2.Remove and re-attach the front panel depending on the orientation of the base unit itself. For example, if the unit is mounted on a vertical surface, you may want to remove the panel and attach it so it is again readable horizontally. This can be done by removing the four screws, taking the panel out of the housing, rotating the panel and reattaching the panel to the base unit. Be sure to re-install all four screws.

3.The front panel can also be remotely located away from the base chassis. Simply remove the panel from the face of the unit, install the interface panel option (purchased separately) and connect the 30 ft. (9 m) extension cord. The cord can then be run to the location where the panel is to be mounted, and attached to the panel. The unit can now be controlled and monitored from the location of your choice. Do not remotely mount the display panel without purchasing the Interface Panel option and properly installing this panel on the inverter. The Interface Panel significantly reduces radiated interference generated along the length of the cable, decreasing the chance of resulting interference with other equipment.

Figure 2. Control panel attachment

2.4 Wiring the Prosine Inverter

WARNING

Fire and shock hazard. Make sure wiring is disconnected from all electrical sources before handling. All wiring must be done in accordance with local and national electrical wiring regulations by a certified electrician or technician.

For units equipped with an AC outlet:

If your Prosine Inverter is equipped with an AC outlet on the front, then you will be mainly interested in the DC wiring instructions that follow (section 2.4.4). Once your DC connections and ground wiring connection are complete, the unit is ready to deliver AC power.

For AC hardwire versions:

If your unit is equipped with an AC hardwire terminal strip, (with or without transfer relay) then the following AC wiring instructions are important for you to read through. When hardwire configured, the inverter manages all AC power and therefore must be wired in between any utility connection and distribution panel.

As a starting point for the wiring instructions, here is a brief summary of the wiring sequence for hardwire configured inverters. Please thoroughly read the remainder of the wiring instructions (section 2.4.2) which details each wiring step and follows the Input and Output Protection section:

1.Ensure the (#/I) control panel switch is in the (#) position. For those hardwire equipped models with a transfer relay, connected AC source (INPUT) power will be passed through the inverter making the output terminal and connected wiring live. This is the case even with the control panel switch in

the (#) position so ensure all power is disconnected at its source.

2.Connect AC input wiring, AC output wiring, Chassis Ground, DC positive cable and finally, DC negative cable in that order.

3.Connect each circuit to its source.

2.4.1 Input and Output Protection

In order to meet CSA, UL, and electrical code requirements, the AC and DC inputs and outputs of the Prosine Inverter must be provided with overcurrent protection such as a circuit breaker or fuse, and with a disconnect device, as follows: (note the “AC Input” and “AC Output” information below only applies to units equipped with AC hardwire terminal strips, not AC output receptacle equipped versions).

DC Input: Protection for the DC wiring (an inline fuse /circuit breaker) is needed as close as possible to the battery to protect the wiring from your batteries to the Prosine Inverter. The current rating of this DC fuse or circuit breaker must be large enough to allow the inverter to operate your loads, but if the rating is too high, electrical codes will require you to use larger DC cables than you would otherwise have to. The fuse or circuit breaker must be rated and approved for use on minimum 12V or 24V DC circuits as applicable by the model of your inverter. Fuses or circuit breakers rated only for AC service are not suitable for use on DC circuits and may pose a hazard. The wire size used between the Prosine Inverter and the fuse or circuit breaker must be sized to match the fuse or circuit breaker´s current rating, in accordance with the electrical codes or regulations applicable to your installation (see Table 4).

AC Input: The installation must provide over-current protection for the AC input circuit. The circuit breaker or fuse used must be rated and approved for use on 120VAC branch circuits for 120V models and for 230VAC branch circuits for 230V models. The wire size used between the breaker and the Prosine Inverter input must be sized to match the circuit breaker, in accordance with the electrical codes or regulations applicable to your installation. Refer to Table 1 for sizing information.

Xantrex Prosine Inverter Owner’s Manual

English 5

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Xantrex Technology 1000i, 1800 Wiring the Prosine Inverter, For units equipped with an AC outlet, For AC hardwire versions

1800i, 1000, 1800, 1000i specifications

Xantrex Technology offers a range of power inverters that cater to both recreational and professional needs, with the Xantrex 1800 and 1000 models being among the most popular in their lineup. These inverters are specially designed to convert DC power from batteries into clean, pure sine wave AC power, making them suitable for running sensitive electronic devices and appliances.

The Xantrex 1800 is a robust inverter that delivers 1800 watts of continuous power and 3600 watts of peak power. This makes it ideal for powering essential appliances like refrigerators, microwaves, and power tools. Its compact design allows for easier installation in various settings such as RVs, boats, and off-grid homes.

On the other hand, the Xantrex 1000 inverter is designed for lower power requirements, offering 1000 watts of continuous power and 2000 watts of peak power. It is perfect for powering small appliances, electronics, and gadgets, making it a great choice for weekend campers and those who require less energy capacity.

Both models feature advanced technologies, including low idle power draw, which ensures that energy is conserved when the inverter is not actively powering devices. They also include overload protection, ensuring the inverter shuts down automatically if the power exceeds its limits, thus preventing damage to the unit or connected devices.

Another hallmark of Xantrex inverters is their user-friendly interface. The LED indicator lights provide clear status updates on the power output and inverter operation, making it easy for users to monitor performance at a glance. Additionally, both models feature various safety protocols, including short circuit and over-temperature protection, to enhance operational safety.

Installation is straightforward, thanks to the provided mounting options and wiring accessories. The units are designed to withstand harsh environments, with durable casings that enhance longevity and resilience.

In summary, the Xantrex 1800 and 1000 models offer reliable power solutions for a variety of applications. Their combination of high-quality sine wave output, advanced safety features, and user-friendly operation makes them a top choice for anyone seeking dependable off-grid power. With Xantrex, users can trust that they are investing in products engineered for performance and durability in an ever-increasing range of power needs.