OPERATION

A system that includes 2400 watts of solar array is able to produce approximately 18 amps of AC power at 120 VAC. The output is most needed from 12:00 noon to 18:00 by the utility. If the GRID USAGE TIMER is set to a START CHARGE TIME of 18:00 and a END CHARGE TIME of 12:00 noon, the inverter will sell the battery from 12:00 noon to 18:00. The energy in the batteries will be used only if the solar array is not able to provide enough power to reach the 18 amps AC (determined by the MAX SELL AMPS AC setting under the BATTERY SELLING MENU (17) menu heading. The battery will assist the solar array to meet the 18 amps AC MAX SELL AMPS AC setting during the battery sell period. If the battery reaches the SELL VOLTS DC setting during the sell period, the AC output current will slowly taper down to the solar array’s output level and the battery will not be further discharged. At 18:00, the battery will charge at the rate allowed by the SET MAX CHARGE AMPS AC (2 amps AC is the lowest setting allowed). The battery will be recharged only to the FLOAT VOLTS DC setting unless the BULK CHARGE TRIGGER TIMER

(15)menu heading is used to trigger a bulk charge cycle.

This system offers the utility several advantages. The system can be relied on for a specific amount of output at a set time. The AC output of the system from 12 noon to 4 PM will not vary with the level of sunlight (after all, the AC loads on the grid do not suddenly drop when a cloud passes over). Only if it is extremely cloudy will the system not produce its rated output for the full time period - which would not be as important since the ambient temperature would not be as high.

This operating mode does not provide an individual system owner with many added values. The wear and tear on the batteries would be avoided and greater efficiency achieved if the standard sell mode was used.

BATTERY REQUIREMENTS

Batteries are required for utility inter-tie operation of this inverter. The batteries can, however, be small if the system does not provide back-up power in case of utility failure. Two thousand watt/hours is sufficient (100 amp/hours at 24 volts is 2400 watt hours). This can be achieved by using two “Group 27” sized batteries for a 24-volt system. This is a very common size for RV and boat applications. Since the batteries are not cycled excessively, sealed batteries may be used with good success.

CAUTION: If using gelled batteries, the battery charger must be set to the appropriate settings or battery damage will occur.

BATTERY REGULATION LEVEL - SELL MODE

In the SELL mode, the regulation level of the battery is determined by the charge cycle (FLOAT or BULK) and the settings of the BULK CHARGE TRIGGER TIMER (15) and the GRID USAGE TIMER (18).

The SET START CHARGE TIME menu item setting under the BULK CHARGE TRIGGER TIMER (15) menu heading can be used to increase the battery charging regulation voltage to the SET BULK VOLTS DC setting. The battery voltage will be held near the SET BULK VOLTS DC menu item setting under the BATTERY CHARGING (10) menu heading for the adjustable ABSORPTION TIME period setting upon encountering this BULK CHARGE TRIGGER TIMER event or after a loss of AC power to the AC HOT IN 1 input terminal.

The inverter will charge the battery to the FLOAT VOLTS DC setting at the START CHARGE TIME with the GRID USAGE TIMER enabled (the START CHARGE TIME beginning time is not equal to the END CHARGE TIME). This is indicated by the FLOAT LED indicator being on. After the END CHARGE TIME, the inverter turns off the battery charger and begins to “sell” power into the utility grid from the battery (or any other DC sources available and connected to the batteries) to the SELL VOLTS DC setting. The FLOAT LED indicator blinking indicates this. The current will be limited to a maximum level controlled by the MAX SELL AMPS AC menu item setting under the BATTERY SELLING (17) menu heading.

With the GRID USAGE TIMER disabled (the SET START CHARGE TIME beginning time is equal to the SET END CHARGE TIME) and the inverter in the FLOAT charge cycle, the inverter will use the utility grid (or any other DC sources available and connected to the batteries) to maintain the batteries to the SET FLOAT VOLTS DC setting. This is indicated by the FLOAT LED indicator being on.

2001 Xantrex Technology, Inc.

Telephone: 360/435-8826

SW Series Inverter/Charger

5916 - 195th Street N. E.

Fax: 360/435-2229

Part No. 2031-5

Arlington, WA 98223

www.traceengineering.com

Rev. C: February 2001

Page

87

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Xantrex Technology SW Series owner manual Battery Requirements, Battery Regulation Level Sell Mode

SW Series specifications

Xantrex Technology has established itself as a leader in innovative power solutions, and its SW Series inverters epitomizes this commitment to quality and efficiency. Designed for both standalone and grid-tied applications, the SW Series offers versatile power management for a range of residential and commercial needs.

At the heart of the SW Series is its advanced pure sine wave output, ensuring clean and reliable electricity suitable for sensitive electronics. This feature makes it an excellent choice for applications such as solar energy systems, where it provides high-quality power for a variety of devices, from household appliances to complex machinery.

One of the key characteristics of the SW Series is its modular design, which allows for easy installation and scalability. This modularity enables users to expand their power system as their energy needs grow, making it an ideal choice for both small and large installations. The inverters come equipped with a user-friendly interface, providing clear information on system performance, battery status, and more, ensuring that users can effectively monitor and manage their energy consumption.

The SW Series inverters also incorporate cutting-edge technology, such as the patented Power Factor Correction (PFC) feature, which optimizes energy efficiency by reducing harmonic distortion. This translates into less wasted electricity and lower energy costs, making it an environmentally friendly option for users looking to reduce their carbon footprint.

Another notable feature of the SW Series is its ability to operate in extreme conditions. Built with robust components and advanced thermal management systems, these inverters can withstand a wide range of temperatures and environmental challenges, ensuring reliable performance in various settings. This durability makes them suitable for off-grid applications, including remote cabins, RVs, and boats.

Furthermore, the SW Series supports a variety of battery types, including lithium-ion, AGM, and gel batteries, offering flexibility for users to choose the best energy storage solution for their needs. The sophisticated battery management system ensures optimal charging and discharging, prolonging the lifespan of the batteries and enhancing the overall efficiency of the power system.

In summary, Xantrex Technology's SW Series inverters stand out for their pure sine wave output, modular design, energy efficiency features, and robust performance in challenging conditions. With their versatility and advanced technology, they cater to the evolving needs of today’s power consumers, making them a compelling choice in the modern energy landscape.