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Abrelex EnerSolis ES 10000 User manual
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Abrelex EnerSolis ES 12000 is a three-phase grid tie solar inverter that converts direct current (DC) from a photovoltaic (PV) array into alternating current (AC) that can be fed into a commercial electrical grid. With a rated power output of 12 kilowatts, it is suitable for residential and small commercial PV systems. It features plug-and-play connectors for easy installation of solar modules, multiple communication ports for monitoring and control, and built-in safety mechanisms to ensure reliable operation.
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Grid Tie Solar Inverter
EnerSolis Series
ES 6000
ES 8000
ES 10000
ES 12000
Three-Phase , 6 / 8 / 10 /12 kW
User’s Manual
VERSION 1.1
Contents
1 Foreword ........................................................................................................... 2
2 IMPORTANT SAFETY INSTRUCTIONS .......................................................... 3
3 Overview ........................................................................................................... 6
3.1
External dimensions ........................................................................... 6
3.2
External features ................................................................................ 7
4 Installation ......................................................................................................... 8
4.1
Unpacking .......................................................................................... 8
4.2
Installation requirements .................................................................... 9
4.3
Mounting the unit .............................................................................. 11
4.4
Electrical installation .........................................................................14
5 Front display panel .........................................................................................21
6 Starting the inverter ........................................................................................23
6.1
Start-up and operation test ...............................................................23
6.2
Checking values measured by the inverter ......................................25
6.3
Inverter status indicators ..................................................................29
7 Communication interfaces ..............................................................................30
7.1
Standard communication interfaces .................................................30
7.2
Optional communication card ...........................................................32
8 Remotely Communication ..............................................................................37
9 Inverter status diagnostics and repair .............................................................38
10 Specifications ..................................................................................................41
11 Contact ...........................................................................................................43
1
1 Foreword
Thank you for purchasing the EnerSolis ES 6000(ES 8000/ES
10000/ES 12000) Grid Tie Solar Inverter. Many years of experience in the design of power devices have gone into the construction of this device. We hope that it will give your solar power system many years of trouble-free operation. However, the inverter is a complex electronic system which is confronted with a wide variety of local conditions, so if questions arise or a malfunction occurs do not hesitate to call your specialized dealer for assistance.
Please read this user's guide carefully to familiarize yourself with the device, paying special attention to the information on installing and commissioning the device.
2
2 IMPORTANT SAFETY INSTRUCTIONS
■
General
Warning! Incorrect operation and work performed incorrectly can cause damage and serious injury! Only qualified staff are authorized to install your inverter, and only within the scope of the respective technical regulations. Do not start operation or carry out maintenance work before you have read the chapter
“Safety Regulations“!
This manual contains important instructions for the ES
6000(ES 8000/ES 10000/ES 12000) that must be followed during installation and maintenance of the inverter.
Warning! These servicing instructions are for use by qualified personnel only. To reduce the risk of electric shock, do not perform any servicing other than that specified in the operating instructions unless you are qualified to do so.
■
Housing
Only qualified installers are authorized to open the connection area. Do not open the connection area when the inverter is connected to power.
Only well-trained service staff may open the upper portion (power stage) of the inverter, and only when it is not connected to power.
3
■
Warning
Below warning symbols are described according to related sections:
Symbol Description
Caution, risk of electric shock !
Caution, risk of danger !
Caution , hot surface !
The PV inverter surface temperature of the casing can exceed +70 °C .
Caution, risk of electric shock
Energy storage timed discharge !
Refer to the operating instructions !
4
■
Repair
Only well-trained service staff are authorized to carry out repairs to the inverter.
■
Solar panels
Before connecting the solar panels (also called photovoltaic
(PV) modules), you must check whether the voltage parameters specified in the manufacturer’s data correspond with the actual parameters. When checking the voltage please take into account that solar modules supply a higher no-load voltage when temperature is low and sunlight level remains unchanged.
At 4 °F ( -20 °C) the open-circuit voltage of the PV modules must never exceed 1,000 V. The data sheet of the solar module will include the temperature factors applicable for ascertaining the theoretical open-circuit voltage at 4 °F ( -20 °C) . If the solar modules exceed an open-circuit voltage of 1,000 V the PV inverter might be damaged, which will void the warranty.
