14.01.2015

Ceiling fan and light control installation training,fan for boiler prices fitted,progress lighting outdoor fans oscillating,hunter fan 1886 30fps - PDF Review

Author: admin  //  Category: Childrens Ceiling Fans


Even if you are experienced in working with household electricity, the disclaimer at the top of this web page contains important notes about the information in this document, so please read it if you have not already done so. This web page describes repairs made to a ceiling fan with a pull-chain speed control switch. Ceiling fans with pull chains typically include a speed control switch, a direction switch, and a capacitor.
The information in this document is based on my experience fixing a ceiling fan with a 3-speed (plus off) switch and a 5-wire capacitor.
In the lower hub of the ceiling fan where the capacitor and switches are located, several wires come down from higher in the fan. The black wires on the diagram are connected to the black wire that comes down from higher in the fan. After completing the repair, I noticed than when switching from medium speed to high speed there is sometimes a slight audible "pop" suggesting sparking inside the switch. Before disconnecting any wires, make sure you write down what the original connections are. If you do not know the pattern of the original switch and cannot find any information on it, you might consider disassembling the switch (after removing it from the fan, obviously) to see if you can determine the contact pattern. If you cannot determine the pattern of your original switch or are unsuccessful working from the original pattern, a more in-depth approach is required.
Most likely a capacitor needs to be in series between the incoming power and the motor winding.
You also need to know the internal configuration of your capacitor, since ceiling fan capacitors often contain multiple capacitors in one package. Once you know the internals of your capacitor block, you need to figure out a switch wiring that will create the desired combinations of capacitors. Note that all this experimentation with wire positions is done on paper, not with the actual wires. A ceiling fan remote control can offer you many more features than you would otherwise have with just a standard pull chain. Process of Ceiling Fan Wiring Before we start wiring ceiling fan we need to be sure the circuit is “cuted”. Ceiling fan switches can be attained via wall light control wiring, pull chain switches, or remote control. There are a variety of ways that you can keep cooler in the heat of the summer and ceiling fans are one of the options available.
Ceiling fan switches come in a few different styles and are used to control the functions of the fan. Wall mounted ceiling fan switches can be a more convenient style and are commonly used these days. Switches for ceiling fans are produced by a few manufacturers with some of the brands including Lutron Electronics, Angelo Westinghouse and the Hunter Fan Company. Ceiling fans can be a good accessory to have in your home and can help to make it a more comfortable place to live. The new Alpha series range is now launched under the very popular Four Seasons by Martec brand.
At Martec we pride ourselves on integrating the latest interior design trends and lighting technology with all our Ceiling Fans, and the Alpha series is no exception. Important: Please select correct product options from drop down box below and click on "Add to Cart" button. Important: Please select a related option of this product from drop down box below and click on "Add to Cart" button. A common problem with these switches is that the pull chain can break off inside the switch. Unfortunately, there is no agreement among manufacturers about how to configure these components.
However, I have also included some information on how to apply these concepts to the general case, so this information may be helpful even if you have a different type of capacitor or switch. A fan capacitor with more than two wires will probably contain multiple capacitors in one block. Basically this arrangement puts the input power through a capacitor and then into one of the motor windings.


