solarV UP1000-M3212 Upower Serie – Reiner Sinus Inverter Charger User Manual

June 5, 2024
solarV

solarV UP1000-M3212 Upower Serie – Reiner Sinus Inverter Charger

Important Safety Instructions

Please reserve this manual for future review.Please reserve this manual for future review. This manual contains all instructions about safety, installation and operation for the inverter/charger.

  •  Read carefully all the instructions and warnings in the manual before installation.
  •  Non-safety voltage exists inside the inverter/charger, users must not dismantle it by itself in order to avoid personal injury, contact professional maintenance personnel of our company in need of maintenance.
  •  Keep the inverter/charger out the reach of children.
  • Do not place the inverter/charger in a damp, oily, inflammable and explosive or a severe environment with a large amount of dust accumulation.
  • The utility input and AC output with high voltage, don’t touch wire connections.
  •  Install the inverter/charger in well ventilated places, it’s shell may produce heat during operation.
  •  It is suggested to install appropriate external fuses/breakers.
  •  Make sure switching off all connections with PV array and the fuse/breakers close to battery before inverter/charger installation and adjustment.
  •  Make sure all connections remain tight to avoid excessive heat from a loose connection.
  •  It’s an off-grid inverter/charger, not for on-grid system.
  •  This inverter/charger can only be used singly, parallel or in series connections will damage the devices.

General Information

 Overview

UPower inverter/charger combines with solar & utility charging and AC output in one unit, which adopts a multi-core processor design and advanced MPPT control algorithm to realize intelligent management. The device is usally used in remote area where is lack of reliable utility but rich of sun shine. The PV charging module adopts the up-to-date optimized MPPT tracking technology, it can quickly track the maximum power point of the PV array in any environment even has the multi crest tracking ability. The MPPT tracking speed and energy transfer efficiency is quite high. The PV and AC charge current can be adjusted manually, which can meet total charge current limit function, and PV & utility charge current ratio distribution. Full electronic protection functions are available. The AC-DC charging module adopts the advanced MPPT control algorithm, realize fully digitalized double closed-loop control for voltage and current, with high reliability and response speed. With wide AC input voltage range and charge current limitation volume can be set. This module has complete protection functions at input and output.
The DC-AC inverter module is based on full digital and intelligent design. It adopts the advanced SPWM technology, outputs the pure sine wave and converts 24/48VDC to 220/230VAC, which is suitable for AC loads of household appliances, electric tools, commercial units, electronic audio and video devices etc. With Utility by-pass charging function, the utility module can provide power supply to loads directly, and charge the battery simultaneously. Under utility charge status, user can choose by-pass mode or inverter output mode. This characteristic is prefered in the area where the utility is not stable, user should choose inverter output mode to get stable output voltage to avoid the appliance damaged because of bad condition utility.

Features

  •  A new type of all-digital intelligent energy storage and management Inverter/charger
  •  Adjustment function of Utility & Solar charging ratio to meet various applications
  •  Advanced MPPT technology to achieve multiple wave crest maximum power point tracking and high tracking & conversion efficiency, Max. tracking efficiency 99.5 %, Max. DC-DC conversion efficiency 98.5 %
  •  The advanced all-digital control is adopted for AC-DC charging modules that realized wide voltage input, high efficiency, and high stability of Utility charging
  •  Adoption of the advanced SPWM technology, true pure sine wave output, with high efficiency up to 95 %and full load efficiency of 93 % max
  •  High output voltage stability: when full load working in the working voltage range of battery, output voltage
  •  220V/230V±5%, frequency 50/60±0.1 Hz; voltage& frequency optional
  •  Advanced voltage, current and power multi-loop control makes DC-AC unit has good dynamic response capability high resistance to surge power and high operational reliability
  •  With the function of Utility & Solar charging ratio selection, and total charging current setting
  •  Four charging modes: Utility priority, Solar priority, Utility & Solar and Solar only
  •  Two output modes: Battery and Utility
  •  Utility charging and inverter output can work at the same time, which avoids the impact of the unstable Utility voltage on the load
  •  Rich set of options: charging current, battery type, battery voltage threshold etc
  •  AC output one-key control, which can switch Utility or inverter output on and of, keeping the output of mode can make it convenient while wiring and maintaining on electric-distributions, reducing the standby loss
  •  Support cold start and soft start
  •  RS485 isolated communication interface with 5V 200mA output, it is easy to access communication devices such as WIFI module
  •  PC or mobile phone APP can be used for remote monitoring, management and setting to meet various remote use of users
  •  Optional back light and buzzer warning selection via PC software
  •  With PV reverse polarity, Charging power limit, short circuit, battery reverse polarity protections
  •  With Utility input/AC output over voltage, battery low voltage, power limit, over current and short circuit protections
  •  With battery low/over voltage protection and temperature compensation etc
  •  With internal over-temperature protection, and intelligent start-stop function of the fan
  •  Variety of accessories can be selected according to user’s requirements UP1500 and above models: testing result under 25℃ environment temperature, rated input voltage, and resistive load I n battery discharging mode Output tolerance is 220V ±5% or 230V -10%~+5% for 24V and 48V input; and 220V -6%~+5% or 230V -10%~+5% with 12V battery input

