DE2224559A1 - EXPOSURE METER WITH PHOTO RESISTOR - Google Patents

Description

Photoresistor light meter The invention relates to a Light meter with photoresistor, in particular for photographic equipment.

Light meter with photoresistors connected to a battery a tension must be laid out are known.

It is also known to provide a battery test facility, in order to be able to check the voltage status of the battery. According to one that has become known Such a test facility can be suggested, for example. consist of a small light bulb, a zener diode and a corresponding voltage divider. The Zener diode works as a voltage stabilizer.

Expediently, such light meters are not switched on all the time, but only if it is actually to be measured, to avoid unnecessary current flow and thus avoid premature exhaustion of the battery. It therefore existed the need to check the condition of the exposure meter, whether it is turned on or not, to indicate to the user in any way.

The invention is now based on the object as simple as possible Establish facility that performs these three functions, namely battery testing, voltage stabilization and operating status display, combined according to the invention. This object solved in that the exposure meter as a voltage stabilizer is a voltage divider, consisting of a light emitting diode and a ohmic resistance, it is connected upstream that the light-emitting diode simultaneously in a manner known per se serves to display the operational readiness and that for the purpose of the battery test the light-emitting diode is an ohmic resistor in parallel so that the a voltage divider with the ohmic resistor in series with the light-emitting diode forms with an idle divider ratio that is approximately given from the ratio the lower permissible operating voltage for the forward voltage of the light-emitting diode, and with an internal resistance on the output side, that of the highest occurring battery voltage the current is limited to the forward current permissible for the diode.

With regard to the voltage stabilization, the invention is based on the knowledge that the characteristic of a light emitting diode in general one better voltage stabilizer than that of a stabilizing diode in the same Voltage range of 1.5 or 2.1 volts. The stabilization diodes are in this area duroh composition of two or three Siliojum diodes shown in forward direction, because there are no real Zener diodes below 2.7 volts. True is the temperature coefficient the forward voltage of a light emitting diode expressed in'mV per degree about the same as that of another semiconductor diode, for example made of germanium or Silicon, however, is the relative one due to the higher lock voltage of 1.6 volts Temperature drift small.

The battery level indicator can take over the light emitting diode, since it emits light when sufficient current passes through it, i.e. when the exposure meter is on. The light emitting diode is visible in a Device, e.g. built into a photographic camera, and connected to The user can recognize the operating status when it is lit or not lit.

When the battery breaks, the one with the light emitting diode in Series lying Eestharz and the light emitting diode connected in parallel Resistance a voltage divider, the partial voltage of which is applied to the light-emitting diode lies. If the battery voltage has dropped so far that this partial voltage has not if the operating voltage of the light-emitting diode is reached, it goes out at the battery test, from which the condition of the weak battery can be recognized.

In the drawing, the invention is based on the exemplary embodiment of a light meter shown with downstream exposure control. The light meter part contains the double photo resistor 1; 2 as well as the fixed resistors 3 and 4. In the diagonal branch the bridge is a potentiometer 5, which is an operational amplifier OP1 with measuring mechanism 6 is connected downstream. The exposure control part includes an RC circuit consisting of from an exponential variable resistor 7 and a capacitor 8, with its voltage an operational amplifier OP2 operated as a threshold switch is controlled. The OP2 is followed by a magnet M which, in a known manner, closes the Camera closes.

The coupling between the exposure meter and exposure control is given purely optically in the manner of a tracking system between the pointer of the Measuring mechanism 6 and the one plate of the variable resistor 7.

The time generator of the circuit shown does not need to be stabilized to become. Stabilization is only required for the Light meter part. It consists of a light-emitting diode LED with a series resistor 10.

With a current of a few milliamperes, the diode becomes simultaneously used as signal "exposure meter switched on". For the battery check is a fixed resistor 11 is provided, which by means of the switch BT to the light-emitting diode LED can be switched in parallel. The resistor 11 is dimensioned so that when it is reached the lower permissible battery voltage, the light-emitting diode is no longer necessary Operating voltage of 1.6 volts is obtained when the battery test switch BT is pressed will.

Claims (1)

Claim Exposure meter with photoresistor, characterized in that the exposure meter as a voltage stabilizer, a voltage divider, consisting of a light-emitting diode (LED) and an ohmic resistor (16) are connected upstream is that the light-emitting diode in a known manner at the same time for display the operational readiness and that for the purpose of the battery test of the light-emitting diode an ohmic resistor (17) can be connected in parallel with the one with the light-emitting diode (LED) in series ohmic resistor (16) forms a voltage divider with an idle divider ratio which is approximately given from the ratio of lower permissible operating voltage for the forward voltage of the light-emitting diode (LED), and with an internal resistance on the output side, which is the highest occurring Battery voltage limits the current to the permissible forward current for the diode. L e r s e i t e