Solax G4 X3-Hybrid-10.0-D, Wifi 3.0, CT

G-21s-4210

3-phase, PVIN 15000Wp, 180-650V Batt.

Price:

In stock

Solax G4 X3-Hybrid-10.0-D, Wifi 3.0, CT

SUPER OVERFLOW ASYMMETRY

SWITCHING TIME TO BACKUP < 10ms

POWER RANGE UP TO 15kW (AC)

ALMOST ZERO OVERFLOWS

COMMISSIONING EVEN WITHOUT MAINS OR SOLAR POWER

RELAY CONTACT APPLIANCE CONTROL

Configurator

GBC TECH TIP

Are you running a SolaX hybrid power plant in no-flow mode? We recommend using the original current transformers for measurements.

SolaX inverter and battery compatibility.

Description

X3 Hybrid G4 inverter in version D, includes already built-in EPS Box.

X3 Hybrid G4 inverter in version D

Max. 200 % of oversized PV power
Operating temperature: -35 °C - 60 °C
Fast charging and high performance
Parallel on-grid off grid function
Fast installation
MPPT maximum power load: input A 10500W, input B 6000W

SOLAX POCKET Wi-Fi Dongle 3.0

The package includes the SOLAX POCKET Wi-Fi Dongle 3.0, a Wi-Fi pocket that enables long-term monitoring of your PV system by efficiently collecting information on a cloud-based website, making your system accessible from anywhere.

Chint electric meter DTSU666-CT (three-phase)

Diameter of measuring trays 25mm (200/5) and 36mm (600/5)
for indirect measurements

FEATURES AND BENEFITS

The inverter can transfer the spare capacity of AC power from one phase to the more loaded second phase. In practice, this means that the asymmetry on one phase can reach up to 200% of the rated power, i.e. for example 5 kW to one phase, instead of the usual 3.3 kW. This will significantly improve the user's self-consumption from stored or directly harnessed solar energy. Super Spillover Asymmetry (SPA) is not available for the SolaX Hybrid G4 12.0 and 15.0 models.

Often, hybrid inverters setup for overflow operation have trouble zeroing, especially at low draws or demands. The SOLAX G4 handles this excellently and tightens the unloaded phases to 8-14W.

Custom internal contactors that allow switching between AC OUT and EPS OUT without using an external EPS Box. Thus, the EPS output remains energized at all times and power source switching occurs in less than 10ms, which is sufficient for continuous operation of almost all applications.

SOLAX G4 will especially please technology installers. In addition to quick installation within 30 minutes, the inverter does not require mains or sunlight for start-up and initial setup. The internal voltage from the battery can be used to completely revitalise the system and thus flexibly schedule the work.

SOLAX G4 in power ranges from 5 to 15 kW (AC) and is loadable up to 18 kWp on the PV-module side. It is also suitable for smaller industrial applications. For even greater demands, the function of parallel operation of up to 10 inverters has been retained (tests are still currently underway here).

The SOLAX G4 has a potential-free output relay to signal an excess. This helps the inverter to use the maximum available energy and can switch any appliance in the house. An easy start in combining the photovoltaic sector with home heating or water heating or electromobility. This allows you to set adjustable parameters for the function in the inverter in time or in connection with SOC batteries.

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Parameters

Technical parameters

Power [W]

10000

Euro efficiency [%]

97.7

IP coverage

Number of MPPT

MPP voltage max [V]

950

MPP voltage min [V]

180

Number of phases

General parameters

Display

Yes

WiFi

Yes

Weight [kg]

Product warranty [years]

Manufacturer

SOLAX

Šířka [cm]

Výška [cm]

Hloubka [cm]

Download

General

DS_SOLAX_X3_HYBRID_G4_(5.0-15.0) (EN).pdf

DS_SOLAX_X3_HYBRID_G4_BUNDLE_5.0-15.0 (EN).pdf

DS_SOLAX_X3_HYBRID_G4_PARALLEL_SOLUTION (EN).pdf

MNL_SOLAX_X3_HYBRID_G4 (EN).pdf

QML_SOLAX_X3_HYBRID_G4 (EN).pdf

Videos

SOLAX G4 HYBRID INVERTERS

FAQ

SolaX_X1-X3-EVC-system-matching-instructions (EN)

Equipment:

Diesel generator set with the same or higher output as the installation (KRAFTWELE KW9800 3F ATS)
ATS control
CT
Smart meter (Chint DTSU666/CT)
WARNING! ULTRA inverters require a right-hand phase sequence, Hybrid G4 does not require this

Control Methods:

1. Using ATS only - currently only for Hybrid G4!!

In this case the inverter does not communicate directly with the genset, but the ATS of the genset monitors the voltage on the GRID side. The moment there is a voltage failure on the selected phase of the AC grid, the ATS starts the aggregate.

diesel_generator 1.png

On the grid side, a smart meter (direct metering/direct metering) is required The communication address of this meter must be "2".
CT coils are required to protect the generator against backflow. (CTs use an analog signal which is faster than the digital signal used in the smart meter.

