Exeltech 1100W XP Series Pure Sine Wave Inverter XP1100-120V
High-quality, less-expensive upgrade to pure sine inverter for your SUNRNR via link cord and AUX portal. This option has solved customer issues with select appliances and computers that did not like the modified sine inverter that comes standard.
Click here for a “Primer on Modified Sine and Pure Sine Wave Inverters.”
XP Series inverters are the most affordable, reliable, lightweight and, best regulated, true sine wave inverters available.
Made in America, the XP SERIES inverter will operate any AC load anywhere. Ultra lightweight, yet rugged enough for the most extreme mobile environments.
Exeltech’s XP series inverters provide the cleanest, best regulated sine wave output over the widest DC input of any inverter on the market today. They are extremely low in total distortion—specified to 2%, and typically better than 1.5%.
XP 1100 Standard Features
DC INPUTS: Positive (+) and Negative (-) input terminals are 3/8" studs with brass hardware. They are accessed under the rear cover.
AC OUTPUTS: All domestic models have two NEMA – 15 outlets (standard wall receptacle), and NEMA -Wd6 outlets (T slot, 5-20 Rreceptacle) on XPX. These are located on the front panel of the unit. XP-1100 have an IEC-320 receptacle located on the front panel. Additionally, the unit may be hard-wired to appliance/load using connections on the barrier terminal strip, located under rear cover.
COOLING: Provided by a thermostatically controlled brushless fan located on the front panel.
DC POWER ON LED: Located on the front panel; will be “ON” when inverter is powered up, and DC power is available.
LOW BATT/THERM BUZZER: Produces an audible alarm if DC input voltage falls to a level within 2% to 4% of the low limit of inverter, or, if there is an over-temperature condition.
ON/OFF SWITCH: Located on front panel; turns the inverter on and off.
OVER VOLTAGE PROTECTION: When input voltage to the inverter exceeds set limits, the inverter will immediately shut off, without warning. When input voltage returns to normal range, the inverter will immediately restart. Since high over-voltages tend to have very fast edges, the inverter must shut down quickly to protect itself. This kind of fault usually occurs if the battery is suddenly disconnected from the system and the battery charger continues to supply current.
UNDER VOLTAGE PROTECTION: When battery voltage falls to within 2% to 4% of low line voltage, the LOW BAT/THERM buzzer will sound. If the condition continues without reducing load to the inverter or adding charge to the battery, the inverter will shut off. When voltage rises to approximately 85% of nominal battery voltage the inverter will turn back on and the alarm condition will clear. The inverter can be manually reset by cycling the on/off switch. This will reset the protection circuit and turn the inverter on at any voltage above minimum voltage.
OVER TEMPERATURE PROTECTION: The inverter is also protected against overheating. It will provide its full rated output up to the temperature listed in the specification sheet. If it is subjected to higher ambient temperatures or air circulation is blocked, the inverter could overheat. If the LOW BATT/THERM buzzer sounds, immediate action is required or the inverter will shut down. Either reduce load, or provide more cooling in the immediate environment. If no action is taken, the inverter will likely shut down within two minutes. When the inverter shuts down, the alarm condition will persist and the cooling fan will continue to run. Since the inverter has eliminated its load, it will quickly cool. The inverter will automatically restart when it has cooled sufficiently, and the LOW BATT/THERM alarm will clear.
OVERPOWER, SHORT CIRCUIT PROTECTION: XP600/1100 inverters have three levels of overpower protection. The first limits peak instantaneous current. The second system limits absolute power coming from the module. Both of these circuits act to reduce output voltage as required, to limit current to a safe level. The overpower protection circuit will recover instantly when the overpower condition clears. The third is short circuit protection. If the overcurrent condition is so severe that it causes output voltage to collapse to 1 Vp for more than one second, the inverter will shut down and not automatically restart. This requires the user to clear the short circuit safely, and guarantee that hazardous voltage will not come back on line until desired. To reset the inverter from this condition, cycle power switch “OFF” then “ON” again.