Characteristics

  1. Ventilation
  2. M4 Screw (2 pcs)
  3. AC output terminals
  4. Utility input terminals
  5. Battery input terminals
  6. RTS  interface
  7. Relay interface
  8. Remote interface
  9. RS485 interface(5VDC/200mA)
  10. Inverter/charger switch
  11. PV input terminals
  12. Terminals cover

Temperature Sensor

NOTE:
Connect the temperature sensor, the inverter/charger is compensated according to the ambient temperature.

RS485 Interface

RJ45 interface pin define is shown below:

Pins Define Pins Define
1 5VDC 5 RS-485-A
2 5VDC 6 RS-485-A
3 RS-485-B 7 GND
4 RS-485-B 8 GND

Designations of models

Schematic Diagram for Connections

NOTE:
Utility power supply and Battery power supply can not be carried out simultaneously.

Warning:
Confirm the AC load power compatible with the power of the inverter/charger, AC load selected exceeding the maximum output power of inverter/charger is prohibited.

Installation Instructions

General Installation Notes

  •  Please read the entire installation instructions to get familiar with the installation steps before installation.• Be very careful when installing the batteries, especially flooded lead-acid battery. Please wear eye protection, and have fresh water available to wash and clean if any contact with battery acid.
  •  Keep the battery away from any metal objects, which may cause short circuit of the battery.
  •  Explosive acid battery gases may come out from the battery during charging, so make sure ventilation condition is good.
  •  Ventilation is highly recommended if mounted in an enclosure. Never install the inverter/charger in a sealed enclosure with flooded batteries! Battery fumes from vented batteries will corrode and destroy the inverter/charger circuits.
  •  The lead-acid battery is only recommended, other kinds please refer to the battery manufacturer.
  •  Loose connections and corroded wires may result in high heat that can melt wire insulation, burn surrounding materials, or even cause fire. Ensure tight connections and use cable clamps to secure cables and prevent them from swaying in motion.
  •  Select the system cables according to 5A/mm2 or less current density in accordance with Article 690 of the National Electrical Code, NFPA 70.
  •  For outdoor installation, keep out of the direct sunshine and rain infiltration.
  •  High voltage still exists inside the inverter/charger after switching off the power switch, do not turn on or touch the internal units, conduct the associated operation only after discharging the electric capacity.
  •  Do not place the inverter/charger in a damp, oily, inflammable and explosive or a severe environment with a large amount of dust accumulation.
  •  Prohibit reverse connection at DC input end otherwise it may damage the equipment or unpredictable danger will occur.
  •  The utility input and AC output are of high voltage, do not touch the wire connetion.

Wire Size & breaker
The wiring and installation methods must follow all national and local electrical code requirements.