The PV inverter includes a residual current monitoring unit
(RCMU) according to VDE0126-1-1. This device measures the ground current of the PV array and prevents the inverter from feeding the grid in case of a ground fault.
■
Grid connection
Only appropriately licensed contractors are authorized to connect the PV inverter to the grid. Consult your local authorities for specific requirements. Before connecting the PV inverter to the grid, permission for the connection must be granted by the utility company.
5
3 Overview
3.1
External dimensions
3.2
External features
Model number
Dimensions (mm)
W
H
D
ES 6000 ES 8000 ES 10000 ES 12000
451
595
247
451
595
247
451
595
247
451
595
247
6
1. LCD and LED display: Shows operation information and status.
2. Solar array input: plug-and-play connectors for the solar modules
3. Standard communication ports: EPO, RS-232, and RS-485
4. Optional communication slot: USB, RS-485, Dry-Contact, TCP/IP, or WiFi
。
5. AC output terminal: AC output for the utility supply
6. DC input switch: switches the PV string inputs on and off
7
4 Installation
Warning: Be sure to read the safety instructions on pages 3 and 4 before installing the PV inverter.
4.1
Unpacking
Inspect the PV inverter upon receipt. The packaging is robust, but accidents and damage may still occur during shipment. Notify the forwarder and dealer if there is damage.
The packaging is recyclable and reusable.
After removing the inverter from the carton check for the following standard package contents, in addition to the inverter itself. accessories set (cover, PV connector)
CD-ROM
A wall mount kit set (backrest and backplane positioning paper)
8
4.2
Installation requirements
The PV inverter is heavy. Take this weight into account when choosing the installation site and method of installation.
To ensure proper operation and long operating life, position the inverter according to the following requirements:
(1) ES 6000(ES 8000/ES 10000/ES
12000) are designed to comply with
Index of Protection class 65, which allows units to be installed in outdoor and wet environment .
The PV inverter is designed for outdoor installation. It should be installed in a place here it is not exposed to direct sunlight. The yield of the PV system may be reduced at increased ambient temperatures or when installed in poorly ventilated and warm indoor locations. We recommend an ambient temperature range of -20°C to +60 °C .
9
(2) The PV inverter is designed to be mounted on a vertical wall. If installing the unit outdoors make sure that it is not slanting forward.
We advise against installing the unit in a horizontal position outdoors.
4.3
Mounting the unit
For vertical installation and installation on solid concrete or block walls, when selecting the mounting hardware be sure to take into account the weight of the PV inverter.
(3) When choosing the installation site ensure that there is enough space for heat dissipation. Under normal conditions the following clearance guidelines should be applied:
10
The procedure for mounting the inverter is described on the following page.
11
4.3.1
Using the mounting bracket
Method I: Use the backplane to fix the unit
Step 1. Put the backplane position paper on the intended spot of the wall.
Drill holes based on the diameter of the backplane to fix holes. Finally
, fix the backplane on the wall.
Method II: Use screws to fix the unit
Step 1. Mark the positions to drill the holes and setting screw.
Step 2. Screw the nut on the sleeve without fastening.
Step 2. Hang the PV inverter on the wall that it cannot be moved sideways.
Step 3 . Hang the PV inverter on the backplane. Make sure that it holds the inverter unit firm and securelyFinally, fastening the nut.
12
Step 3. Make sure that the PV inverter is positioned securely on the bracket.
13
4.4
Electrical installation
Caution ! Risk of electric shock !
■
Make sure the AC breaker or switch installed between the
PV Inverter and the grid (AC Utility).
Note
:
Please use Ue: 690Vac / Ie:25A circuit breaker.
■
Make sure the DC breaker or switch installed between the
PV Inverter and the PV array.
Note
:
Please use Ue: 1000Vdc / Ie:25A circuit breaker.
■
When working on the PV inverter, disconnect the AC breaker or switch and DC breaker or switch.
■
Make sure that the AC breaker or switch and DC breaker or switch cannot be unintentionally closed during installation and commissioning works.
The electrical connections for the PV inverter are shown in Figure 1.
4.4.1
Connecting to the grid (AC utility)
Caution:
Before connecting to Grid(AC utility),please install a separate circuit breaker between inverter and Grid
To connect the AC power cable proceed as follows:
Step 1. Measure the grid’s (i.e., the utility’s) voltage and frequency. The voltage and frequency of the inverter are set at the factory to match the utility in the country where the product will be delivered.
