RU2035770C1 - Magnetograph - Google Patents

Abstract

FIELD: instrumentation engineering. SUBSTANCE: magnetograph has data storage unit, processor unit, N data sensors, N multiplexors, magnetic head unit. EFFECT: improved design. 2 dwg

Description

 The invention relates to instrumentation, in particular to devices for accurate magnetic recording, designed for multi-channel recording of parameters of a random process, and more particularly to tape recorders for recording information when testing cars and tractors.

Known magnetograph containing a data storage unit, a block of magnetic heads and an electric motor of a tape drive mechanism [1]
This magnetograph has the disadvantage that when registering a random process, a fixed speed setting of the magnetic tape leads to an increase in its consumption.

The closest in technical essence is a device containing a data storage unit and a processor, to the inputs of which are connected information sensors, a block of magnetic heads and a tape drive motor controlled by a processor [2]
The device has the disadvantage that it is not possible to redistribute information between the tracks of the magnetic tape during the recording process in accordance with changes in the amount of information in the channels, so when multi-track recording of a random process, the longitudinal recording density on all tracks will be variable, since the speed of the magnetic tape will be determined by the most loaded (at the time of determining the specified speed) track. The consequence of this is the additional consumption of magnetic tape.

 The purpose of the invention is to reduce the consumption of magnetic tape by ensuring a constant recording density of information on all tracks.

 The goal is achieved by the fact that at least one multiplexer is introduced into the magnetograph containing at least one magnetic head, as well as a data storage unit and a processor, the inputs of which are connected to the outputs of the information sensors, the information inputs of which are connected to the outputs of the data storage unit, and the output to the input of the magnetic head, while the outputs of the information sensors are connected to the inputs of the data storage unit, one processor output is connected to one of the information inputs of the multiplexer, the address input of which is connected to other processor output.

 These features provide for multi-channel recording alignment of the longitudinal plane of the recording on all tracks.

 In FIG. 1 shows a block diagram of a magnetograph; in FIG. 2 processor operation algorithm.

 The magnetograph contains a data storage unit 1 and a processor 2, to the inputs of which information sensors 3 are connected, which are installed, for example, on various components, assemblies and systems of a vehicle during its testing.

 The outputs of block 1 are connected to the information inputs of multiplexers 4, the number of which is determined by the number of information tracks on the magnetic tape. The outputs of the multiplexers 4 are connected to the block of magnetic heads 5. The processor 2 is also connected to the address 6 and one information 7 inputs of the multiplexers 4.

Block 1 data storage can be implemented on shift registers [3] Processor 2 may be a chip KM 1816BE51 [4]
The magnetograph works as follows.

 Frequency-modulated signals from sensors 3 are fed to the inputs of block 1 and to the inputs of the first port of processor 2. Part of the RAM of processor 2 is used to organize two buffers. The sensor buffer is organized as a shift register, and the ring buffer is organized so that the information moves in a circle.

 The cycle of the processor 2 (see Fig. 2) consists of a survey of sensors 3, recording the results of a survey in a sensor buffer, analyzing a sensor buffer in order to determine the information flow from each sensor, changing the order of polling sensors in a ring buffer of the multiplexer addresses, and shifting the ring register of the buffer multiplexer addresses one step.

 Thus, the processor 2 determines the amount of information coming from each sensor. In accordance with the amount of information, the processor sets the polling order of each sensor (the most loaded sensors will be polled more often). The most informative channel can be recorded on several tracks at once.

 Block 1 works as a delay block in order to provide time to processor 2 for determining information flows from sensors 3 and issuing corresponding commands to multiplexers.

 The signals from block 1 are fed to the information inputs of multiplexers 4, while one of the information inputs 7 and address input 6 of each multiplexer 4 are connected to the corresponding lines of the output port of processor 2. From the line of the output port of processor 2 connected to the information inputs 7 of multiplexers 4, information on magnetic tape about the order and number of the survey.

Claims (1)

 A MAGNETOGRAPH containing at least one magnetic head, a data storage unit and a processor, the inputs of which are connected to the outputs of information sensors, characterized in that at least one multiplexer is inserted into it, the information inputs of which are connected to the outputs of the data storage unit, and the output to the input of the magnetic head, while the outputs of the information sensors are connected to the inputs of the data storage unit, one processor output is connected to one of the information inputs of the multiplexer, the address input of which is connected to another processor output.

Images