SU1688436A2 - Communication channel controller - Google Patents

Abstract

The invention relates to telecommunications. The purpose of the invention is to improve the control accuracy by identifying individual errors in real time. The device contains on transfer: sensor 1 test text, shaper 2 repeat numbers, cycle control unit 3, back reader 4, on cover, repeat number generator 5, comparison block 6, registration block 7, number comparison block 8, sensor 9 control text, pulse generator 10, analyzer 11, cycle control unit 12, reverse reading shaper 13, code converter 14, memory block 15, address shaper 16, converter 17, and timer 18 realtime type of individual events inserted and missed combination numbers accompanying the test and control combinations and their time of occurrence .1 yl. Pr1.em with C

Description

The invention relates to telecommunications and can be used to assess the quality of data channels with high reliability of information transmission with a wide range of lengths of information combinations and is an additional invention according to author St. No. 1592953.

The purpose of the invention is to increase the accuracy of control by detecting errors in real time,

The drawing shows a structural electrical diagram of a device for monitoring a communication channel.

The device includes: a test text sensor 1, a repeater 2 repeater, a loop control unit 3, a reverse read generator 4; at the reception: 5 repeatable number generator, 6 comparison unit, registration unit 7, number comparison unit 8, control text sensor 9, 10 pulse generator, analyzer 11, cycle control unit 12, reverse read generator 13, code converter 14, memory block 15 , the driver 16 addresses, the Converter 17 and the timer 18. The drawing also shows a monitored communication channel 19.

The device operates as follows.

The test text sensor generates a sequence of M-bit cyclic numbers 1,2,3 ..., 2 ^m - 1,2 in the binary number system, which, under the control of the cycle control unit 3, is written to the shaper 2 of repeated numbers and the shaper 4 of reverse reading, closed feedback loop, and issued to the input of a controlled communication channel.

At the reception, the control text sensor 9, the control text repeater 5, the reverse read driver 13 and the loop control unit 12 operate similarly to identical blocks in the transmission (blocks 1,2,3 and 4, respectively). In this case, as a control signal to the inputs of the analyzer 11 and the sensor 9 from the communication channel receives a signal Impulse of the presence of a combination (INC).

At block 6, simultaneously with the test combination from the analyzer 11, the control combination from the shaper 5 is received. The result of the incomparison is accumulated and, in addition, is supplied to the analyzer decryptor 11 in the form of the incomparison signal.

After counting 2 ^{m of} signal pulses from the beginning of receiving the test combination and generating and issuing the control combination in the analyzer 11 and in the number comparison unit 8, the first M bits (direct reading number) are recorded in the analyzer buffer 11 and in the buffer of the number comparison unit 8, respectively. From this moment, from the outputs of the indicated analyzer buffers 11 and number comparison unit 8, M-bit signals are constantly issued, respectively, the Number of the test combination (NEC) and Number of the control combination (NCC), which are received at the corresponding inputs of block 15. Overwrite the new (subsequent) numbers test and control combinations are produced in a new cycle after receiving 2 bits of the next test combination.

From the moment the power is turned on, from the output of the pulse generator 10 to the input of the code converter 14 and the converter 17, continuous pulse sequences are received in the form of a signal. The clock frequency (PM) that supports the distributor of the code converter 14 and the counters of the converter 17 in the initial position when there are no signals at their outputs .

If an inserted or missed combination is detected at the reception, the signal is issued normally on the number of inserted or missed combinations by the number comparison unit 8 to the registration unit 7 to obtain average channel quality indicators.

In addition to the usual detection and registration of signals about inserted and missed combinations from the output of the adder of unit 8 for comparing the numbers, the SM-1 code contains a bit signal in the reverse code SM-1, the bit difference signal (RNC), and from the Mth discharge of the adder of the indicated block combined inputs of the code converter 14 and block 15 signal of the sign of the difference of numbers Sign of the difference of numbers (ZRN). After the establishment of the signals RNS and SRN from the output of block 8 comparing the numbers to the input of the code converter 14, a signal is issued indicating the presence of inserted or missed combinations. Pulse of the inserted combination or pulse of the missed combination (IVK7IPK).

If the number difference is positive, then a positive potential is established in the ZRN signal circuit, which ensures the formation of M-1 bit binary unit code (the true number of inserted blocks) at the output of the code converter 14 (SRN signal) regardless of the state of the SRN signal at the input of the specified converter. Then the CPI signal V

IPK is delayed by the beeps of the HF signal in the distributor of the code converter 14 and output (after the second stage of the delay) to the input of the Shaper 16 of the address “Signal Lead Number Record (ZpCh).

On the signal ZpCh address counter for the records of the shaper 16 addresses set M-bit address in the form of a slap Address (Hell).

In addition, the signal ZPC in the shaper 16 addresses generate signals of the Sampling mode (BP) and understate RAM (RAM), which together. Signal Hell is issued to the inputs of block 15.

