Powmr All In One Inverter 48V DC 5KW Solar Inverter Charge 50Amp PWM Solar Charge Controller With LCD Display 220V AC Output Off-Grid Inverter
Powmr 48V DC 5KW Solar Inverter Charge 50Amp PWM Solar Charge Controller With LCD Display 220V AC Output Off-Grid Inverter
Product Instruction:
This is a multi-function 48V inverter charger, combining functions of inverter, solar charger, and battery charger to offer uninterruptable power support with portable size. Its comprehensive LCD display offers user-configurable and easy-accessible button operation such as battery charging current, AC/solar charger priority, and acceptable input voltage based on different applications.
Features:
- Brand: Powmr
- Model: POW-5KP-48E
- Display Model: LCD Display
- Technology Support: MPPT/PWM
- Hybrid Model: all in one inverter Charge
- Pure sine wave inverter
- Nominal Input Frequency: 50Hz / 60Hz (programmable)
- Configurable input voltage range for home appliances and personal computers via LCD setting
- Configurable battery charging current based on applications via LCD setting
- Configurable AC/Solar Charger priority via LCD setting
- Compatible to mains voltage or generator power
- Auto restart while AC is recovering
- Overload/ Over temperature/ short circuit protection
- Smart battery charger design for optimized battery performance
- Cold start function
Reminder: Only for US users
1. In the mains bypass mode, the device cannot be connected to two-phase 220V AC power, that is, L1-L2 cannot be connected to L-N.
2. In inverter mode, after the device is connected to two-phase 220V, please do not select the mains priority as the output priority, so as to avoid potential safety hazards for the device.
3. Do not connect the AC output end of the device to an autotransformer, so as not to affect the normal service life of the device.
Specification:
Table 1 Line Mode Specifications
|
INVERTER MODEL |
1KVA |
2KVA |
3KVA |
3KVA Plus |
5KVA |
|||
|
Input Voltage Waveform |
Sinusoidal (utility or generator) |
|||||||
|
Nominal Input Voltage |
230Vac |
|||||||
|
Low Loss Voltage |
170Vac±7V (UPS); |
|||||||
|
Low Loss Return Voltage |
180Vac±7V (UPS); |
|||||||
|
High Loss Voltage |
280Vac±7V |
|||||||
|
High Loss Return Voltage |
270Vac±7V |
|||||||
|
Max AC Input Voltage |
300Vac |
|||||||
|
Nominal Input Frequency |
50Hz / 60Hz (programmable) |
|||||||
|
Low Loss Frequency |
40±1Hz |
|||||||
|
Low Loss Return Frequency |
42±1Hz |
|||||||
|
High Loss Frequency |
65±1Hz |
|||||||
|
High Loss Return Frequency |
63±1Hz |
|||||||
|
Output Short Circuit Protection |
Circuit Breaker |
|||||||
|
Efficiency (Line Mode) |
>95% ( Rated R load, battery full charged ) |
|||||||
|
Transfer Time |
10ms typical (UPS); 20ms typical (Appliances) |
|||||||
| When AC input voltage drops to 170V, the output power will be derated. | 
|
|||||||
Table 2 Inverter Mode Specifications
INVERTER MODEL | 1KVA | 2KVA | 3KVA | 3KVA Plus | 5KVA |
Rated Output Power | 1KVA/1KW | 2KVA/2KW | 3KVA/3KW | 5KVA/5KW | |
Output Voltage Waveform | Pure Sine Wave | ||||
Output Voltage Regulation | 230Vac±5% | ||||
Output Frequency | 50Hz | ||||
Peak Efficiency | 93% | ||||
Overload Protection | 5s@≥150% load; 10s@105%~150% load | ||||
Surge Capacity | 2* rated power for 5 seconds | ||||
Nominal DC Input Voltage | 12Vdc | 24Vdc | 24Vdc | 48Vdc | |
Cold Start Voltage | 11.5Vdc | 23.0Vdc | 23.0Vdc | 46.0Vdc | |
Low DC Warning Voltage | 23.0Vdc | 46.0Vdc | |||
11.5Vdc | 23.0Vdc | ||||
