Making
your own
3v INVERTER

Use this Site Map for guidance

Now we come to the actual construction of an inverter circuit from a kit of components. The kit is available from Stelar Laboratories and can be ordered as kit number: TE-3V-INV-4 or TE-3V-INV-5.
Kit TE-3V-INV-4 comes with 5 lengths of LitE Line Kit TE-3V-INV-5 comes with 2 lengths of LitE Line and 2 small panels.
To place an order click HERE for TE-3V-INV-4 or HERE for TE-3V-INV-5 and you will be sent an e-mail with the exact cost of postage etc to your country. The inverter circuit in both kits is the same and the total area of illumination for each kit is the same. The only difference is EL "string" is provided in the first kit and a combination of "string" and flat panels comes in the other kit.
The inverter project offers a lot of potential for experimenting as you can alter the flash-rate and intensity of the illumination by adjusting the value of the components. It's a great fun-kit to get an understanding of how to illuminate electroluminescent materials.
The circuit for the kit is shown below. It differs from the circuit on the previous page in two places. The transformer in the kit has only one feedback winding and the change from fully-ON to flashing is done with a separate slide switch. The voltage on the feedback winding is approx 5v p-p. In the circuit on the previous page the feedback voltage is 17v and the difference in amplitude means the feedback components must be changed to suit. The kit comes with an extra 33R so you can carry out the experiment to make the 2.3mm diameter LitE Line flash very brightly.
The diagram below shows the circuit for the project:

The value of the components can be changed to see what effect each has on the flash-rate and the brightness. Some of the results of our experimenting are shown in the diagram below:

On this transformer the feedback winding is separate from the other windings and thus one end must be connected to the main circuit (in this case it is connected to the emitter) and the other end to the 100u electrolytic.

PARTS LIST

1 - 33R   1/4watt resistor
1 - 100R     "            "
1 - 330R    "             "
1 - 4k7      "             "
1 - 22k      "             "
1 - 22n ceramic
1 - 100n ceramic
1 - 100u 16v electrolytic
1 - BC 338 transistor or
       2SD 965 transistor
2 - AAA cells
2 - SPDT slide switches
50cm red hook-up wire
50cm black hook-up wire
30cm tinned copper wire
30cm fine solder
1 - TE-3v transformer
1 - 3v-INVERTER PC board
1 - length of EL LitE Line
(more LitE Line is in the kit)

CONSTRUCTION
Construction is quite straight forward. All the components fit on the PC board provided in the kit. The overlay on the board shows exactly where each component is placed. The only component requiring attention is the transistor. The holes in the board have been identified with the letters c, b, e so that both the BC 338 and 2SC 965 can be fitted without crossing-over any of the leads. You just need to turn the transistor so that the leads enter the correct holes.

IF IT DOESN'T WORK
If the circuit doesn't work, the first thing to do is check the current. It should be about 45mA. A higher current will indicate the transistor is turned on and saturated. This may be due to the wrong value resistor in the base-bias or the feedback circuit not providing a signal.
A low current may indicate an unsoldered connection or one of the wires in the transformer has been broken during assembly.
if the circuit fails to flash, and remains illuminated, the fault may lie in the value of the base-bias resistor. It must be a high value so that the electrolytic is allowed to be charged slightly during each cycle (the base-bias resistor discharges the electrolytic). The 100n capacitor across the 330R feedback resistor is needed to deliver spikes of energy into the electrolytic to charge it and thus create the timing cycle.

EXPERIMENTING
Once you get the circuit to work you can experiment with the values of the components and observe the result(s). By bridging components across the capacitors and resistors you get an idea of what each item is doing. The frequency of the flash is dependent on many values including the construction of the transformer and the number of turns on the feedback winding. Some of these things cannot be easily altered, however changing the values of the feedback resistor (from 330R to 33R) and the 22n timing capacitor will vary the speed considerably.
The transistor in this circuit must be capable of delivering a high current. This is a relative term and for this circuit the maximum current may be about 100 - 200mA. If the transistor cannot deliver this current, the magnetic flux in the core will not create saturation and the cycle will not begin.
Low-current transistors (such as BC 547) do not work.
The inverter will drive up to 1 metre of LitE Line or approx 6 square cm of flat panel.

PROJECTS
The LitE Line "rope" provided in the kit can be used for all types of displays and effects. It is very effective in model layouts as fluorescent tubes. You need to cut it into small lengths and connect very fine insulated wires so that it can be mounted in model houses or as neon lighting around restaurants etc.