SU495627A1 - Method of measuring atmospheric transparency - Google Patents

Description

pulses. Each sample is fed to an analog storage element 6, where it is stored until the next sample is received. The output of the storage element 6 (FIG. 2, d) is digitized using an analog-to-digital converter 7.

As seen from FIG. 2, r, the voltage at the input of the analog-to-digital converter remains constant for a period T, which can be chosen sufficiently large compared to the quantization step Lt. This allows DOWN to reduce the speed requirements of the analog-digital converter to

- times compared to analog-digital limit

real time builder.

From the output of the converter 7, the instantaneous value samples in digital form are fed to the input of the calculator 8 and to the circuit 9 for the selection of boundary levels. If the next sample has gone beyond the dynamic range of the receiving path, then in circuit 9 a signal is generated that changes the gain of the photodetector 4, and the value of the newly set gain is entered into the calculator 8. In addition, the circuit 3 gives a signal instructing to repeat the next gate echo at the same point.

If the count value is less than the lower limit of the dynamic range with the highest gain

then the sampling at the same point is repeated until the required signal-to-noise ratio is reached due to the accumulation of the obtained samples in the calculator 8.

The transparency value obtained in the calculator 8 is displayed on the indicator 10.

The energy of a pulsed light source fluctuates from flash to flash. To reduce the measurement error, the measurement energy of each pulse is measured by the radiation energy sensor 11 and fed to the calculator 8 as a correction factor.

Formula invented and

Claims (2)

1. A method of measuring the transparency of the atmosphere by probing it with light pulses, converting light scattered by the atmosphere into an electrical signal, with recording discrete values of the signal, characterized in that, in order to improve the measurement accuracy, they emit a sequence of probe pulses and before analog-digital each of the received pulses is delayed by the converter for a time increasing from pulse to pulse. 2. The method according to claim 1, characterized in that, depending on the magnitude of the received the signal changes the gain of the photodetector unit, eliminates the pulse, which was used to change the gain, and then repeat the probing.