Posts Tagged ‘car power inverter’

Power Inverters Output – Frequency 50hz vs 60hz?

Friday, September 12th, 2008

We help people with small wind generator systems all the time. When individuals start learning about the technology, they begin looking at different available components. Power inverters take DC current from a wind system anf change it to AC current for home power and home appliances to run on. The most common question that comes up is “what will happen if I get a 50 Hz inverter, the 60hz is more expensive?”  The  best answer I can give is “Dont try That at Home”  Be warned, let me inform what can happen using 50hz Asian/European inverters with US standard appliances and electrical systems.

Manufacturers build electrical devices for a certain amount of Current, Voltage and Hertz (Cycles) which is mentioned on the name plate. The Current is dependent of the Voltage and the Hertz supplied to an electric motor or appliance.

If this electrical Current running through your US appliance is higher than it is designed for, because you bought a cheap Asian/Eoropean 50hz inverter, here’s what happens. The appliance burns out, leading to premature failure, wear, and can cause a fire.

Standards for Electrical Voltage and Hertz are different in different parts of the world, roughly you can distinguish:
120 and 220 Volt; 60 Hertz (USA)
230 Volt; 50 Hertz (Europe & Asia)

What happens if you connect a 60 Hertz motor to a 50 Hertz mains:
– The motor turns 17% slower
– The internal current goes up by 17%
– The power (watt) goes down with 17 %
– The mechanical cooling is less, because of 17% less turns
– Insulation of the electrical wiring deteriorate much quicker
– Sometime results in a burn-out, which could cause a fire.pure sine wave inverter

WindEnergy7 only sells and recommends safe components that were all desined and configured to work with United States appliances and electrical standards. If you are wanting a home wind generation system, let us assist you and make as safe a system as we can.

If you are interested in starting a wind project for your residence or acreage, contact us. To Buy a Wind Turbine or Become a Dealer, Please fill out our Contact Form. The system will automatically send you some additional info.

        

Power Inverter Terminology

Tuesday, September 9th, 2008

Power Inverter Terminology

The following is a glossary of terms that may be routinely heard when shopping for equipment or reading operator’s manuals.

The Grid– Also called the utility grid, this refers to the public power distribution system.

Off Grid– Not connected to public power in any way

Sellback or Selling back to the grid– Some inverters have the capability to take energy stored in batteries or from solar panels and put it back into the utility grid. The public utility company will then pay you for using your energy. Check with the power company before attempting this.

DC– Direct Current. Electrical current that does not vary with time.

AC– Alternating Current. Electrical current that varies with time. The rate at which the voltage changes polarity is the frequency in Hertz(Hz).

Load(s)– Any electrical item which draws power. (i.e. lights, radio, washer/dryer, refrigerator, etc.)

Voltage– The pressure of electrical flow. Equivalent to water pressure in a hose.

Current(Amps)– The volume of electricity flowing through a conductor. Equivalent to gallons per unit time of water flowing through a hose.

Watts– Measure of power output or utilization. Watts=Volts x Amps

Resistance– The opposition to flow of direct current (DC)

Impedance– Opposition to flow of alternating current (AC)

Fuse or Disconnect– An electrical pressure relief valve. When current exceeds a preset limit the fuse or disconnect will fail before the wiring or equipment it is protecting. Disconnects are also called circuit breakers. These are usually resettable and can act as a switch to turn off power to equipment for servicing.

NEC code– National Electric Code. The guidelines and acceptable practices for electrical installations. It is a book published every three years.

Deep Cycle Battery– A battery designed to be routinely discharged to 20% of its maximum capacity without damage. These are the type of battery most commonly used with an inverter system.

Output Waveform– Shape of the wave that alternating current makes as its voltage rises and falls with time.

Sinewave– A waveform that looks like rolling waves on water. It rises and falls smoothly with time. The grid puts out a sine waveform. Any plug in AC equipment will operate from a sinewave output. (See graph below)

Modified Sinewave– Also called a quasi waveform or a modified sine wave. This output looks like a one step staircase. Most loads that will run from a sinewave will run from a modified sinewave. However things such as clocks and furnace controllers may have trouble. (See graph below)

Square Wave– The simplest wave form, this is shown below. Some types of equipment behave strangely when run from a square wave.(See graph below)

Islanding– The condition present when the utility power grid fails and the inverter attempts to power the grid. An inverter which is “islanding protected” senses the loss of AC power from the grid and does not back feed into the grid system.

Locked Rotor Amps– The current drawn by an electric motor with the shaft or rotor stopped and locked in position. This can be used to determine if an inverter has enough surge current to start a motor. If the inverter is capable of producing more amperage than the locked rotor amps rating of a motor, it will most likely start the motor easily.

Pass Through Current– The amount of current the inverter can safely pass directly from the AC input to the AC output.

Automatic Transfer Relay– An automatic switch that switches between inverter and charger mode depending on availability of AC input power. If AC is present the unit will be a battery charger, when AC goes away the unit becomes an inverter.

Efficiency– Usually given as a percentage, efficiency is the ratio of the output to the input. The efficiency changes with power output levels of any inverter.

Battery Equalization– Controlled “overcharging” of the battery causing it to bubble and mix. This reduces stratification.

Stratification-With time, the liquid portion of a battery (the electrolyte) will separate into layers. The sulfuric acid will go to the bottom, and the water to the top. If allowed to sit in this condition the battery will be ruined. Equalization will bubble and mix the electrolyte eliminating this problem.

LED– Light Emitting Diode. A light made up of semi-conducting material.

Line Tie– Term used when the inverter is connected to the public power or “grid” system.

Stacking– Two inverters operating together to produce more power and higher output voltage. The units must be stackable, and an interface cable must be utilized. See the manual for details on stacking if it is an option.

PV– Photo Voltaic. Solar powered.

Bulk Charge Stage– This is the first of the three stages in three stage charging. In this stage a constant current is fed to the batteries and as they accept the current the battery voltage will rise.

Absorption Stage– In this second stage of three stage charging, the batteries are held at a constant voltage (the bulk voltage setting) and the battery is charged to its maximum capacity.

Float stage– During the third stage of three stage charging, the voltage and current are reduced to a level that will trickle charge or maintenance charge the battery. This assures the battery remains fully charged even while sitting.

True RMS Digital Volt Meter (DVM)– A voltmeter that incorporates an RMS converter to read true RMS for any waveform shape.

RMS– Root Mean Square, a measure of AC voltage that would provide the equivalent heating value across a resistor as a DC source of the same voltage.


If you are interested in starting a wind project for your residence or acreage, contact us. To Buy a Wind Turbine or Become a Dealer, Please fill out our Contact Form. The system will automatically send you some additional info.