overall efficiency of the solar system, even in low-light conditions, resulting in consistent energy production throughout the day.
Priority Source Selection Allows Automatic Switching to Optimal Power Sources
The APSWX4KP48VMPPT uses priority source selection to alternate between utility and solar power when charging batteries, depending on which is optimal at that time. When powering a 230V AC connected load, the inverter will alternate between utility, solar and battery power. An automatic overload detector, cooling fan and resettable AC circuit breakers help protect the unit from damage.
Works as an Inverter, Standalone Power Source or UPS System
An automatic line-to-battery transfer switch and built-in maximum power point tracking (MPPT) charge controller allow the APSWX4KP48VMPPT to function as an inverter, standalone AC power source or extended-run UPS in environments with weak or unreliable solar or utility power. It delivers 3200W of continuous power and 6400W of peak power to handle high power draw during equipment startup or cycling. When used as a UPS, the APSWX4KP48VMPPT responds to blackouts and brownouts with an automatic transfer to battery-derived AC output.
Configures in Single-Phase or 3-Phase Parallel Connection
You may configure as many as to nine APSWX4KP48VMPPT units in a single-phase parallel connection for increased capacity up to 28.8kW or in a 3-phase parallel connection for increased capacity up to 9.6kW. Connecting in parallel is ideal for high-capacity residential, industrial and commercial installations.
Input Terminals Allow Hardwired Installation
High-current DC input terminals allow hardwired connection to an external energy storage battery system. Designed for easy installation in rural or remote sites including residential, leisure, gas/oil and forestry the APSWX4KP48VMPPT keeps the battery charged via the built-in AC and solar hybrid charging system while simultaneously delivering AC power to connected equipment. Pure sine wave power has less electrical noise and static for a clean signal that won’t damage equipment.
Enhanced Management and Safety Features
The front control panel with LCD provides real-time readout of all system functions and robust configuration options to meet the needs of your application. An on/off switch allows instant one-touch control over connected devices. A wired remote control is included, which lets you control the APSWX4KP48VMPPT from up to 10 meters away. Five-way fault protection (high voltage, overload, overheat, short circuit, locked fan), an audible alarm and LEDs help increase operational safety.
Compatible with Photovoltaic Solar Panels
This pure sine wave solar inverter/charger works with photovoltaic (PV) solar panels, including single-crystalline, poly-crystalline with Class A rating and CIGS. For optimal performance, use “deep cycle” batteries with the APSWX4KP48VMPPT, preferably wet-cell (vented), gel-cell/absorbed glass mat (sealed) or Lithium batteries.
Meets Vital Safety and Emission Standards
With its highly efficient hybrid operation, the APSWX4KP48VMPPT carries certifications to meet CE and UKCA safety and emission directives.
Rugged Steel Housing Comes Ready for Mounting
The steel case resists moisture, vibration, impact and high-humidity environments. Built-in mounting brackets allow wall installation in a cool, dry location.
Specifications
OVERVIEW
UPC Code | 037332256478 |
INPUT
Solar Panel | Non-isolated system. Compatible with Mono-crystalline, Poly-crystalline with Grade A rating, and CIGS solar panels. |
Nominal Input Voltage(s) Supported | 220V AC; 230V AC; 240V AC |
Recommended Electrical Service | AC INPUT: 230V 32A circuit breaker recommended. DC INPUT: Requires 48VDC input source capable of delivering 120A for the required duration (when used at full continuous capacity - DC requirements increase during OverPower and DoubleBoost operation). For automotive applications, professional hardwire. PV MPPT INPUT: 120-450VDC Input (450VDC Max Open Circuit Voltage). 5000W Max Solar Panel Configuration |
Maximum Input Amps | 27.0 |
Input Connection Type | DC BATTERY INPUT: Set of DC bolt-down terminals. AC INPUT: Hardwire via built in terminal strip with wire retention plate. PV INPUT: Hardwire terminal strip |
Voltage Compatibility (VAC) | 220; 230; 240 |
Voltage Compatibility (VDC) | 48 |
Input Frequency | 50 / 60 Hz (Input Frequency Range: 47-65Hz) |
OUTPUT
Frequency Compatibility | 50 / 60 Hz |
Pure Sine Wave Output | Yes |
Nominal Output Voltage(s) Supported | 220V; 230V; 240V |
Output Receptacles | Hardwire |
Continuous Output Capacity (Watts) | 3200 |
Peak Output Capacity (Watts) | 6400 |
Output Voltage Regulation | LINE POWER (AC): Maintains nominal sine wave output from line power source. INVERTER POWER (AC): Maintains sine wave output of +/-2% |
Output Frequency Regulation | 50/60Hz. Battery Mode: 50/60Hz +/- 0.5 Hz |
BATTERY
Expandable Runtime | Yes |
Expandable Battery Runtime | User-supplied 48V DC battery system |
Expandable Runtime Description | Runtime is expandable with any number of user-supplied wet-cell, gel-cell, or lithium (w/integrated BMS) type batteries |
DC System Voltage (VDC) | BATTERY: 48. MPPT PV: 120-450 |
Battery Pack Accessory (Optional) | Wet/Gel/AGM/SLA/LFP (User Supplied) |
Battery Charge | Hybrid selectable 90A max charging system. 60A AC Charger, 90A MPPT Solar Charge Controller, and AC + Solar Charger combined for up to 90A charging. |
USER INTERFACE, ALERTS & CONTROLS
