PowMr 3000W 24V DC To 110V/120V AC Hybrid Solar Inverter Charge Built In 60A MPPT Solar Charge Controller Compatibility with Lead Battery And Lithium Battery

HF2430U60
$50699
$48199
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PowMr 3000W 24V DC To 110V/120V AC Hybrid Solar Inverter Charge Built In 60A MPPT Solar Charge Controller Compatibility with Lead Battery And Lithium Battery

NOTICE: The product has been sold out. And there is available item named: POW-LVM3K-24V can replacement

Overview

HF series is a new all-in-one hybrid solar charge inverter, which integrates solar energy storage & means charging energy storage and AC sine wave output. The solar charging module applies the latest optimized MPPT technology to quickly track the maximum power point of the PV array in any environment and obtain the maximum energy of the solar panel in real time.

Based on full-digital intelligent design, the DC-AC inverter module employs advanced SPWM technology and outputs pure sine wave to convert DC into AC. It is ideal for AC loads such as household appliances, power tools, industrial equipment, and electronic audio and video equipment.

Features:

  • Brand: Powmr
  • Product Model: HF2430U60
  • Full digital voltage and current double closed loop control, advanced SPWM technology, output of pure sine wave
  • Two output modes: mains bypass and inverter output; uninterrupted power supply
  • Available in 4 charging modes: Only Solar, Mains Priority, Solar Priority and Mains & Solar hybrid charging
  • Advanced MPPT technology with an efficiency of 99.9%
  • Designed with a LCD screen and 3 LED indicators for dynamic display of system data and operating status
  • ON/OFF rocker switch for AC output control
  • Power saving mode available to reduce no-load loss
  • Intelligent variable speed fan to efficiently dissipate heat and extend system life
  • Lithium battery activation by PV solar or mains, allowing access of lead-acid battery and lithium battery
  • 360 ° all-round protection with a number of protection functions
  • Complete protections, including short circuit protection, over voltage and under voltage protection, overload protection, reverse protection, etc

Basic system introduction

The figure below shows the system application scenario of this product. A complete system consists of the following parts:

  1. PV module: Convert light energy into DC power, and charge the battery through the all-in-one solar charge inverter, or directly invert into AC power to drive the load.
  2. Mains or generator: Connected at the AC input, to power the load while charging the battery. If the mains or generator is not connected, the system can also operate normally, and the load is powered by the battery and PV module.
  3. Battery: Provided to ensure normal power supply to the system loads when solar energy is insufficient and the Mains is not connected.
  4. Household load: Allow connection of various household and office loads, including refrigerators, lamps, TVs, fans and air conditioners.
  5. All-in-one solar charge inverter: The energy conversion unit of the whole system

Specific system wiring method depends on the actual application scenario.

Wiring specifications and circuit breaker selection

Wiring and installation must comply with national and local electrical codes.

Recommended PV array wiring specifications and circuit breaker selection: Since the output current of the PV array is affected by the type, connection method and illumination angle of the PV module, the minimum wire diameter of the PV array is calculated according to its short-circuit current; refer to the short-circuit current value in the PV module specification (the short-circuit current is constant when the PV modules are connected in series; the short-circuit current is the sum of the short-circuit currents of all PV modules connected in parallel); the short-circuit current of the PV array shall not exceed the maximum input current.

Refer to the table below for PV input wire diameter and switch:

Note: The voltage in series shall not exceed the maximum PV input open circuit voltage.

Refer to the table below for recommended AC input wire diameter and switch:

Note: There is already an appropriate circuit breaker at the Mains input wiring terminal, so it is not necessary to add one more.

Recommended battery input wire diameter and switch selection

Recommended AC output wiring specifications and circuit breaker selection

Note: The wiring diameter is for reference only. If the distance between the PV array and the all-in-one solar charge inverter or the distance between the all-in-one solar charge inverter and the battery is relatively long, using a thicker wire can reduce the voltage drop to improve system performance.

Note: The above are only recommended wiring diameter and circuit breaker. Please select the appropriate wiring diameter and circuit breaker according to actual situations.

Installation and wiring

Installation steps:

Step 1: Determine the installation position and the space for heat dissipation. Determine the installation position of the all-in-one solar charge inverter, such as wall surface; when installing the allin-one solar charge inverter, ensure that there is enough air flowing through the heat sink, and space of at least 200m to the left and right air outlets of the inverter shall be left to ensure natural convection heat dissipation. Refer to the installation diagram of the whole machine as above.

Step 2: Remove the terminal cover

Step3: Wiring

Step 5: Install the terminals cover.

Battery type parameters

For Lead-acid Battery :

For Lithium Battery :

System maintenance

In order to maintain the best long-term performance, it is recommended to conduct following checks twice a year.

  1. Make sure that the airflow around the unit is not blocked and remove any dirt or debris from the heat sink.
  2. Check that all exposed wires are damaged by exposure to sunlight, friction with other objects around them, dryness, bite by insects or rodents, etc., and the wires shall be repaired or replaced if necessary.
  3. Verify for the consistency of indication and display with the operation of the device. Please pay attention to the display of any faults or errors, and take corrective actions if necessary.
  4. Check all wiring terminals for corrosion, insulation damage, signs of high temperature or burning/discoloration, and tighten the screws.
  5. Check for dirt, nesting insects and corrosion, and clean up as required.
  6. If the arrester has failed, replace in time to prevent lightning damage to the unit or even other equipment of the user.

Technical parametersPlease confirm the specification before install

Correct Connecting Order : Battery - solar panel - load

Disconnect : solar panel - battery - load



HF Series User Manual(English) (HF2430U60.pdf, 1,394 Kb) [Download]

Wifi Model (Powmr-HF-WiFi-Plug.pdf, 2,111 Kb) [Download]

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