Recommended wire and circuit breaker of PV

Model PV wire size Breaker
UP1000-M3212 10mm2/8AWG 2P—63A
UP1000-M3222 10mm2/8AWG 2P—63A
UP1500-M3222 10mm2/8AWG 2P—63A
--- --- ---
UP2000-M3322 10mm2/8AWG 2P—63A
UP3000-M3322 10mm2/8AWG 2P—63A
UP3000-M6322 16mm2/5AWG 2P—100A
UP3000-M2142 6mm2/10AWG 2P—32A
UP3000-M6142 16mm2/5AWG 2P—100A
UP5000-M6342 16mm2/5AWG 2P—100A
UP5000-M8342 25mm2/4AWG 2P—125A
UP5000-M10342 25mm2/4AWG 2P—125A

NOTE:
When the PV modules connect in series, the open circuit voltage of the PV array must not exceed max. PV input voltage at 25℃ environment temperature.

Model Utility wire size
UP1000-M3212 2.5mm2/14AWG
UP1000-M3222 2.5mm2/14AWG
UP1500-M3222 2.5mm2/14AWG
UP2000-M3322 4mm2/12AWG
UP3000-M3322 6mm2/10AWG
UP3000-M6322 6mm2/10AWG
UP3000-M2142 6mm2/10AWG
UP3000-M6142 6mm2/10AWG
UP5000-M6342 10mm2/8AWG
UP5000-M8342 10mm2/8AWG
UP5000-M10342 10mm2/8AWG

NOTE:
The utility input has the circuit breaker already and there is no need to add any more.

Model Battery wire size Breaker
UP1000-M3212 16mm2/6AWG 2P—100A
UP1000-M3222 16mm2/6AWG 2P—100A
UP1500-M3222 16mm2/6AWG 2P—100A
UP2000-M3322 25mm2/4AWG 2P—125A
UP3000-M3322 35mm2/2AWG 2P—200A
UP3000-M6322 35mm2/2AWG 2P—200A
UP3000-M2142 16mm2/6AWG 2P—100A
UP3000-M6142 16mm2/6AWG 2P—100A
UP5000-M6342 35mm2/2AWG 2P—200A
UP5000-M8342 35mm2/2AWG 2P—200A
UP5000-M10342 35mm2/2AWG 2P—200A

NOTE:
Type of circuit breaker is selected based on the non-independent connection of inverter at the battery end where there is no anther inverter connected.

Model AC wire size Breaker
UP1000-M3212 2.5mm2/14AWG 2P—10A
UP1000-M3222 2.5mm2/14AWG 2P—10A
UP1500-M3222 2.5mm2/14AWG 2P—10A
UP2000-M3322 2.5mm2/14AWG 2P—16A
UP3000-M3322 4mm2/12AWG 2P—25A
UP3000-M6322 4mm2/12AWG 2P—25A
UP3000-M2142 4mm2/12AWG 2P—25A
UP3000-M6142 4mm2/12AWG 2P—25A
UP5000-M6342 6mm2/10AWG 2P—40A
UP5000-M8342 6mm2/10AWG 2P—40A
UP5000-M10342 6mm2/10AWG 2P—40A

NOTE:
The wire size used for connection is for reference only, use thicker wires to lower the voltage drop and improve the system performance when the distance between the whole solar system components is far.

NOTE:
The above wire and the circuit breaker size are for recommended use only, please choose the suitable wire and circuit breaker according to the practical situation.

Mounting

Installation steps

Step1: Determination of Installation Location and heat-dissipation Space Determination of installation location: The inverter/charger shall be installed in a place with sufficient air flow through the dissipation pad of the inverter/charger and a minimum clearance of 150 mm from the upper and lower edges of the inverter/charger to ensure natural thermal convection. Please see Figure 2-1: Mounting.

WARNING:
Risk of explosion! Never install the inverter/charger with flooded batteries in a sealed enclosure! Do not install the device in a confined area where battery gas can accumulate.

Step 2: Take down the terminal protective cover

Step 3: Wiring Connect the system in an order of battery l load PV array G ground Utility in accordance with Figure 2-3: Wiring Diagram. Disconnect the system in reverse order.

Warning:
Danger, High-voltage! Utility input, AC output and PV array will produce dangerous voltage, make sure to disconnect the circuit breaker/ fuse before wiring.

Warning:
Do not turn on the circuit breaker/ fuse when wiring, and at the same time, ensure that the wiring of “+”, “-” are correctly connected. Warning: A circuit breaker must be installed at the battery end, for selection, refer to Section 2.3 “Wire and Circuit Breaker”.