The black wire from the fan originally branched into two, but it was necessary to add a third to work with this switch.
If you know which contacts the switch connects in each speed position, then you can determine by inspection which wires get connected for each speed setting. In the case of my fan, as described in the previous paragraph, this means connecting a capacitor in series between the black and gray wires. If you do not know the internal configuration of your capacitor, you could make measurements to discover it. These can be installed in a variety of locations and can be useful for both indoor rooms and outdoor areas such as patios. Switches can typically control the speed of rotation of the blades, with most having a few different settings to speed up or slow down the blades to suit the conditions. A common style that has been used over the years is the pull chain switch and this hangs down from the fan itself and when pulled will cycle the fan from off, through a few different speeds and back to off.
These require a little more work to install as wiring is required from the fan to the wall switch, although they make it easy for anyone to operate the fan. These typically feature a knob which slides up and down to control the speed of the fan and the cost for this style tends to range from around $20 to $35.
They can be found for sale on the internet with online retailers such as Aubuchon Hardware being an example of this. Including all the quality and performance you have come to expect from a Martec Ceiling Fan.
The CFW124CR White 1200mm (48") Alpha with Clipper Light and Infra Red Remote Control offers a slim motor design, sleek solid plywood blades and exceptional air movement. Unfortunately, there are many types of fan switches and it is very difficult to find the right replacement. First, increasing the capacitance in series with the coil will typically increase the fan speed.
IMPORTANT: Keep in mind that this wiring is for a particular switch type and a particular fan. Then it is just a matter of finding a way to wire your new switch to replicate those connection patterns. The speed switch will also be involved of course, since it will determine which capacitor(s) are connected between the black and gray wires.
Important: Remember when working with capacitors that they can store a charge even when not connected to anything.
However, please know that I cannot provide simple "this color wire goes here" responses to your questions about your particular fan.
Some switches can be used to change the direction in which the blades rotate and also if the ceiling fan is fitted with a light the switch will generally control this. However home improvement stores can also be places to look with Home Depot having a few models available. Most are easy to use and they will ensure that the fan can be operated at a speed that suits the conditions.
However, it may be possible to use a different type of replacement switch with modified wiring. The capacitors come in even more variations, including different numbers of wires, different wire colors, and different capacitance values. So, even if you are using a different type of fan, please read all the sections because they will help you understand how to figure out your particular ceiling fan. In this regard, note that a short (direct wire, no capacitor) is like an infinite capacitor (for AC power only, not DC). If you cannot get a replacement, or would rather just try to use whatever switch you can find at a local store, the following information may be helpful.
For example, if you know that blue and black connect to make high and orange and black connect to make medium (just for example), then you would try to find a way to wire your new switch to make those same connections when you pull the chain. Next I decided to use the 5 µF capacitor that is accessible through the green wire on the capacitor block.
To check your wiring on paper, carefully trace out what the circuit will be for each switch position. However the pull chain needs to be long enough that it is possible to reach up and operate the fan.


The other gray capacitor wire twists together with the gray wire coming from the direction switch.
Discharge the capacitor safely and verify that it is discharged (using a volt meter perhaps) before touching the leads with your hands. Note that the two 5 µF capacitors are in parallel with each other and this combination is in series between the black wire and the motor. The red capacitor wire twists together with the red wire that comes down from higher in the ceiling fan.
Remember that the gray wires from the capacitor are connected internally to the other end of the capacitors that are on the green, brown, and red wires (see capacitor internals diagram above). Even in a good picture it may be very difficult to read labels engraved or stamped on plastic parts.
The approach I took was to measure the capacitance between each possible pair of wires and then draw a diagram. Also, one of the gray wires from the capacitor goes to the gray wire from the direction switch, and from there to the motor. So, for example, it starts by connecting L and 1 on the top deck and, separately, L and 1 on the middle deck.
Then verify your design by looking at your diagram and thinking about which wires the switch will connect in each position. What I am describing here is just the logical process I followed for determining what these wires are. So now I have 5 µF in series between black and gray when the switch is in position L-1.
After discharging the capacitor, it may be wise to check with a volt meter to make sure no charge remains between any pair of leads. On the next pull it connects 1 and 2, then 2 and 3, then 3 and L, and finally back to L and 1.
The red wire from the fan was connected directly to the red wire on the capacitor, so I left it that way. I found that the black wire is apparently hot (as usual), and the white is neutral (as usual). If you cannot find the internal configuration of your capacitor, another approach would be to consider obtaining a new capacitor whose internals you do know. I needed black to connect with this in switch position 1-2, so I added another black on contact 2 on the middle deck. On the top of the direction switch, the yellow is on the right side of the switch and the pink is on the left. At the same time, I wanted black and brown connected on the top deck so that I would have the two capacitors in parallel. YOU MUST TURN OFF THE CIRCUIT THE FAN IS ATTACHED TO AND VERIFY THAT THE FAN IS NOT RECEIVING POWER. In the middle of the direction switch, the white wire comes into the left side and a gray wire is on the right side. By flipping the order of the yellow and pink wires (by moving the direction switch), the rotation direction of the ceiling fan is reversed. Since white (neutral) is on the left, the gray wire on the right seems to be the wire through which power is supplied to the motor winding. Now when the switch is in position 2-3, the black and gray wires connect on the top deck and there is no connection on the bottom deck.
Note that I had to put the gray wire in contact 3 on top because even though the middle deck has black on 2 as well, it also has black on L, which would make position 3-L another high, rather than off.
In my fan, it originally connected directly to the capacitor and not the speed switch, so I left this connection as it was. This is just an example of the logical approach required to develop a suitable switch wiring once you know the pattern of your switch and the internals of your capacitor. The above information about wire colors is not intended to apply directly to any particular fan.



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