Section 3: Configuration

Battery Configuration

The Battery Information menu has three configuration parameters: Battery Type, Battery Size, and Battery Temperature. All of these parameters have an effect upon the optimal charging regime. For a comprehensive discussion about batteries, see “Section 7: Batteries”.

WARNING Risk of battery damage and fire or explosion if using the wrong battery type or size setting.

Battery Type

NOTE: This is an “Installer-only” configuration item. There are two types of batteries appropriate for

use with the Prosine inverter/charger: flooded lead-acid batteries, and gel-cell lead-acid batteries. The factory default setting for this parameter is flooded. When using sealed or gel lead-acid batteries, change the setting of this parameter to Gel.

Battery Size

NOTE: This is an “Installer-only” configuration item. You can use one battery with a capacity of only 50 amp hours (Ah) or a group of batteries with a combined capacity of over 2000Ah to provide DC power to the inverter/charger. The amount of current used to recharge the batteries will vary with the combined capacity of the batteries. Setting this parameter too high (larger than your batteries’ actual capacity) can result in damage to your batteries or cause them to produce excessive amounts of corrosive and explosive gasses. Setting this parameter too low can result in under-charged batteries, or excessively long charging periods. Consult with your battery supplier to determine the type and capacity of your batteries.

Battery Temperature

The amount of current your batteries can absorb while charging is directly related to their temperature. The ambient temperature affects the amount of current that will pass into and out of the batteries. You can set the battery temperature to optimize the Prosine charging regime for cold, warm, or hot ambient temperatures. Xantrex strongly recommends use of the included Battery Temperature Sensor that enables the Prosine inverter/charger to automatically adjust the charging regime for temperature. When the temperature sensor is installed, the Battery Temperature setting is ignored. You can switch between the Celsius (C) and Fahrenheit scales by pressing ENTER and then t or s but use of the battery temperature sensor is preferred.

Cold = <10°C (50°F), Warm = 10°C to 27°C (50°F to 80°F), Hot = >27°C (80°F)

Battery temperature can be set in the usual way: by entering the menu, scrolling to the desired value, and accepting the value by pressing ENTER.

BATTERY INFO: TEMP: WARM

ENTER

BATTERY INFO: TEMP: HOT

ENTER

Battery type and size parameters are installer configuration items. Enter Installer Mode, then enter the menu, and set the value as above. Press ENTER to accept the value and ESCAPE to exit the menu.

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Xantrex Technology PS2.5, PS3.0 Battery Configuration, Battery Type, Battery Size Battery Temperature

PS3.0, PS2.5 specifications

Xantrex Technology has made significant strides in the power electronics sector with the introduction of their PS2.5 and PS3.0 inverter models. These inverters are designed primarily for solar energy applications, offering reliable and efficient power conversion for residential and commercial solar installations. The PS series stands out in the market due to its advanced features, innovative technologies, and user-friendly characteristics.

One of the main features of the Xantrex PS2.5 and PS3.0 inverters is their high efficiency rating, typically above 97%. This means that a minimal amount of energy is lost during conversion, allowing users to maximize their solar energy utilization. Additionally, these inverters come with a wide input voltage range, making them versatile and capable of handling various solar panel configurations.

Both models are equipped with advanced MPPT (Maximum Power Point Tracking) technology. This feature optimizes the energy output from solar panels by constantly adjusting the operating point to ensure maximum power is extracted, even in variable weather conditions or partial shading. This capability significantly enhances the overall energy harvest from solar systems.

Another notable characteristic is their compact and lightweight design, which facilitates easy installation and integration into existing systems. The inverters are also designed with robust thermal management solutions, ensuring they operate effectively even in high-temperature environments. This durability extends their lifespan and increases reliability, critical factors for any solar installation.

Xantrex has also prioritized user experience with the PS2.5 and PS3.0 models by providing a built-in monitoring system. Users can access real-time data on energy production, performance metrics, and system status through a user-friendly interface. This connectivity allows for quick troubleshooting and maintenance, thus enhancing the overall efficiency of solar energy systems.

Safety is paramount in the design of these inverters. They meet stringent international safety standards and come equipped with comprehensive protection features, including over-voltage, under-voltage, and short-circuit protection. This ensures the inverter operates safely, protecting both the user and the connected solar array.

In summary, Xantrex Technology's PS2.5 and PS3.0 inverters are engineered with cutting-edge features and technologies that cater to the evolving needs of solar energy users. Their efficiency, adaptability, and focus on safety make them an excellent choice for those looking to invest in renewable energy solutions. As the demand for sustainable energy continues to rise, Xantrex is poised to play a significant role in the market with these innovative inverter solutions.