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This shows how an inverter can be used to run 220Volt AC equipment from a 12 Volt battery. It also shows that doing the same job (running a small 12 V lamp) through the inverter will consume more current than running it directly from the battery. Link to a spreadsheet about how long a battery can drive a machine through an inverter: docs.google.com Do NOT think that an inverter will increase the _available_energy_ from a battery, for example in a solar system. One situation where raising the voltage CAN save energy is if you need to send it through somewhat long wires. In that case a low voltage (Which means higher current for same power) will have higher losses in the wires.

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The term IGBT is an acronym for Insulated Gate Bipolar Transistor. It can be thought of as a Transistor with a MOSFET front end. It has three terminals (or leads) labeled Gate, Collector and Emitter. Some IGBT’s have a built in protection diode. This diode is connected across the Collector and Emitter terminals. It is added for transient voltage protection when the IGBT is switching Inductive loads.

When these devices are considered ’suspect’ it is necessary to validate their operation through a functional test procedure. One of two methods can be used:

The first test method will validate the condition of the protection diode, and the resistance of the Collector and Emitter terminals. It is not a definitive test, but will find 80% of all faulty devices. This is due to the fact that most faulty IGBT’s show a low resistance or short across the Collector and Emitter terminals when the device is stressed.

To perform this test will require a DVM (Digital-Volt-Meter). Set the DVM to the Diode Test position, and confirm that the device tests as follows:

Attach the Red Lead of the DVM to the Collector Terminal and Black Lead to the Emitter Terminal. Confirm an open circuit condition.

Attach the Red Lead of the DVM to the Emitter Terminal and Black Lead to the Collector Terminal. Confirm an open circuit condition (IGBT without a protection diode). If the DVM displays a forward voltage drop of 0.2 to 0.8 VDC it means that the IGBT has a built in protection diode. Both of these results are normal test conditions and are used to confirm whether the IGBT has a protection diode, and if it does, whether it is functional or not.

The second test method will check the IGBT’s functionality, by gating the device. To perform this test will require an IGBT Tester. Confirm that the device tests as follows:

Attach the IGBT Tester leads to the Gate, Collector and Emitter Terminals. Confirm that the device Conduction LED is not lit.

Press the Test Button, and confirm that the Conduction LED lights.

Reverse the Collector and Emitter leads. Do not press the Test Button. If the Conduction LED lights the IGBT has a built in protection diode. This is a normal test condition for this type of device. If the Conduction LED does not light then the IGBT does not have a built in protection diode. This is also a normal test condition for this type of device.

It is important to note that Functional test of the IGBT should always be performed when the device is out-of-circuit. In other words, it should be removed from the product and have no other electrical connections in place, other than those outlined in the Test procedure.

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Electrostatic Explanation of Crookes radiometer, the ‘light mill’. The usual explanations are based on radiation pressure and heat engine. However, I wonder if it could be photovoltaic..? The blades or vanes of this example appear be of some natural mica or similar panted black on the other side. The movement is directed towards the bright (or silver or white) side of the blades. We know that in very low pressure light charges some metals and micas electrically – the ‘photovoltaic’ effect used in photocells. Now think about light releasing electrons from the bright side of the blades. This will cause similar voltage between the bright side of the mica blades and the inner surface of the almost vacuum glass bulb as between photocell electrodes. Because glass is good insulator, as well as the mica blades of this radiometer, this photovoltaic potential will behave as surface voltage, making it very eager to attract the opposite potential by common electrostatic or ‘Coulomb’ force. So by my guess there might be an electrostatic pull between the bright sides of the blades and the glass bulb inner surface, attracting the rotor to start move..? Conventional explanations: en.wikipedia.org

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We at www.LightBulbMarket.com understand that it can be difficult choosing what light bulbs to use for your recessed lighting. We’ve created this “how to” video to help you in your decision.

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There is two types of transformers in the market- linear transformer and switch mode power transformer. The transformers design is different. Sometimes it is just referred as ac transformer. Linear transformer mostly used in radio, project kits, VCD and etc while switch mode transformer can be found in Monitor, Tv, Fax and so on.

A transformer consists of two or more coils wound on the same core. For power transformers, the core material is usually iron. For a radio-frequency transformer, the core material is usually ferrite or air. The basic property of a transformer is to change AC voltage. A transformer cannot change direct current voltage. A step down transformer has a lower AC output voltage at its secondary winding than the AC input voltage to its primary winding. Conversely, a step up transformer has a higher secondary than primary voltage. The transformer laminations or coating of shellac, enamel or varnish is to insulate adjacent turns from shorts between winding. I will not go too details about how transformer work and transformer calculation as you can read more details from most electrical and electronic transformers books.

How to test transformers: Transformer failures are relatively rare in most electronic equipment, compared with other components. If too much current goes through a coil or winding, the winding heats up and can either open up completely, or the insulation between turns of wire can break down, causing the coil to be partly or completely shorted.

Just like a coil, you can check continuity of any primary or secondary transformer winding. The actual value of DC resistance you read is rather meaningless, but at least you will know whether a winding is open. Checking linear transformer is quite straight forward. Apply the ac voltage to the primary winding and expect output voltage at the secondary side. No or low output voltage means the transformer winding has open or shorted winding. Look for any evidence of overheating, such as darkened or blackened areas or a burnt smell.

About how to test a power transformer-it is a little bit complicated. You cannot apply ac voltage to the equipment and expect the desire output at the secondary side without connect to load otherwise over voltage will happen (because you have removed all the secondary load) and will blow the power section which consist of power fet, pwm ic and etc. Switch mode power supply are designed to run with load while linear transformer can be test without load.

The best way to test a switch mode power transformer is first remove it from the board. Check only the primary winding as secondary winding failures are exceedingly rare. How do we know which one is the primary winding? Trace from the big filter cap the positive pin to see where the circuit goes. It will go to one of the pin of the transformer. Then look for the power fet middle pin which is the Drain and it will lead to another pin of the transformer. This two pins is the primary winding of the transformer. Checking the resistance of the primary winding only can reveal whether it is open but it cannot check if it has developed a shorted winding. Only by using a ringer test you will know if it shorted or not. A shorted turn in the primary winding can cause the power section to blow.

The cheapest ringer tester that i came across is Dick Smith LOPT METER or flyback tester. Just connect the probes to the primary winding and the result are instantly seen from the Led bar graph. 4-8 bar represent a good winding, 1-2 bar represent partial short and if the led goes off means there is a heavy short in the winding. Besides checking the transformer it can be use to check B+ COIL, horizontal yoke coil and flyback primary winding and ballast (choke).

The expensive ringer tester is from sencore equipment. Sencore LC102 and LC103C besides checking capacitor it also have the capability to check all kind of winding. Whether it is a low voltage transformer, high voltage transformer, current transformer, pulse transformer, electric transformer, custom transformer this equipment will be able to check and test it.

If you do not wish to invest on this tester you may use a light bulb to check it. Remove one of the primary winding pin and connect a 60 watt light bulb. One end to the circuit while the other to the transformer pin. If the bulb light and didn’t goes off suspect a shorted winding and if the light goes off, the winding is ok.

Transformer repair is not easy and it require a good skill to do it. Most of the transformer repairer preferred to rewind bigger winding such as fan, car alternator and starter. Switch mode power transformer is a little bit difficult to rewind because of the small size and low price.

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