Step 2 .Before wiring the PV inverter ensure that the main breaker in the primary utility breaker box is switched OFF. Switch this breaker ON only after all wiring is completed as instructed below.
Step 3 .Remove the screws that secure the wire terminal cover, and carefully remove the cover. Alternatively, remove the connector as shown in
Figure 2.
Figure 1
14
Figure 2
15
Step 4. Insert the utility cable through the cable gland. Connect the wires to the terminal block as shown in Figure 3.
4.4.2
Status identification of the DC input switch
Before operating the DC input switch, make sure of status identification as below instructions .
Turn the DC switch 90° to the on position (position I ) shown in Figure 4
Turn the DC switch 180° to the off position (position 0 ). shown in Figure 5
Figure 3
Step 5. Reattach the cover, and evenly tighten the four screws.
Warning: To prevent risk off electric shock ensure that the ground
(PE) wire is properly earthed before operating the PV inverter.
Suggested AC cable width
Model Area (mm
2
)
ES 6000
ES 8000
ES 10000
ES 12000
> 2.1
> 2.1
> 3.5
>3.5
AWG no.
< 14
< 14
< 12
<12
16
Figure 4 Figure 5
17
4.4.3
Connecting the PV array (DC)
4.4.3.1
PV array requirements
The ES 6000(ES 8000/ES 10000/ES 12000) PV inverter is designed to be connected to an array of up to two PV strings. The two PV strings can contain different numbers of PV modules.
4.4.3.2
Wiring to the PV array
The PV inverter is equipped with PV quick connects for connecting up to two PV strings as shown in Figure 6.
Caution:
Before connecting to PV modules, please install a separate circuit breaker between PV inverter and PV modules.
Figure 6
18
When matching PV strings to the PV inverter, to determine the number of panels required in each PV string (panels connected in series), you must ensure that the following three requirements are met:
1. To avoid damage to the inverter make sure that the maximum open circuit voltage (Voc) of each PV string is less than 1,000 VDC under any conditions.
Voltage over 1,000 VDC will damage the inverter.
2. Do not exceed the maximum array short-circuit current rating marked on the inverter.
3. To harvest maximum energy from your array ensure that the Vmp (voltage at maximum power) does not drop below 450 VDC or increase above 850 VDC under most conditions.
To wire the PV array to the PV inverter follow these steps:
Step 1: Set the DC input switch to
0
(
Turn the DC input switch to off position,referring to section 4.4.2 Figure 5)
Step 2: Check that the PV generator connectors have the right polarity and do not exceed the maximum string voltage.
Step 3: Connect the POSITIVE (+) wire from the #1 PV string to the PV inverter’s positive (+) terminal.
Step 4: Connect the NEGATIVE (–) wire from the #1 PV string to the PV inverter’s negative (–) terminal.
Step 5: Connect the ground wire from the #1 PV string to earth.
Step 6: If necessary repeat steps 2 through 5 for the #2 PV string. Double-check that the wires are in the proper locations.
Suggested DC cable width
Model
ES 6000
ES 8000
ES 10000
ES 12000
Area (mm
> 4.0
> 4.0
> 4.0
> 4.0
2
) AWG no.
< 12
< 12
< 12
< 12
19
4.4.3.3
Requirements for connection
The number of solar panels in String A need not equal the number in String B.
For a single PV string enter settings mode and configure for parallel operation.
Figure 7. DC connections for a two-string PV array
20
5 Front display panel
Symbols on the LCD
○
LCD
Symbol Description
Utility source
Inverter is working in specified mode.
Solar cell
Inverter operation mode flow chart
4-digit measurement display
21
LED Indicators
○
○
○
Red LED shines steadily to indicate a ground fault or DC input isolation fault.
Yellow LED shines steadily to indicate that the utility does not match the input standard of the inverter (voltage, frequency, etc.).
Green LED shines steadily when the solar power is greater than sleep power. It flashes when the solar power is less than sleep power.
Control Keys
○
○
○
○
Special functions and log in/out
Go to next page.
Confirm change of inverter setting.
Go to previous page.
22
6 Starting the inverter
Before the inverter is started ensure the following:
The wire terminal cover is securely screwed on.
The AC breaker is OFF.
The DC cables (PV strings) are fully connected.
The AC (utility) cable is connected correctly.