NOTE:
If the inverter/charger is to be used in an area with frequent lightning strikes, it is recommended to install an external surge arrester at the PV input.

  •  Grounding A grounding connection must be made when utility is connected to the inverter/charger. The inverter/charger has dedicated grounding terminal as shown in Fig. 2-3, the grounding must be reliable, the grounding wire have to stay consistent with Recommended wire for AC output, the grounding point shall be as close as possible to the inverter/charger, the grounding wire shall be as short as possible.
  •  AC output, Ground and PV wiring terminal use way:  When wiring, do not close the circuit breaker, and it is necessary to use a slotted screwdriver to unscrew the screws for connecting their corresponding wires.  When removing the wirings, first the integrated machine must stop working, and then the screws shall be unscrewed by using a slotted screwdriver, so as to dismantle their corresponding wires.

Step 4: Install the terminal protective cover

Step 5: Connect accessory

  • Connect the remote temperature sensor cable (model: RTS300R47K3.81A) Connect one end of the remote temperature sensor cable to the interface and place the other end close to the battery.
    NOTE:
    Connect the temperature sensor, the inverter/charger is compensated according to the ambient temperature.

  •  Connect the remote temperature sensor cable (model: RTS300R47K3.81A)

  •  Connect the accessories, monitor the system status and set the parameters via PC software or APP software.

    1.  PC software www.epever.com Inverter Monitor(UP)
    2.  Mobile APP software (Android) www.epever.com——UPower

Step 6: Recheck if the wire connection is correct

Step 7: Power on the inverter/charger:

  1. Turn on the circuit breaker at the battery end.
  2. Switch on the switch then the inverter indicator is on.
  3. Turn on the breaker of PV array and Utility.
  4. Turn on the AC load when the AC output is normal.

NOTE:
In case the power is supplied to the different AC loads, it is suggested to turn on the loads with larger surge current, till the load working well, then turn on the loads with smaller surge current.

NOTE:
In case the inverter/charger is not in normal operation, or LCD or indicator displays abnormal, refer to Section 5 to clear the fault or contact the after- sale service personnel of our company.

Interface Instruction

Indicator

Indicator Color Status Instruction

Green

| OFF| No utility input
On Solid| Utility connection normal but nocharging
Slowly Flashing(0.5Hz)| Utility charging
Fast Flashing(2.5Hz)| Utility charge module fault
|

Green

| OFF| No PV input
On Solid| PV connection normal but nocharging
Slowly Flashing(0.5Hz)| PV charging
Fast Flashing(2.5Hz)| PV charge module fault
|

Green

| OFF| Inverter turn off
On Solid| Inverter turn on Bypass
Slowly Flashing(0.5Hz)| Inverter output
Fast Flashing(2.5Hz)| Inverter fault
|

Green

| OFF| No load output
On Solid| Load output
|

Green

| OFF| Relay turn off
---|---|---|---
On Solid| Relay turn on
|

Green

| OFF| Input voltage(3.3~12VDC)
On Solid| No Input voltage
|

Green

| OFF| Inverter output
Slowly Flashing(0.5Hz)| Utility output
|

Red

| OFF| Device normal
On Solid| Device fault

Buttons

Operation Instruction

Press the

|   button| Exit the current interface
Press the|

button and hold on 2s

| Clear the faults
 |  |  | Browse interface:Up/Down
Press the| /| button| Setting interface:Up/Down

Press the

|

button

| Switch to “Browse Parameter Column” Confirm the setting parameters
 |

button and hold on 2s

| Switch the” Real Time Interface” over to “Set Browse Interface”
Press the| Switch the “Set Browse Interface” over to “Parameter Setting Interface”

Press the

|

button and hold on 2s

| Inverter ON/OFF

Real-time interface

Icon instruction Icon instruction
 

Utility connecting and input

|  |

PV connecting and input

Item Setting Content

|

INPUT

| Solar priority Utility priority

Utility & solar Solar

| OUTPUT| Battery Utility

|

Load

| AC output voltage AC output current

AC output power AC

output frequency

|

Battery

| Battery voltage

Max. charging current

(PV charging current+ Utility charging current) Battery temperature

Battery SOC

|

PV

| PV input voltage PV charging current

PV charging powerPV charge energy

Utility

| Utility input voltage Utility charging current

Utility charging power

    Utility charge energy

|

Battery Type

| AGM GEL

FLD USER

|

Battery charging stage

| Float Boost

Equalize(28th each month)