ATS wiring only:

The wiring procedure in the manual must be followed. Here is an example for our tested KRAFTWELE KW9800 3F ATS.

The inverter is connected from the Grid terminals to the ATS to the OUTPUT terminals. The distribution grid is connected to the House Net terminals and the output of the diesel generator set is connected to the Generator terminals. The SMART METER is connected between the distribution network and the ATS.

diesel_generator 2.jpg

Between the ATS and the GRID terminals of the inverter, the CT coils are connected towards the GENERATOR! These coils are typically placed just after the ATS so that the coils sense the consumption at the point of installation that is connected after these coils, it is very important that the arrows of the coils point towards the distribution network, failure to do so can lead to the destruction of the diesel-generator.

diesel_generator 3.png

On the ATS box there is a button with the AUTO / MANUAL option

When using the ATS function, the button is in the AUTO position
When using the DRY CONTACT function, the button is in the MANUAL position

ATS setting only:

diesel_generator 4.png

MaxChargePower - Maximum battery charging power (0~30000, 5000W default)

Char&Disc Period - Same function as in inverter charging time setting

Charge from Gen → Charge battery to - How much SOC battery to be charged from generator (10~100, 10% default)
Charge from Gen → Charge battery to

2. Using Dry Contact Hybrid G4/Ultra

The inverter is directly connected via DO contact (COM port pin: 7,8 for Hybrid G4 or DIO port pin 1+2 for Ultra) to the ATS and gives a signal when the ATS should start the generator.

diesel_generator 5.png

On the network side a smart meter (direct/indirect measurement) is required and the communication address must be "2".
CT coils are required to protect the generator against backflow. (CTs use an analog signal that is faster than the digital signal used in the smart meter.
From the COM port on the inverter (pin 7,8) or the DIO port (pin 1+2) for the Ultra, route the signal to the ATS switch (Auto/manual button) where a connection needs to be made so that the ATS can be controlled by the inverter.

DRY CONTACT wiring (Hybrid G4):

diesel_generator 6.png

DRY CONTACT (Ultra) wiring:

Uses Pin 1+2 from the DIO terminal block.

diesel_generator 7.png

Connecting DRY CONTACT to the logic of a diesel generator e.g. KRAFTWELE KW9800 3F ATS

diesel_generator 8.png

DRY CONTACT setting (Hybrid G4/Ultra):

diesel_generator 9.png

MaxChargePower - Maximum battery charging power (0~30000, 5000W default)
Char&Disc Period - Same function as in inverter charging time setting
Charge from Gen → Charge battery to - How much SOC battery to be charged from generator (10~100, 10% default)
Charge from Gen → Charge battery to
External Gen = Immediately - Immediate start of generator when mains voltage changes
Charge from Gen→Charge battery to - How much SOC battery to be charged from generator (10~100, 10% default)
MinRestTime - Minimum time between generator starts
HoldGenMinPower (hybrid G4 only) - Minimum generator power

diesel_generator 10.jpg

CT/Meter setting (Hybrid G4/Ultra): (applies to both ATS and Dry Contact)

diesel_generator 11.jpg

NAV_SOLAX_Remote_shutdown_solution (EN)

A new feature has been added to the SolaX Hybrid G4 inverter: the function for adjusting the emergency disconnection logic of the inverter from the grid, known as the SHUT DOWN function or 0/100% regulation. You can now choose from 3 modes:

1. Function for power disconnection of the battery and inverter

When a potential-free connection is made between pins 1+2 on port COM, the master battery/BMS contactor is disconnected, thus disconnecting the battery system from the inverter, and simultaneously power-disconnecting the inverter from the grid.