6.1
Start-up and operation test
6.1.1
Connect the PV string voltage by switching on the DC switch, referring to section 4.4.2. Figure 4. The inverter starts automatically when it senses DC voltage greater than 250
VDC. All of the LEDs will shine. The LCD will display drawing A.
A
6.1.2
After three seconds the LCD will change from drawing A to drawings B1 and B2. The green LED will flash to indicate that the DC input power is less than sleep power. The yellow
LED will shine steadily to indicate the absence of utility power.
B1
B2
23
6.1.3
Turn on the AC breaker. If the utility specification (voltage, frequency, etc.) matches the inverter, after thirty seconds the
LCD will display drawing C, and the yellow LED will stop shining, indicating that the utility is acceptable to the inverter.
If the utility does not match the inverter then an error code or error status will appear on the screen.
C
6.1.4
After five seconds, if the inverter’s DC soft start is successful, the LCD will display drawing D. The green LED will still flash.
D
6.1.5
After ten seconds, if the inverter’s AC soft start is successful, the LCD will display drawing E.
E
24
6.1.6
If the inverter encounters a problem (e.g. output current over range) then an error code or error status will appear on the screen. (e.g. drawing F)
F
6.1.7
Upon successful completion of the start-up operation the
LCD will display drawing E.
6.2
Checking values measured by the inverter
To check values measured by the inverter use the scroll-up and scroll-down keys. When you scroll down, the LCD will display the following:
6.2.1
Input DC voltage of string A
G
6.2.2
Input DC voltage of string B
H
25
6.2.3
Input DC current of string A
I
6.2.4
Input DC current of string B
J
6.2.5
Output power of booster A
K
6.2.6
Output power of booster B
L
6.2.7
Output voltage A of the inverter (utility voltage)
M
26
6.2.8
Output voltage B of the inverter (utility voltage)
N
6.2.9
Output voltage C of the inverter (utility voltage)
O
6.2.10
Output frequency of the inverter (utility frequency)
P
6.2.11
Output current A supplied to the load
Q
6.2.12
Output current B supplied to the load
R
27
6.2.13
Output current C supplied to the load
S
6.2.14
Output power supplied to the load
T
6.2.15
Energy in kWh supplied to the load
U
6.2.16
Inverter inner temperature (in either °F or °C) (°F or °C display change from scroll up and scroll down )
V
6.2.17
Heat sink temperature (in either °F or °C) (°F or °C display change from scroll up and scroll down )
W
28
6.3
Inverter status indicators
The PV inverter starts up automatically when DC power from the PV array is greater than 250 VDC. Once the PV inverter starts, it enters into one of the following modes:
Operation mode
LCD Description
Normal
The PV inverter is working normally.
Whenever the PV-array voltage is within range (300-1,000 VDC), the PV inverter passes power to the grid as generated by the PV array. In normal mode the green LED shines to indicate that the inverter is feeding power to the grid.
Standby
If the voltage is insufficient (250-300
VDC) the PV inverter enters into standby mode.
Error
EPO
Shutdown
The internal intelligent controller continuously monitors and adjusts the system status. If the PV inverter encounters unexpected conditions such as grid problems or internal failure, it will display relevant information on the LCD, and the red
LED will shine.
Emergency Power Off mode. In this mode the PV inverter does not take any power from the grid.
In case of little or no sunlight the PV inverter automatically stops running.
In this mode the PV inverter does not take any power from the grid. The
LCD and all of the LEDs on the front panel do not work.
29
7 Communication interfaces
7.1
Standard communication interfaces
7.1.1
RS-232 interface definition
The RS-232 interface must be configured as follows:
Baud Rate
Data Length
Stop Bit
Parity
9600 bps
8 bits
1
None
RS-232 Pin assignments are as follows (The connector is male.)
7
6
9
8
5
4
3
2
1
Pin 2: RS-232 Rx
Pin 3: RS-232 Tx
Pin 5: Ground
7.1.2
RS-485 interface definition
The RS-485 interface must be configured as follows:
Baud Rate
Data Length
Stop Bit
Parity
9600 bps
8 bits
1
None
30
RS-485 pin assignments are as follows:
PIN 3 = 485 GND
PIN 4 = EPO GND
PIN 5 = EPO
PIN 7 = 485
A/Data+
PIN 8 = 485
B/Data-
7.1.3
EPO (Emergency Power Off) RJ45 connector
To activate EPO pin 4 and pin 5 must be shorted.