Front Panel LCD Display | Multi-function LCD displays Input, Output, Configuration, Battery Level, Charging Status, Load status. Left segment displays Input Voltage, Input Frequency, Battery Voltage, PV1 Voltage and Charger Current. Middle display: program settings, flash warning codes, fault codes, parallel system quantity (if configured). Right display segment displays Output Voltage, Output Frequency, Load Percentage, Load Current (VA), Load (watts), DC Discharge Current. Graphical icons for battery and load level (0-24%, 25%-49%, 50-74%, 75-100%), operation mode, and mute operation. |
Front Panel LEDs | 3 LEDs for Operation (Green), Charge (Amber), Fault (Red) Alarm Status. See manual for sequences. |
Switches | 2 position on/off switch. 4 push buttons up/down/left/right/enter. |
PHYSICAL
Material of Construction | Metal |
Cooling Method | Thermal-controlled fan system |
Shipping Dimensions (hwd / in.) | 20.66 x 14.76 x 7.87 |
Unit Dimensions (hwd / in.) | 18.457 x 11.614 x 4.732 |
Unit Weight (lbs.) | 21.10 |
ENVIRONMENTAL
Storage Temperature Range | -15° to 60°C |
Relative Humidity | 0-95% non-condensing |
Operating Elevation | 0-6562 ft. (0-2000 m) |
Audible Noise | 60dB front side @ 1 meter |
Operating Temperature | 0° to 50°C |
LINE / BATTERY TRANSFER
Transfer Time (Line Power to Battery Mode) | 10 milliseconds |
Low Voltage Transfer to Battery Power | In AC "auto" mode, inverter/charger switches to battery mode as line voltage drops in wide range mode at 120V +/-7V or Narrow range mode at 170V +/-7V (user adjustable). See manual. |
High Voltage Transfer to Battery Power | In AC "auto" mode, inverter/charger switches to battery mode as line voltage rises above 280V +/- 7V |
FEATURES & SPECIFICATIONS
Grounding | Main grounding lug connects inverter/charger to earth or vehicle chassis ground |
Generator Start Compatibility | Contact relay signal (NO and NC) contacts |
Single-Phase Parallel / Stacking Support | Up to 9 units max for a combined capacity up to 28.8kW |
3-Phase Parallel / Stacking Support | Up to 9 units max for a combined capacity up to 9.6kW |
STANDARDS & COMPLIANCE
Product Certifications | EN 61000; IEC 62109-1; IEC 62109-2 |
Product Compliance | CE (Europe); REACH; RoHS; UKCA |
WARRANTY & SUPPORT
Product Warranty Period (International) | 2-year limited warranty |
Questions & Answers
An MPPT (Maximum Power Point Tracking) Solar Charge Controller is a device that regulates the voltage and current coming from the solar panels going to the battery. The primary function of an MPPT Solar Charge Controller is to ensure that your solar power system is operating at its maximum efficiency.
Solar panels can produce varying amounts of power depending on the intensity of sunlight, the angle of the sun, the temperature, and other factors. The power produced by a solar panel at any given moment might not be the ideal or maximum power that the panel is capable of producing. An MPPT controller solves this problem by continuously tracking the maximum power point of the solar panel and adjusting the voltage and current accordingly.
The advantage of using an MPPT Solar Charge Controller over a more traditional PWM (Pulse Width Modulation) controller is that MPPT controllers can convert excess voltage into amperage, allowing your solar power system to make use of a higher percentage of the power produced by the solar panels. This can result in a 15-20% increase in efficiency in winter and a 10-15% increase in efficiency in summer.
Moreover, the MPPT controllers can handle higher voltage input from solar panels, which can be beneficial for systems with long cable runs where voltage drop can be an issue. They can also accommodate for larger systems and different types of batteries, making them more flexible for various solar power system configurations.
A sine wave inverter is a device that converts DC power (like the power stored in a battery) into AC power (like the power used in your home). There are two types of inverters that are commonly used: pure sine wave inverters and modified sine wave inverters. Here's how they compare:
1. Pure Sine Wave Inverters
Pure sine wave inverters generate an output that is identical to the smooth, sinusoidal wave of AC grid power. This is the type of electricity you'd typically receive from an electrical outlet in a home or business.
Advantages:
- Better compatibility with all kinds of devices, appliances, and technologies.
- More efficient operation, less waste heat.
- Reduced electrical and audible noise.
- Better for motor loads and power tools as they run at the correct speed and do not overheat.
- Essential for sensitive electronics and medical equipment.
Disadvantages:
- More expensive due to complex technology.
2. Modified Sine Wave Inverters
Modified sine wave inverters produce a waveform that is more like a square wave, with sharp, flat plateaus instead of smooth, rolling waves. While these inverters can power many types of devices, they are less efficient and may not work well with certain types of electronics.
Advantages:
- Generally cheaper and simpler design.
- Suitable for many common appliances like heaters, fridges, or lights.
Disadvantages:
- Less efficient, creating more waste heat.
- May cause issues with certain sensitive electronics or appliances, causing them to run less efficiently or even damaging them.
- Increased electrical noise can interfere with some systems.
- May cause clocks and timers to run faster.
In summary, if you're using sensitive equipment or if you need your system to be highly efficient and reliable, you should use a pure sine wave inverter. However, if you're only powering basic appliances and are looking to save money, a modified sine wave inverter might suffice. But do keep in mind that the cost savings upfront might lead to higher energy costs or damaged equipment over time.
Documents & Downloads
Documentation
Declarations of Conformity
Product Videos
- Hybrid Solar Power Inverter Chargers
https://tripplite.eaton.com/video/hybrid-solar-power-inverter-chargers/936342
Product Images