SU955092A1 - System rof automatic checking of radio receiver parameters - Google Patents

Description

one

 The invention relates to automation and computing, and is intended to measure parameters of a radio station + nikov.

A device containing a frequency generator, aTteHroaTop, a threshold unit, a register, two switches, a controlled radio receiver, an adder 1 is known.

A disadvantage of the known device is that it has a limited range of parameters to be tested, for example, it is difficult to automatically check such parameters of radio receivers as the sensitivity of the 5 low-frequency amplifier, timbre adjustment ranges, etc.

The disadvantages of the known device can be attributed to the fact that to completely test the entire radio receiver in 20 automatic modes, an external mini-computer must be connected, and that the device does not have a manipulator that allows you to fully automate the entire test cycle of the radio receiver.

The closest in technical essence to the present invention is a system comprising a control device, a low frequency generator, a high frequency generator, a modulator, low and high frequency attenuators, a meter unit, a manipulator, a display unit, a recording device.

in this system, the implementation of self-control is difficult due to the inability of direct measurement of input effects, which reduces the reliability of the results obtained.

The disadvantage of this device is the need for mechanical adjustment of the monitored radio receiver, since high-frequency generators with fixed operating frequencies are used in the machine.

In addition, this device does not provide the ability to pre-process the results obtained in order to use them in quality management systems. The purpose of the invention is to improve the quality control of a set of parameters of a controlled product in mass production by measuring and analyzing the distribution of parameters in real time. This goal is achieved by having a system for. automatic control of parameters of radio receivers containing a controlled low-frequency generator, the first output of which is connected to the first input of the low-frequency attenuator, the second output of an adjustable low-frequency generator is connected to the first input of the modulator, the second input of which is connected to the first output of the controlled high-frequency generator , the first output of the modulator is connected to the first input of the high-frequency attenuator, the manipulator, the output of which is connected to the first input of the tested receiver, and the input to the first output is control, the second output of which is connected to the first input of the registering device, the third output of the control unit is connected to the first input of the display unit, the fourth output of the control unit is connected to the first input of the measuring unit, the first, input of the control unit is connected to the first output of the measuring unit, a block of comparison circuits, a block of registers of upper limits of parameters, a block of registers of lower limits of parameters, a reject counter, the sum of a torus of groups of 1 parts, the number of products, a divider, two registers, com input actions mutator, output switch 1x signals, input effect value register block and clock generator, the second output of the meter block is connected to the first input of the comparison circuit block, the second and third cofoporo inputs are connected to the outputs of the upper and lower limit register blocks, the first output The comparison circuit block is connected to the second input of the registering device, and the second output is connected to the input of the reject counter, the first output of which is connected to the second input of the control device, W

the swarm output of the counter is connected to the first input of the adder of product groups, the second input of which is connected to the first