Make sure the RJ45 plug is properly attached to the wire.
Ensure that the EPO function operates properly with your application by testing the inverter while it is injecting current. Check that the inverter stops injecting current.
31
7.2
Optional communication card
7.2.1
Hardware installation procedure
Caution ! Risk of electric shock !
■
When working on the solar power system, disconnect the AC breaker or switch.
■ Turn the DC input switch to off position, referring to section 4.4.2.
Figure 5
■ Make sure that the AC breaker or switch cannot be unintentionally closed during installation and commissioning works.
7.2.2
RS-485 card
Screw on the cover to complete the installation.
Unscrew the two screws, and remove the cover.
32
Insert the communication card into the slot.
Jumper block CN2 is for the terminal resistor function.
Short pins 1 and 2 to enable the function.
Short pins 2 and 3 to disable it.
Jack CN3 is the RS-485 terminal.
Definition:
CN2
1 2 3
1 Ground
2 A/Data+
3 B/Data−
33
7.2.3
USB card
7.2.3.1
Jack CN2 is for USB.
7.2.3.2
Definition:
7.2.3.3
Complies with USB version 1.0 and 1.5 Mbps.
7.2.3.4
Complies with USB HID Version 1.0.
7.2.3.5
Pin assignments:
1 VCC (+5 V)
2 D
-
3 D
+
4 Ground
34
7.2.4
True Relay Contact Board (DCE-B card)
7.2.4.1
Pin assignments of the 10-pin terminal:
1 2 3 4 5 6 7 8
Pin 1: Utility voltage is abnormal.
Pin 2: PV array voltage is normal.
Pin 3: PV array voltage is abnormal.
Pin 4: Utility frequency is abnormal.
Pin 5: Anti-islanding
Pin 6: Inverter output current exceeds range.
Pin 7: Heat-sink temperature is too high.
Pin 8: Common
7.2.4.2
The capacity of each relay contact is 40 VDC/25 mA
7.2.4.3
.
7.2.4.3
Flexible signal output for N.C. (normally closed) or N.O.
(normally open) contact by shorting pins 1-2 or pins 2-3 on jumper block JP1-5
35
7.2.5
TCP/IP Cards
7.2.5.1
TCP/IP (Ethernet) card
7.2.5.2
For installation please refer to the user’s manual included with the card.
7.2.6
WiFi Cards
7.2.6.1
For installation please refer to the user’s manual included with the card.
36
8 Remotely Communication
8.1
Grid PV-Inverter is equipped with power remotely communication interface and options. User can use software to monitor the status of inverter with PC with the following options.
8.1.1
RS485: To use it, you have to remove the RS485 cover on bottom side of Inverter. It is a DB8 socket. For the pin definition, please refer to 7.1.2.
8.1.2
Wired Ethernet: To install TCP/IP card, please refer to 7.2.5.
8.1.3
Wireless Ethernet: To install WiFi card, please refer to 7.2.6.
37
9 Inverter status diagnostics and repair
The PV Inverter is equipped with a self diagnostic system that automatically identifies many possible operational issues and displays information about them on the LCD. Therefore it is possible to quickly isolate technical problems and to distinguish between service codes related to the installation and service codes which are internal to the inverter. Whenever the diagnostic system identifies a particular issue the respective service code is displayed on the LCD.
Table 2. Inverter error codes and descriptions
LCD Designation
Er00
DC_BUS pre-charge failure
Description
The inverter is in the soft start procedure, but the DC bus cannot reach and maintain anticipative charging voltage
Repair
Er07
DC_BUS over-voltage
The DC bus voltage is lower or higher than expected.
Er08
Er17
DC_BUS under-voltage
EEPROM ERROR on the control board
Er22 Output relay failure
Er24
Er25
Er26
Output current sense failure
BOOSTER_A over-current
BOOSTER_B over-current
EEPROM data is wrong.
The inverter’s output relay is abnormal.
The inverter’s output current fails to be detected.
Over-current on the DC side. This fault code is displayed if the current in the DC network is larger than specified.
1. Disconnect ALL PV (+) and
PV (-) cables.
