SU807502A1 - Scanning signal shaping device - Google Patents

Description

(54) DEVICE FORMATION OF SCAN SIGNALS

The invention relates to television and can be used in biological research.

A device for generating a scanning signal comprising two identical scanning channels in X and Y; each of which consists of serially connected coordinate register, digital-analogue rD. converter and summing amplifier, as well as the character generator, the first and second outputs of which are connected to the second inputs of the corresponding summing amplifiers of the sweep channels, the output of each of which is connected to the corresponding shafts of X and Y of the electron-beam converter 11.

However, in the known device, it is not possible to generate sweep signals for standard deflection coils with a frequency higher than the television standard F 15625 Hz, Hz, although such a need arises at a high rate of change of information at the electron beam converter (EBL) input.

The purpose of the invention is to automatically adjust the parameters of the sweep signals.

This goal is achieved by the fact that a device containing two identical scanning channels in X and Y, each of which consists of serially connected coordinate registers, a D / A converter and a summing amplifier, as well as a character generator, the first and second outputs of which are connected to the second inputs corresponding channel amplifiers

5 sweeps, the output of each of which is connected to the corresponding deflection coils in X and V of the electron-beam converter, a spectral analysis and control unit (BSAU) is inserted, and a controlled frequency divider is inserted into each channel of the sweep in X and H, shift register,. RS-trigger and the element OR, with the first input BSAU connected to

5 to the third output of the character generator and to the counting input of the first controlled frequency divider, the output of which is connected to the second input of the first shift register, the second input of the BSAU

0 is connected to the first input R of the first RS - trigger and to the second output of the first shift register, the first output of which is connected to the input S of the first RS - trigger and to the third input of the character generator, to the first input of which the output of the first RS is connected, the third input of the BSAU is connected to the first input R of the second RS - trigger and to the second output of the second shift register, the first output of which is connected to the input S of the second RS - trigger and the fourth input of the character generator, to the second input of which the output of the second RS - trigger is connected, fourth BSA connected to the output of the electron-beam converter; the fifth input of the BSAU is connected to the third output of the first shift register and to the second input of the first OR element whose output is connected to the third input of the first shift register; the sixth input of the BSAU is connected to the third output of the second shift register and to the second input of the second OR element, the output of which is connected to the third input of the second shift register, and the control output BSAU is connected to the corresponding input of the first and corresponding) input of the second controlled dividers frequency, output BSAU is connected to the corresponding input of the first and second controlled frequency dividers, to the first input of the first and second shift registers, to the corresponding input of the first and second coordinate registers, to the second input R of the first and second RS triggers output record 1 BSAU connected to the first input of the first and second elements OR, the synchronization output of the BSAU is connected to the corresponding one. BSAU connected to the corresponding inputs of the first coordinate register, outputs 2P + 1 to 4P of the BSAU are connected to the corresponding inputs of the second coordinate register, and the fourth output of the character generator is connected to the counting input of the second controlled frequency divider, the output of which is connected to the second input is the second of the shift register.

The% in the drawing is a structural electric circuit of the proposed device.

The sweep signal generation unit contains a BSAU spectral analysis and control unit 1, a character generator 2, a first controlled frequency divider (UDCH) 3, the first element OR 4, the first coordinate register (RC) 5, the first shift register. ha (EU), b, first analog-to-digital converter (DAC) 7, first RS t-rigger 8, first summing

amplifier (SU) 9, second controlled frequency divider (UDCH) 10, second element OR 11, second shift register (RS) 12, second coordinate register (RC) 13, second analog-to-digital converter (DAC) 14, second RS - trigger 15, the second summing amplifier (SU) 16, deflecting coil (OK) 17 to X, deflecting coil (OK) 18 to Y, electron-beam converter (EBR) 19 Sign generator 2 consists of a generator of 20 pulses, a frequency divider (DCH) 21, binary counter 22, DAC 23, frequency divider (DCH) 24, binary counter 25, DAC.

The device works as follows.

Since the device consists of two identical channels, it is advisable to describe the operation of one of them, for example, the channel for generating deflection signals along the X axis.

The device starts operation, generating sweep signals with frequencies corresponding to the television standard (15625 Hz, 50 Hz).

The initial mode of the device is indicated by the blocking signal of the BSAU 1 output. At the same time, RC 5, PC 6 and 12 UDCH 3 and 10, and as — triggers 8 and 15 are set to zero position. DAC 23 and 26 operation of character generator 2 is blocked by the absence of a enable signal from the RS output - Triggers 8 and 15.