The system contains a controlled low-frequency oscillator 1, a low-frequency attenuator 2, a modulator 3, control of the output of the product count counter, the output of the adder of product groups is connected to the first input of the divider, the first output of which is connected to the third input of the registering device, the second output of the divider is connected to the second input of the display unit, the second input of the divider is connected to the second output of the product quantity counter, and the third input - to the fifth output of the control device, the sixth output of which is connected to the input of the quantity counter and the output, the output of the control unit through the first register is connected to the first input of the input effects switch, the first output of which is connected to the second input of the checked radio receiver, and the second output of the input effects switch is connected to the first input of the output switch, the second input of which is connected with the output of the tested receiver, the output of the output signal switch is connected to the second input, the meter unit, the third input of the output signal switch is connected to the eighth output of the device via the second register control device, the ninth output of which is connected to the input of the register of input values, the first output of which is connected to the input of the controlled low-frequency generator, the second output of the register of input values is connected to the secondary input of the low-frequency attenuator, the third output of the register of values of input influences is connected with the third input of the modulator, and the fourth output with the input of the controlled high-frequency generator, and the fifth output of the block of registers of values of input actions is connected to the second output of a the high-frequency attenuator, the second to the sixth inputs of the input actions switch are connected respectively to the third output of the controlled low-frequency generator with the output of the low-frequency attenuator, to the output of the high-frequency attenuator, With the second output of the modulator, with the second output of the controlled high-frequency generator, the clock generator output is connected to the third input of the control device. The drawing shows a block diagram of the system. An adjustable high-frequency generator, high-frequency attenuator 5, manipulator 6, checked radio receiver 7, control device 8, recorder display unit 10, meter block 11, comparison circuit unit 12, upper parameter registers block 13, register block 1, lower limits of parameters, reject counter 15, counter of 16 groups of products, counter 17 of the number of products, registers 18 and 19, switch 20 input actions, switch 21 output signals, divider 22, block 23 of registers of values of input actions, generator 2 sync pulse in. The system works as follows. Measurement of the parameters of the radio receivers consists in supplying a certain radio input to the input of a specific input (TT) depending on the measured parameter, and measuring the output signal under different conditions — through different filters, etc. The device 8 controls the operation of all units and devices of the system. In block 23, the device 8 sends input signals to the switch 20 with the required parameters. Through the register 18, the device 8 sends a command to the switch 20 (where to send the signal) or to the input of the tested radio receiver 7, or to the switch 21, which will be sent {via the register 19 from the device 8. The switch 21 to the block 11, also device 8 is controlled, it supplies either a signal from the output of the checked radio receiver J, or from the switch 20, or both, the second mode is used during the system self-control. The system can operate in two modes: checking of radio receivers on the basis of fit-unfit and measurement of parameters with their further evaluation. As an example, consider the measurement of maximum sensitivity. First, we consider the control of radio receivers according to the principle of go-no-go. Device 8 through register 19 and switch 21 connects to block 11 the heterodyne of the checked receiver 7- Next, device 8 issues a command to block 11 to measure the frequency. As a result of the measurement, the input frequency should be obtained, to which the checked radio receiver 7 is tuned (when monitoring other parameters, other frequencies are used). A frequency meter included in block 11, for example, can be implemented in the form of a counter with presetting, realizes measuring the frequency and determining the desired input frequency. In addition to the meters themselves, block 11 may also contain a number of other elements necessary for creating special conditions, such as measuring band-pass filters. Next, the device 8 in. depending on the parameter being tested, issues control commands to block 23 to form the necessary input action. Commands determine the type of signal (low frequency or high frequency), specific frequency, modulus, frequency, amplitude. From block 23, all input blocks are controlled — a controlled oscillator and a attenuator 2, a modulator 3 controlled. generator and attenuator 5 The input action to the input of the checked radio receiver 7 is fed through the switch 20, which through the register 18 controls the device 8, which through the register 19 controls and the switch 21, which in our example connects the output of the low frequency amplifier of the checked radio receiver 7 to the voltage comparator through a band-pass filter that contains block 11. If the output signal is more than the norm, this means that the maximum sensitivity is suitable. If below - not suitable. The measurement of the maximum sensitivity parameter from the control is characterized in that the output voltage of the tested radio receiver 7 is measured by a voltage meter, which contains unit 11 according to the measurement results of the device 8 corrects the input actions, i.e. the feedback is closed while the output of the test the radio receiver 7 by whits the required signal. To assess the quality of work of individual regulators, to collect data on certain types of defects, the system includes evaluation units of results. The parameter measurement cell from result 11 is fed to block 12, where it is equal to the upper and lower limits of the parameter, the result of the comparison affects the recording device 9 and the counter 15. The number of measured radio receivers is counted by counter 17, the adder 16 registers the measured radio receivers by individual signs or types of marriage. The final processing of the obtained results is performed by the divisor 18, which allows one to obtain the total reject rate for individual species. The measurement results are displayed on block 10 for the needs of the operator and printed on the registering device 9. The necessary switching and adjustment during measurements are performed by the device 8 through the manipulator 6. The generator 2 is intended for general synchronization of the entire system. The self-monitoring mode differs only in that the installed input effects from the switch 20 are fed through the switch 21 to the block 11. The presence of both switches makes the process of self-control short, which allows for self-control before each measurement, which increases the reliability of the results obtained. The introduction of new benefits to the system is different from the known one, since there is a significant expansion of functionality, i.e. - it becomes possible to control a number of new parameters, preprocess the obtained results with the aim of using them in quality management systems. In addition, the introduced elements make it possible to easily realize the self-control of the entire system in automatic mode before measuring each radio receiver, which undoubtedly improves the quality of control of the set of parameters of the controlled product in mass production by measuring and analyzing the distribution of parameters in real time, which, in turn, reduces the likelihood of non-quality products to a minimum.