INPUT
Solar priority(Default)
The battery is charged in solar priority mode and when the battery voltage is lower than “Auxiliary Module ON Voltage(VAON)”, the utility starts charging. When the battery voltage reaches to “Auxiliary Module OFF Voltage(VAOF)”, the utility stops

Utility priority
The battery is charged in utility priority mode and when the battery voltage is lower than “Auxiliary Module ON Voltage (VAON)”, the solar starts charging. When the battery voltage reaches to “Auxiliary Module OFF Voltage(VAOF)”,

the solar stops charging.

Utility &solar
Utility &solar charge the battery

OUTPUT
Battery

Utility(Default)

Setting interface

Operation

Step1: Press the button and hold on 2s at the real-time interface to go to the common interface.

Step2: Press the button and hold on 2s at the setting parameter interface and choose the parameters.

Step3: Press the button to set the parameter, and press this button again for confirmation.

Step4: Press the button to exit the setting interface.

Setting

Item LCD Instruction Default Range

1

| |

Battery type

| ****

AGM

| AGM GEL FLD

USER


2

| |

Charge source priority

| ****

Solar priority

| Solar           priority

Utility         priority

Utility & solar Solar


3

| |

Output source priority

| ****

Battery

| Battery Utility
4| | Temperature unit| ℃| ℃/℉
---|---|---|---|---
5|
| Backlight time| 30S| 30S/60S/100S(Alwayson)
6| | Buzzer alarm switch| ON| ON/ OFF
7| | Low voltage disconnect voltage|

10.8V

| User 10.5~11.3V★

step size 0.1V

8| | Low voltage reconnect voltage|

12.5V

| User 12.0~13.0V★

step size 0.1V

The voltage parameter are at 25℃, 12V system, and twice in 24V system, quadruple in 48V system.

NOTE:
When Output source priority is Battery and the battery voltage lower than the Low Voltage Disconnect Voltage(LVD adjustable), the system will switch utility to supply power for load.

Step1: Press the button and hold on 2s under the real-time interface.

Step2: Press the button and hold on 2s under the setting parameter interface.

Step3: Press the button to enter the parameter.

Step4: Press the button to exit the setting interface.

Item LCD Instruction Default Range
9 Boost Charging Time 30min 30/60/120/180min

10

| |

Boost Charging Voltage

| ★

AGM:14.4V

GEL:14.2V

FLD:14.6V

USER:14.4V

| ****

User 12.5~14.8V★

Step size 0.1V

11| | Boost Voltage Reconnect|

13.2V

| User: 12.5~14.0V★

Step size 0.1V

12| | Float Charging Voltage|

13.8V

| User: 13.0~14.0V★

Step size 0.1V

13| | Over Voltage Reconnect Voltage|

15.0V

| User: 14.5~15.5V★

Step size 0.1V

14| | Over Voltage Disconnect Voltage|

16.0V

| User: 15.5~16.1V★

Step size 0.1V

15| | Auxiliary module OFF voltage| ★

14.0V

| User: 12.0~14.8V★

Step size 0.1V

16| | Auxiliary module ON voltage| ★

12.0V

17| | Dry contact ON voltage|

11.1V

| User: 10.8~12.0V★

Step size 0.1V

18| | Dry contact OFF voltage|

12.0V

| User:12.0~13.25V★

Step size 0.1V

19| | Max. charging current| ◆

60.0A

| ◆

15.0~60.0A

20| | Power saving mode| OFF| ON/OFF
21| | Clear fault| OFF| ON/OFF
---|---|---|---|---
22|
| Clear the accumulated energy| OFF| ON/OFF


23

| |

Total battery capacity

| ****

600AH

| 100~4000AH

Step size 100AH

23| ****| Software version| U-1.0| —

The voltage parameter are at 25℃, 12V system, and twice in 24V system, quadruple in 48V system.
The following rules must be observed when modifying the parameter values in User for lead-acid battery.