2. Wait for a few seconds.
3. After the LCD switches off reconnect and check again.
4. If the error code keeps recurring contact your local distributor.
Er06 EPO
Inverter enters into EPO mode
(Emergency Power Off).
1. Remove the short circuit occurring at the EPO terminal.
2. If the error code keeps recurring contact your local distributor.
Er09
Er11 Inverter overload
Er13
Inverter short circuit
Er14 Inverter PLL failure
Er29
Inverter output over-current
Inverter output DC current over spec.
Over-current on the AC side. This fault code is displayed if the current in the AC network is larger than specified.
Overload on the AC side. This fault code is displayed if the load in the
AC network is larger than specified.
Short circuit on the AC side
The phase of the inverter cannot synchronize with the utility.
The DC component of the electricity fed into the grid is larger than the permissible range.
1. Turn off the AC breaker, then check the peripheral AC system configuration and the grid conditions.
2. If the error code keeps recurring contact your local distributor for help.
Er10
Inverter Over temperature
The internal temperature is too high.
1. Try to reduce the ambient temperature.
2. Move the inverter to a cooler
38
Er18
Heat sink over temperature
The heat sink temperature is too high. place.
3. If the error code keeps recurring contact your local distributor for help.
Er02 Slave MCU failure Slave MCU failure
Er05 Watch Dog DSP Watch Dog
Er12 Charger fault
Er15 Slave Info fail
Er27
Booster Short
Circuit
Er41 Boost A Sense fault
Er42
Er43
Boost B Sense fault
Out Balance Sense fault
DC BUS pre-charge failure
The data check failed between two
MCUs.
Short-current on the DC side.
Current sensor fault on the stringA of DC side.
Current sensor fault on the stringB of DC side.
Current sensor fault on the AC side.
1. If the error code keeps recurring contact your local distributor for help.
Er37 Fan fault A fan is not rotating.
1. Check the fans.
2. If the error code keeps recurring contact your local distributor for help.
39
Table 3. Grid fault alarm codes and descriptions
LCD Designation Description Repair
AL00
AL01
AL02
AL03
AL04
AL05
AL06
AL07
AL08
AL 13
AL10
AL11
AL23
Utility over-voltage
Utility under-voltage
Utility over-frequency
Utility under-frequency
BOOSTER_A input over-voltage
BOOSTER_A input under-voltage
BOOSTER_B input over-voltage
BOOSTER_B input under-voltage
Anti-islanding
Utility phase failure
GFDI
Isolation fault
The utility voltage is greater than or less than the permissible values.
The utility frequency is greater than or less than the permissible values.
Over or under voltage at
DC input
No utility, or utility failure
Leakage current on the ground conductor is too high.
The impedance between
PV (+) and PV(-) and ground is less than 1
M Ω .
1. Wait for 1 minute. If the grid returns to normal then the inverter automatically restarts.
2. Check the grid connection, such as wires and connectors.
3. Make sure the grid voltage and frequency meet the specifications.
4. If the error code keeps recurring contact your local distributor for help.
1. Disconnect ALL PV (+) and PV (-) cables.
2. Ensure that the open PV voltage is outside the 300-1000 VDC range.
3. If PV voltage is normal and the problem still occurs contact your local distributor for help.
1. Disconnect ALL PV (+) and PV (-) cables.
2. Check the grid connection, such as wires and connectors.
3. Check for grid usability.
4. If the utility is normal and the error code keeps recurring contact your local distributor for help.
1. Unplug the PV generator from the input. Check the AC peripheral system.
2. After the problem is cleared re-plug the PV generator. Check the PV inverter status.
3. If the error code keeps recurring contact your local distributor for help.
1. Disconnect ALL PV (+) and PV (-) cables.
2. Check the impedance between PV
(+) and PV (-) and ground. The impedance must be greater than 2
M Ω .
