Saturday, November 26, 2011

PV Powered PVP3000 Residential 3,000 Watt Grid-Tied Solar Power Inverter

!±8± PV Powered PVP3000 Residential 3,000 Watt Grid-Tied Solar Power Inverter

Brand : PV Powered | Rate : | Price :
Post Date : Nov 26, 2011 09:54:06 | N/A

The PVPowered PVP3000-SD-240 Residential Inverter delivers maximum energy harvested from your PV system with high reliability and world-class efficiency. Significant software integration and a modular design combine to create a scalable platform with fewer components and higher uptime. By employing fewer parts and ensuring those parts are of the highest quality, PV Powered has created a line of residential grid-tie inverters that spend more time generating electricity and less time being repaired. It has a DC operating range of 170 volts to 450 volts and a CEC weighted efficiency of 96 percent. This inverter has been endurance tested up to 20 a year operating life. It has been field-proven technology with thousands of units installed nationwide. PV Powered is an innovation leader for grid-tied PV inverters in the residential, commercial and utility markets, setting new industry standards in reliability and efficiency. Founded in Bend, Oregon in 2003 and recently acquired by Advanced Energy Industries NASDAQ: AEIS), the company has pioneered the use of advanced reliability engineering to design inverters with a 20+ year operating life.

  • Endurance tested to 20 year operating life
  • Listed to UL 98 standards for use with PV Powered UL 1741 listed string inverters
  • Factory integrated inverter and PV system disconnect eliminates the need for extra equipment
  • Optimally placed knockouts for a variety of conduit routing options
  • Direct-to-wall surface enclosure design allows for easy access and installation

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Tuesday, November 22, 2011

PV Powered PVP2000 Residential 2,000 Watt Grid-Tied Solar Power Inverter

!±8±PV Powered PVP2000 Residential 2,000 Watt Grid-Tied Solar Power Inverter

Brand : PV Powered
Rate :
Price :
Post Date : Nov 22, 2011 17:31:40
N/A



The PVPowered PVP2000-SD-240 Residential Inverter delivers maximum energy harvested from your PV system with high reliability and world-class efficiency. Significant software integration and a modular design combine to create a scalable platform with fewer components and higher uptime. By employing fewer parts and ensuring those parts are of the highest quality, PV Powered has created a line of residential grid-tie inverters that spend more time generating electricity and less time being repaired. It has a DC operating range of 115 volts to 450 volts and a CEC weighted efficiency of 96 percent. This inverter has been endurance tested up to 20 a year operating life. It has been field-proven technology with thousands of units installed nationwide. PV Powered is an innovation leader for grid-tied PV inverters in the residential, commercial and utility markets, setting new industry standards in reliability and efficiency. Founded in Bend, Oregon in 2003 and recently acquired by Advanced Energy Industries (NASDAQ: AEIS), the company has pioneered the use of advanced reliability engineering to design inverters with a 20+ year operating life.

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Wednesday, November 2, 2011

RV Tip: Troubleshooting a 12-volt DC Problem

!±8± RV Tip: Troubleshooting a 12-volt DC Problem

If you enjoy RVs you already know that a major part of the fun with RVing is getting away from everything. You can just pack up the RV and head out to get some well deserved rest and relaxation without having to deal with the hassles of day-to-day living. These restful, relaxing, memory making RV trips should not be jeopardized by something as simple as a 12-volt electrical problem ruining your vacation.

If you've been RVing for any amount of time you are already aware that a good portion of the devices and accessories in your RV operate off of 12-volt DC power. 12-volt DC or Direct Current is electricity supplied by the RV batteries. DC electricity flows in one direction, from negative to positive. 12-VDC electricity is stored in the RV batteries and supplies power for components, devices and appliances that operate off of 12-volts.

These 12-volt devices include overhead lights, the water pump, vent fans, furnace fan, range hood fan, LP gas leak detectors, stereos, 12-volt TVs and the refrigerator when it's operating in the LP gas mode. When you go camping you rely on these 12-volt items to operate properly, especially if you're dry camping without hook-ups. So what do you do when one of these 12-volt items quit working?

For the sake of an example let's say that we are dry camping and our 12-volt water pump quits working.

I am convinced that just about anybody is capable of troubleshooting a 12-VDC problem, and in many cases repairing the problem without it ruining your camping trip. For starters you will need a couple of simple tools to assist you in troubleshooting your RV's 12-volt electrical system.

1). An inexpensive 12-volt test light.

2). A multi-meter that can test for DC power.

Both of these are available at local auto parts stores. You should also keep some electrical tape, various size wire nuts, 12-volt light bulbs and 12-volt fuses on hand. Check the amperage of the fuses used in the power distribution box and keep an assortment. If you're aware of any inline fuses used on any of the 12-volt devices keep these on hand too.

Now, try to determine the last time the water pump actually worked. Did you leave the RV for a period of time with the pump on? Is there water in the fresh water holding tank? Were you working on or around something else that could have affected the operation of the water pump? Try to think of all possible scenarios. Something might jar your memory resulting in a quick fix to the problem.

If not, the first step is to verify that the coach battery or batteries are charged enough to supply power to these 12-volt items. There are a couple of ways to perform a quick test on the coach batteries. You can use the monitor panel to check the condition of the coach batteries. To get an accurate reading make sure the RV is not plugged into electricity and turn on a couple of overhead lights to place a small load on the battery. Check the reading at the monitor panel. (If you check the reading at the monitor panel when the RV is plugged in to electricity it will give you fully charged reading) A more accurate method is to test the battery with a multi-meter. Set the meter to read 12-VDC and place the negative test probe on the negative battery terminal and the positive test probe on the positive battery terminal. A fully charged battery will read in the range of 12.6 to 12.7 volts. If it reads less than 12-volts it is below a 50% state of charge and will need to be charged.

If the battery is fully charged, the next step is to make sure that any battery disconnect switch for the coach battery is turned on. If the battery disconnect switch is on, verify that other 12-volt devices in the RV are operating properly. If there is 12-volt power to the interior of the RV you need to check the fuse for the water pump in the power distribution center. Determine which fuse is for the water pump (fuses are normally labeled) and find a suitable ground for the 12-volt test light. Test both sides of the fuse for 12-volt power. If the test light only lights on one side of the fuse replace it with the proper size fuse and try the water pump again. If there was power at both sides of the fuse check for 12-volts at the water pump switch. If there is voltage, and the switch is operating properly check the water pump wiring for an inline fuse.

Find a good ground for the 12-volt test light and probe the wire on both sides of the fuse. If there is only power on one side of the fuse replace it with the proper size fuse and test the pump again. If there is power on both sides of the fuse check the water pump wiring connections at the wire nuts. It's possible for connections to come loose due to excessive vibration. Correct any loose connections and try the pump again. If the pump still doesn't work feel the motor to see if it is hot to the touch. If the motor is hot, a thermal breaker may have been triggered. Allow the pump time to cool off and see if it re-sets itself.

If you complete all of these tests and there is 12-volt DC power coming to the water pump motor, and it still doesn't come on, chances are the water pump is bad and it will need to be replaced.

Troubleshooting a 12-volt electrical problem in your RV is not that difficult. Follow the logical path of the device you are troubleshooting and see if you can determine where the problem is. It might be possible for you to save your well deserved vacation, some money and a trip to the RV dealership too.

Note: If you don't feel comfortable performing your own maintenance or troubleshooting the 12-volt electrical system, take your RV to a reputable repair center to have it checked out and repaired

Happy Camping!

Copyright 2006 by Mark J. Polk owner of RV Education 101


RV Tip: Troubleshooting a 12-volt DC Problem

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