Settings: advanced menu – shut down – function control – use COM

shot down 1.png

Wiring:

shot down 2.png

2. Function for power disconnection of the inverter from the grid while maintaining battery charging

This function is located on the SHUT port of the inverter and pins 4+6. When a potential-free connection is made between these pins, the inverter is power-disconnected from the grid, but the battery charging function is retained.

Settings: advanced menu – shut down – wait charge mode – Enable

shot down 3.png

Wiring:

shot down 4.png

3. Function for power disconnection of the inverter from the grid without using the battery

This function does not require any configuration in the inverter and is active by default on the SHUT port and pins 4+6 with a potential-free connection. When activated, the inverter is power-disconnected from the grid and does not charge the battery.

Wiring:

shot down 4.png

This operating mode optimizes the operation of your PV plant based on your predefined scenarios at defined time periods.

TOU allows users to set the behaviour of the PV plant according to different scenarios in defined time periods such as weekends, weekdays, holidays, thus making the operation of your inverter more efficient.

Currently, the following inverters are supported to set the TOU operating mode:

The above inverters must contain the latest FW of both the inverter and the communication module.

Mode settings

SolaX cloud:

TOU 1.jpg

Switch your SolaX cloud to V6.3

TOU 2.jpg

On the main page, select Intelligence in the Overview section and select ENTER to enter the TOU settings

TOU 3.jpg

Click the CREATE TOU button
Name the new TOU mode
Select the cycle type (weekdays/weekends)
Set the time period - in this case we have set for one month, discharging the batteries on weekends from 02:00 - 04:00 with a discharge power of 5kW
The rest of the days we have set Self-use mode

TOU 4.jpg

TOU 5.jpg

TOU 6.jpg

TOU 7.jpg

Once you have defined the TOU mode, select Add device and add your device for which you want to use the TOU mode.

TOU 8.jpg

Click the start button to start the TOU mode.

TOU 9.jpg

To check the TOU settings, click Details

Here you can check the defined values.

We have two options to check the currently installed version in the SolaX 4th generation hybrid inverter:

Directly from the display in the inverter menu under the About section, then select Internal code:

The first two digits (27) show us the DSP version, in this case 1.27, and the last two digits (26) show the ARM version, in this case 1.26.

Locally by connecting to the SolaX cloud application on your mobile device:

aktual_verze 1.png

Procedure:

1. On your mobile device, connect to the inverter's Wi-Fi network, which will appear as “wifi_Sxxxxxxxxx”.

2. Open the SolaX Cloud application and select local connection.

aktual_verze 2.jpg

3. Scan or enter the registration code of your Wi-Fi dongle:

aktual_verze 3.jpg

4. In the bottom right corner, select the “Data” icon, then select About, and the DSP and ARM versions will be displayed:

aktual_verze 4.jpg

Download >> NAV_MODBUS_SOLAX_G4 (EN)

Download >> NAV_CHINT_SOLAX_G4

After connecting your black 3.0 wifi dongle, does the message "Aging mode" appear on the inverter and the inverter does not work? We know the solution!
Please restart the whole system so that the inverter goes to normal mode. (disconnecting the inverter from the distribution network, switching the DC switch to the OFF position, turning off the main circuit breaker on the batteries)
After rebooting the entire system, upload the latest FW to your chosen black 3.0 wifi module.

You can find the procedure below:

1. Download latest firmware for black wifi dongle here >>
2. Unzip the downloaded file
3. Connect your laptop to the broadcast wifi signal with a dongle ("wifi_Sxxxxxxxxx")
4. Open the browser and enter the IP address 5.8.8.8 if the wifi dongle does not respond then 192.168.10.10
5. Enter login information: username: admin, Password: dongle registration number (Sxxxxxxxxx), for older models admin
6. In the System tab, press the "choose file" button and select the downloaded and unzipped file from step 2

7. Press the start button

After uploading the latest wifi dongle firmware, the inverter will go into normal working mode.

External ATS function

If you want to have the EPS output of the inverter always under voltage, please set the External ATS function to Disable in the Advanced menu.

Do you own a SolaX inverter and wonder which communication dongle is compatible with it? We have a solution for you!

Remove the protective cover from the dongle connector and check its shape.

1) If you see a recess with a USB port, then the suitable type for you is the WHITE dongle Pocket WiFi 2.0 – item code (B-210-1000)

dongle 1.png

2) If you see a black plastic extension with a USB port, then the suitable type for you is the BLACK dongle Pocket WiFi 3.0 – item code (B-210-1014)

dongle 2.png

Identification by product code for X3-Hybrid G4

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