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Single-Phase Hybrid/AC Inverter H1-3.0-E-G2/AC1-3.0-E-G2

SKU: H1-3.0-E-G2/AC1-3.0-E-G2

Harness the power of the sun day and night with the ground-breaking range of Hybrid & AC inverters from Fox ESS. Full of advanced features and compatible with our very own range of high-voltage batteries, the hybrid range from Fox ESS. It is a new class of Inverter.

Wykorzystaj moc słońca w dzień i w nocy dzięki przełomowej ofercie falowników hybrydowych i prądu przemiennego firmy Fox ESS. Pełna zaawansowanych funkcji i kompatybilna z naszą własną gamą akumulatorów wysokonapięciowych, hybrydową gamą akumulatorów Fox ESS. Jest to nowa klasa falowników.

Available in delivery or click&collect

EX. VAT: £851.00

Description

Input PV (Only for Hybrid)

  • Max. Input Power [W] 4500
  • Max. Input Voltage [V] 600
  • Start-up Input Voltage [V] 75
  • Rated Input Voltage [V] 360
  • MPPT Operating Voltage Range [V] 80 ~ 550
  • Max. Input Current [A] 16 / 16
  • Max. Short-circuit Current [A] 20 / 20
  • No. of Independent MPP Trackers 2
  • No. of Strings per MPP Tracker 1

Battery Connection

  • Battery Type Lithium Battery (LFP)
  • Battery Voltage [V] 80 ~ 480
  • Max. Charge/Discharge Current [A] 40
  • Communication Interface CAN(communicate with inverter, upgrade BMS)

AC Input and  Output (Grid)

  • Max. AC Input Power [VA] 6000
  • Max. AC Input Current (per phase) [A] 27.3
  • Rated Output Power [W] 3000
  • Max. Output Apparent Power [VA] 3300
  • Rated Output Current (per phase) [A] 13.6
  • Rated Output Current (per phase) [A](For AUS) 13.0
  • Max. Output Current [A] 15.0
  • Rated Grid Voltage [V] 220/230/240
  • Rated Grid Frequency [Hz] 50/60
  • Power Factor 1 ( Adjustable from 0.8 leading to 0.8 lagging )
  • THDi [%] <3 @ rated power

EPS Output (With Battery)

  • Max. Output Apparent Power [VA] 3000
  • Peak Output Apparent Power (60s) [VA] 3600
  • Max. Current (per phase) [A] 13.6
  • Rated Output Voltage [V] 220/230/240
  • Rated Output Frequency [Hz] 50/60
  • Power Factor 1 ( Adjustable from 0.8 leading to 0.8 lagging )
  • THDv ( linear Load) [%] <2 @rated power
  • Parallel operation [PCS] 10
  • Switch time [ms] <20

Efficiency

  • Euro Efficiency [%] 95.26
  • Max. Efficiency [%] 97.01
  • Max. Battery Charge Efficiency (PV to BAT) (@full load) [%] 98.50
  • Max. Battery Discharge Efficiency (BAT to AC) (@full load) [%] 97.00

Protection

  • Insulation Monitoring YES
  • Residual Current Monitoring YES
  • DC Reverse Polarity Protection YES
  • Anti-islanding Protection  YES
  • AC Short-circuit Protection YES
  • AC Overcurrent/Overvoltage Protection YES
  • DC Switch YES
  • Battery Wack-up Function YES
  • SPD DC: Type II, /AC: Type III
  • AFCI Optional

General Data

  • Dimensions (W*H*D) [mm] 434*418*185
  • Weight [kg] 22
  • Installation Wall-Mounted
  • Topology Non-Isolated
  • Cooling Method Natural
  • Noise Emission [dB] 35
  • Max. Operating Altitude [m] 2000
  • Operating Temperature Range [°C ] -25 ~ 60
  • Humidity (No Condensation) [%] 0 ~ 100
  • Ingress protection IP65
  • Standby consumption[W] <15
  • Monitoring Module WiFi, LAN(Optional) , 4G(Optional)
  • Communication RS485, DRM, Ripple Control, USB, CAN
  • Display LCD, App, Website

Standard Compliance

  • Safety EN 62109-1, EN 62109-2
  • Grid Regulation AS / NZS 4777.2

Frequently asked questions

A solar panel inverter is a device that converts the direct current (DC) electricity generated by solar panels into alternating current (AC) electricity, which can be used by household appliances and fed into the electrical grid.

Most household appliances and the electrical grid operate on AC electricity. A solar inverter is necessary to convert the DC electricity produced by solar panels into a usable form.

The size of the inverter should match the total output of your solar panel system. For example, if you have a 4 kW solar array, you would typically need a 4 kW inverter. It’s important to consult with a professional installer to ensure proper sizing.

The typical lifespan of a solar inverter is around 10 to 15 years. However, this can vary depending on the type, quality, and usage conditions. Regular maintenance can help extend the lifespan.

Most inverters have a display or indicator lights that show their status. Regularly check the display for any error messages or unusual readings. Remote monitoring systems can also provide alerts if there are any issues.

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