After the synchronization of the BSAU 1 with respect to the clock signals of the generator of 20 pulses with the quartz frequency stabilization at the output of the BSAU 1, the following signals appear in order of their order:

a) address code X (corresponding to the displacement of the beam along the X axis to the starting point);

b) synchronization system;

c) the frequency control signal UDCH 3;

d) sign write 1 to shift register 6.

When a synchronization signal appears from the BSAU 1 output, the parallel code of the X address, also from the BSAU output, is written to the X coordinate register (RC) 5. At the output of the D / A converter 1 connected to the parallel RC output, the level corresponding to this code appears the voltage converted by SU 9 to the current supplied to the single-ended OK 17. This causes the beam to shift along the X-axis to its original position.

Claims (1)

The removal of the blocking signal at the BSAU 1 output allows the UDCH 3 to perform the generator frequency division process 20. Moreover, the division factor (Kq,) is set by the control signal of the processing device to (in the mode with standard television sweep frequencies) where T is the generator oscillator frequency 20; the number of bits of the shift register is 6; 64 ISS (urgent scan period). The recording signal 1 prepares the first bit of PC b for switching on, and switching on occurs when a signal appears at the output of the UDCH 3. The appearance of a single potential at the direct output (Q) of the first bit of PC 6 ensures that the RS - trigger 8 is turned on and the binary counter 22 to the zero position. The single potential at the output of the Q RS - trigger 8 is the signal that enables conversion of the DAC 23. After the shift 1 to the second bit of the PC 6, the blocking signal (at the input R) is removed from the binary counter 22 and the binary counter 22 starts operation in the counting mode. In addition, at the output of the DAC 23 connected to the parallel output of the binary counter 22, a linearly increasing voltage is generated, and in OK 17 a current of a similar shape is formed. At the transition 1 to the bit m of shift register 6, the RS - flip-flop 8 is turned off. At the output Q of this RS - flip-flop, the signal O is set, and the DAC 23 is blocked, which determines the end of the forward path of the beam. The number of bits in the register of register 6 from 1 to m is selected on the basis of where T. prx is the duration of the direct flow; TC - urgent scan period. After the shift 1 for the last bit 1 PC b (bit t), the first bit of this register is prepared for recording 1 fe through the logical element OR 4. Thus, for the full cycle of the shift register 6, the beam sweep signal is generated along the axis X with the required time ratio of the forward and reverse sweeps. When BSAU 1 is detected in the video signal received at its input from the ELP 19, a time zone with a fast change of information, the BSAU 1 determines the initial and final coordinates X ,. This zone provides a transition to the new mode of operation. The transition to the new mode is carried out after the end of the formation of the forward sweep stroke. what is determined by the occurrence of signal 1 in the discharge m register of shift 6, also entering the BSAU 1. The change from the above described mode is as follows: when changing from a standard frequency sweep signal to a higher frequency, writing the parallel address code to the coordinate register 5 immediately after the end of the formation of the forward stroke of the sweep signal, while at the transition from the high-frequency sweep signal to the standard one, the address code is recorded in the RC 5 after the end of the full period of drove sweep. Such a selection is made by the BSAU 1 when the signals from the outputs of the corresponding bits of the shift register b enter into it when there is a UDCH frequency control code 3 generated by the BSAU 1 corresponding to the current mode. The UDCH frequency control code 3 | (control signal) occurs after the end of the full period signal sweep. At the same time, the frequency of the pulses at the output of the UDCH 3 is increased compared with the mode of forming the standard sweep signal, and the full period of the ring register b shift becomes less, while the rate of rise and fall of the sweep signal remains unchanged. This is provided by a constant clock frequency at the input of the binary counter 22. Formula of the invention A scanning signal generating device comprising two identical scanning channels in X and Y, each of which consists of a serially connected coordinate register, a digital-to-analog converter and a summing amplifier, as well as a character generator, the first and second outputs of which are connected to the second inputs of the corresponding summing amplifiers of the scanning channels, the output of each of which is connected to the corresponding deflecting coils in X and in the electron-beam transducer, characterized in that, in order to automatically adjust the parameters of the sweep signals, a spectral analysis and control unit (BSAU) is inserted, and a controlled divider is inserted in the hygienic channel of the sweep in X and y frequency, shift register J RS is a trigger and an OR element, while the first input of the BSAU is connected to the third output of the character generator and to the counting input of the first controlled frequency divider, the output of which is connected to the second