DE2901076C3 - Circuit arrangement for measuring the axial symmetry of the radiation emitted by luminescence diodes - Google Patents

Description

The invention relates to a circuit arrangement for measuring the axis symmetry of luminescent diodes emitted radiation with a measuring head including preferably arranged in a circle light-sensitive components, the output signals of which can be transmitted to an amplifier, with a Pulse generator for supplying the luminescent diodes with first voltage pulses and with one of the Pulse evaluation stage connected downstream of the amplifier for the output pulses emitted by the amplifier.

With a so-called axis symmetry measuring device it can be determined whether the from a light emitting diode emitted radiation runs symmetrically to the axis of the light emitting diode or from this deviates. The display of such a measuring device depends on the deviation of the radiation from the Axis of symmetry and is therefore a function of the asymmetry angle. The measurement of a light emitting diode should be able to be carried out in a very short time in the order of magnitude of 1 ms, with various Diode types with the same measuring head can be measured by, for example, the distance is set accordingly between the luminescent diodes and light sensors of the measuring head.

In Fig. 1 the radiation distribution of an idealized error-free light emitting diode is shown. The luminous intensity I is plotted on the ordinate and the angle φ deviating from the central axis of the luminescent diode is plotted on the abscissa. An error-free light emitting diode therefore emits light completely symmetrically to its center axis. Furthermore, the position of light sensors D is indicated by dashed lines in FIG. When measuring the light emitting diode, all light sensors receive the same signal.

These Lichtiühler D are expediently arranged so that they are just at the beginning of the steep flank of the light distribution.
If the light distribution deviates from the axis of the

τ LED from, then this results, as from FIG. 2 to can be seen, a drop in the signal for some of the light sensors, while the remaining light sensors in the experienced essentially no change in the signal. This can be used in the measurement, whereby

id the following possibilities: it can for example the ratio of the minimum value to the mean value, the ratio of the maximum value to the mean value and the ratio of the minimum value to the maximum value must be considered.

i> This relationship is determined by a circuit arrangement evaluated, which is assigned to the axis symmetry measuring device.

It is the object of the invention to provide a circuit arrangement of the type mentioned at the outset, which quickly and reliably measuring the axial symmetry of light emitting diodes.

According to the invention, this object is achieved in that the pulse generator also has second pulses shorter pulse duration than the first pulses to the amplifier to this during the duration of the switch on the second impulse.

An advantageous further development of the invention is that the first pulses are twice as large Have pulse duration as the second pulses.

Finally, it is also advantageous that the first Pulses have a pulse duration of 2 ms.

In the invention, the pulse generator also emits pulses to the amplifier. This will ensured that this is now exactly the same when operating the Light emitted radiation is electrically amplified so that no interference from environmental radiation are present.

The invention is explained in more detail below with reference to the drawing

F i g. 1 the radiation path at / finer completely symmetrical light emitting diode,

2 shows the course of the radiation bsi a distribution deviating from the axis of symmetry, and
3 shows a block diagram of the inventive

Circuit arrangement.

In Figure 3, a supplied by a voltage source 1 pulse generator 2 is a pulse 3 with a Duration of approx. 2 ms to a luminescent diode 4 to be measured, which with its pulse generator 2 opposite terminal is grounded. The light pulse emitted by the light emitting diode is picked up by, for example, twelve light sensors of a measuring head 5 and amplified by the Measuring head 5 emitted electrical signal is in a

Amplifier 6 further amplified and sent to a pulse evaluation stage 7. Simultaneously with the impulse 3 there the pulse generator 2 sends a pulse 8 with a duration of approx. 1 ms to the amplifier 6. the The duration of the two pulses 3 and 8 is not critical.

It is only essential that the pulse 8 is shorter than the pulse 3. This ensures that the amplifier 6 only amplifies the signal, the front Measuring head 5 emitted on the basis of the signal emitted by the luminescent diode 4 as a result of the pulse 3

h'j will.

For this purpose 2 sheets of drawings

Claims (3)

Palent claims: ). Circuit arrangement for measuring the axis symmetry the radiation emitted by light emitting diodes, including a measuring cap preferably arranged in a circle light-sensitive components, their output signals can be transmitted to an amplifier, with a pulse generator for supplying the luminescent diodes with first voltage pulses and with a pulse evaluation stage connected downstream of the amplifier for the output pulses emitted by the amplifier, characterized in that the pulse generator (2) also has second Pulses (8) with a shorter pulse duration than the first pulses (3) to the amplifier (6) to this to be switched on during the duration of the second pulses (8). 2. Circuit arrangement according to claim 1, characterized characterized in that the first pulses (3) have twice as long a pulse duration as the second Have pulses (8). 3. Circuit arrangement according to claim 2, characterized in that the first pulses (3) have a Have a pulse duration of 2 ms.