3. If the error code keeps recurring contact your local distributor for help.
PV Inverter is under initialization
PV Inverter is under initialization
N/A
40
10 Specifications
Model
Item
Inverter
Technology
Conversion
Mode
Isolation
Method
DC Input Data
Nominal DC Voltage
Max. DC Input Voltage
MPP Voltage Range
Max. DC Input current
MPP Tracker
Isc
AC Output Data
Nominal AC Power
Max. AC Apparent Power
Nominal AC Voltage
Output Connect Method
AC Voltage Rang
Nominal AC Current
Frequency
Power Factor
Current Distortion
Efficiency Data
Max. Efficiency
Euro Efficiency
Environmental
Operating Temperature
ES 6000 ES 8000 ES 10000
Transformer-less Design
ES 12000
Sine-wave, Current source, High-frequency PWM
2 × 8.5 Amp
620 VDC
1,000 VDC
300 ~ 1,000 VDC
2 × 11.4 Amp 2 × 14.3 Amp 2 × 14.3 Amp
6,000 Watt
6,600 VA
2
35A
8,000 Watt
8,800 VA
10,000 Watt
11,000 VA
AC 230V × 3
3-Phase / 4-Wires (L1, L2, L3, N, PE)
12,000 Watt
12,000 VA
8.69 Amp × 3
184V ~ 264.5V (Base on 230 Vac)
11.59 Amp × 3 14.49 Amp × 3 17.39 Amp × 3
50 / 60Hz Auto-Selection
(45.0 ~ 55.0Hz or 57.0 ~ 63.0Hz)
Leading 0.9 ~ Lagging 0.9
Total Harmonic Current : Less than 5%
Single Harmonic Current : Less than 3%
97.60%
96.20% 97.25% 96.60% 97.00%
-20 °C to +60 °C
-4 °F to 139°F
PD3
Category Ⅱ
Pollution degree
Overvoltage category
(IEC 60664-1)
Humidity
DC side
AC side
Altitude
Mechanical
Dimensions
(W x H x D in mm / in)
Net Weight (kg / lbs)
Gross Weight (kg / lbs)
Protection Class
Cooling
AC connector
Category Ⅲ
0 to 100% (Without condensation)
0-2,000 m / 0-6,600 ft
451 × 595 × 247 / 17.7 × 23.4 × 9.72
41 / 90.4
44 / 97.0
IP65, outdoor
Temperature-dependent fan
Connector
41
DC Connector
Communication
Communication
Interfaces
Front Panel
LCD
LED
Key Pad
Protection
Utility
Islanding operation detection
Over temperature
Certification
On-Grid Performance
Safety
EMI/EMC
Connector
Standard
Optional
RS-232 & RS-485
USB, RS-485, Dry contact, TCP / IP, WiFi
Boost input Voltage / Boost input Current / Boost input Power /
AC output Voltage / AC output frequency / AC output current /
AC output power / AC Energy / yield / Inner Temperature /
Heat sink Temperature / Status message / Error message
RED On: Ground fault or DC input insulation fault
Yellow On: Unit Error or Alarm
Green
Flash: Standby or Sleeping mode
On: Normal Operation
Up key / Down key / Function key / Enter key
Over / under Voltage, Over / under Frequency,
Ground fault, DC Isolation fault
Passive: Voltage phase jump detection
Active: Reactive power control
Downgraded output power
VDE 0126-1-1, VDE AR-N 4105, AS 4777.2/.3
ENEL 2010, G83/1
VDE 0126-1-1,
VDE AR-N 4105
EN 62109-1, EN 62109-2, EN 60730, AS 3100
EN 61000-6-1, EN 61000-6-2, EN 61000-6-3, EN 61000-6-4,
EN 61000-3-2, EN 61000-3-3
Note:
1.
This product can cause current with a d.c. component. Where a residual current operated protective (RCD) or monitoring (RCM) device is used for protection in case if direct or indirect contact, only an RCD or RCM of Type B is allowed on the supply side of this product.
2.
The PV modules must be have an IEC 61730 Class A rating.
42
11 Contact
Ablerex Electronics Co., Ltd.
1F, No. 3, Lane 7, Paokao Rd., Hsintien,
23114, Taipei Hsien, Taiwan
43
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Table of contents
- - Foreword
- - IMPORTANT SAFETY INSTRUCTIONS
- 3 Overview
- 3 External dimensions
- 4 External features
- 5 Installation
- 5 Unpacking
- 6 Installation requirements
- 8 Mounting the unit
- 11 Electrical installation
- 18 Front display panel
- 20 Starting the inverter
- 20 Start-up and operation test
- 22 Checking values measured by the inverter
- 15 Inverter status indicators
- 16 Communication interfaces
- 16 Standard communication interfaces
- 17 Optional communication card
- 19 Remotely Communication
- 20 Inverter status diagnostics and repair
- 21 Specifications
- 22 Contact