  1. Over Voltage Disconnect Voltage > Charging Limit Voltage ≥ Equalize Charging Voltage ≥ Boost Charging Voltage ≥ Float Charging Voltage > Boost Reconnect Charging Voltage.
  2. Over Voltage Disconnect Voltage > Over Voltage Reconnect Voltage
  3.  Low Voltage Reconnect Voltage > Low Voltage Disconnect Voltage ≥ Discharging Limit Voltage.
  4. Under Voltage Warning Reconnect Voltage > Under Voltage Warning Voltage ≥ Discharging Limit Voltage.
  5. oost Reconnect Charging voltage >Low Voltage Reconnect Voltage.
  6. For the inverter/charger of different power, the current setting range is not the same, see Technical Parameters for details.

NOTE:
15/16: Stop/restore auxiliary module charging voltage. Only when the charging mode is Solar priority or Utility priority will the auxiliary module charging voltage be effective.

20: Power saving modeWhen the switch is on “Saving” side, the inverter will enter into the Saving Mode. It will shut off the output if the loads value is less the 70W. Then restart and detect the power of the load again after 10s.If the load is more than 70W, the inverter will turn on the output. Otherwise it will shut off output. It cycles like this. So please don’t use the saving mode if the load is smaller than 70W.

21:Clear the faults
In occurrence of short circuit or overload caused to AC output, the fault can be cleared out.

Other function

Output voltage & frequency switch

  •  When Switch 1 is in “ON”, the output voltage is selected as 230VAC, and on the contrary as 220VAC;
  •  When Switch 2 is in “ON”, the output frequency is selected as 60Hz, and on the contrary as 50Hz.

Relay interface

Working principle:
When the battery voltage reaches the Low Voltage Disconnect Voltage(LVD), the coil of relay is energized, and the switch is turned on. The dry contact can drive resistive loads 125VAC /1A, 30VDC/1A.

Remote interface
Remote interface input voltage (3.3~12V)

  1.  The input voltage Vi is within 2.5~ 10s, the AC output state is reversed (when the AC is formerly in output state, now it is in the no-output state ; when the AC is formerly in no-output state, now it is in output state;)
  2.  The input voltage Vi is greater than 10s, the AC is in output state all the time till the input voltage Vi disappears.

NOTE:
If it is to change the range of input voltage, it can be realized by changing the resistance value of R.

Protection

Protection Instruction

PV limit Current

| When the charging current of the PV array exceeds its rated current, it will be charged at the rated current.

NOTE: When the PV modules are in series, ensure that the open-circuit voltage of the PV array does not exceed the “maximum PV open-circuit voltage”. Otherwise the inverter/charger may be damaged.

PV short circuit| When PV is not charging and short circuit, the inverter/charger is not damaged.


PV Reverse Polarity

| Fully protection against PV reverse polarity, correct the wire connection to resume normal operation.

NOTE: The inverter/charger will be damaged when the PV array straight polarity and the actual operation power of the PV array is 1.5 times greater than the rated charge power!

Night Reverse Charging| Prevent the battery discharging through the PV module in the night.
Utility input overvoltage| When the utility voltage exceeds 280V, it will stop utility charging/discharging.
Utility input under voltage| When the utility voltage less than 160V, it will stop utility charging/discharging.


Battery overvoltage

| When the battery voltage reaches to the set point of Over Voltage Disconnect Voltage, the inverter/charger will stop charging the battery to protect the battery from being over charged to break down.


Battery Over Discharge

| When the battery voltage reaches to the set point of Low Voltage Disconnect Voltage, the inverter/charger will stop discharging the battery to protect the battery from being over discharged to break down.


Load output Short Circuit

| It will immediately close the output in occurrence of short-circuit and hereafter the output is automatically recovered intime delay (the first time delay for 5s, the second time delay for 10s, the third time delay for 15s); if the short-circuit

remains after 3 times of delay, restart the inverter/charger only after clearing the fault.


Load output Overload

| Overload| 1.2| 1.5| 1.8| 2.0
Continuance| 15min.| 30S| 10S| 5S
Recover 3 times| The first time delay for 5s, the second time delay for 10s, the third time delay for 15s


Device overheating

| The inverter/charger will stop charging/discharging when the internal temperature is too high, and will restore charging/discharging when the temperature is recovered to normal.

