كمية التيار اللازمة لإحداث الوميض .. كتاب آلة التصوير

The amount of current required to cause the flash:

If a flashlight battery is only required to make one bulb flash, there is usually no difficulty with the amount of current needed to make that flash. The minimum amount of electricity required for any flashing light bulb to flash is 0.25 amperes, and this number is considered very low, which prompts the reader to wonder about the reason for the prolongation in the previous explanation, as long as the required amount of electricity is simple to this extent, but if we look at another fact, which is It is possible that the shutter of the camera has been prepared for the magnetic • electric current, which itself needs an electric current in order to operate, so we find that it is not clear to rely on the flashlight battery unless the intensity of the current exiting from it exceeds 3 amperes.

The electric current needed to cause more than one flashlight to flash together:

The photographer may want to prepare more than one flashlight to work simultaneously with the purpose of distributing the lighting on the object being photographed, and then the issue of the amount of electric current required to cause these lamps to flash together becomes more important than the above (Fig. 211). To explain this, we return again to Likening the flow of electric current to the flow of water.

We know that the water follows in its flow the path in which the resistance decreases, and this is also the case with the electric current. The flash first, then the other (and that is unless the current is of such intensity that it flows to the two lamps at the same time), so if the current flows to one lamp, it blinks first, and when its flash ends, the electric current goes to the second lamp, and after that it also blinks (as a result of its lack of resistance from The resistance of the Magnetic Synchronizer, the electric current is finally directed to the magnetic synchronizer, which results in obvious harm, which is the occurrence of flashing at a time not contemporary to open the shutter.

Therefore, general rules were laid down for the characteristics of the electric current needed to cause flashing, and it was found that 3 amperes are sufficient to cause flashing in each light bulb that is used, and in addition to that, another 3 amperes for the magnetic contemporary device to work with (if this type is used). Practical experiences have proven that following the previous rules makes us always stand on the side of safety. And we come back again to exposure to the wrong idea that advises to increase the voltage when we discover an error in the magnetic current between the shutter and the flashing of the lamp, as some follow the increase in the electrical pressure as a fix for this error, and in this there is greater harm, as by increasing the pressure, the flow of electric current increases in the least resistance and then in the lamp The most resistant and finally magnetic contemporary device. The correct way is to increase the intensity of the current Amperage. Therefore, we advise that the battery strength should be measured with an ammeter, as the previous defect does not appear clearly, especially since the eye sees the two flashing lights that have actually flashed, and we find at the same time that the shutter is also intact and works regularly as long as it is not associated with the flashing light, but the error appears when What does the two do together? The possibility of this error is usually accepted when a single flashlight is used. It may be noted that if the imaging is repeated with two other lamps, it is very likely that the process will be perfectly organized and both lamps will flash at the time of the shutter press, the possibility that the resistance in the two new lamps will be equal to the resistance of the magnetic press.

The amount of electrical current that we can get from the battery:

There are different sizes and types of batteries in the market that appear to be compatible with flashlights. If we tested a group of them, we found that one type is usually equal in voltage, while we may find a difference. Between two batteries of the same type, if the flow of current is measured by means of an ammeter, some of them have a current of 4 amps or less or more than 12 amps.

We have mentioned that the minimum current required for one lamp that works with the contemporary device is 6 amps.

There are factors that also affect this measurement, as the current that we get from a battery in cold weather is less than if the battery temperature is high, so some recommend keeping the battery in the pocket in cold weather, then installing it just before use. It is obvious that the size of the battery has an impact on the number of amperes that we get, as the number increases in the larger batteries.