SU741495A1 - Redundancy pulse generator - Google Patents

Description

The invention relates to a pulse technique. A pulse generator can be used in automatic control systems, for example, to power the excitation winding of an angle sensor. A redundant rectangular pulse generator 1 is known, which contains two symmetric multivibrators, the outputs of each of which are connected to the corresponding inputs of the other, and amplifiers of amplifiers with output transformers, to the inputs of which signals from multivibrators are supplied. The secondary windings of the output transformers of the power amplifiers are connected according to the bridge scheme, one of the diagonals of which is shorted, and the other is loaded. The disadvantage of this device is the significant power consumption of the power source due to the simultaneous operation of the multivibrator wallpaper. In addition, due to the use of four transformers, the device has a large weight and considerable dimensions. The closest in essence to the invention is a redundant pulse generator {2, consisting of two channels AND a power source. Each channel contains a pulse generator, a frequency filter, an integrating stage and an electronic switch. The outputs of the pulse generators are connected via frequency switches to the inputs of the integrating stages of the respective channels. The control, the input of the first key is connected to the output of the first integrating stage, and the outputs of the first key are connected between the power source and the power bus of the second pulse generator. The control input of the second key is connected to the output of the second integrating stage, and the outputs of the second key are connected between the power source and the power supply bus of the first pulse generator. The disadvantages of this device are the considerable time to detect faults and the considerable time to switch to the adjacent channel. These drawbacks are due to the use of inertial integrating stages in the failure indication circuit. The aim of the invention is to reduce the switching time to the backup channel. To do this, in a redundant pulse generator, which contains a power source and two channels, each of which contains a pulse generator, a main electronic switch connected to a power source, an OR-NOT logic element, the first input of which is connected to the first input of a primary electronic switch, and the output is connected to the second input of an OR-NOT adjacent channel logical element and to the second input of the main electronic key, the second channel additionally contains a differentiating element connected to the power source, the output of which connected to the third input of the logical element OR NOT of its channel. In this case, the first channel contains an integrator and sequentially connected frequency filter-f, a threshold device and an additional electronic key, included between the output of the pulse generator i by the third input of the logic element OR-H whose output through the integrator is also connected to the external electronic key input . The drawing shows a block diagram of the proposed device. The redundant pulse generator consists of a source of Fri: Ani 1 and two channels. Each channel contains a generator of 23 pulses, a primary electronic switch 4, 5, a logical element OR NOT 6.7, the first input of which is connected to a power source} w. Logical elements OR are NOT connected by a trigger scheme, i.e. the output of the logical element OR NOT 6 is connected to the second input of the logical element OR NOT 7, and the output of the logical element OR NOT 7 is connected to the second input of the logical element OR NOT 6. The output of the logical element OR NOT is also connected to one of the inputs main electronic key. The first channel also contains an integrator 8 and a frequency filter 9 connected in series, a threshold device 10 and an additional electronic switch 11 connected between the output of the pulse generator 2 and the third input of the OR-NOT 6 logic element. The output of the latter is connected via an integrator to the control input of the additional electronic switch . The second channel contains differentiating element 12 connected to the power source 1, the output of which is connected to the third input of the OR-NOT 7 logic element. A redundant pulse generator is operating as follows. In the ORIGINAL state, the electronic keys 4, 5, 11 are closed. The supply voltage from source 1 is applied to the logic elements OR-NOT 6, 7, electronic switches 4, 5 and differentiating element 12. At the same time, a voltage pulse appears at the output of the differentiating element, which p & steps to the input of the logic element OR- NOT 7. At the output of the logical element OR-NOT 7, the voltage of logical O appears, and at the output of the logical element OR-NOT 6 connected to the logical element OR-NOT 7 according to the trigger circuit, the voltage of the logical. The constant voltage removed from the output of an OR-NOT 6 logic element opens the electronic key 4. At its output, the supply voltage of the first channel appears. The electronic switch 5 is then closed, i.e. the second channel is de-energized. The voltage produced by the pulse generator 2 is applied to the load. The low-pass filter 9 and the threshold device 10 provide the required frequency stability and voltage amplitude at the load of the redundant pulse generator. The range of permissible frequencies of the redundant pulse generator is located in the linear part of the logarithmic amplitude-frequency characteristic of the low-frequency filter 9, therefore changing the frequency of the voltage on the generator load leads to a change in the transmission coefficient and, therefore, the amplitude of the voltage at the output of the filter or the normal devices 10. At the time of the occurrence on the load of a redundant voltage generator with amplitude or frequency beyond the specified tolerances, A threshold device appears on the threshold device, which is fed through the open electronic key 11 to the input of an OR-NOT 6 logic element and triggers a flip-flop formed by the OR-NOT 6, 7 logic elements. is the voltage of logical 1, at the output of the logical element OR NOT 6, the voltage of the holic O. In this case, the electronic key 4 is closed, and the first channel is de-energized. The constant voltage taken from the output of the logical element OR NOT 7 opens the electronic one. a key 5, at the output of which a second canap supply voltage appears. After supplying voltage from source 1 at the output of the redundant generator, the process of setting the output voltage occurs. The transient process is oscillatory in nature, during which a change in the amplitude of the voltage across a load can

Claims (1)

Claims of the invention A redundant pulse generator containing a power source and two channels, each of which contains a pulse generator, a primary electronic key, the first input of which is connected to a power source, and the output is connected to a pulse generator, a logical element OR NOT, the first input of which is connected to the first input of the main electronic key, and the output is connected to the second input of the main electronic key and to the second input of an OR NOT gate of another channel, and the first channel also contains an integrato p and a frequency filter connected in series, a threshold device and an additional electronic key connected between the output of the pulse generator and the third input of the OR-NOT logic element, the output of which through the integrator is also connected to the control input of the additional electronic key, characterized in that in order to reduce the time switching to the backup channel, the second channel contains a differentiating element connected to the power source, the output of which is connected to the third input of the logical element OR NOT.