CS215316B1 - Connection of the digital frequency meter of statistically distributed impulses with automatic correction of the detectors dead time - Google Patents

Description

The invention relates to the connection of a digital pulse rate meter with a self-correcting dead time detector.

These frequency meters are most often used to measure ionizing radiation. Most of the prior art deadlocks digital deadlocks utilize a precision generator, usually crystal controlled, and a second counter connected as a time meter to deadlock. The use of such a circuit is relatively expensive and is therefore used only in precision, usually stationary, devices. For small portable devices where accuracy of better than 1% is insignificant, this wiring is too costly, space consuming, and therefore inappropriate. The above shortcomings are eliminated by wiring. a digital pulse rate meter of statistically distributed pulses with dead-time correction of the detector according to the invention, whose essence is that the counter is connected to a detector via a gate whose control input is connected to a timer output, wherein the control input is connected to an RC member connected to a power supply via a series diode and a resistor, with a switch connected between the resistor and the diode, the control input of which is connected to the detector.

The measurement time is controlled by a simple, analog-made timer whose operation is blocked while the pulses are applied so that the total measurement time is extended by the sum of the individual pulse times recorded at the time of measurement.

The circuitry according to the invention makes it possible to implement a simple, inexpensive, space-saving frequency meter with automatic dead-time correction. The most suitable use of the circuitry of the invention is in small portable instruments for operative measurement, for example ionizing radiation. The use of this circuit allows linear interpretation of the measured value without additional correction.

The drawing shows the basic connection of a digital frequency meter according to the invention.

This circuit consists of a counter 1, a gate 2, a switching circuit 3, a timer 4 with an RC member 5, a diode 6, a resistor 7 and a voltage source 8. Said circuit works so that the detector pulses are applied to the input of the counter 1 via the gate 2. which is controlled by the timer 4. The measurement time is determined by the RC member 5, which is connected via a diode 6 and a resistor 7 to a voltage source 8. The switching circuit 3 pulses from the detector 13 switches the resistor 7 and the diode 6, thereby interrupting the charging of the capacitor of the RC member 5 for the duration of the pulse. As a result, the measurement time is extended by the sum of the individual pulse duration times recorded at the time of measurement, leaving the sum of the net pulse-free time at the measurement time constant, independent of the pulse rate and the measured pulse count is proportional to the measured quantity. pulses is no longer proportional to this quantity.

The digital frequency meter circuit according to the invention can advantageously be used for measuring ionizing radiation by a pulse detector. It is particularly advantageous to use this connection in small portable devices.

Claims (4)

1. The connection of the digital pulse rate meter with automatic correction (1) is connected to the detector (13) via a gate (2), whose control input (10) is connected to the output (11) of the timer (4), (12) is connected to an RC element (5J) which is connected to a voltage source (8) via a series diode (8) and a resistor (7), with a switch (3) connected between the resistor (7) and the diode (6) whose control input (9) is connected to a detector (13). OF THE INVENTION Connection according to claim 1, characterized in that the power supply (8) is a voltage source. Connection according to Claim 1, characterized in that the power supply (8) is a constant current source, the resistance (R) of the RC element (5) and the series resistor (7) being zero. Connection according to Claims 1, 2 or 3, characterized in that between the control input (9) of the switch. (3) and a pulse former (14) is connected to the detector (13).