SU766031A2 - Adaptive device for transmitting telemetry data - Google Patents

Description

one

The invention relates to information transmission systems and can be used in adaptive telemetry systems, as well as in automated production control systems.

It is known a device for transmitting tele data of autonomous data. St. 653762, containing input channels, a dispatch unit, matching key elements, a time and address synchronization block, a frame synchronization register, and status registers.

However, the accuracy of transmission in such a device is low.

The purpose of the invention is to improve the accuracy of data transmission.

This is achieved by the fact that in an adaptive device for transmitting telemetry data, which contains input information channels, a dispatch unit, matching key elements, a unit. time and address synchronization,

frame synchronization register, status registers, a normalized message generator, a request signal generator and a frame pulse generator are entered, and a memory block is inserted into each processing channel, the input of the time and address synchronization block is connected to the first inputs of the memory blocks, the second inputs which are connected to the outputs of the activity analyzers and the inputs of the request signal generator, the output of which is connected to the first additional input of the time and address synchronization block, the second additional input the stroke of which is connected to the output of the personnel impulse generator, the inputs of which are connected to the outputs of the resolution block, and the output of the time and address synchronization block is connected to the third inputs of the memory blocks whose outputs are connected to the inputs of the normalizer of the messages, the memory block 1 consists of keys and registers , the read inputs of which are connected to the outputs of the corresponding keys, the first inputs of which are combined, and the information inputs and outputs of the registers are also combined.

The drawing shows the structural electrical circuit of the proposed adaptive device for transmitting telemetry data.

The adaptive telemetry data transmission device contains input data channels 1, activity analyzers 2, read resolution blocks 3, matching key elements 4, status registers 5, memory blocks 6, frame synchronization register 7, dispatch block 8, request signal generator 9, shaper 10 framing pulse, shaper 11 normalized messages, block 12 time and address synchronization, the block 6 pbshti ty registers 13 and keys 14.

The adaptive telemetry data transmission device operates as follows.

Let the signal parameter connected to the input of channel 1 of the HU input information change its state. Its altered state is fed to the input of the analyzer 2 m activity and to the corresponding input of the 5 M state register, where it is stored in the corresponding bit, the analyzer 2 m records the state change and generates a signal from its output through the second input of block 6 P ti to the key input 14 tons. At the same time, the input valves of the register 13 1P are opened, as well as the valve for passing the interrogation signal to the reading input of this register.

The output signal from the output of the analyzer 2 fTJ, the state, is also fed to the input of the request generator 9, during which the time increment request signal is generated. This signal is fed to the first auxiliary input of time and address synchronization unit 12, from which output a time increment is applied. This increment is fed to the inputs of all registers of 13 blocks of 6 memory, but only B is memorized in register 13 of the GP block and 6 of the memory, since the other p & ampers are closed. Thereafter, the input valves of the register 13 Hi are closed.

In addition, the signal from the analyzer output 2 tons of state is fed to the input of readout resolution block 3 J1, the output of which forms readout resolutions, which is fed to the input of the personnel impulse generator 10, and the output of the frame is generated at the output of the second the input of the block 12 time and address synchronization, the output of which in this case is given the start time of the frame.

The difference between the start time of a frame, which is measured, for example, with an accuracy of millisecond units, and the increment of time, which is measured, for example, with an accuracy of units of a microsecond, is shown.

The output signal of the read resolution block 3 0 also goes to the control input of the matching key element 4 P and opens it to the corresponding input of the frame synchronization register 7, where it is stored in the corresponding bit.

In addition, the signal from the output of the read resolution block 3 P enters the input of the dispatching block 8, at the output of which, after a predetermined delay time, a request signal is generated for transmitting the information frame of a given frame in which the measuring circuits for the G) processing channels are combined.

During the delay time, other signal parameters change their state and signals from the outputs of the corresponding activity analyzers 2 ensure that time increments are recorded in the corresponding registers 13 of the memory blocks 6 as described above. However, at the same time, the signals at the outputs of the staffing unit 10 of the frame, pulse, blocks 8 and 3 P no longer form the end of the current frame.

After the delay time at the output of the dispatch unit 8 receives a signal on which the input signal of the device receives the interrogation signal of this frame.

Claims (2)

The interrogation signal arrives at the corresponding time block 12 of time and address synchronization, the output of which is the address of this frame; the control input of the frame synchronization register 7, the output of which is a service message identifying the essential messages in the frame, i.e., identifying the numbers of the status registers 5. The identification of time increments, i.e., measuring circuits corresponding to register 5, is carried out according to the state of its bits. The interrogation signal from the device input also goes to the inputs of matching key elements 4, but the key element 4 1 is closed; therefore, the message does not arrive at the state register output, the key element is open, therefore the interrogation signal passes to the control input of the 5 state register and its output is sent a message about the state of its discharge, which carries information about the state change of at least one of controlled signal parameters. In addition, the interrogation signal is fed to the inputs of the keys 14 of the block 6. At the same time, it passes through the public key 14 of the memory block to the read input of the 13 W register, to the output of which the time increment W W of the measuring circuit of the h-rb channel is processed relative to time the beginning of this frame. The time increments are received at the inputs of the generator 11 of normalized messages, which, taking into account the sequence of the determined numbering of blocks 6 1-6 P ENTIME, as well as the numbering of registers of these blocks, forms normalized messages and feeds them to the output of the formation 11. Under normalization of messages, we mean . Suppose that the specified message format contains 10 binary bits, and the time increment is transmitted by 5 binary bits. Then normalization is carried out by forming one time message of a given format from two time increments. The polling signal from the input of the device also enters the input of the control unit 8 and returns it to its initial state, to the second inputs of channels 1 of the input information, while ensuring the delay of information arriving at their first inputs for a time sufficient for the transients to end in registers 5.7 and in memory blocks. Claims of the Invention An adaptive device for transmitting telemetry data over. St. No. 653762, characterized in that, in order to improve the accuracy of the transmission, a shaper of normalized messages, a shaper of a request signal and a shaper of a personnel pulse are entered, and a memory block is connected to each processing channel, the input of the time and address synchronization block is connected to the first inputs memory blocks, the second inputs of which are connected to the outputs of analyzers of the actuation and the inputs of the request generator, the output of which is connected to the first auxiliary input of the block of time and address synchronization, the second The auxiliary input of which is connected to the output of the 11pulgs frame maker, the inputs of which are connected to the outputs of read resolution blocks, and the output of the block of real time and address synchronization is connected to the third inputs of the memory blocks whose outputs are connected to the inputs of the formaker of normalized messages. 2. The device according to claim 1, wherein the memory block consists of keys and resistors, the read inputs of which are connected to the outputs of the corresponding keys, the first inputs of which are combined, and the information inputs and register outputs are also merged.