Low DC Warning Return Voltage | 23.5Vdc | 47.0Vdc | |||
11.7Vdc | 23.5Vdc | ||||
Low DC Cut-off Voltage | 21.5Vdc | 43.0Vdc | |||
10.7Vdc | 21.5Vdc | ||||
High DC Recovery Voltage | 15Vdc | 30Vdc | 32Vdc | 62Vdc | |
High DC Cut-off Voltage | 16Vdc | 31Vdc | 33Vdc | 63Vdc | |
No Load Power Consumption | <25W | <55W | |||
Table 3 Charge Mode Specifications
Table 4 General Specifications
INVERTER MODEL | 1KVA | 2KVA | 3KVA | 3KVA Plus | 5KVA |
Safety Certification | CE | ||||
Operating Temperature Range | -10°C to 50°C | ||||
Storage temperature | -15°C~ 60°C | ||||
Humidity | 5% to 95% Relative Humidity (Non-condensing) | ||||
Dimension (D*W*H), mm | 88 x 225 x 320 | 100 x 285 x 334 | 100 x 300 x 440 | ||
Net Weight, kg (PWM model) | 5.0 | 5.5 | 6.3 | N/A | 8.5 |
Net Weight, kg (MPPT model) | N/A | N/A | 6.5 | 9.5 | 9.7 |
Basic System Architecture
The following illustration shows the basic application for this inverter/charger. It also includes the following devices to have a complete running system:
- Generator or Utility.
- PV modules
Consult with your system integrator for other possible system architectures depending on your requirements.
This inverter can power all kinds of appliances in-home or office environments, including motor-type appliances such as tube lights, fans, refrigerators, and air conditioners.
Product Overview
- LCD display
- Status indicator
- Charging indicator
- Fault indicator
- Function buttons
- Power on/off switch
- AC input
- AC output
- PV input
- Battery input
- Circuit breaker
- USB communication port
- RS-232 communication port
Operating Mode Description
There is detailed information about as below:
Powmr Hybrid MPPT PWM solar charge controller Manual Download
SPECIFICATIONS
Table 1 Line Mode Specifications
|
INVERTER MODEL |
1KVA |
2KVA |
3KVA |
3KVA Plus |
5KVA |
|||
|
Input Voltage Waveform |
Sinusoidal (utility or generator) |
|||||||
|
Nominal Input Voltage |
230Vac |
|||||||
|
Low Loss Voltage |
170Vac±7V (UPS); |
|||||||
|
Low Loss Return Voltage |
180Vac±7V (UPS); |
|||||||
|
High Loss Voltage |
280Vac±7V |
|||||||
|
High Loss Return Voltage |
270Vac±7V |
|||||||
|
Max AC Input Voltage |
300Vac |
|||||||
|
Nominal Input Frequency |
50Hz / 60Hz (programmable) |
|||||||
|
Low Loss Frequency |
40±1Hz |
|||||||
|
Low Loss Return Frequency |
42±1Hz |
|||||||
|
High Loss Frequency |
65±1Hz |
|||||||
|
High Loss Return Frequency |
63±1Hz |
|||||||
|
Output Short Circuit Protection |
Circuit Breaker |
|||||||
|
Efficiency (Line Mode) |
>95% ( Rated R load, battery full charged ) |
|||||||
|
Transfer Time |
10ms typical (UPS); 20ms typical (Appliances) |
|||||||
| When AC input voltage drops to 170V, the output power will be derated. | 
|
|||||||
Table 2 Inverter Mode Specifications
INVERTER MODEL | 1KVA | 2KVA | 3KVA | 3KVA Plus | 5KVA |
Rated Output Power | 1KVA/1KW | 2KVA/2KW | 3KVA/3KW | 5KVA/5KW | |
Output Voltage Waveform | Pure Sine Wave | ||||
Output Voltage Regulation | 230Vac±5% | ||||
Output Frequency | 50Hz | ||||
Peak Efficiency | 93% | ||||
Overload Protection | 5s@≥150% load; 10s@105%~150% load | ||||
Surge Capacity | 2* rated power for 5 seconds | ||||
Nominal DC Input Voltage | 12Vdc | 24Vdc | 24Vdc | 48Vdc | |
Cold Start Voltage | 11.5Vdc | 23.0Vdc | 23.0Vdc | 46.0Vdc | |
Low DC Warning Voltage | 23.0Vdc | 46.0Vdc | |||
11.5Vdc | 23.0Vdc | ||||
Low DC Warning Return Voltage | 23.5Vdc | 47.0Vdc | |||
11.7Vdc | 23.5Vdc | ||||
Low DC Cut-off Voltage | 21.5Vdc | 43.0Vdc | |||
10.7Vdc | 21.5Vdc | ||||