Claims (1)

Invention Formula A system for automatic ("entrol parameters of radio receivers containing a controlled low frequency generator (; t, the first output of which the first output of the product quantity counter, the output of the adder of product groups is connected to the first input of the divider, the first output of which is connected to the third input of the registering device, the second output of the divider is connected to the second input of the display unit, the second input of the divider is connected to the low frequency attenuator , the second output of the controlled low-frequency generator is connected to the first input of the modulator, the second input of which is connected to the first output of the controlled high-frequency generator, the first output of the modulator and is connected to the first input of a high-frequency attenuator, a manipulator. the output of which is connected to the first input of the checked receiver, and the input to the first output of the control device, the second output of which is connected to the first input of the registering device, the third output of the control device is connected to the first input of the display unit, the fourth output of the control device is connected to the first input of the unit meters, the first input of the control device is connected to the first output of the block of meters, which, in order to improve the quality of control of the set of parameters of the monitored product in mass production by measuring and analyzing the distribution of parameters in real time, a block of comparison circuits, a block of registers of upper limits of parameters, a block of registers of lower limits of parameters, a reject counter, adder of product groups, number of products, divider, two registers, are entered into it, a switch of input actions, a switch of output signals, a block of registers of values of input impacts and a clock generator, the second output of the block of meters connected to the first input of the block of comparison circuits, the second and the third inputs of which are connected to the outputs of blocks of registers of the upper and lower limits of parameters, the first output of the comparison circuit block is connected to the second input of the registering device, and the second output to the input of the reject counter, the first output of which is connected to the second input of the control device, the second output of the counter is connected to the first input of the adder of groups by a reused output of the counter of quantities, and the third entrance to the fifth output of the control device, the sixth output of which is connected to the input of the counter of the number of products, the seventh the output of the control device is connected via the first register to the first input of the input actions switch, the first output of which is connected to the second input of the checked radio receiver, and the second output of the input switches of the input influences is connected to the first input of the output switch, the second input of which is connected to the output of the checked receiver, the output of the output switch is connected to the second input of the meter unit; the third input of the output switch is connected via the second register to the eighth output of the device control, the ninth output of which is connected to the input of the block of registers of input effects, the first output of which is connected to the input of the controlled low-frequency generator, the second output of the block of registers of input values is connected to the second input of the low-frequency attenuator, the third OUTPUT of the register of input values effects is connected to the third modulator input, and the fourth output is connected to the input of the controlled high-frequency generator, and the fifth block of the register of values of input effects is connected to the second output of the attenuator in High frequencies, from the second to the sixth inputs of the input actions switch are connected respectively to the third output of the controlled low frequency generator, to the output of the low frequency attenuator, to the output of the high frequency attenuator, to the second output of the modulator, to the second output of the controlled high frequency generator, output the sync pulse generator is connected to the third input of the control unit. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 663118, cl. N O B 17/00, G 01 R 31/28, 1977. 2, Baumgart V. F. AvtszhatiegGtsi monitoring of radio receivers, M, Link,. 1970 (prototype).