Troubleshooting

Module

|

Code

|

Fault

| battery frame

blink

|

indicator

|

Buzzer

| Fault indicator
---|---|---|---|---|---|---

Battery

| | Battery low voltage|

Flashing

|

| —| —
| Battery over voltage|

Alarm

|

On Solid

| Battery over discharge
| Nominal voltage error
| Low temperature
PV

charging module

|  | over temperature (PV charge module)|

| PV charge Fast Flashing
 | Communication Fault Alarm

Utility charging module

|  | Input over voltage|

Utility Fast Flashing

 | Input low voltage
 | over temperature (Utility charge module)
 | Communication Fault Alarm

Inverter output module

|  | Output Voltage Abnormal|

inverter Fast Flashing

 | Inverter Output Short

Circuit

| Output over load
| Inverter temperature
 | Communication Fault Alarm
Fault| Troubleshooting
---|---
Battery over voltage| Check if battery voltage too high, and disconnect solar modules.
Battery over discharge| When the battery voltage resume to or above LVR point (low voltage reconnect voltage), or change the battery by other ways

Battery overheating

| The inverter/charger will automatically turn the system off. But while thebattery temperature declines to be below overheating recover temperature value, the inverter/charger will work normally.

Device overheating

| The inverter/charger will automatically turn the system off. But while thedevice temperature declines to be below overheating recover temperature value, the inverter/charger will work normally.
Output overload| ①Please reduce the number of AC loads.

②Restart the device or CFA of setting interface change to ON .

Output short circuit| ①Check carefully loads connection, clear the fault.

②Restart the device CFA of setting interface change to ON ..

Maintenance

The following inspections and maintenance tasks are recommended at least two times per year for best performance.

  •  Make sure inverter/charger firmly installed in a clean and dry ambient.
  •  Make sure no block on air-flow around the inverter/charger. Clear up any dirt and fragments on radiator.
  •  Check all the naked wires to make sure insulation is not damaged for serious solarization. frictional wear, dryness, insects or rats etc. Repair or replace some wires if necessary.
  •  Tighten all the terminals. Inspect for loose, broken, or burnt wire connections.
  •  Check and confirm that LED is consistent with required. Pay attention to any troubleshooting or error indication .Take corrective action if necessary.
  •  Confirm that all the system components are ground connected tightly and correctly.
  •  Confirm that all the terminals have no corrosion, insulation damaged, high temperature or burnt/discolored sign, tighten terminal screws to the suggested torque.
  •  Check for dirt, nesting insects and corrosion. If so, clear up in time.
  •  Check and confirm that lightning arrester is in good condition. Replace a new one in time to avoid damaging of the inverter/charger and even other equipments.
  •  Damage from improper use or use in an unsuitable environment.
  •  PV or load current, voltage or power exceeding the rated value of inverter/charger.
  •  The inverter/charger is working temperature exceed the limit working environment temperature.
  •  User disassembly or attempted repair the inverter/charger without permission.
  •  The inverter/charger is damaged due to natural elements such as lighting.
  •  The inverter/charger is damaged during transportation and shipment.

Technical Specifications

Item| UP1000-M3212| UP1000-M3222| UP1500-M3222| UP2000-M3322| UP3000-M3322| UP3000-M6322
---|---|---|---|---|---|---
Nominal battery voltage| 12VDC| 24VDC
Battery input voltage range| 10.8~16VDC| 21.6~32VDC
Inverter output
Continuous output power| 800W| 800W| 1200W| 1600W| 2400W| 2400W
Output power (15min.)| 1000W| 1000W| 1500W| 2000W| 3000W| 3000W
Overload power(5s)| 1600W| 1600W| 2400W| 3200W| 4800W| 4800W
Max. surge power| 2000W| 2000W| 3000W| 4000W| 6000W| 6000W
Output voltage range| 220V -6%~+5%

