SU1002971A2 - Device for cathode ray tube beam brightening - Google Patents

Description

This invention relates to electrical measuring technique and can be used in electron beam oscilloscopes.

According to the main author. St. No. 278798 a device is known for illuminating a beam of a cathode ray tube containing a tunnel diode, the anode of which is connected via a fourth resistor to a power supply bus, through a parallel capacitor and a fifth resistor in parallel with the base of the second transistor, and after a positively connected third resistor and the second capacitor is with the main input terminal of the device, which is connected through a series-connected first capacitor, the second and first resistors to the common bus, and the combined terminals of the second and first about resistors of sv. are connected to the negative terminal of the first semiconductor diode, the positive terminal of which is connected to the positive terminal of the second semiconductor diode, through the sixth resistor to the power supply bus, via the fourth capacitor to the base of the first transistor, the emitter of which is connected via the eighth resistor to the power supply bus, in parallel included the ninth resistor and the fifth capacitor to the common bus, through the seventh resistor - to the base of the same transistor, and the collector through the variable resistor - to the source bus Itani, and directly - to the collector of the second transistor and the base of the output

10 of the amplifying transistor, the emitter of which is connected through the thirteenth resistor and the seventh capacitor with a common bus connected in parallel, and the collector through the twelfth resistor - with the power supply bus, through the sixth capacitor - with the negative terminal of the second diode and the first output of the tenth resistor, and directly - with negative

20 by the output of the third semiconductor diode and the base of the transistor of the output emitter follower, the collector of which is connected to the power supply bus, and the emitter to the positive terminal of the fourth diode, the output terminal of the device and through the fourteenth resistor with a common bus, the first And | the second transistors have different conductance