High DC Recovery Voltage | 15Vdc | 30Vdc | 32Vdc | 62Vdc | |
High DC Cut-off Voltage | 16Vdc | 31Vdc | 33Vdc | 63Vdc | |
No Load Power Consumption | <25W | <55W | |||
Table 3 Charge Mode Specifications
Table 4 General Specifications
INVERTER MODEL | 1KVA | 2KVA | 3KVA | 3KVA Plus | 5KVA |
Safety Certification | CE | ||||
Operating Temperature Range | -10°C to 50°C | ||||
Storage temperature | -15°C~ 60°C | ||||
Humidity | 5% to 95% Relative Humidity (Non-condensing) | ||||
Dimension (D*W*H), mm | 88 x 225 x 320 | 100 x 285 x 334 | 100 x 300 x 440 | ||
Net Weight, kg (PWM model) | 5.0 | 5.5 | 6.3 | N/A | 8.5 |
Net Weight, kg (MPPT model) | N/A | N/A | 6.5 | 9.5 | 9.7 |
- No Lithium Batteries Activation
- 48V
- Flooded Batteries
- Gel Batteries
- Lead-acid Batteries
- AGM Batteries
- High frequency Inverters
- Single Phase
- 230Vac±5%
- 5000W
- 100V-150V
- build-in PWM Solar Charge Controller
- 2400W
- 60 Amps
- 50amps
- 110Amps
- No Wifi/Bluetooth Module
- USA Warehouse
| Q | Can an external mppt controller be used with this to improve the pv efficiency over the internal pwm controller? or is that a problem? |
| A | This is independent. Even if an external MPPT controller is connected, it will not affect the efficiency of the internal PWM of the integrated machine. (Please note that the solar inverter and MPPT controller must be connected in parallel to the same battery pack, each with its own solar panel) |
| Q | Are batteries required for the device to operate? |
| A | No,it need to connect the battery |
| Q | If using an external mppt controller with this, does the output from the mppt go direct to batteries, or to pv input on main unit? |
| A | If you connect an additional MPPT controller, please connect it to the same battery pack in parallel with the inverter. The 2 solar panel array must be independent |
| Q | The invertor can be use on the same time to solar panels and wind turbine? |
| A | No, this does not support wind turbines |
| Q | Ok can I use a stepdown on my 110volt freezer them connect it to the wall socket were this inverter is connected?” |
| A | I don't understand your question. Is the inverter connected to the mains? Why doesn't your refrigerator be directly connected to the mains? |
| Q | Why is the inverter output listed only as 50 hz? |
| A | 50Hz (default), can set it to 60HZ |
| Q | So this won't work for the normal 120 volt house? |
| A | No it will not. Will only work for 240v like well or have type applications. You can use step down converter to get to 120v |
| Q | Ok can i use a stepdown on my 110volt freezer them connect to the wall socket were this inverter is connected? |
| A | That is how mine is set up |
| Q | Will thiS inverter send excess power to the grid when there is low demand from the load? |
| A | it does‘t |
| Q | Can i stepdown to 110v? |
| A | No,it only support 230V |
| Q | How much is the variation in the 60 frequency? |
| A | +/-0.3-0.5HZ |
| Q | I bought this inverter, solar panels, and solar batteries to be install in my house but all applianc are 110v so what can I do to make it work? |
| A | Its output voltage is 230V. You can consider connecting a step-down device such as a transformer between the solar inverter and the load. |
| Q | Are batteries required for the device to operate? |
| A | it need connect battery |
| Q | Can this unit input taken from a 12v wall circuit |
| A | Can't |
| PWM Solar Charging Mode: | |
| System DC Voltage: 48V dc |
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