230V -10%~+5%

| 220VAC±5%,230VAC(-10%~+5%)
Output frequency| 50/60±0.1Hz
Output mode| Single phase
Output wave| Pure Sine Wave
Load power factor| 0.2-1(VA≤continuous output power)
Distortion THD| ≤3%(12V or 24V resistive load)
Max. efficiency| 91%| 94%| 95%| 95%| 95%| 95%
Transfer time| 20mS(resistive load)
Utility charging
Utility input voltage range| 160VAC~280VAC(Working voltage range) 170VAC~270VAC(Utility starting voltage range)
Max. utility charge current| 20A| 20A| 20A| 30A| 30A| 30A
Solar charging
Max. PV open circuit voltage| ★

60V

46V

| ★

100V

92V

| ★

150V

138V

Max. PV input power| 390W| 780W| 780W| 780W| 780W| 1500W
Max. PV charging current| 30A| 30A| 30A| 30A| 30A| 60A
Equalization voltage| 14.6V| 29.2V
Boost voltage| 14.4V| 28.8V
Float voltage| 13.8V| 27.6V
Tracking efficiency| ≤99.5%
---|---
Charging conversion efficiency| ≤98%
Temperature compensate coefficient| -3mV/℃/2V (Default)
Others
No load consumption| ≤1.2A| ≤0.6A| ≤0.6A| ≤0.8A| ≤0.8A| ≤0.8A
Enclosure| IP30
Relative humidity| < 95% (N.C.)
Working environment temperature| -20℃~50℃(full input and output with no derating)
Altitude| <5000m (Derating to operate according to IEC62040 at a height exceeding 1000m)
Mechanical Parameters
Dimension(H x W x L)| 386×300×126mm| 444×300×126mm| 518×310×168mm
Mounting dimension| 230mm
Mounting hole size| Φ8mm
Weight| 7.3kg| 7.3kg| 7.4kg| 8.5kg| 9.2kg| 14.9kg
Item| UP3000-M2142| UP3000-M6142| UP5000-M6342| UP5000-M8342| UP5000-M10342
---|---|---|---|---|---
Nominal battery voltage| 48VDC
Battery input voltage range| 43.2~64VDC
Inverter output
Continuous output power| 2400W| 2400W| 4000W| 4000W| 4000W
Output power (15min.)| 3000W| 3000W| 5000W| 5000W| 5000W
Overload power(5s)| 4800W| 4800W| 8000W| 8000W| 8000W
Max. surge power| 6000W| 6000W| 10000W| 10000W| 10000W
Output voltage range| 220VAC±5%,230VAC(-10%~+5%)
Output frequency| 50/60±0.1Hz
Output mode| Single phase
Output wave| Pure Sine Wave
Load Power factor| 0.2-1(VA≤continuous output power)
Distortion THD| ≤3%(24V or 48V resistive load)
Max. efficiency| 95%
Transfer time| 20mS(resistive load)
---|---
Utility charging
Utility input voltage range| 160VAC~280VAC(Working voltage range) 170VAC~270VAC(Utility starting voltage range)
Max. utility charge current| 15A| 15A| 30A| 30A| 30A
Solar charging
Max. PV open circuit voltage| ★

150V

138V

| ★

200V

180V

Max. PV input power| 1040W| 3000W| 3000W| 4000W| 5000W
Max. PV charging current| 20A| 60A| 60A| 80A| 100A
Equalization voltage| 58.4V
Boost voltage| 57.6V
Float voltage| 55.2V
Tracking efficiency| ≤99.5%
Charging conversion

efficiency

| ≤98%
Temperature compensate coefficient| -3mV/℃/2V (Default)
Others
No load consumption| ≤0.6A| ≤0.6A| ≤0.8A| ≤0.8A| ≤0.8A
Enclosure| IP30
Relative humidity| < 95% (N.C.)
Working environment

temperature

| -20℃~50℃(full input and output with no derating)
Altitude| <5000m (Derating to operate according to IEC62040 at a height exceeding 1000m)
Mechanical Parameters
Dimension| 444×300×126mm| 518×310×168mm| 605x315x178mm
Mounting dimension| 230mm
Mounting hole size| Φ8mm
Weight| 7.3kg| 14.7kg| 16.6kg| 17.5kg| 17.8kg

At minimum operating environment temperature At 25℃ environment temperature.

References

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