30, the second vivod of the tenth resistor is connected to the power supply bus, the negative terminal of the tunnel diode and the emitter of the second transistor are connected to the common bus 1. The device lack is the impossibility of transmitting external luminous labels. The purpose of the invention is to enhance the functionality by allowing the transmission of velocity labels. The goal is achieved in that a cathode ray tube illumination device containing a tunnel diode, the anode of which is connected through the fourth resistor to the power supply bus, through a parallel connected third capacitor and the fifth resistor to the base of the second transistor and the second capacitor - with the main input terminal of the device, which is connected through a sequence of connected first capacitor, the second and first resistors to the common bus, and the combined pins of the second first and first resistors are connected to the negative lead of the first semiconductor diode, the positive lead of which is connected to the positive lead of the second semiconductor diode, through the sixth resistor to the power supply bus, through the fourth capacitor to the base of the first transistor. The main resistor is connected to the power supply bus, through the parallel-connected ninth resistor and the fifth capacitor to the common bus, through the seventh resistor to the base of the same. transistor, and the collector through the variable resistor to the power supply bus, and directly to the collector of the second transistor and the base of the output amplifying transistor; the emitter of which is connected via a parallel thirteenth resistor and the seventh capacitor with a common bus, and the collector through the twelfth resistor bus power supply, through the sixth capacitor - with a negative output of the second diode and the first output of the tenth resistor, and directly with a negative output of the third semiconductor diode and b The output emitter follower transistor, the collector of which is connected to the power supply bus, and the emitter to the positive terminal of the fourth diode, the output terminal of the device and through the quad resistor to the common bus, the first and second transistors have different types of conductivity, the second terminal of the ten the resistor is connected to the power supply bus, the negative terminal of the tunnel diode and the emitter of the second transistor are connected to the common bus, equipped with an additional input terminal, two capacitors, four resistors and an additional transistor, the base of which is connected through the eighth capacitor to the additional input terminal, and through the fifteenth resistor to the power supply bus, the emitter to the common bus, r to the collector through the sixteenth resistor to the power source, through the series-connected ninth capacitor and the eighteenth resistor - with the base of the first transistor, through the aeymteenth resistor - with the base of the second transistor. The drawing shows a structural electrical circuit of the device. The device consists of main and additional input terminals / 1M 1 and 2, nine capacitors 3-11, seventeen resistors 12-28, tunnel diode 29, three semiconductor diodes .30-32, two transistors 33 and 34 with different types of conductivity, variable a resistor 35, an output amplifier transistor 36, an auxiliary transistor 37, an output emitter follower transistor 38, an output terminal 39, and a power supply bus 40. The device works as follows. The initial state of the device is determined by the state of the tunnel diode 29. If diode 29 is in the low voltage mode, the transistor 34 is closed and the current of the resistor 35 flows into the base of transistor 36, opening it to a state close to saturation. At the same time, a low voltage is set at the collector of transistor 36, which is transmitted through the emitter follower to transistor 38 to the output of the device. In the high voltage mode of the tunnel diode 29, a current flows through the resistor 16 to the base of the transistor 34, opening and saturating the latter. This transistor shunts the base-emitter gap of the transistor 36, which closes and a high voltage is generated at the output of the device. The transfer of a device from one state to another is accomplished by a voltage drop applied to its main input terminal. The transition from the low-voltage state to the high-voltage state is accomplished by positively adjusting the input signal voltage. In this case, the tunnel diode 29 is switched to the high voltage mode, the transistor 34 opens, the transistor 36 closes and the device switches to the high output voltage mode. When a negative voltage drop arrives at the input, the tunnel diode 29 goes into low voltage mode and the transistor 34 closes. At the same time, the same input voltage drop across a differential circuit consisting of a capacitor 3 and resistors 13 and 12, a diode 30 and a capacitor b is fed to the base of transistor 33, opening it. Through this transistor, a current impulse enters the base of the output transistor 36, facilitating a quick start of the opening of the output transistor 36. In the long run, this process grows avalanche due to the positive feedback through the capacitor 8 through the diode 31 and the capacitor 6. Before being supplied to the auxiliary. An additional transistor 37 is saturated with current through a resistor 25 and does not affect the operation of the device. When a negative-polarity pulse is applied to an additional input terminal 2, transistor 37 periodically closes. At the same time, the voltage on its collector increases, the opening current flows through the resistor 27 to the base of transistor 34, and the capacitor 11 starts to charge through resistor 26. The charging current flows in such a direction that the closed transistor 33 is additionally blocked and therefore does not affect it influenced either. The current of the resistor 27, depending on the state of the tunnel diode 29, enters the base of the saturated transistor 34 (in the high voltage state of the tunnel diode) and does not affect or open this transistor (in the low voltage state of the tunnel diode) This leads to shunt the gap the base - emitter of the transistor 36, its closing and increasing voltage at the output of the device. The latter goes into the high voltage supply mode and is held in this mode until the negative voltage on the base of the Additional transistor 37.

At the moment of termination of the pulse at the auxiliary input, the transistor 37 opens and the current flows through the resistor 27. In this case, depending on the state of the tunnel diode 29, the transistor 34 is closed (in the low voltage mode on the tunnel diode) or continues to be in a saturated state (in high voltage mode on a tunnel diode).

In the first case, the gap shunting of the base-emitter of the transistor 36 is stopped and the device is switched to the low voltage output state. In the second case, it

continues to issue high voltage. Further, the negative voltage drop across the collector of transistor 37 through the capacitor 11 circuit, the resistor 28 enters the base of transistor 33 and opens it. In this case, a current pulse is formed in its collector, which is either shunted by the prime transistor 34, or enters the base of transistor 36, opens it and activates positive feedback through a capacitor 8. This provides a fast transition to the low output voltage transfer state devices and accurate recording of the end of the mark.

Tag voltage is transmitted by the device only when it is in low output mode.

5 voltages In the mode that corresponds to the reverse sweep of the oscilloscope, the label voltage does not pass and has no effect. After the delivery of pulses of marks is completed, the state of the device is determined

is made the sign of the last voltage drop arriving at its main input.

The device has advanced functionality, so

5 provides for the transmission of external signals of velocity labels without disturbing the damping of the return path of the beam.

Claims (1)

1. USSR author's certificate 278798, cl. G 01 R 13/26, 1969 5 (prototype). g