DE2025658A1 - Compensation device for interval generators - Google Patents

Description

Compensation device for latervall sensors Addition to patent no. . ... ... (Ref .: P 19 62 259.4) The invention relates to a compensation device for the interval sensor of an intervalometer with a uni-function transistor according to patent No. . ... ... (Ref .: P 19 62 259.4).

It has already been suggested that to control all intervalometer outputs a single interval generator with a compensation device consisting of one between the capacitor and the connection connected Zener diode, and a counter the other terminal is arranged in series resistor and by means of parallel controlled control thyristors via interposed time delay elements Switching thyristors are controlled. In a further arrangement of a compensation device there is a resistor between the capacitor of the interval generator and the connection in parallel with the diode and in series with the second resistor to the other terminal arranged.

The invention is based on this and has set itself the task of to simplify the series production of the device, because so far is for every interval encoder individual calibration due to sample variations of the uni-function transistor the compensation device required.

This object is achieved in that between the resistor the connection on the positive lead and the resistor on the second connection another Resistance and between the second connection and the connection on the negative lead a capacitor is arranged.

The invention is based on the embodiments according to the main patent described and drawn, no further advantages and measures from this are removable. 1 shows a circuit diagram of an exemplary embodiment of a Compensation device, FIG. 2 shows a circuit diagram of a further exemplary embodiment a compensation device.

The compensation device according to FIG. 1 consists of one between the capacitor C1 and the negative line 6 inserted Zener diode Z1 together, the is connected to the positive line E of the voltage U1 through a series resistor R1. In addition, another resistor R6 and a capacitor C2 are now added to the arrangement built in and now cause due to their time constants # = R6C2 that to the control electrode to terminal 12 of the uni-function transistor Tr1 after switching on the voltage U1 Voltage is applied simultaneously across resistor R1, the voltage at base 2 of the Unijunction transistor Tr1 but a voltage delayed by ## via resistor R3 receives.

As a result, the control electrode behaves at point 12 to base 1 Resistance R4 of transistor Tr1 like a diode as long as t # ##.

If t> ##, the uni-function transistor Tr1 remains as long ignited until the voltage level at point 11, which is indicated by R1 and Z1 or R1 and R5 is determined, is achieved, with the superfluous charge at terminal 12 of the capacitor C1 is derived via the ignited unijunction transistor Tr1.

The two capacitor plates at connection 11 and 12 have after completion the following states of the switch-on process: Voltage level at U11 = UR1 / Z1 where UR1 / Z1 # UT max voltage level at U12 = UT.

The same conditions exist in the exemplary embodiment according to FIG. 2 before. The equations are then: Voltage level at U11 = UR1 / R5 where UR1 / R5 # UT max voltage level at U12 = UT er bei is UT: voltage of control electrode 12 of the unijunction transistor Tr1 in which the unijunction transistor of the conductive switches to the locked state after the control current of the control electrode 12 falls below a minimum value and UT max: maximum voltage UT of all copies of the unijunction transistor Tr1.

Claims (1)

Claim Intervalorneter with uni-function transistor according to patent no. ... ... (Ref .: P 19 62 259.4), thereby g e k e n n -z e i c h n e t that between the Resistor (R) to terminal (E) and resistor (R2) to the second terminal (13) another resistor (R6) and between the second terminal (13) and the A capacitor (C2) is arranged on the negative line (O).