SU746671A1 - Telemetering system transmitting device - Google Patents

Description

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The device relates to telemetry and can be used in telemechanics, long-distance communications, automatic control systems, etc.

Transmitting devices of measuring systems with a reduction in the volume of information message are known, built on the principle of adaptive switching of channels and operating on a natural time scale. The most important node of such systems is an adaptive switch, which determines the order in which sensors are switched according to their activity, priority, etc.

The most widely used are adaptive switches, in which a readout and the address of the channel in which the approximation error is greatest is transmitted to the communication channel with a constant clock frequency.

A transmitting device operating in an adaptive switch mode is known. In this device, the input signals are analyzed by adaptive time samplers (AEDs), which generate pulses at times when the approximation error exceeds the specified one. These mo2

The items are remembered by the memory of the moment of occurrence of requests for polling channels. The outputs of the memory circuit are fed to the inputs of the maximum signal detector, whose number of inputs and outputs is equal to the number k. of the system, and where the signal appears at the output that corresponds to the largest input signal. If there are several maximum input signals, the channel selection logic in accordance with the priority system will select

10 is one of the channels. The address memory device translates the input position code into a binary code and writes this code to the memory register. The output of the memory register through the decryptor opens the key in the channel where the AED has worked before all. The sensor output of the selected channel is encoded by an analog-to-digital converter (ADC), the code of which, together with the address code of the selected channel, is transmitted using the read block and the device output (1).

The disadvantage of this device is 20 with considerable complexity and, consequently, low reliability.

The closest to this is a device containing approximation error converters (PPA) whose outputs are connected to the inputs of the first switch, the first inputs and the first inputs of the keys of the second switch are connected to the inputs of the device, the first output of the first switch is connected to the first input of the amplitude discriminator, the output which is connected to the first, the counter input of the second switch, the outputs of the decoder of which are connected to the second inputs of the keys of the second switch and to the first inputs of the first And elements, the output of each first element AND is connected to the second input of the corresponding error-guiding converter of the approximation error, the outputs of the keys of the second switch are connected to the first input of the analog-digital converter, the second input of which, the first input of the pulse generator, the second inputs of the first elements. Both the amplitude discriminator is connected to the last bus of the first switch, the outputs of the analog-digital converter are connected to the first inputs of the reader, one output of which is connected to the output of the device, the other to the second input of the pulse generator, the output of which is connected to the second input of the counter of the second switch C; . The FPA is reset by And elements, one of the inputs of which are connected to the last bus of the first switch, the second inputs to the corresponding buses of the second switch. A disadvantage of all known adaptive CBMmutorybvs is the possibility of unacceptable approximation errors and even complete lack of information from individual system channels in the case of a relatively high load on the SfaTB ffHSkofb channel priority. The purpose of the invention is to improve the accuracy and informativity of the telemetering system. The goal is achieved by introducing a counter, a meter switching unit, a control element, a code matching block, a time block, a second and third AND elements, an OR element and a DPS key, the first input of which is connected to the riepiBofo switch output, you) W (Yervs1yushyu eleshita uprameni, the output of which is connected to the first input of the second element AND, the output of which and the output of the third element AND are connected through the element OR to the input of the counter, to the second input of the control element and Another element of And and block g (switchings of counters, which are connected to the inputs of the scrambler6pa vGGGB tshzhyu atbr and the core inputs of the readout unit, the outputs of the counter of the second switchboard are connected to the second inputs of the switching unit of the switchgear unit, to the third inputs of the unit, the numbers of the numbers, the numbers of the keys, one of the keys, one of the keys, one of the keys, one of the 8, one of the keys, one of the keys, one of the 8, one of the 8, one of the 8, one with 16, one of which one, one of the 8, one with one of 16 one, one of one of one of one of one of one of one of 16 one, one of one of one of one of one of one of 16 one, one of one of one of one of one of one of one of one of the keys and one one of one of one to one has one, one has one!

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Claims (2)

1. USSR author's certificate number 225036, cl. G 08 C 19/28, 1967. 2. Framke A.V. Telemeasurement -M. “Higher School, 1975, p. 232-234 (prototyl).