Ground Fault Circuit Interrupters GFCIs

AC Safety Grounding: During the AC wiring installation, AC input and output ground wires are connected to the inverter. The AC input ground wire must connect to the incoming ground from your AC utility source. The AC output ground wire should go to the grounding point for your loads (e.g. a distribution panel ground bus).

Neutral Grounding:

a)120V models: The neutral conductor of the AC output circuit of the Prosine Inverter is automatically connected to the safety ground during inverter operation. This conforms to National Electrical Code requirements that separately derived AC sources (such as inverters and generators) have their neutral conductors tied to ground in the same way that the neutral conductor from the utility is tied to ground at the AC breaker panel. For models configured with a transfer relay, when AC utility power is present and the Prosine Inverter is in bypass mode, this connection (neutral of the inverter‘s AC output to input safety ground) is not present so that the utility neutral is only connected to ground at your breaker panel, as required.

b)230V models: There is no connection made inside the Prosine Inverter from either of the line conductors (line or neutral) to the safety ground.

2.4.3Ground Fault Circuit Interrupters (GFCIs)

Installations in Recreational Vehicles (for North American approvals) will require GFCI protection of all branch circuits connected to the AC output of the hardwire terminal equipped Prosine Inverters. In addition, electrical codes require GFCI protection of certain receptacles in residential installations. While the true sine wave output of the Prosine Inverter is equivalent to the waveform provided by utilities, compliance with UL standards requires us to test and recommend specific GFCIs.

Xantrex has tested the following GFCI-protected 15 A receptacles and found that they functioned properly when connected to the AC output of the inverter:

Manufacturer	Model

LEVITON	6599/701

LEVITON	6598/722*

EAGLE	Shock Sentry

PASS & SEYMOUR	1591-WCN

HUBBELL	GF252GYA

BRYANT	GFR52FTI

BRYANT	GFR82FTI**

*With Line/Load inversion check & indicator light

**Hospital Grade

2.4.4 Making DC Wiring Connections

Follow this procedure to connect the battery cables to the DC input terminals on the Prosine Inverter. Your cables should be as short as possible (ideally, less than 10 ft./3 m) and large enough to handle the required current, in accordance with the electrical codes or regulations applicable to your installation. Cables that are not an adequate gauge (too narrow) or are too long will cause decreased inverter performance such as poor

V = I x R

Voltage = Current x Resistance

	Inverter	500	1000	1500	2000	2500	3000
	Output (W)
	Current (A)	50	100	150	200	250	300
Wire	Resistance	Voltage	Voltage	Voltage	Voltage	Voltage	Voltage
Gauge	(ohms/ft)	Drop	Drop	Drop	Drop	Drop	Drop
(AWG)	@ 25°C	per ft.	per ft.	per ft.	per ft.	per ft.	per ft.
4/0	0.000050	0.0025	0.0050	0.0075	0.0100	0.0125	0.0150
3/0	0.000063	0.0032	0.0063	0.0095	0.0126	0.0158	0.0189
2/0	0.000079	0.0040	0.0079	0.0119	0.0158	0.0198	0.0237
0	0.000100	0.0050	0.0100	0.0150	0.0200	0.0250	0.0300
1	0.000126	0.0063	0.0126	0.0189	0.0252	0.0315	0.0378
2	0.000159	0.0080	0.0159	0.0239	0.0318	0.0398	0.0477
3	0.000201	0.0101	0.0201	0.0302	0.0402	0.0503	0.0603
4	0.000253	0.0127	0.0253	0.0380	0.0506	0.0633	0.0759

Table 3. Voltage drop per ft of DC cable

surge capability and frequent low input voltage warnings and shutdowns.

These low input voltage warnings are due to DC voltage drop across the cables from the inverter to the batteries. The longer and narrower these cables, the greater the voltage drop. Table 3 shows voltage drop per foot of cable, at various power output levels.

For example, if the 1800 Inverter is 10 ft. from your battery, is operating at 2000 watts, and is improperly connected with #4AWG wire, then you can expect a voltage drop per foot of 0.0506 V. Total cable length is actually 20 ft., not 10 ft., since the cable length is measured from the battery to the inverter and back. Therefore, multiply 0.0506 V by 20 to get a total voltage drop of 1.012 V. If your battery voltage is only 11.2 VDC, then the actual voltage at the inverter is 10.188 (11.2 V–1.012 V) because of this significant voltage drop. The Prosine Inverter will either be in low input voltage warning or shutdown in such a condition. In high current draw and surge situations, the unit may go into low input voltage shutdown if the cables are too small and too long.

Increasing your DC cable size will help improve the situation. With cables sized correctly, and using a #0 AWG cable, your voltage drop will be 0.02 VDC (multiplied by 20, you get a total voltage drop of 0.4 VDC). This illustrates that at 10 ft. away from the battery and with large cables, you can expect voltage drop. Again, try to keep cable length to a minimum and use the maximum gauge cable possible. Xantrex recommends the following cables for optimum inverter performance (apply to both 120 V and 230 V versions).

1000/12: #0 AWG or 55 mm2

1000/24: #6 AWG or 13 mm2

1800/12: #4/0 AWG or 110 mm2

1800/24: #2 AWG or 34 mm2

Also, use only high quality copper wiring and keep cable length short, a maximum of 3–6 ft.

Xantrex Prosine Inverter Owner’s Manual

English 7

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.

Xantrex Technology 1800 Ground Fault Circuit Interrupters GFCIs, Making DC Wiring Connections

Models: 1800i 1000 1800 1000i

2.4.3Ground Fault Circuit Interrupters (GFCIs)

Manufacturer

Model

2.4.4 Making DC Wiring Connections

English 7

1800i, 1000, 1800, 1000i specifications