According to the control signals VR and Zp RAM, the information contained in the signals NIK, NCC and ZRN, mepisyug in the TS cells of RAM block 15, the address of which is contained in the signal Hell.

If the number difference is negative, then the negative signal is set in the ZRN signal circuit, which is melted from block 8 of the number comparison. ' tny potential which is removed when forcing binary code unit output code converter 14 (CFH signal) M-1 - C-bit signal PH, which issue from the blog 8 Reference numbers in reverse code inversion is converted into _{direct-zobrezorg,;} barely 14 codes in the direct code and according to the list of the NEP IW KV and G J K are written to the counterscript counter. ·,.! b; code. Moreover, if there is no signal '' Correction permissions (R _w Kp) at the input of the code converter 14, which is in ”. From the unit 8 for comparing numbers, then the number of the difference in numbers recorded in the converter is only 14 of the code is true. If a transfer signal is generated at the output of the adder of block 8, then the number recorded in the counter of the code converter 14 is false. To convert it to a true number, a resolving si is issued from the block 8 for comparing numbers from the code converter 8; cash Rsh Kr, according to which the CPM '/ IPC signal, delayed after the first stage of the delay by the distributor, converts the false number to the true one by subtracting one. Then, from the output of the code converter 14 to the input of block 15, a CPN signal is issued containing information about the true number of missed combinations. The operating mode of the address shaper 16 and block 15 for recording information about missed combinations in RAM does not differ from the operating mode of these blocks for recording information about inserted combinations in RAM.

After turning on the power and serviceability of the block 7 registration s. its output to the input read-address counter 16 addresses Formirovats A continuously received signal pulses with a! itovnosti registration unit 7 as a signal Ready (T _m). If at the same time the input of the address counter does not receive an RPC signal, then the contents of both counters coincide and the input of the counter of read addresses is blocked. Therefore, the pulses of the signal f t as in the counters of the read addresses, and the output of the shaper 16 addresses do not arrive.

When pulses of the RFA signal arrive at the input of the write address counter, its content changes and becomes different from the contents of the read counter, and this leads to the unlocking of the read address counter input, while the signal pulse G comes from the output of the address generator 16 to the input of block 15 in the form of a signal BP and. in addition, in the form of a signal Read from RAM (Thu RAM) from the output of the shaper 16 addresses goes to the input of the Converter VI. and also enters the input • '. • of the chetnik, the reading inhibitor, changing its content iia unit, which leads to the equality of addresses of both counters. At the same time, in the code of the Hell signal, the address of reading exactly or the information that was written to it by the previous pulse of the ULF signal is set.

According to the coal-fraying signal Thu RAM and z trobi ;: y,.? C · · μ, the pulses of the PM inferman signal '; p', 'u are read from block 15 in the form of signals of an M-bit NIK, Mrazryadny NKK and M- 1 bit NRC. arrives through the converter 17 to the inputs (epoc. 7 registration in the form of the corresponding ”pulse signal. Pulse of the num of the test combination (INIK). Pulse of the number of the control combination · (INC; I and Pulse of the difference of numbers' (IRN). In addition of this, a Sign signal is issued to the input of the registration block 7 from block 15, the positive potential of which indicates that the information contained in the IRN signal represents the number of inserted combinations, and the negative potential indicates that the information contained in the IRN signal The number of missed combinations is registered.All of the listed signals are recorded by the registration unit 7 together with time stamps coming from the timer 18, which operates on a continuous clock signal from the pulse generator 10.

Thus, the inserted and missed combinations that separately occur in the controlled communication channel 19, the numbers of the test and control combinations accompanying them, are registered in

Ί real time separately and independently from other events.

Claims (1)

Claim Device for monitoring a communication channel by ed. St. No. 1592953, characterized in that, in order to improve the accuracy of control by detecting errors in real time, a timer is introduced at the reception. the input of which is connected to the third output of the pulse generator, and the output of time stamps is connected to the fifth input of the registration unit and series-connected code converter, address former, memory unit and converter, the outputs of which are connected to the corresponding sixth inputs of the registration unit, the output of which is connected to the input of the signal end registration of the address former, the second output of which is connected to the second input of the converter, the input of the clock frequency of which is connected to the fourth output of the pulse generator c, the fifth output of which is connected to the first input of the code converter, the second input, input 5 of the missed combination, the correction enable input and the input of the difference signal are connected respectively to the fifth, sixth, seventh and eighth outputs of the number comparison unit, the ninth output of which is connected to the input the numbers of the control combination of the power supply, the second, third inputs and the input of the number of the test combination of which are connected respectively to the second output of the code converter 15, with the fifth output of the number comparison unit and from the fourth m is the analyzer output, and the output is connected to the seventh input of the registration unit, the fifth inputs of the analyzer and the control text sensor 20 are combined and are the input of the reception combination.