Hybrid Inverter 5048E

Ortech Power Solutions SAS

Apr 2014

Overview

Réalisations

What is Hybrid Inverter?

Energy saving &

Backup power solution

Hybrid Power Sources

(Solar System)

Who Needs Hybrid Inverter?

Electricity tariff is expensive

Grid outage all the time

Plenty of sunlight

Key Features

Ideal energy saving solution for home/office applications

Supports AC generator as input

Reliable backup power supported by both PV (solar) system and battery bank

Batteries can be charged by both PV system and AC input

Automatically switches between 9 operation modes to optimize the energy consumption

Built-in 20/35A battery charger

Built-in 40A circuit breaker

Built-in MPPT * for optimized PV energy harvest

Compliance with CE (IEC 62109-1 /-2, IEC 62040-1 /-2)

MPPT: Maximum Power Point Tracker

Product Outlook

Major Parts

(3) USB Port

(4) LED Indicators

(1) Upper Control Panel

(2) Lower Control Panel

(8) Battery Terminal Block

(9) AC Output Terminal Block(to loads)

(6) Grid Protect Breaker

(5) Power Switch

(7) AC Input Terminal Block

(from grid)

(10) PV String Input Connectors

Typical Application

Energy Saving

In day time, PV power is strong enough to fully supply AC loads

without consuming the power from AC grid

*based on the case in India

• Built-in MPPT leads to 30% more PV energy production

• Up to 40% energy saving per day*

• Up to $1,000 saving per year*

Operation Modes

Automatically switch between modes according to the operating conditions

Operation Modes: LINE-PV

AC loads are supplied by AC grid

PV is strong enough to charge battery bank without consuming power from AC grid

AC Grid or Generator

PV System

BatteryBank

AC Loads

Strong

Operation Modes: SOLAR-PV

AC loads are fully supplied by PV system

No power consumption from AC grid

Back to LINE-PV mode when BAT <60%

Surplus PV power will charge battery

Strong

>90% charged

Operation Modes: LINE-HYBRID

AC loads are supplied by AC grid

The power to charge battery bank firstly comes from PV system and the rest comes from AC grid

Less Power

AC Grid or Generator

PV System

BatteryBank

AC Loads

Operation Modes: SOLAR-HYBRID

AC loads are supplied firstly by PV system and the rest by battery bank

No power consumption from AC grid

Less Power

Operation Modes: LINE MODE

AC grid not only supplies AC loads but also charges battery bank

No Power

AC Grid or Generator

PV System

BatteryBank

AC Loads

Operation Modes: INV MODE

AC loads are fully supplied by PV system as backup power

No power consumption from battery bank

Surplus PV power will charge battery

Outage

Strong

Operation Modes: INV-HYBRID

AC loads are supplied firstly by PV system and the rest by battery bank

The power from PV system helps to prolong the backup time

AC Grid or Generator

PV System

BatteryBank

AC Loads

Outage

Less Power

Operation Modes: INV MODE

AC loads are supplied only by the battery bank

The backup time is subject to the capacity of battery bank

Outage

No Power

AC Grid or Generator

PV System

BatteryBank

AC Loads

Operation Modes: CHARGE MODE

AC grid is not available to charge the battery

PV power take over to charge the battery as long as no AC load is connected

Outage

Product Specification (1/2)

Product Specification (2/2)